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PL A N F OR COM BAT I NG
A N T I BIO T IC-R E SI S TA N T
BAC T ER I A
M A RCH 2 015
Table of Contents
Executive Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Goals
1.
Slow the Emergence of Resistant Bacteria and Prevent the Spread of Resistant
Infections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.
Strengthen National One-Health Surveillance Efforts to Combat Resistance . . . . . 24
3.
Advance Development and Use of Rapid and Innovative Diagnostic Tests for
Identification and Characterization of Resistant Bacteria . . . . . . . . . . . . . 36
4.
Accelerate Basic and Applied Research and Development for New Antibiotics,
Other Therapeutics, and Vaccines . . . . . . . . . . . . . . . . . . . . . . 40
5.
Improve International Collaboration and Capacities for Antibiotic-resistance
Prevention, Surveillance, Control, and Antibiotic Research and Development . . . .
49
Tables
1.
National Targets for Combating Antibiotic-Resistant Bacteria . . . . . . . . . . . 6
2.
Goals and Objectives . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3.
Antibiotic-Resistant Threats in the United States . . . . . . . . . . . . . . . . 60
Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
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Executive Summary
Antibiotics have been a critical public health tool since the discovery of penicillin in 1928, saving the lives
of millions of people around the world. Today, however, the emergence of drug resistance in bacteria
is reversing the miracles of the past eighty years, with drug choices for the treatment of many bacterial
infections becoming increasingly limited, expensive, and, in some cases, nonexistent. The Centers for
Disease Control and Prevention (CDC) estimates that drug-resistant bacteria cause two million illnesses
and approximately 23,000 deaths each year in the United States alone.
The National Action Plan for Combating Antibiotic-resistant Bacteria provides a roadmap to guide
the Nation in rising to this challenge. Developed in response to Executive Order 13676: Combating
Antibiotic-Resistant Bacteria—issued by President Barack Obama on September 18, 2014—the National
Action Plan outlines steps for implementing the National Strategy for Combating Antibiotic-Resistant
Bacteria and addressing the policy recommendations of the President’s Council of Advisors on Science
and Technology (PCAST). Although its primary purpose is to guide activities by the U.S. Government,
the National Action Plan is also designed to guide action by public health, healthcare, and veterinary
partners in a common effort to address urgent and serious drug-resistant threats that affect people in the
U.S. and around the world. Implementation of the National Action Plan will also support World Health
Assembly resolution 67.25 (Antimicrobial Resistance), which urges countries to take urgent action at
the national, regional, and local levels to combat resistance.
The goals of the National Action Plan include:
1. Slow the Emergence of Resistant Bacteria and Prevent the Spread of Resistant Infections.
2. Strengthen National One-Health Surveillance Efforts to Combat Resistance.
3. Advance Development and Use of Rapid and Innovative Diagnostic Tests for Identification and
Characterization of Resistant Bacteria.
4. Accelerate Basic and Applied Research and Development for New Antibiotics, Other
Therapeutics, and Vaccines.
5. Improve International Collaboration and Capacities for Antibiotic-resistance Prevention,
Surveillance, Control, and Antibiotic Research and Development.
By 2020, implementation of the National Action Plan will lead to major reductions in the incidence
of urgent and serious threats, including carbapenem-resistant Enterobacteriaceae (CRE), methicillinresistant Staphylococcus aureus (MRSA), and Clostridium difficile (see Table 1). The National Action Plan
will also result in improved antibiotic stewardship in healthcare settings, prevention of the spread of
drug-resistant threats, elimination of the use of medically-important antibiotics for growth promotion
in food animals, and expanded surveillance for drug-resistant bacteria in humans and animals. Other
significant outcomes include creation of a regional public health laboratory network, establishment of a
specimen repository and sequence database that can be accessed by industrial and academic researchers, development of new diagnostic tests through a national challenge, and development of two or more
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antibiotic drug candidates or non-traditional therapeutics for treatment of human disease. In addition,
the effort to combat resistant bacteria will become an international priority for global health security.
Progress towards achieving these outcomes will be monitored by the U.S. Government Task Force that
developed the National Action Plan. The Task Force, which is co-chaired by the Secretaries of Defense,
Agriculture, and Health and Human Services, includes representatives from the Departments of State,
Justice, Veterans Affairs, and Homeland Security, as well as the Environmental Protection Agency, the
United States Agency for International Development, the Office of Management and Budget, the
Domestic Policy Council, the National Security Council, the Office of Science and Technology Policy,
and the National Science Foundation. Additionally, the Presidential Advisory Council on Combating
Antibiotic-Resistant Bacteria, created by Executive Order 13676, will provide advice, information, and
recommendations to the Secretary of Health and Human Services regarding the National Action Plan’s
programs and policies and their impact on the threat.
Implementation of the objectives and activities in the National Action Plan requires sustained, coordinated, and complementary efforts of individuals and groups around the world, including healthcare
providers, healthcare leaders, veterinarians, agriculture industry leaders, manufacturers, policymakers,
and patients. All of us who depend on antibiotics must join in a common effort to detect, stop, and
prevent the emergence and spread of resistant bacteria.
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Introduction
Vision: The United States will work domestically and internationally to prevent, detect, and
control illness and death related to infections caused by antibiotic-resistant bacteria by
implementing measures to mitigate the emergence and spread of antibiotic-resistance and
ensuring the continued availability of therapeutics for the treatment of bacterial infections.
Antibiotics have been a critical public health tool since the discovery of penicillin in 1928, saving the lives
of millions of people around the world. Today, however, the emergence of drug resistance in bacteria
is reversing the gains of the past eighty years, with many important drug choices for the treatment of
bacterial infections becoming increasingly limited, expensive, and, in some cases, nonexistent. The
Centers for Disease Control and Prevention (CDC) estimates that each year at least two million illnesses
and 23,000 deaths are caused by drug-resistant bacteria in the United States alone.
The loss of antibiotics that kill or inhibit the growth of bacteria means that we can no longer take for
granted quick and reliable treatment of rare or common bacterial infections, including bacterial pneumonias, foodborne illnesses, and healthcare-associated infections. As more strains of bacteria become
resistant to an ever larger number of antibiotics, we will also lose the benefits of a range of modern medical procedures—from hip replacements to organ transplants—whose safety depends on our ability to
treat bacterial infections that may arise as post-surgical complications. Moreover, antibiotic-resistance
also threatens animal health, agriculture, and the economy.
The National Action Plan for Combating Antibiotic-resistant Bacteria provides a roadmap to guide the
Nation in rising to this challenge. The National Action Plan outlines steps for implementing the National
Strategy for Combating Antibiotic-Resistant Bacteria and addressing the policy recommendations of the
President’s Council of Advisors on Science and Technology. Although its primary purpose is to guide
activities by the U.S. Government, the National Action Plan is also designed to guide action by public
health, healthcare, and veterinary partners in a common effort to address urgent and serious drugresistant threats (Table 3) that affect people in the U.S. and around the world.
Scope of the National Action Plan: “Antibiotic resistance” results from mutations or acquisition of new
genes in bacteria that reduce or eliminate the effectiveness of antibiotics. “Antimicrobial resistance” is a
broader term that encompasses resistance to drugs to treat infections caused by many different types
of pathogens, including bacteria, viruses (e.g., influenza and the human immunodeficiency virus (HIV)),
parasites (e.g., the parasitic protozoan that causes malaria), and fungi (e.g., Candida spp.). While all of these
pathogens are dangerous to human health, the National Action Plan focuses on resistance in bacteria that
present an urgent or serious threat to public health.
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Goals of the National Action Plan
The National Action Plan—informed by the guiding principles in Table 2—is organized around five goals
for collaborative action by the U.S. Government, in partnership with foreign governments, individuals,
and organizations aiming to strengthen healthcare, public health, veterinary medicine, agriculture,
food safety, and research and manufacturing. Aggressive action will move the nation towards major
reductions in the incidence of urgent and serious drug-resistant threats (Table 3), including carbapenemresistant Enterobacteriaceae (CRE), methicillin-resistant Staphylococcus aureus (MRSA), and Clostridium
difficile.
•• Misuse and over-use of antibiotics in healthcare and food production continue to hasten the
development of bacterial drug resistance, leading to loss of efficacy of existing antibiotics.
•• Detecting and controlling antibiotic-resistance requires the adoption of a “One-Health” approach
to disease surveillance that recognizes that resistance can arise in humans, animals, and the
environment.
•• Implementation of evidence-based infection control practices can prevent the spread of resistant
pathogens.
•• Interventions are necessary to accelerate private sector investment in the development of
therapeutics to treat bacterial infections because current private sector interest in antibiotic
development is limited.
•• Researchers can use innovations and new technologies—including whole genome sequencing,
metagenomics, and bioinformatic approaches—to develop next-generation tools to strengthen
human and animal health, including:
−− Point-of-need diagnostic tests to distinguish rapidly between bacterial and viral infections
as well as identify bacterial drug susceptibilities;
−− New antibiotics and other therapies that provide much needed treatment options for those
infected with resistant bacterial strains; and
−− Antibiotic resistance is a global health problem that requires international attention and
collaboration, because bacteria do not recognize borders.
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TABLE 1: National Targets to Combat Antibiotic-Resistant Bacteria
By 2020, the United States will:
For CDC Recognized Urgent Threats:
Reduce by 50% the incidence of overall Clostridium difficile infection compared to estimates from 2011.
Reduce by 60% carbapenem-resistant Enterobacteriaceae infections acquired during hospitalization compared to estimates.
Maintain the prevalence of ceftriaxone-resistant Neisseria gonorrhoeae below 2% compared to estimates from 2013.
For CDC Recognized Serious Threats:
Reduce by 35% multidrug-resistant Pseudomonas spp. infections acquired during hospitalization compared to estimates
from 2011.
Reduce by at least 50% overall methicillin-resistant Staphylococcus aureus (MRSA) bloodstream infections by 2020 as
compared to 2011.*
Reduce by 25% multidrug-resistant non-typhoidal Salmonella infections compared to estimates from 2010-2012.
Reduce by 15% the number of multidrug-resistant TB infections.1
Reduce by at least 25% the rate of antibiotic-resistant invasive pneumococcal disease among <5 year-olds compared to
estimates from 2008.
Reduce by at least 25%the rate of antibiotic-resistant invasive pneumococcal disease among >65 year-olds compared to
estimates from 2008.
* This target is consistent with the reduction goal for MRSA bloodstream infections (BSI) in the National Action Plan to
Prevent Healthcare-Associated Infections (HAI): Road Map to Elimination, which calls for a 75% decline in MRSA BSI from the
2007-2008 baseline by 2020. Additional information is available at http://www.health.gov/hai/prevent_hai.asp#hai_plan.
1. The TB activities identified in the NAP are included as they represent critical near-term public health activities that
will support progress to reduce the burden of drug-resistant TB in the U.S. Additional domestic and global activities
to address drug-resistant TB will be provided in a companion action plan specific to TB and will be submitted to the
President no later than September, 2015. The companion action plan will build on recommendations of the Federal TB
Task Force (http://www.cdc.gov/mmwr/pdf/rr/rr5803.pdf ) as well the work of the interagency USG TB working group.
Those goals include:
GOAL 1: Slow the Emergence of Resistant Bacteria and Prevent the Spread of Resistant
Infections. Judicious use of antibiotics in healthcare and agricultural settings is essential
to slow the emergence of resistance and extend the useful lifetime of effective antibiotics.
Antibiotics are a precious resource, and preserving their usefulness will require cooperation
and engagement by healthcare providers, healthcare leaders, pharmaceutical companies,
veterinarians, the agricultural industry, and patients. Goal 1 activities include the optimal
use of vaccines to prevent infections, implementation of healthcare policies and antibiotic
stewardship programs that improve patient outcomes, and efforts to minimize the development of resistance by ensuring that each patient receives the right antibiotic at the right time
at the right dose for the right duration. Prevention of resistance also requires rapid detection
and control of outbreaks and regional efforts to control transmission across community and
healthcare settings.
GOAL 2: Strengthen National One-Health Surveillance Efforts to Combat Resistance. Improved
detection and control of drug-resistant organisms will be achieved through an integrated,
“One-Health” approach that includes the enhancement and integration of data from surveil-
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lance systems that monitor human pathogens—including the National Healthcare Safety
Network (NHSN), the Emerging Infections Program (EIP), and the National Antimicrobial
Resistance Monitoring System (NARMS)—with data from surveillance systems that monitor
animal pathogens—including the National Animal Health Monitoring System (NAHMS),
the National Animal Health Laboratory Network (NAHLN), and the Veterinary Laboratory
Investigation and Response Network (Vet-LIRN). Goal 2 activities include creation of a
regional public health laboratory network that provides a standardized platform for resistance
testing and advanced capacity for genetic characterization of bacteria (e.g., through whole
genome sequencing). Goal 2 activities will also enhance monitoring of antibiotic sales, usage,
resistance, and management practices at multiple points along in the food-production chain,
from farms to processing plants to supermarkets.
GOAL 3: Advance Development and Use of Rapid and Innovative Diagnostic Tests for
Identification and Characterization of Resistant Bacteria. Improved diagnostics for
detection of resistant bacteria and characterization of resistance patterns will help healthcare
providers make optimal treatment decisions and assist public health officials in taking action
to prevent and control disease. Improved diagnostics will also help decrease unnecessary
or inappropriate use of antibiotics. Goal 3 activities will accelerate the development of new
diagnostics and expand their availability and use to improve treatment, enhance infection
control, and achieve faster response to infections and outbreaks caused by resistant bacteria
in hospitals and in the community.
GOAL 4: Accelerate Basic and Applied Research and Development for New Antibiotics, Other
Therapeutics, and Vaccines. Despite the urgent need for new antibiotics, the number of
products in the drug-development pipeline is small and commercial interest remains limited.
The advancement of drug development—as well as non-traditional therapeutics and vaccines—will require intensified efforts to boost scientific research, attract private investment,
and facilitate clinical trials of new drug candidates. Goal 4 activities will help accomplish these
objectives by supporting basic and applied research, providing researchers with scientific
services (e.g., specimens, sequence data, and regulatory guidance), and fostering publicprivate partnerships that strengthen the clinical trials infrastructure and reduce the risks,
uncertainty, and obstacles faced by companies who are developing new antibiotics and/or
other therapeutics and vaccines that can impact the use of antibiotics and the development
of resistance.
GOAL 5: Improve International Collaboration and Capacities for Antibiotic-resistance
Prevention, Surveillance, Control, and Antibiotic Research and Development. Antibiotic
resistance is a worldwide problem that cannot be addressed by one nation in isolation. Goal
5 activities include working with foreign ministries of health and agriculture, the World Health
Organization (WHO), the Food and Agriculture Organization (FAO), the World Organization
for Animal Health (OIE), and other multinational organizations to enhance global capacity to
detect, analyze, and report antibiotic use and resistance, create incentives for the development of therapeutics and diagnostics, and strengthen global efforts to prevent and control
the emergence and spread of antibiotic-resistance. To advance these objectives, U.S. agencies
will support development of a WHO Global Action Plan on Antimicrobial Resistance, enhance
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international collaborations including cooperation under the European Union-United States
Trans-Atlantic Task Force on Antimicrobial Resistance (TATFAR), and mobilize global health
resources through the Global Health Security Agenda.
Development of the National Action Plan
The National Action Plan was developed in response to Executive Order 13676: Combating AntibioticResistant Bacteria (Appendix 2), which was issued by President Barack Obama on September 18, 2014
in conjunction with the National Strategy for Combating Antibiotic-Resistant Bacteria.
The Executive Order calls for a U.S. Government Task Force to create a five-year action plan that lays out
steps and milestones for achieving the Strategy’s goals and objectives (Table 2) and addressing the PCAST
recommendations. The Task Force, which is co-chaired by the Secretaries of Defense, Agriculture, and
Health and Human Services, includes representatives from the Department of State, the Department of
Justice, the Department of Veterans Affairs, the Department of Homeland Security, the Environmental
Protection Agency, the United States Agency for International Development, the Office of Management
and Budget, the Domestic Policy Council, the National Security Council staff, the Office of Science and
Technology Policy, and the National Science Foundation.
Development of the National Action Plan also supports World Health Assembly (WHA) resolution 67.25
(Antimicrobial Resistance), which was endorsed in May 2014 and urges countries to develop and finance
national plans and strategies and take urgent action at the national, regional, and local levels to combat
resistance. The resolution urges WHA Member States to develop practical and feasible approaches to,
among other actions, extend the lifespan of drugs, strengthen pharmaceutical management systems
and laboratory infrastructure, develop effective surveillance systems, and encourage the development
of new diagnostics, drugs, and treatment options.
These recommendations are intended to inform the policy development process, and are not intended
as a budget document. The commitment of resources to support these activities will be determined
through the usual Executive Branch budget processes. Implementation of some of the actions in this
report will require additional resources and these resources could be new or redirected from lowerpriority Agency activities.
Monitoring and Evaluation
The Task Force created under Executive Order 13676 is charged with providing the President with annual
updates on Federal Government actions to combat antibiotic resistance, including progress made in
implementing the National Action Plan, plans for addressing obstacles and challenges, and recommendations for new or modified actions. The Presidential Advisory Council on Combating Antibiotic-Resistant
Bacteria will provide advice, information, and recommendations to the Secretary of Health and Human
Services regarding the programs and policies developed in the National Action Plan.
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Partnerships and Implementation
Implementation of the National Action Plan will require the sustained, coordinated, and complementary efforts of individuals and groups around the world, including public and private sector partners,
healthcare providers, healthcare leaders, veterinarians, agriculture industry leaders, manufacturers,
policymakers, and patients. All of us who depend on antibiotics must join in a common effort to detect,
stop, and prevent the emergence and spread of resistant bacteria.
TABLE 2: GOALS AND OBJECTIVES: Combating Antibiotic-Resistant Bacteria
GOAL 1: Slow the Emergence of Resistant Bacteria and Prevent the Spread of Resistant Infections
Objectives
1.1 Implement public health programs and reporting policies that advance antibiotic-resistance prevention and foster
antibiotic stewardship in healthcare settings and the community.
1.2 Eliminate the use of medically-important antibiotics for growth promotion in food- producing animals and bring
other agricultural uses of antibiotics, for treatment, control, and prevention of disease, under veterinary oversight.
1.3 Identify and implement measures to foster stewardship of antibiotics in animals.
GOAL 2 : Strengthen National One-Health Surveillance Efforts to Combat Resistance Objectives
2.1 Create a regional public health laboratory network to strengthen national capacity to detect resistant bacterial strains
and a specimen repository to facilitate development and evaluation of diagnostic tests and treatments.
2.2 Expand and strengthen the national infrastructure for public health surveillance and data reporting, and wprovide
incentives for timely reporting of antibiotic-resistance and antibiotic use in all healthcare settings.
2.3 Develop, expand, and maintain capacity in State and Federal veterinary and food safety laboratories to conduct
antibiotic susceptibility testing and characterize select zoonotic and animal pathogens.
2.4 Enhance monitoring of antibiotic-resistance patterns, as well as antibiotic sales, usage, and management practices, at
multiple points in the production chain for food animals and retail meat.
GOAL 3: Advance Development and Use of Rapid and Innovative Diagnostic Tests for Identification and
Characterization of Resistant Bacteria
Objectives
3.1 Develop and validate new diagnostics—including tests that rapidly distinguish between viral and bacterial pathogens
and tests that detect antibiotic-resistance—that can be implemented easily in a wide range of settings.
3.2 Expand availability and use of diagnostics to improve treatment of antibiotic-resistant infections, enhance infection
control, and facilitate outbreak detection and response in healthcare and community settings.
GOAL 4: Accelerate Research to Develop New Antibiotics, Other Therapeutics, Vaccines, and Diagnostics
Objectives
4.1 Conduct research to enhance understanding of environmental factors that facilitate the development of antibioticresistance and the spread of resistance genes that are common to animals and humans.
4.2 Increase research focused on understanding the nature of microbial communities, how antibiotics affect them, and
how they can be harnessed to prevent disease.
4.3 Intensify research and development of new therapeutics and vaccines, first-in-class drugs, and new combination
therapies for treatment of bacterial infections.
4.4 Develop non-traditional therapeutics and innovative strategies to minimize outbreaks caused by resistant bacteria in
human and animal populations.
4.5 Expand ongoing efforts to provide key data and materials to support the development of promising antibacterial
drug candidates.
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TABLE 2: GOALS AND OBJECTIVES: Combating Antibiotic-Resistant Bacteria
GOAL 5: Improve international collaboration and capacities for prevention, surveillance and antibiotic
research and development
Objectives
Surveillance
5.1 Promote laboratory capability to identify at least 3 of the 7 WHO priority antimicrobial resistant (AMR) pathogens2
using standardized, reliable detection assays.
5.2 Collaborate with WHO, OIE, and other international efforts focused on the development of integrated, laboratorybased surveillance to detect and monitor antibiotic-resistance in relevant animal and human foodborne pathogens.
5.3 Develop a mechanism for international communication of critical events that may signify new resistance trends with
global public and animal health implications.
5.4 Promote the generation and dissemination of information needed to effectively address antibiotic-resistance.
Research and Development
5.5 Establish and promote international collaboration and public-private partnerships to incentivize development of new
therapeutics to counter antibiotic-resistance including new, next- generation, and other alternatives to antibiotics,
vaccines, and affordable, rapidly deployable, point-of-need diagnostics.
Prevention and Control
5.6 Support countries to develop and implement national plans to combat antibiotic-resistance and strategies to enhance
antimicrobial stewardship.
5.7 Partner with other nations to promote quality, safety, and efficacy of antibiotics and strengthen their pharmaceutical
supply chains.
5.8 Coordinate regulatory approaches by collaborating with international organizations such as FAO and OIE to
harmonize international data submission requirements and risk assessment.
2. The WHO priority AMR pathogens are a subset of the pathogens identified as urgent and serious threats in Table 3.
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GOAL 1. Slow the Emergence of
Resistant Bacteria and Prevent the
Spread of Resistant Infections
Actions taken to achieve Goal 1 will fulfill:
• Executive Order 13676, Sections 5 and 7:
−− Improved Antibiotic Stewardship
−− Preventing and Responding to Infections and Outbreaks with Antibiotic-Resistant
Organisms
• Provisions in PCAST Recommendations #2, #6, and #7:
−− Effective Surveillance & Response for Antibiotic-resistance
−− Improving Stewardship of Existing Antibiotics in Health Care
−− Limit the Use of Antibiotics in Animal Agriculture
Judicious use of antibiotics in healthcare and agricultural settings is essential to slow the emergence
of resistance and extend the useful lifetime of effective antibiotics. Antibiotics are a precious resource,
and preserving their usefulness will require cooperation and engagement by healthcare providers,
healthcare leaders, pharmaceutical companies, veterinarians, the agricultural industry, and patients.
Effective dissemination of information to the public is critical. Prevention of resistance also requires
rapid detection and control of infections and outbreaks (see also Goal 2) and regional efforts to control
transmission across community and healthcare settings.
Goal 1 includes activities to foster antibiotic stewardship by improving prescribing practices across all
healthcare settings, prevent the spread of drug-resistant threats in healthcare facilities and communities,
and reduce and eventually eliminate the use of medically-important antibiotics for growth promotion
in animals.
By 2020, significant outcomes of Goal 1 will include:
•• Establishment of antibiotic stewardship programs in all acute care hospitals and improved
antibiotic stewardship across all healthcare settings.
•• Reduction of inappropriate antibiotic use by 50% in outpatient settings and by 20% in inpatient
settings.
•• Establishment of State Antibiotic Resistance (AR) Prevention (Protect) Programs in all 50 states
to monitor regionally important multidrug resistant organisms and provide feedback and
technical assistance to healthcare facilities.
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•• Elimination of the use of medically-important antibiotics for growth promotion in food-producing animals.
•• Requirement of veterinary oversight for use of medically-important antibiotics in the feed or
water of food-producing animals.
1.1
Implement public health programs and reporting policies that advance
antibiotic resistance prevention and foster antibiotic stewardship in
healthcare settings and the community.
Perhaps the single most important action to slow the development and spread of antibiotic-resistant
infections is to change the way antibiotics are used. Antibiotics are overprescribed in both human and
animal settings, which makes everyone less safe. Investments in this area will be used to develop education
and outreach programs to clarify and strengthen responsible, appropriate use of antibiotics in humans
and animals. Efforts in this area will help greatly in slowing down the spread of resistant bacteria. This
commitment to always use antibiotics appropriately and safely—to use the right antibiotic at the right time
at the right dose for the right duration—is known as antibiotic stewardship.
Sub-Objective 1.1.1A: Strengthen antibiotic stewardship in inpatient, outpatient, and longterm care settings by expanding existing programs, developing new ones, and monitoring
progress and efficacy.
The establishment and expansion of antibiotic stewardship programs will improve patient outcomes and
minimize the development of resistance by ensuring judicious use of antibiotics.
Milestones for provision of educational materials to enhance antibiotic stewardship in outpatient settings
are provided under Sub-Objective 1.1.1B.
Milestones
Within one year:
•• The Departments of Health and Human Services (HHS), Defense (DOD), and Veterans Affairs
(VA) will review existing regulations and propose new ones, as needed, requiring hospitals,
ambulatory surgery centers, dialysis facilities, and other inpatient facilities to implement robust
antibiotic stewardship programs that align with the CDC Core Elements. HHS, DOD, and VA will
also work together to optimize standardization of stewardship programs and activities, including
monitoring activities and reporting criteria.
•• The National Healthcare Safety Network (NHSN) will begin tracking the number of healthcare
facilities with stewardship policies and programs in place.
•• DOD will establish a multidisciplinary group, under the purview of the Assistant Secretary of
Defense for Health Affairs, to support and coordinate stewardship activities across DOD.
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Within three years:
•• All hospitals that participate in Medicare and Medicaid programs must comply with Conditions
of Participation (COP). The Centers for Medicare & Medicaid Services (CMS) will issue new COPs
or revise current COP Interpretive Guidelines to advance compliance with recommendations in
CDC’s Core Elements of Hospital Antibiotic Stewardship Programs. HHS, DOD, and VA will also
implement policies that:
−− Encourage implementation of antibiotic stewardship programs as a condition for receiving
Federal grants for health care delivery (e.g., in community healthcare centers).
−− Require health facilities operated by the U.S. Government to develop and implement
antibiotic stewardship programs and participate in NHSN reporting (see Objective 2.2).
•• All acute care hospitals governed by the CMS COP will implement antibiotic stewardship programs. CMS will expand COP requirements to apply to long-term acute care hospitals, other
post-acute facilities, ambulatory surgery centers, and dialysis centers.
•• CMS will revise existing Interpretive Guidelines (IGs), as needed, to include antimicrobial stewardship improvements. For example, IGs on Quality Assurance and Performance Improvement for
hospitals may incorporate antibiotic-stewardship performance measures developed by the CDC,
the Agency for Healthcare Research and Quality (AHRQ), or other professional organizations.
•• Training webinars for CMS surveyors will be updated to include information on antibiotic
utilization in nursing homes, in accordance with existing IGs in the Infection Control Nursing
Home regulations.
•• CDC, CMS, AHRQ, and other partners will issue guidance on antibiotic stewardship and best
practices for ambulatory surgery centers, dialysis centers, nursing homes and other long-term
care facilities, doctors’ offices and other outpatient settings, pharmacies, emergency departments, and medical departments at correctional facilities.
•• At least 25 States, the District of Columbia, and Puerto Rico will establish or enhance antibiotic
stewardship activities in inpatient healthcare delivery settings, in accordance with the CDC
Core Elements. CDC will support these efforts via State AR Prevention (Protect) Programs for
Healthcare (“AR Protect Programs”; see also Sub-Objective 1.1.2).
Within five years:
•• DOD will support antibiotic stewardship programs and interventions critical for maintaining
quality health care throughout the Military Healthcare System (MHS).
•• CDC will work with select hospital systems to expand antibiotic use reporting and stewardship implementation, and will partner with nursing organizations to develop and implement
stewardship programs and interventions in a set of nursing homes.
•• All states will establish or enhance antibiotic stewardship activities in healthcare delivery
settings.
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Sub-Objective 1.1.1B: Strengthen educational programs that inform physicians, veterinarians, members of the agricultural industry, and the public about good antibiotic stewardship.
Educational programs that promote good antibiotic stewardship in healthcare settings include:
•• Get Smart: Know When Antibiotics Work. Many antibiotics prescribed in doctors’ offices, clinics,
and other outpatient settings are not needed. This program focuses on appropriate antibiotic
prescribing and use for common illnesses in children and adults.
•• Get Smart for Healthcare. Many patients in hospitals, nursing homes, and other healthcare facilities receive antibiotics to fight infections, but these drugs are often prescribed incorrectly. This
program helps clinicians prescribe the right drugs for the right patients at the right doses and times.
The United States Department of Agriculture (USDA), CDC, and the Food and Drug Administration
(FDA) will also continue to work with partners in the agriculture industry to advance appropriate use
of antibiotics in food animals and promote collaborations among partners in medicine, veterinary
medicine, and public health.
Additional milestones for provision of educational materials to enhance antibiotic stewardship in agricultural settings are provided under Sub-Objectives 1.2.3 and 1.3.1.
Milestones
Within one year:
•• CDC and VA will apply lessons learned from the CDC and VA pilot project to provide clinicians
with support for making prescribing decisions based on judicious use of antibiotics and will
submit a manuscript for publication describing initial research findings from this effort.
Within three years:
•• CDC will support public health departments in establishing statewide programs for antibiotic
stewardship and appropriate antibiotic use. These programs will identify healthcare facilities
with high antibiotic-prescribing rates and use lessons learned from the CDC and VA pilot project
(see above) and other best practices to improve antibiotic prescribing in these facilities. The
success of these efforts will be assessed by measuring changes in prescribing rates and in clinicians’ understanding of antibiotic stewardship activities and programs.
•• CDC will provide technical assistance to Federal facilities (e.g., those operated by DOD, the VA,
and the Indian Health Service) and other large health systems in scaling up implementation and
assessment of interventions to improve outpatient antibiotic prescribing, extending effective
interventions to long-term care settings, and ensuring long-term sustainability of antibiotic
stewardship efforts.
•• DOD will initiate the planning and approval process to modify clinical decision-support interventions in DOD facilities in targeted regions.
•• CDC, CMS, and partners will propose expanded quality measures for antibiotic prescribing.
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•• CMS will expand the Physician Quality Reporting System (PQRS) to include quality measures
that discourage inappropriate antibiotic use to treat non-bacterial infections, such as respiratory
tract infections.
•• CDC will expand training and support to acute care facilities and nursing homes to improve
antibiotic stewardship, as part of the Get Smart for Healthcare project.
Within five years:
•• CDC will evaluate the impact of quality measures on antibiotic use and provide feedback to
healthcare partners.
Additionally, CDC will continue to host a Get Smart About Antibiotics Week observance each November
to raise public awareness about antibiotic-resistance and the importance of appropriate antibiotic
prescribing.
Sub-Objective 1.1.2: Expand collaborative efforts by groups of healthcare facilities that
focus on preventing the spread of antibiotic-resistant bacteria that pose a serious threat to
public health (Table 3).
Public health action to prevent transmission of healthcare-associated infections—including drugresistant bacterial infections—has traditionally been taken by individual healthcare facilities. However,
drug-resistant organisms—including multidrug resistant organisms (MDROs) such as CRE and MRSA,
and Clostridium difficile infections that are associated with antibiotic use (Table 3)—can spread regionally
from one healthcare facility to another when patients colonized or infected with resistant bacteria move
between hospitals or long-term care facilities within a state or locality. It is therefore imperative that
healthcare facilities work together, in close partnership with state health departments, to implement
effective interventions that slow the regional spread of drug-resistant pathogens.
Milestones
Within one year:
•• The DOD Multidrug-Resistant Organism Repository & Surveillance Network (MRSN) will expand
its detection and reporting capabilities to include Clostridium difficile and other high-risk drugresistant pathogens.
Within three years:
•• At least 25 states, the District of Columbia, and Puerto Rico will establish or enhance State AR
Prevention (Protect) Programs to improve antibiotic use and reduce transmission of resistant
pathogens. Activities will include measuring the incidence of at least one regionally important
MDRO, providing healthcare facilities with feedback on local and regional MDRO rates, and
providing healthcare facilities with technical assistance to advance MDRO prevention. CDC
and CMS Quality Improvement Networks (QINs) will work with state and large local health
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departments to advance these efforts. QINs are groups of health quality experts, clinicians, and
consumers who help improve the care delivered to people with Medicare.
•• At least 20 state health departments will maintain advanced capacity for rapid response to
drug-resistant gonorrhea, including capacity to detect, diagnose, and investigate suspected
resistant cases within their state or region and assist healthcare providers in providing appropriate treatment of infected patients.
Within five years:
•• CDC will expand capacity to prevent the importation of cases of multidrug resistant Tuberculosis
(TB) (MDR-TB) by doubling TB screening among migrants from high-incidence countries from
500,000 to 1 million persons per year.
•• State AR Prevention (Protect) Programs will be in place in all 50 states, as well as the District of
Columbia and Puerto Rico.
Sub-Objective 1.1.3: Implement annual reporting of antibiotic use in inpatient and outpatient settings and identify geographic variations and/or variations at the provider and/
or patient level that can help guide interventions.
Antibiotic resistance in healthcare settings is a significant threat to public health. Because nearly all
Americans receive care in a healthcare setting at some point in their lives, the problem can affect anyone.
Patients undergoing chemotherapy for cancer and very sick patients in intensive care units are at special
risk, because they are already vulnerable due to weakened immune systems and underlying illness.
Through its antibiotic use (AU) and antimicrobial resistance (AR) modules, the National Health Safety
Network (NHSN) receives hospital data on:
•• Amounts of specific antibiotics used to treat hospitalized patients (AU reporting).
•• Cases of drug-resistant disease (AR reporting).
The AU and AR data allow healthcare facilities to target areas of concern, make needed improvements,
and track the success of their efforts. NHSN data also allow CDC to track regional and national trends in
drug resistant diseases and provide hospitals with feedback about prescribing practices and antibiotic
stewardship.
Milestones for AU reporting are provided below, as part of the effort to foster antibiotic stewardship.
Additional milestones for AR reporting and for strengthening the public health surveillance infrastructure that supports AU and AR reporting are provided in Goal 2.
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Milestones: Reporting Antibiotic Use in Inpatient Settings
Within one year:
•• CDC will finalize arrangements for the purchase of proprietary data on inpatient antibiotic use
to supplement NHSN data until a larger number of hospitals begin to utilize the NHSN module
for antibiotic use reporting.
•• CDC will work with healthcare and public health partners to propose new healthcare-facility
antibiotic use measures to the National Quality Forum (NQF; see also Sub-Objective 2.2.1).
Within three years:
•• CDC will use data collected through the NHSN AU module to provide annual national estimates
of aggregated inpatient antibiotic use and feedback to healthcare facilities on antibiotic use,
indicating whether antibiotic use rates are above or below the national average.
•• CDC will establish routine reporting of antibiotic use and resistance data from select hospital
systems via the NHSN AU and AR modules (see Objective 2.2).
•• DOD will centralize its reporting of inpatient antibiotic use to NHSN.
Within five years:
•• CDC will provide estimates of inappropriate inpatient antibiotic prescribing rates by state and
region and use this data to target and prioritize intervention efforts.
Milestones: Reporting Antibiotic Use in Outpatient Settings
Within one year:
•• CDC will report outpatient prescribing rates for 2011 and 2012 and use this data to target and
prioritize intervention efforts.
•• CDC will establish a benchmark (in terms of prescriptions per population) for reduction in
antibiotic use.
Within three years:
•• Starting in 2016, CDC will issue yearly reports on progress in meeting the national target of 50%
reduction in inappropriate use of antibiotics in outpatient settings (see above), as well as on
overall trends in antibiotic prescribing.
•• DOD will establish goals for reducing antibiotic use in DOD facilities that provide outpatient
care for military personnel and their families.
•• DOD will centralize reporting of outpatient antibiotic use and issue annual summary reports.
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Sub-Objective 1.1.4: Develop and pilot new interventions to address geographic, sociocultural, policy, economic, and clinical drivers of the emergence and spread of antibioticresistance and misuse or overuse of antibiotics.
Milestones
Within one year:
•• The Agency for Healthcare Research and Quality (AHRQ) and CDC will host a meeting of experts
and stakeholders to consider knowledge gaps for prevention of antibiotic-resistant, healthcareassociated infections and identify potential interventions for development, field testing, and
eventual widespread implementation.
•• CDC Emerging Infections Program (EIP) sites will perform assessments of antibiotic use and
resistance to allow updating of national estimates of antibiotic-resistant, healthcare-associated
infections and of antibiotic-resistance threats in the United States.
•• CDC EIP sites will solicit applications for funding large-scale interventions to reduce C. difficile
infections through enhanced antibiotic stewardship programs.
Within three years:
•• The CDC Prevention Epicenters Program will evaluate one or more novel antibiotic-resistance
prevention tools for use in diverse healthcare settings.
•• CDC EIP sites will initiate large-scale demonstration projects to field-test AR interventions
developed by the Prevention Epicenters Program.
•• AHRQ will sponsor research to develop improved methods and approaches for combating
antibiotic-resistance and conducting antibiotic stewardship activities in multiple healthcare
settings, with a focus on long-term and ambulatory care centers, as well as acute care hospitals.
AHRQ will support translation of research findings into antibiotic-resistance prevention tools
that can be implemented by healthcare providers in long-term and ambulatory care settings,
as well as in hospitals.
•• CDC will perform two randomized control trials to test improved treatment methods to prevent
the spread of MDR-TB.
Within five years:
•• CDC will finalize data collection to validate new antibiotic-resistance prevention tools tested
by the EIP sites and transition validated interventions to ongoing State AR Prevention (Protect)
Programs.
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Sub-Objective 1.1.5: Streamline regulatory processes for updating and approving or
clearing antibiotic susceptibility testing devices, as appropriate, so that clinicians receive
up-to-date interpretive criteria to guide antibacterial drug selection.
Manufacturers of antibiotic susceptibility testing (AST) devices provide interpretive criteria that are
used by healthcare providers to categorize a bacterial isolate as “susceptible” or “resistant” to particular
antibiotics. However, when bacteria develop new means of resistance, the interpretive criteria may no
longer be clinically useful. Rapid updating of interpretive criteria in AST devices—by manufacturers or
by standards development organizations (SDOs)—is therefore essential to provide accurate information
to guide appropriate drug treatment.
Milestones
Within one year:
•• FDA will provide technical assistance, as appropriate, on legislative proposals being considered
to streamline updating of interpretive criteria for AST devices.
Within five years:
•• FDA will update AST interpretive criteria more efficiently and rapidly (e.g., by adopting criteria
developed by SDOs rather than including interpretive guidelines on labels).
1.2
Eliminate the use of medically important antibiotics for growth promotion
in food-producing animals and bring under veterinary oversight other
in-feed and in-water uses of antibiotics that are medically important for
treatment, control, and prevention of disease.
FDA’s strategy to ensure the judicious use of medically important antibiotics in animal agriculture is
outlined in two guidance documents:
•• FDA Guidance for Industry (GFI) #209—The Judicious Use of Medically Important Antimicrobial
Drugs in Food-Producing Animals—is intended to limit medically important antimicrobial drugs
to uses in animals that (1) are considered necessary for assuring animal health, and (2) include
veterinary oversight or consultation.
•• FDA Guidance for Industry (GFI) #213—New Animal Drugs and New Animal Drug Combination
Products Administered in or on Medicated Feed or Drinking Water of Food-Producing Animals:
Recommendations for Drug Sponsors for Voluntarily Aligning Product Use Conditions with GFI
#209—calls for:
−− Voluntary revision of the FDA-approved use conditions on the labels of medically important
antibiotics to remove production indications, such as increased rate of weight gain and
improved feed efficiency.
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−− Phasing in veterinary oversight of the remaining therapeutic uses of medically important
antibiotics in feed or water by changing the current over-the-counter status of these drugs.
Because antibiotics in feed or water are typically administered to herds or flocks of foodproducing animals, in-feed or in-water antibiotic use leads to an increased risk of selecting
for resistance.
Sub-Objective 1.2.1: Implement FDA GFI #213 to eliminate the use of medically important
antibiotics for growth promotion in animals and bring other in-feed and in-water uses of
medically important antibiotics under veterinary oversight. FDA should evaluate the adoption of the proposed changes under GFI #213 after the three-year implementation period
and take further action as appropriate.
Milestones
Within one year:
•• FDA will finalize changes to the Veterinary Feed Directive (VFD) regulation to encourage manufacturers to transition the dispensing status of in-feed antibiotics covered by GFI #213 from
over-the-counter (OTC) to VFD status, which requires veterinary oversight. FDA will publish an
enhanced summary report of antibiotics sold or distributed for use in food-producing animals
from 2009 to 2013. This report will support the effort to monitor the antibiotic usage aspects
of Guidance #213 (see also Objective 2.2.4).
Within three years:
•• FDA, in partnership with animal drug sponsors, will complete all changes recommended by GFI
#213 and GFI #209. Once these changes are complete, growth promotion uses of medically
important antibiotics will no longer be permitted, and the use of medically important antibiotics
in the feed or water of food-producing animals will require veterinary oversight.
Sub-Objective 1.2.2: Assess progress toward eliminating the use of medically important
antibiotics for growth promotion in food-producing animals through enhanced data collection on antibiotic sales and use.
Milestones
Within five years:
•• FDA, in partnership with USDA and the animal agricultural industry, will evaluate and report on
the impact of GFI #213 by analyzing data on antibiotic use, including total sales of antibiotics in
animal agriculture and types and prevalence of antibiotic-resistance among selected foodborne
pathogens and commensals isolated from retail meat and farm animals.
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Milestones for enhancing collection of data to monitor the impact of GFI #213 in fostering the judicious
use of antibiotics in food-producing animals are provided under Objective 2.4.
Sub-Objective 1.2.3: Develop and implement educational outreach efforts to ensure that
veterinarians and animal producers receive information and training to support implementation of these changes.
Within three years:
•• FDA will collaborate with veterinary organizations, animal producer organizations, the animal
feed industry, and others to develop and implement educational outreach efforts to ensure that
veterinarians and animal producers receive the necessary information and training to support
implementation of GFI #213 (see also: Sub-Objective 1.3.1).
Sub-Objective 1.2.4: Optimize public awareness about progress toward eliminating the
use of medically important antibiotics for animal-growth promotion.
Within one year:
•• FDA will publish and maintain a public web listing of products affected by GFI #213.
•• FDA will begin publishing periodic updates summarizing progress in adoption of the changes
proposed in GFI #213.
Within three years:
•• FDA will publish a final assessment of the progress of GFI #213 on eliminating the use of medically important antibiotics for animal-growth promotion.
1.3
Identify and implement measures to foster stewardship of antibiotics in
animals.
Sub-Objective 1.3.1: Develop, implement, and measure the effectiveness of evidencebased educational outreach to veterinarians and animal producers to advance antibiotic
stewardship and judicious use of antibiotics in agricultural settings.
Milestones
Within one year:
•• FDA and USDA will consult with livestock and veterinary organizations on the development of
educational outreach materials on judicious use of antibiotics and antibiotic stewardship, and
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will meet with the American Veterinary Medical Association and the American Association of
Veterinary Medical Colleges to consider the incorporation of additional material on antibiotic
resistance and antibiotic stewardship into the curricula of U.S. veterinary colleges.
•• USDA will conduct assessments in various animal production and veterinary settings to identify priority areas in which research is needed to support the development and validation of
stewardship activities to assure judicious antibiotic use.
•• USDA will solicit applications to the USDA Antimicrobial Resistance Initiative Program, which
aims to advance development and use of antibiotic stewardship practices that assure judicious
use of antibiotics in agriculture. Applicants may propose a combination of activities, including
research studies and development of educational and outreach materials. Projected outcomes
of the educational and outreach activities include better preparation of the next generation of
veterinarians and laboratory scientists. Projected outcomes of the research activities include
development of sustainable strategies to mitigate antibiotic resistance (see Objective 4).
Within 3 years:
•• USDA will support the distribution of educational and outreach materials on antibiotic stewardship and judicious use of antibiotics that target veterinarians, producers, educators, and
consumers. These activities will be accomplished through the Antimicrobial Resistance Initiative
awardees whose integrated projects are linked to the Cooperative Extension System for education and extension/outreach activities.
Sub-Objective 1.3.2: Foster collaborations and public-private partnerships with public health, pharmaceutical, and agricultural stakeholders to facilitate identification and
implementation of interventions (e.g., good husbandry practices) to reduce the spread of
antibiotic-resistance.
Milestones
Within one year:
•• FDA and USDA will identify priority areas for research to develop and validate stewardship
activities to reduce the spread of antibiotic-resistance.
•• FDA and USDA will work with livestock and veterinary organizations to consider ways to develop,
update, and incorporate assessments of antibiotic stewardship activities into quality assurance
programs.
Within three years:
•• FDA and USDA will support applied research in field settings to demonstrate the feasibility and
effectiveness of stewardship programs and test and validate alternatives to traditional uses of
antibiotics in agriculture.
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Within five years:
•• FDA and USDA will identify validated interventions to reduce the spread of antibiotic resistance
and work with public and private sector partners to incorporate them into veterinary practice.
Sub-Objective 1.3.3: Identify, develop, and revise key agricultural practices that allow
timely and effective implementation of interventions that improve animal health and
efficient production.
Milestones
Within three years:
•• FDA and USDA will support drivers-of-change studies to determine which stewardship materials
and educational approaches are most effective in improving antibiotic use practices.
Sub-Objective 1.3.4: Develop appropriate metrics to gauge the success of stewardship
efforts and guide their continued evolution and optimization.
Milestones
Within three years:
•• FDA and USDA will:
−− Collect additional data regarding antibiotic use and resistance in food-producing animals.
These data will supplement existing surveillance data used to evaluate the impact of GFI
#213 on use practices and resistance trends over time.
−− Measure changes in antibiotic stewardship programs and practices as part of quality assurance programs in cattle operations and swine and broiler chicken production.
−− Use baseline data from the National Animal Health Monitoring System (NAHMS), where
available, to evaluate changes over a 5-year time horizon.
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GOAL 2. Strengthen National One-Health
Surveillance Efforts to Combat Resistance
Actions taken to achieve Goal 2 will fulfill:
• Executive Order 13676, Section 6:
−− Strengthening National Surveillance Efforts for Resistant Bacteria
• Provisions in PCAST Recommendations #2 and #6:
−− Effective Surveillance & Response for Antibiotic Resistance
−− Improving Stewardship of Existing Antibiotics in Health Care
The “One-Health” approach to disease surveillance for human and animal pathogens is critical to combat
antibiotic-resistance. Improved detection and control can be achieved through enhancement and integration of data from surveillance systems that monitor human pathogens and commensals—including
NHSN, the Emerging Infections Program (EIP), and the National Antimicrobial Resistance Monitoring
System (NARMS)—with data from surveillance systems that monitor animal pathogens—including the
National Animal Health Monitoring System (NAHMS), the National Animal Health Laboratory Network
(NAHLN), and the Veterinary Laboratory Investigation and Response Network (Vet-LIRN). These activities will provide high-quality data, including detailed genomic data, and other information necessary
to track resistant bacteria in diverse settings in a timely fashion.
Goal 2 activities include creation of a Detect Network of Antimicrobial Resistance (AR) Regional
Laboratories that will provide a standardized platform for resistance testing and advanced capacity for
genetic characterization of resistant bacteria, including whole genome sequencing. In addition, Goal
2 activities will enhance monitoring of antibiotic sales, usage, resistance and management practices at
multiple points along in the food-production chain, from farms to processing plants to supermarkets.
By 2020, significant outcomes of Goal 2 will include:
•• Creation of a regional public health network—the Detect Network of AR Regional Laboratories—
for resistance testing, a specimen repository for resistant bacterial strains, and a National
Sequence Database of Resistant Pathogens.
•• Routine reporting of antibiotic use and resistance data to NHSN by 95% of Medicare-eligible
hospitals, as well as by DOD and VA healthcare facilities.
•• Routine testing of zoonotic and animal pathogens for antibiotic susceptibility at ten to twenty
NAHLN and Vet-LIRN member laboratories, using standardized testing methods and datasharing practices.
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•• Publication of enhanced summary reports on the sale and distribution of antibiotics approved
for use in food-producing animals, issued on an annual basis.
2.1 Create a regional public health laboratory network to strengthen national
capacity to detect resistant bacterial strains, and create a specimen
repository to facilitate development and evaluation of diagnostic tests and
treatments.
Sub-Objective 2.1.1: Create a regional public health laboratory network that uses standardized testing platforms to expand the availability of reference testing services, characterize
emerging resistance patterns and bacterial strains obtained from outbreaks and other
sources, and facilitate rapid data analysis and dissemination of information.
Milestones
Within one year:
•• CDC will develop an implementation plan for the Detect Network of AR Regional Laboratories
that considers all aspects of operation, including specimen transport, testing, reporting, and
data-sharing.
•• Multidrug-resistant Organism Repository & Surveillance Network (MRSN) will be formally recognized as a reference laboratory network with responsibility for reporting data on antibiotic
resistance and antibiotic use in military treatment facilities. It will expand its mission to include
rapid characterization of emerging resistance patterns, laboratory support during outbreak
investigations, and reporting of clinically relevant bacterial pathogens for facilities that serve
military service members and their families.
Within three years:
•• CDC will designate at least five public health laboratories as part of the Detect Network of
Regional AR Laboratories, which is charged with rapid detection of outbreaks caused by drugresistant pathogens, characterization of resistance mechanisms, and tracking resistance trends
and identifying emerging forms of resistance. CDC will work with DOD and USDA to share
resistance detection strategies and protocols.
•• CDC will work with the Association of Public Health Laboratories (APHL), state and local health
laboratories, and other partners to provide technical assistance and guidance to the Regional
AR Laboratories, as needed.
Sub-Objective 2.1.2: Link data generated by the regional public health laboratory network
to existing public health surveillance networks so that antibiotic susceptibility testing data
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are immediately available to local, state, and Federal public health authorities as they detect
and investigate outbreaks, as well as to veterinary diagnostic and food safety laboratory
databases and/or surveillance systems, as needed.
Milestones
Within three years:
•• The five designated Detect Network Regional AR Laboratories (Sub-Objective 2.1.1) will be
integrated into an AR communications network that posts early warning alerts and reports
urgent results and trends.
•• The AR communication network will establish linkages with DOD and VA clinical, veterinary,
and food safety laboratories.
Sub-Objective 2.1.3: Create a repository of resistant bacterial strains (an “isolate bank”)
and maintain a well-curated reference database that describes the characteristics of these
strains. The repository will aid biotechnology and pharmaceutical companies that develop
new antibiotics and therapeutics and/or design next-generation tests, diagnostic test
developers and regulatory agencies who evaluate these tests, government facilities, academic labs, and pharmaceutical companies that test antibiotics for clinical effectiveness
and researchers, regulators, and others who assess the effectiveness of interventions to
prevent resistance.
Milestones
Within one year:
•• CDC and FDA will develop a defined set of microorganisms to be included in a repository of
resistant bacterial strains, including the urgent and serious threats listed in Table 1, and a bioinformatics database to maintain detailed information on the drug susceptibilities and resistance
mechanisms of each repository strain.
•• The DOD will post data on a representative sample of characterized isolates on a website that
can be accessed by authenticated users.
Within three years:
•• CDC and FDA will create the repository and database for resistant bacterial strains and, in
conjunction with DOD, will provide isolates to diagnostic test manufacturers and research
laboratories, as needed.
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•• DOD will continue to maintain its repository of resistant bacterial strains within the MRSN,
update procedures for specimen collection, storage, and data-sharing, and share information,
as appropriate, with industry, academic, non-profit, and government stakeholders.
Annually thereafter:
•• CDC and FDA will update the repository of bacterial strains, incorporating isolates with new
resistance mechanisms or emerging resistance patterns identified by the national infectious
disease surveillance system.
•• CDC, FDA, and DOD will update procedures for strain collection, storage, and data-sharing.
Sub-Objective 2.1.4: Develop and maintain a national sequence database of resistant
pathogens.
Milestones
Within one year:
•• FDA and the National Institutes of Health (NIH) will pilot-test a sequence database containing
more than 550 drug-resistant bacterial strains, with accompanying clinical and demographic
data (“metadata”). The entries will cover a range of organisms selected by CDC to assist in
diagnostic development.
•• NIH and partners will sequence additional high-priority, drug-resistant strains to add to the
database.
•• DOD will stand up its diagnostic sequence database, inclusive of genomic information (including raw reads and interpretations/annotations) and relevant phenotypic metadata for access
by authenticated users.
Within three years:
•• FDA and NIH will review the pilot project to address challenges and identify lessons learned
concerning data standards, analysis tools, and data-sharing (see also Objective 4.2).
•• As new strains are added to the repository of resistant strains described in Sub-Objective
2.1.3, NIH, FDA, and CDC will work with public and private sector partners to add the genomic
sequences of each isolate to the database.
•• NIH will expand the pilot project database into a National Database of Resistant Pathogens
(NDRP) that will continue to incorporate information on newly identified bacterial strains. The
database entries will be cross-referenced with entries in the bioinformatics database described
in Sub-Objective 2.1.3.
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2.2
Expand and strengthen the national infrastructure for public health
surveillance and data reporting, and provide incentives for timely reporting
of antibiotic-resistance and antibiotic use in all healthcare settings.
The milestones below cover improvements in reporting infrastructure that pertain to both antibiotic
resistance (AR) reporting and antibiotic use (AU) reporting. Additional milestones for AU reporting are
provided under Objective 1.1.3 as part of the effort to advance antibiotic stewardship in healthcare
facilities.
Sub-Objective 2.2.1: Enhance reporting infrastructure and provide incentives for reporting
(e.g., require reporting of antibiotic-resistance data to NHSN as part of the CMS Hospital
Inpatient Quality Reporting Program).
Within one year:
•• CDC will submit proposals for new measures for hospital reporting of data on antibiotic use to
the National Quality Forum (NQF).
•• CDC will create a user-friendly electronic portal that makes aggregated NHSN data publicly
available and facilitates integrated analyses of state and regional trends and practices.
Within three years:
•• CDC will submit proposals for new measures for hospital reporting of data on antibiotic resistance to NQF.
•• CDC will work with CMS and public health partners to minimize the regulatory burden and
maximize the health utility of requiring hospitals to report antibiotic use and resistance to NHSN
as part of the CMS Hospital Inpatient Quality Reporting (IQR) Program. Data will be reported
through the NHSN AU and AR modules.
•• Once the analysis has been completed and new NQF measures have been approved, CMS will
begin the process of proposing new IQR rules.
•• CDC will work with DOD and VA to define steps and resource needs to support NHSN data
submission by DOD and VHA facilities and ensure timely analysis of trends in antibiotic use and
antibiotic resistance.
•• CDC will expand user-support and validation programs to accommodate expected increases
in hospital reporting through the NHSN AU and AR modules during 2017-2019.
Within five years:
•• CDC will work with hospital consortiums and state-based hospital networks to determine
whether additional reporting incentives are needed in place of (or in addition to) reporting
required by CMS.
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Sub-Objective 2.2.2: Add electronic reporting of antibiotic use and resistance data in a
standard file format to the Stage 3 Meaningful Use certification program for electronic
health record systems.
To qualify for an incentive payment through the CMS Medicare Electronic Health Records (EHR) Incentive
Program, eligible hospitals must adopt certified EHR technology and use it to achieve specific objectives.
The objectives for Stage 1 were data capture and data sharing. The objective for Stage 2 was advance
clinical processes. The objective for Stage 3, improved outcomes, can be achieved by using EHR to report
antibiotic use and resistance data to CDC via the NHSN AU and AR modules.
Milestones
Within one year:
•• CDC will provide technical assistance to hospitals across the nation that report drug-resistance
data to NHSN via the NHSN AU and AR modules.
Within three years:
•• CMS will finalize a tool to help software developers certify electronic health records and other
health IT software, as appropriate, for recording and submitting AU data.
•• CMS will complete an analysis of standards and terminologies for AU reporting to ensure alignment between NHSN reporting and IQR reporting and to support local clinical decision-making.
Within five years:
•• CDC and partners will develop an AU electronic clinical-quality NHSN-reporting measure in
a standard file format that hospitals can use to achieve the Stage 3 Meaningful Use objective
and accelerate reporting. The timing of this activity will depend on the timeframe of the CMS
Meaningful Use certification program.
•• Once an AU electronic clinical-quality NHSN-reporting measure has been developed, it will be
submitted to NQF for review and endorsement and to CMS for consideration as a reporting
requirement of the CMS Hospital Inpatient Quality Reporting Program.
Sub-Objective 2.2.3: Expand the activities and scope of the Emerging Infections Program
(EIP) to include monitoring of additional urgent and serious bacterial threats (see Table 3)
and evaluating populations at risk across community and healthcare settings.
The EIP, a network of 10 state health departments,31conducts active, population-based surveillance for
infectious diseases of public health importance. AR surveillance is conducted for ten of the 15 urgent
and serious threats listed in Table 1:
•• Clostridium difficile (10 sites)
3. The ten EIP sites are: California, Colorado, Connecticut, Georgia, Maryland, Minnesota, New Mexico, New York,
Oregon and Tennessee.
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•• Carbapenem-resistant Enterobacteriaceae (CRE; 8 sites)
•• Multidrug-resistant Acinetobacter (8 sites)
•• Drug-resistant Candida (4 sites)
•• Methicillin-resistant Staphylococcus aureus (MRSA; 9 sites)
•• Drug-resistant Streptococcus pneumoniae (10 sites)
•• Drug-resistant foodborne pathogens, including Campylobacter, Shigella, Salmonella Typhi, and
non-typhoidal Salmonella (10 sites)
Milestones
Within one year:
•• CDC will host a meeting of EIP Principal Investigators to consider ways to improve EIP surveillance for drug-resistant threats. The outcomes of this meeting will include refined protocols
and standard operating procedures to enable EIP surveillance of additional threats in additional
EIP sites.
•• CDC EIP sites will pilot methodology to incorporate at least one additional urgent or serious
threat into surveillance activities.
Within three years:
•• CDC will establish up to 10 additional EIP sites, including sites in the West and Midwest that
will monitor drug-resistant pathogens. CDC will evaluate the contribution of these new sites to
collection of data that better represents the incidence and prevalence of drug-resistant disease
in the United States.
•• CDC EIP sites will initiate a study to evaluate populations at risk for CRE.
•• CDC will work with research partners and EIP sites to validate molecular assays to support
surveillance for drug-resistant gonorrhea.
Within five years:
•• CDC will expand EIP activities to include surveillance for additional urgent and serious AR
threats (Table 3).
•• EIP will help coordinate a public health surveillance study to explore the impact of bacterial
populations within the human microbiome on attack rates of drug-resistant pathogens (e.g., C.
difficile, CRE, MRSA, Candida, Salmonella, Shigella, Campylobacter, and S. pneumoniae).
•• CDC will analyze the resistance of bacteria in the intestines of healthy people with a variety of
diets, lifestyles, and antibiotic-use histories.
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Over the following years:
•• The EIP network will continue to conduct active surveillance for drug-resistant bacteria, provide
data to inform CDC’s AR threat reports, identify populations at special risk, and test interventions
to reduce the emergence and spread of AR threats.
2.3
Develop, expand, and maintain capacity in veterinary and food safety
laboratories to conduct standardized antibiotic susceptibility testing and
characterize select zoonotic and animal pathogens.
Surveillance for antibiotic-resistant zoonotic and animal pathogens may be enhanced nationwide by
building capacity among member laboratories of the USDA National Animal Health Laboratory Network
(NAHLN), the FDA Veterinary Laboratory Investigation and Response Network (Vet-LIRN), and USDAFood Safety and Inspection Service (FSIS) Field Service Laboratories. NAHLN is managed by the National
Veterinary Services Laboratories (NVSL).
Sub-Objective 2.3.1: Expand and maintain veterinary and food safety laboratory infrastructure for the identification of select zoonotic and animal health pathogens through the
implementation of new diagnostic technologies (see also Goal 3).
Milestones
Within one year:
•• USDA and FDA will assess current capacities and protocols within NAHLN and Vet-LIRN member
laboratories and identify capacity development needs to support nationwide AR surveillance
for zoonotic pathogens and pathogens of importance to animal health.
Within three years:
•• USDA and FDA will support capacity development in ten selected NAHLN and Vet-LIRN member
laboratories by providing training in standardized methodologies for antibiotic-susceptibility
testing.
•• USDA and FDA will provide support to five or more NAHLN and/or Vet-LIRN member laboratories for next-generation sequencing equipment and training on the use of whole-genome
sequencing techniques and bioinformatics.
Within five years:
•• Ten to twenty NAHLN and Vet-LIRN member laboratories will establish capacity and infrastructure for antibiotic susceptibility testing of bacterial isolates using standardized testing methods
(involving WGS or other techniques) and data-sharing mechanisms.
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Sub-Objective 2.3.2: Accelerate and standardize antibiotic susceptibility testing and bacterial characterization for select zoonotic and animal health pathogens, coordinating with
appropriate stakeholder groups.
Milestones
Within one year:
•• USDA and FDA will develop standardized protocols for assessing proficiency in susceptibility
testing.
Within three years:
•• USDA and FDA will launch pilot projects in three to five NAHLN and/or Vet-LIRN laboratories to
establish proficiency in conducting standardized antibiotic susceptibility testing.
Within five years:
•• Ten to twenty NAHLN and/or Vet-LIRN member laboratories will actively conduct antibiotic
susceptibility testing using standardized methodologies.
Sub-Objective 2.3.3: Enhance communications and identify mechanisms for sharing and
reporting antibiotic-susceptibility data on select zoonotic and animal health pathogens
collected by veterinary diagnostic and food safety laboratories. These data should be
stored in a centralized repository that can be linked with relevant public health databases,
as appropriate, while maintaining source confidentiality.
Milestones
Within one year:
•• USDA and FDA will initiate discussions with veterinary diagnostic and food safety laboratories
to identify opportunities and incentives to share antibiotic-susceptibility data and consider
barriers such as confidentiality concerns that would prevent or incentives that would encourage
this type of data sharing among NAHLN and Vet-LIRN laboratories.
Within three years:
•• USDA and FDA will identify requirements for a system to facilitate national collection, analysis,
and reporting of antibiotic-susceptibility testing data by NAHLN and/or Vet-LIRN laboratories,
develop guidelines for data collection and for sharing metadata, and generate mechanisms
and criteria for linking veterinary data to public health data (e.g., by entering veterinary data
into the NARMS database).
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•• USDA and FDA will launch pilot projects in three to five NAHLN and/or Vet-LIRN laboratories
for data collection and sharing.
Within five years:
•• USDA and FDA will establish an IT system that links NAHLN and Vet-LIRN laboratories that conduct antibiotic susceptibility testing and facilitates sharing, analysis, and reporting of veterinary
AR data through a centralized repository.
2.4. Enhance monitoring of antibiotic-resistance patterns, as well as antibiotic
sales, usage, and management practices, at multiple points in the
production chain for food animals and retail meat.
Additional baseline information regarding on-farm use of antibiotics is urgently needed to:
•• Monitor the impact of FDA Guidance for Industry #213 in fostering the judicious use of antibiotics in food-producing animals (see Goal 1.2).
•• Investigate whether certain antibiotic use practices in food production facilitate the development of resistance.
Currently, NAHMS collects voluntary information on on-farm use and resistance patterns on a periodic
basis. However, there is increased need for on-farm antibiotic-use data, and the relationship between
use and resistance requires enhanced data collection. As yet, no system is in place to provide detailed
surveillance data on the use of antibiotics in agriculture or associations between antibiotic use and the
development of resistance.
Sub-Objective 2.4.1: Enhance surveillance of antibiotic resistance in animal and zoonotic pathogens and commensal organisms by strengthening the National Antimicrobial
Resistance Monitoring System (NARMS) and leveraging other field- and laboratory-based
surveillance systems.
Milestones
Within one year:
•• USDA will develop a plan to enhance efforts to monitor the occurrence of drug-resistant zoonotic pathogens in food animals on farms and at slaughter.
Within three years:
•• CDC will decrease by 50% the time required to detect and characterize drug-resistant enteric
pathogens through NARMS surveillance, and communicate results to stakeholders.
•• CDC will improve the detection, investigation, and mitigation of multistate outbreaks caused
by resistant enteric bacteria through a 25% reduction in time from the initial notification to
NARMS to reporting of susceptibility testing results.
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•• CDC will gather risk factor information, including data on recent antibiotic use, foreign travel,
medical conditions, non-food exposures, and health outcomes for patients with drug-resistant
infections. This data (including information about sources of infection) will be used to help
improve antibiotic prescribing practices, reduce invasive infections, and decrease hospitalization rates.
•• CDC will identify resistance patterns for Salmonella by analyzing near-real-time data from all
Salmonella isolates sent to public health laboratories. This activity will help detect outbreaks
earlier and faster, improve health outcomes, and avert large food recalls.
•• CDC will conduct susceptibility testing on an increased proportion of Campylobacter isolates to
help identify outbreaks and determine the sources of drug-resistant Campylobacter infections.
•• USDA will implement routine susceptibility testing of veterinary diagnostic isolates and report
its findings.
•• USDA-FSIS will expand its meat sample and cecal sample42surveillance for antibiotic resistance,
in collaboration with FDA, NARMS, and other USDA offices.
•• FDA will expand retail meat sampling to improve the representativeness of surveillance data
on bacterial contamination of meat products.
Within five years:
•• NARMS will partner with NHSN to obtain drug-resistance data from clinical laboratories on
bacteria isolated from persons with invasive Salmonella, Campylobacter, or Shigella infections.
Analysis of this data will provide much-needed information about the burdens and outcomes
of drug-resistant enteric infections.
•• CDC will begin a pilot project to evaluate the association between antibiotic-resistant urinary
tract infections and foodborne bacteria.
Sub-Objective 2.4.2: Enhance collection and reporting of data regarding antibiotic drugs
sold and distributed for use in food-producing animals.
Milestones
Within one year:
•• FDA will publish enhanced annual summary reports on the sale and distribution of antibiotics
approved for use in food-producing animals. An FDA summary report for 2009-2013 will provide
baseline information regarding antibiotic sales for the period preceding the implementation
of FDA Guidance for Industry #213.
•• FDA will publish a proposed regulation that includes additional proposed reporting requirements for sponsors of antibiotics approved for use in food-producing animals.
4. Cecal samples are taken from the large intestines of swine, cattle, and poultry. The cecum is a pouch at the
beginning of the large intestine.
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Sub-Objective 2.4.3: Implement voluntary monitoring of antibiotic use and resistance in
pre-harvest settings to provide nationally representative data while maintaining producer
confidentiality.
Milestones
Within one year:
•• USDA and FDA will seek public input on a plan for collecting drug use and resistance data on
farms.
Within 3 years:
•• CDC and FDA will work with EPA to evaluate the risk of environmental uses of antibiotics on
human health.
•• USDA and FDA will initiate collection of drug use and resistance data on farms. This information
will be used to determine baselines and trends in drug use and resistance.
Sub-Objective 2.4.4: Collect quantitative data on antibiotic-resistance and management
practices along various points at pre-harvest, harvest, and processing stages, in collaboration with producers and other stakeholders, and disseminate information as appropriate.
Milestones
Within one year:
•• USDA will develop a plan for expanded monitoring of resistant bacteria throughout the food
production continuum (e.g., pre-harvest, harvest, and processing of food products). On-farm
sampling will be voluntary.
Within three years:
•• USDA will implement collection of data on antibiotic-resistance and management practices during pre-harvest, harvest, and processing of food products. On-farm sampling will be voluntary.
This information will be used to monitor trends in drug-resistant bacteria and identify potential
mitigation strategies for further investigation.
•• USDA will begin coordinated investigations of emerging zoonotic antibiotic resistant pathogens
on the farm and at slaughter.
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Goal 3: Advance Development
and Use of Rapid and Innovative
Diagnostic Tests for Identification and
Characterization of Resistant Bacteria
Actions taken to achieve Goal 3 will fulfill:
• Executive Order 13676, Section 8:
−− Promoting New and Next Generation Antibiotics and Diagnostics
• Provisions in PCAST Recommendations #5 and #6 that concern:
−− International collaboration to promote diagnostic development
−− Prizes for the development of breakthrough diagnostics
Today’s researchers are taking advantage of new technologies to develop rapid “point-of-need” diagnostic tests that can be used during a healthcare visit to distinguish between viral and bacterial infections
and identify bacterial drug susceptibilities—an innovation that could significantly reduce unnecessary
antibiotic use. The availability of new rapid diagnostic tests, combined with ongoing use of culturebased assays to identify new resistance mechanisms, will advance the detection and control of resistant
bacteria, including the priority pathogens listed in Table 1.
By 2020, significant outcomes of Goal 3 will include:
•• Development and dissemination of authorized point-of-need diagnostic tests that rapidly
distinguish between bacterial and viral infections.
•• Validation of diagnostic tests that rapidly determine the antibiotic-resistance profiles of bacteria
of public health concern (Table 1).
To advance these outcomes, HHS agencies will award a prize for development of a rapid diagnostic test
that can improve treatment of drug-resistant infections and facilitate antibiotic stewardship.
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Objectives
3.1
Develop and validate new diagnostics—including tests that rapidly
distinguish between viral and bacterial pathogens and tests that detect
antibiotic-resistance—that can be implemented in a wide range of settings.
Federal departments and agencies will work with domestic and international partners to develop rapid
diagnostic tests that can identify clinical illnesses that may benefit from treatment with antibiotics,
detect invasive bacterial pathogens in blood, cerebrospinal fluid, synovial fluid, and urine, and provide
information to guide decisions on treatment and control of CRE, Neisseria gonorrhoeae, and other
multidrug-resistant organisms.
Within three years:
•• NIH will fund at least five new projects aimed at the development of rapid diagnostics, including:
−− Point-of-need diagnostic tests that rapidly distinguish between bacterial and viral infections.
−− Tests that can rapidly determine the antibiotic-resistance profiles of resistant bacterial
threats of high importance to public health (Table 3), including CRE, MRSA, and ceftriaxoneresistant N. gonorrhoeae.
•• The Assistant Secretary for Preparedness and Response (ASPR)/Biomedical Advanced Research
and Development Authority (BARDA) will fund at least three new diagnostic development
projects that involve next-generation sequencing, multiplex molecular assays, or other new
technologies that shorten the time needed for reliable and accurate detection of drug resistance.
•• NIH and ASPR/BARDA will establish a prize for development of a rapid diagnostic test that can
improve treatment of drug-resistant infections and facilitate antibiotic stewardship.
•• DOD will fund projects to develop:
−− A functional (phenotypic) antibiotic susceptibility test that provides results more quickly
than conventional susceptibility tests. This project will be conducted in collaboration with
CDC.
−− A set of assays that can characterize the drug-resistance profile of any bacterial isolate.
−− An innovative method for antibiotic susceptibility testing (AST) aimed at eliminating the
need to perform AST in centralized microbiology laboratories and enabling rapid AST in
non-traditional healthcare settings.
•• DOD will also fund at least one project involving next-generation sequencing technologies or
bioinformatics platforms or tools that can be leveraged to improve diagnostics for drug-resistant
or multidrug resistant pathogens.
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Within five years:
•• At least one new diagnostic product, the development of which was facilitated by NIH or ASPR/
BARDA, will be submitted for FDA approval or clearance.
•• NIH and ASPR/BARDA will manage and administer a prize contest (see above) for development
of a rapid diagnostic test that can improve treatment of drug-resistant infections and facilitate
antibiotic stewardship.
3.2
Expand the availability and use of diagnostics to improve treatment of
antibiotic-resistant bacteria, enhance infection control, and facilitate
outbreak detection and response in healthcare and community settings.
FDA and CMS are working with industry partners to streamline development and uptake of new diagnostic tests and facilitate their use to improve patient treatment and achieve public health goals. A major
aim of these efforts is to develop well-defined reimbursement policies and incentives that encourage
routine use of diagnostics in clinical settings to distinguish between bacterial and viral infections and
identify the antibiotic susceptibilities of bacteria.
FDA and CMS signed a Memorandum of Understanding (MOU) on June 18, 2010 that facilitates interagency efforts to streamline regulatory processes in ways that reduce costs and timelines. New projects
include the FDA-CMS Parallel Review, a pilot program that permits concurrent (rather than sequential)
product reviews by FDA and CMS (i.e., while FDA reviews pre-market submissions for approval or clearance of diagnostic tests, CMS determines whether the tests will be covered by Medicare). Other projects
designed to facilitate innovation include:
• FDA Entrepreneur in Residence Program, which provides technical support to small businesses
who may lack the expertise to navigate the FDA approval or clearance process.
• FDA Medical Device Innovation Consortium, a partnership between a nonprofit organization and
FDA to advance medical device regulatory science. Members include representatives of organizations
involved in:
−− Medical and/or medical device research, development, treatment, or education
−− Promotion of public health
−− Regulatory science
• FDA Medical Device Reimbursement Task Force, which is pilot-testing a formal process that allows
a device company to request a pre-submission meeting with FDA staff and one or more third-party
payers to discuss reimbursement issues.
Milestones
Within one year:
•• FDA and CMS will evaluate the potential impact of innovative regulatory pathways currently
under development to foster the development of diagnostic tests by addressing issues related
to Medicare reimbursement and coding.
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Within three years:
•• HHS will establish a process that allows product developers to provide data to CMS for use in
developing Interpretive Guidelines that facilitate the use of tests for patient treatment, hospital
infection control, and reporting of cases of disease during outbreaks.
Within five years:
•• HHS will issue technical assistance and education modules and materials that assist healthcare providers and health systems in using diagnostic tests to improve patient management,
enhance hospital infection control, and facilitate outbreak detection and response.
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GOAL 4. Accelerate Basic and Applied
Research and Development for New
Antibiotics, Other Therapeutics, and Vaccines
Actions taken to achieve Goal 4 will fulfill
• Executive Order 13676, Section 8:
−− Promoting New and Next Generation Antibiotics and Diagnostics.
• Provisions in PCAST Recommendations #3, #4, and #5:
−− Fundamental Research
−− Clinical Trials with New Antibiotics
−− The Federal Government should Significantly Increase Economic Incentives for Developing
Urgently Needed Antibiotics
Antibiotics that lose their effectiveness for treating human disease through antibiotic-resistance must
be replaced with new drugs; alternatives to antibiotics are also needed in veterinary medicine. The
advancement of drug development requires intensified efforts to boost basic scientific research, attract
greater private investment, and facilitate clinical trials of new antibiotics. These activities are imperative
to increase the number of antibiotic drug candidates in the drug-development pipeline.
Goal 4 activities will also advance the discovery and development of other tools to combat resistance,
including vaccines, alternatives to (or improved uses of) antibiotics in food animals, and non-traditional
therapeutics to improve human health, including products that preserve or restore beneficial bacteria
that live in human gastrointestinal tracts.
By 2020, significant outcomes of Goal 4 will include:
•• Characterization of the gut microbiome—the communities of microorganisms that live within
the gastrointestinal tract—of at least one animal species raised for food. This outcome will help
us understand how antibiotic treatments disrupt normal gut bacteria and how animal growth
might be promoted—and bacterial diseases might be treated—without using antibiotics.
•• Advancement of at least two new antibiotic drug candidates, non-traditional therapeutics,
and/or vaccines from pre-clinical testing to clinical trials for treatment or prevention of human
disease.
•• Development of at least three new drug candidates or probiotic treatments as alternatives to
antibiotics for promoting growth or preventing disease in animals.
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•• Creation of a biopharmaceutical incubator—a consortium of academic, biotechnology and
pharmaceutical industry partners—to promote innovation and increase the number of antibiotics and antibodies in the drug-development pipeline.
Objectives
4.1
Conduct research to enhance understanding of environmental factors that
facilitate the development of antibiotic-resistance and the spread of
resistance genes that are common to animals and humans.
Sub-Objective 4.1.1: Support basic research to exploit powerful new technologies, including systems biology, to advance the study of antibiotic-resistance and address the special
problems posed by resistant Gram-negative pathogens such as CRE.
Milestones
Within one year:
•• FDA, USDA, CDC, and NIH will host a roundtable of private and public sector experts to gather
input on strategies to advance collaborative research to develop tools to combat antibiotic
resistance using systems biology and other new technologies.
Within three years:
•• A National Institute of Mathematical and Biological Synthesis (NIMBioS) working group will
develop an analytic modeling framework for assessing the relationship between antibiotic use
in livestock (measured at the population level) and the development of antibiotic resistance.
On an annual basis:
•• HHS, NIH, FDA, USDA, CDC, DOD, and EPA will conduct a review to ensure that U.S. Government
research resources are focused on high-priority antibiotic resistance issues (including basic
research on the emergence and spread of resistance genes) and facilitate use of advanced
technologies in research on antibiotic resistance (e.g., whole genome sequencing, proteomics,
metagenomics, structural biology, bioinformatics).
Additional milestones related to basic research are provided under Objective 4.2.
Sub-Objective 4.1.2: Leverage existing partnerships, such as the NIH Antibacterial
Resistance Leadership Group (ARLG), and international collaborations to reduce obstacles
faced by pharmaceutical companies that are developing new antibiotics, other therapies,
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and vaccines. Partnerships will help identify human subjects qualified for enrollment in
clinical trials of vaccines to prevent and antibiotics to treat resistant bacterial infections that
occur sporadically, episodically, and/or in limited populations, generate and apply common
clinical test protocols to multiple test groups of patients while sharing a common control
group, and conduct other research-support activities as needed.
Milestones
Within one year:
•• NIH will work with FDA and partners in industry and academia to:
−− Explore features necessary for developing a more robust clinical trials infrastructure for
antibacterial product development.
−− Assess the feasibility of applying common clinical protocols for evaluation of multiple products while sharing a common control group. This approach may facilitate clinical testing of
drugs to treat Gram-negative infections such as CRE that occur sporadically or episodically
in limited populations (e.g., during hospital outbreaks).
•• NIH will expand and strengthen the ARLG network, which facilitates clinical testing and validation of new antibacterial products and conducts studies to determine how existing products
can be used in optimal ways to improve the treatment of resistant infections.
•• FDA, USDA, CDC, and NIH will bring together experts in food production, agriculture, and
public health to encourage collaborative research—from basic research to clinical testing—on
antibiotic resistance.
Additional milestones related to fostering public/private partnerships and attracting greater private
investment in antibiotics development are provided in Objective 4.6 and 4.7.
4.2
Increase research focused on understanding the nature of microbial
communities, how antibiotics affect them, and how they can be harnessed to
prevent disease.
Milestones
Within three years:
•• USDA, NIH, and CDC will support research on the spread of resistance genes between zoonotic
pathogens and the commensal microbiota that live in the gastrointestinal tracts of animals and
humans (i.e., in animal and human microbiomes).
•• USDA, in consultation with NIH and CDC, will support research to map the gut microbiome
of at least one food animal, using metagenomic techniques and “big data” analysis tools. This
research will advance understand antibiotic treatments disrupt the normal gut microbiome and
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how animal growth may be promoted without antibiotics. It may also suggest ways to treat
bacterial animal diseases without using antibiotics.
4.3
Intensify research and development of new therapeutics and new and
improved vaccines, first-in-class drugs, and new combination therapies for
treatment of bacterial infections.
Milestones
Within one year:
•• The Chemical and Biological Defense Program/Defense Threat Reduction Agency (CBDP/DTRA)
will:
−− Submit an Investigational New Drug (IND) application to FDA to initiate the clinical investigation of an antibiotic developed with DOD funding.
−− Award two new contracts to industry partners to accelerate advancement of novel smallmolecule antibiotic therapies that circumvent known resistance mechanisms or potentiate
the therapeutic efficacy of existing antibiotics (e.g., combination therapies). This activity
will leverage ongoing efforts to develop treatments for infections caused by Select Agents
(pathogens that might be used as biological weapons).
Within three years:
•• NIH will arrange for clinical trials networks such as the Antibacterial Resistance Leadership
Group (ARLG), (see Objective 4.1.2) to test a Gram-negative therapeutic agent with the goal of
addressing use in a limited-population setting such as a hospital.
•• NIH will launch a research program that uses systems biology to identify new drug targets that
can be used to develop antibiotic drugs with new modes of action that make the development
of resistance less likely.
•• NIH will assist research partners who are developing novel classes of antibacterial drugs in
submitting IND applications to FDA.
Within five years:
•• NIH will support initial testing and validation of two new products (antibacterial drugs, novel
therapeutics, or vaccines) to treat or prevent multidrug resistant Gram-negative pathogens.
Once validated, these products will be transitioned to ASPR/BARDA or pharmaceutical companies for advanced development, including clinical efficacy trials (see also Objective 4.4).
•• CBDP/DTRA will complete pre-clinical testing of an additional antibiotic drug and will support
clinical trials of two new products to treat infections with Select Agents.
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Additional milestones related to development of vaccines and combination therapies to address antibiotic resistance are provided under Objective 4.4.
4.4 Develop non-traditional therapeutics, vaccines, and innovative strategies to
minimize outbreaks caused by resistant bacteria in human and animal
populations.
The development of non-traditional approaches that are less likely to drive resistance is an important
step in breaking the cycle of drug development immediately followed by the development of resistance.
Examples of non-traditional therapeutic strategies include:
•• Targeting bacterial virulence factors to prevent disease without killing bacteria.
•• Using phage and phage-derived lysins to kill specific bacteria while preserving the microbiota.
•• Creating vaccines that prevent infection with drug-resistant pathogens.
•• Creating therapeutic products involving monoclonal or polyclonal antibodies.
•• Developing products that restore or preserve beneficial bacteria in human and animal microbiomes and prevent colonization with harmful bacteria (e.g., probiotics, prebiotics, or synthetic
microbiota).
•• Identifying natural compounds with antibiotic activity (e.g., phytochemicals, essential oils,
organic acids, animal-derived lytic enzymes, and small interfering RNAs).
•• Developing combination therapies and dosing strategies that slow the emergence of resistance.
Milestones: Therapeutics and strategies for use in humans
Within one year:
•• NIH will fund new projects to support the discovery and development of new types of antibacterial products (e.g., monoclonal antibodies, vaccines, or microbiota-based therapeutics), as well
as adjunctive therapies to restore the activity of existing antibiotic drugs.
•• DOD will implement laboratory use of new microfluidic technologies to detect antibodies that
inhibit antibiotic-resistant bacteria.
•• DOD will award:
−− Two new contracts focused on development of non-traditional therapeutics that are less
likely to lead to the development of resistance (e.g., immunomodulators, therapeutic antibodies, or host-directed therapies).
−− Two new contracts focused on evaluating drug combinations that may decrease the emergence of drug resistance.
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−− Two new contracts to explore revitalization and/or reformulation of antibacterial drug
candidates that have failed to enter preclinical or clinical development due to undesirable
characteristics related to solubility, pharmacokinetics, or toxicity.
Within three years:
•• NIH, with guidance from FDA, will support development and evaluation of novel approaches
for treatment of drug-resistant infections.
•• DOD will investigate genes encoding antibodies that target drug-resistant bacteria and might
be used in immunoprophylactic treatments.
Within five years:
•• NIH will support the identification of alternative dosing strategies (e.g., combination therapies
and shortened durations) that improve treatment for two bacterial pathogens of public health
concern.
•• NIH will launch clinical trials for two new products to treat or prevent high-priority bacterial
pathogens and transition them to ASPR/BARDA or pharmaceutical companies for advanced
development.
•• Scientists at the Walter Reed Army Institute of Research will transition one antibiotic drug
candidate to advanced development.
Milestones: Therapeutics and strategies for use in animals
Within one year:
•• USDA, in collaboration with NIH, FDA, and the agriculture industry, will develop a research and
development strategy to promote understanding of antibiotic-resistance and the creation of
alternatives to (or improved uses of) antibiotics in food animals.
•• USDA will solicit proposals that comprehensively develop research and outreach programs
targeting development of novel alternatives to antibiotics for use in animals.
Within three years:
•• USDA-funded research teams will develop three candidate alternatives to antibiotics used for
promoting growth in animals (e.g., drugs or probiotic treatments) that do not disrupt the normal
flora of the gut of food animals and enhance animal immune systems and resistance to disease.
Within five years:
•• USDA-funded research teams will develop non-traditional alternatives to antibiotics that can be
used (alone or in combination with existing antibiotics) to treat at least three priority bacterial
pathogens of livestock and poultry.
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•• USDA-supported researchers will study genes that confer resistance to high-priority agricultural
animal diseases (e.g., Bovine Respiratory Disease Complex) to facilitate genetic selection for
animals with less susceptibility to infections whose treatments typically require significant use
of antibiotics.
4.5
Expand ongoing efforts to provide key data and materials to support the
development of promising antibacterial drug candidates and promising
vaccines that can reduce the need to treat bacterial infections.
CARB Economic Incentives Working Group
Economic incentives for product development are critical to ensuring diverse and robust pipeline of
antibiotics. The PCAST report provides several key recommendations on economic incentives
In response to these recommendations, the Office of Science and Technology Policy (OSTP) and National
Security Council (NSC) staff of the Executive Office of the President convened a working group to conduct an analysis of these potential economic incentives. Efforts to attract more private investment will
reflect the recommendations of the CARB Economic Incentives Working Group.
Milestones
Within one year:
•• NIH and ASPR/BARDA will implement a strategy for assisting research partners who are developing novel classes of antibacterial drugs in fulfilling the requirements of FDA IND applications.
•• NIH and ASPR/BARDA will meet on a semi-annual basis with investigators who participate in the
Antibiotic Resistance Biopharmaceutical Incubator (see Objective 4.7) to evaluate progress in
providing technical resources for in vitro and in vivo screening of resistant pathogens of public
health concern.
•• Agencies with existing capabilities will ensure that genomic sequence data, proteomic data,
and other related AR data sets generated with U.S. Government funding will be made publically
available in a manner consistent with protecting personally identifiable information.
•• DOD will develop three specimen panels as a critical resource for evaluating the efficacy of
novel antibiotic therapies against multidrug-resistant Select Agents. The panels will include: (1)
resistant bacterial isolates suitable for work in lower-level (BSL-2) biocontainment laboratories,
(2) multidrug resistant strains of Select Agents, and (3) attenuated strains of multidrug resistant
Select Agents. The panels will be maintained within DOD and will be available through the
Select Agent Core Antibiotic Screening Program.
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Within three years:
•• NIH and ASPR/BARDA will identify at least twelve candidate products for preclinical development support and support three candidate products from preclinical development through
IND submission (see also Objective 4.4).
Within five years:
•• All agencies will ensure that genomic sequence data, proteomic data, and other related AR
data sets generated with U.S. Government funding will be made publicly available in a manner
consistent with protecting personally identifiable information.
4.6
Enhance opportunities for public-private partnerships to accelerate research
on new antibiotics and other tools to combat resistant bacteria
HHS is partnering with pharmaceutical and biotechnology companies to advance the development of
antibiotics through a “portfolio approach” in which companies investigate multiple drug candidates at
the same time. This approach balances risk (for the companies and the government) by increasing the
likelihood that one or more drug candidates will advance from preclinical testing to commercial use.
Milestones
Within one year:
•• The HHS Public Health Emergency Medical Countermeasures Enterprise (PHEMCE) will ensure
coordination with the U.S. Task Force for Combating Antibiotic-Resistant in promoting publicprivate partnerships to develop new and next-generation countermeasures to target antibioticresistant bacteria that present a serious or urgent threat to public health.
•• ASPR/BARDA will create at least one additional portfolio partnership with a pharmaceutical or
biotechnology company to accelerate development of antibacterial drugs.
Within three years:
•• At least two antibiotic drugs developed by portfolio partners for treatment of an urgent or
serious pathogen (Table 1) will enter Phase III clinical investigation.
Within five years:
•• IND applications for at least two additional antibiotic drugs developed by portfolio partners
will be submitted for FDA approval.
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4.7 Create a biopharmaceutical incubator—a consortium of academic,
biotechnology and pharmaceutical industry partners—to promote
innovation and increase the number of antibiotics in the drug-development
pipeline.
ASPR/BARDA, in collaboration with NIH, will establish a pharmaceutical incubator that brings inventors
and researchers together with start-up companies to explore creative ideas that could lead to the development of new antibiotics or non-traditional therapies. Like the ARLG network described in Objective
4.1.2 and the “portfolio partnerships” described in Objective 4.6, the biopharmaceutical incubator will
help attract greater private investment by reducing the risks and obstacles faced by drug companies
who are developing new antibiotics.
Milestones
Within one year:
•• ASPR/BARDA and NIH will work with a consortium of industry partners to develop a strategy
for establishing the Antibiotic Resistance Biopharmaceutical Incubator (ARBI).
Within three years:
•• The ARBI will be operational, with technical services in place to facilitate toxicology studies,
animal challenge studies, and other activities needed to accelerate drug development.
On an annual basis:
•• ASPR/BARDA and NIH will assess progress in meeting ARBI’s five-year goals: identifying at least
five targets for novel therapeutics, generating in vivo data to validate at least three of these
targets, generating at least three antibacterial drug candidates, and transitioning at least two
of these candidates from preclinical testing to submission of an FDA IND application to begin
clinical trials.
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GOAL 5. Improve International
Collaboration and Capacities for Antibioticresistance Prevention, Surveillance, Control,
and Antibiotic Research and Development
Actions taken to achieve Goal 5 will fulfill
• Executive Order 13676, Section 9:
−− International Cooperation
• Provisions in PCAST Recommendation #8:
−− Ensure Effective International Coordination
Antibiotic resistance is a global problem that requires global solutions. The United States, led by the
Secretaries of State, USDA, and HHS and the Administrator of USAID, will engage in international action
with foreign ministries of health and agriculture, the World Health Organization (WHO), the Food and
Agriculture Organization of the United Nations (FAO), the World Organization for Animal Health (OIE),
and other domestic and international stakeholders to strengthen national and international capacities
to detect, monitor, analyze, and report antibiotic resistance, provide resources and incentives to spur the
development of therapeutics and diagnostics for use in humans and animals, and strengthen regional
networks and global partnerships that help prevent and control the emergence and spread of resistance. The United States will support the development of the WHO Global Action Plan on Antimicrobial
Resistance, strengthen cooperation under the European Union-United States Trans-Atlantic Task Force
on Antimicrobial Resistance (TATFAR), promote antibiotic resistance as an international health priority,
and mobilize resources for global activities through bilateral, regional, and multilateral venues such as
the Global Health Security Agenda.
By 2020, significant outcomes of Goal 5 will include:
•• Elevation of antibiotic resistance as an international priority for global health and security.
•• Enhanced capacity to identify antimicrobial-resistant pathogens in more than fifteen partner
countries.
•• Establishment of a common U.S.- European Union (EU) system for sharing and analyzing bacterial resistance patterns for priority pathogens.
•• Development of a global database to collect harmonized quantitative data on the use of antibacterial agents in animals.
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•• Development of national plans to combat antibiotic resistance and improve antibiotic stewardship in low- and middle-income countries.
•• Strengthened regulatory and supply chain systems that assure the quality, safety, and efficacy
of antibiotics used in low- and middle-income countries.
Objectives
Surveillance: Establish capacity to detect, analyze, and report antibiotic resistance, in order to
make available information needed for evidence-based decision making in individual countries
and globally.
5.1
Promote laboratory capability to identify at least three of the seven WHO
priority antimicrobial resistant (AMR) pathogens53using standardized,
reliable detection assays.
The WHO AMR Pathogens and types of resistance of concern include:
• Escherichia coli: resistance to 3rd generation cephalosporins and to fluoroquinolones
• Klebsiella pneumoniae: resistance to 3rd generation cephalosporins and to carbapenems
• Staphylococcus aureus: methicillin resistance, or MRSA
• Streptococcus pneumoniae: resistance (non-susceptibility) to penicillin
• Non-typhoidal Salmonella (NTS): resistance to fluoroquinolones
• Shigella species: resistance to fluoroquinolones
• Neisseria gonorrhoeae: reduced susceptibility to 3rd generation cephalosporins
Milestones
Within one year:
•• CDC and USAID will work with ministries of health in at least twelve to fifteen countries to complete laboratory proficiency assessments, and will assess expansion of bilateral relationships to
additional countries.
•• DOD will work with international partner laboratories to identify and enhance local proficiency
and capabilities and will conduct assessments on an annual basis.
Within three years:
•• CDC and USAID will provide technical assistance to foreign ministries of health on developing
national plans for strengthening laboratory-based surveillance for antimicrobial resistance, and
will complete assessments of laboratory capacity in additional counties.
5 The WHO priority AMR pathogens are a subset of the pathogens identified as urgent and serious threats in Table 3.
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Within five years:
•• Public health laboratories in at least fifteen partner countries will be able to identify at least
three of the seven WHO priority AMR pathogens and will report their results to WHO, to international surveillance networks, and—in the case of a public health emergency of international
concern—to International Health Regulations (IHR) focal points.
5.2 Collaborate with WHO, OIE, and other international efforts focused on the
development of integrated, laboratory-based surveillance to detect and
monitor antibiotic resistance in relevant animal and human foodborne
pathogens.
Milestones
Within one year:
•• USDA, FDA, and CDC will develop a plan, in partnership with WHO, the Pan American Health
Organization, and other international organizations to identify key partner laboratories that
conduct AMR testing of animal foodborne pathogens.
Within three years:
•• USDA and FDA, in conjunction with CDC and international partners, will:
−− Develop a process for assessing national and regional capabilities for surveillance of antibiotic resistance in animal and human foodborne pathogens.
−− Identify challenges to harmonizing AMR data requirements and collection methods on an
international scale.
−− Assess the current status of national capabilities for molecular diagnostics and epidemiology
and address the need for access to these capacities.
−− Identify additional partners who can assess laboratory testing proficiencies and provide
training for technology transfer.
−− Work with regional partners to monitor the emergence and spread of resistance genes in
animal and foodborne pathogens on an ongoing basis, using molecular techniques.
−− Expand activities conducted through other USG-funded activities (e.g., the Asia-Pacific
Economic Cooperation) to inventory existing worldwide laboratory resources and assess
the need for national and regional improvements to support surveillance for drug-resistant
animal and human foodborne pathogens. These efforts will include expansion of training
opportunities in pathogen characterization and diagnostics.
•• DOD will develop a scalable, evidence-based database of global information on antimicrobial
resistance and issue annual reports of findings.
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Within five years:
•• USDA, FDA, and CDC will initiate regional collaborations to monitor the emergence and spread
of resistance genes in food, animal, and human foodborne pathogens, using genome sequencing techniques.
•• USDA and FDA will work with CDC and international partners to provide training in laboratory
methodologies (in-country or within the U.S.) and initiate collaborations to promote training
as opportunities arise.
•• USDA, FDA, and CDC will work through existing laboratory and public health networks—such
as PulseNet International and the Red Interamericana de Laboratorios de Análisis de Alimentos
(RILAA)—to transfer technology and train local partners.
5.3 Develop a mechanism for international communication of critical events
that may signify new resistance trends with global public and animal health
implications.
Milestones:
Within one year:
•• CDC will work with TATFAR partners to develop a common U.S.-E.U. system for sharing and
analyzing bacterial resistance patterns for pathogens identified as urgent and serious threats
in Table 1.
•• HHS/OGA, USDA, FDA and CDC will work with TATFAR partners to address TATFAR
Recommendation #18, which calls for the formation of an international working group to
identify key knowledge gaps about transmission of drug-resistant bacteria in animals and the
use of antibiotics in animal agriculture.
Within three years:
•• CDC will work with WHO and other partners to develop a secure website for real-time sharing
of international surveillance data on antimicrobial resistance in order to facilitate early warning
and notification of significant events to WHO, regional and international disease surveillance
networks (e.g., European Centre for Disease Prevention and Control) , and IHR. These efforts
will make use of data-sharing practices developed by the U.S. and TATFAR (see above). Steps
include developing terms of reference, assessing IT requirements, and identifying mechanisms
for validating and sharing information.
•• CDC will deploy the website in partnership with the international community and will help test,
monitor, evaluate, and improve its utility.
•• USDA will identify next steps in addressing knowledge gaps about development and spread of
antibiotic resistance in animals, based on the conclusions of the work group formed in fulfillment
of TATFAR Recommendation #18 (see above).
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Within five years:
•• CDC and other U.S. agencies will help ensure access to—and full participation by—public health
authorities in all WHO member countries.
•• USDA will engage TATFAR and other regional partners in sharing information about drugresistance trends with implications for animal health.
5.4
Promote the generation and dissemination of information needed to
effectively address antibiotic-resistance.
Sub-Objective 5.4.1: Support consistent international standards for determining whether
bacteria are resistant to antibiotics.
Milestones
Within one year:
•• U.S. agencies, led by CDC and USAID, will engage stakeholders in establishing harmonized definitions of drug resistance for surveillance purposes (e.g., by standardizing interpretive criteria
for analyzing the results of antibiotic susceptibility tests).
•• As part of these efforts, DOD will continue to engage and support existing and newly-identified
international partners through sharing of technological packages for surveillance and reporting
purposes.
Within three years:
•• U.S. agencies, led by CDC, will work with the six WHO regional surveillance networks to implement harmonized definitions of resistance for surveillance programs integrating data on WHO
and CDC priority pathogens.
Sub-Objective 5.4.2: Develop international collaborations to gather country-specific and
regional information on drivers of antibiotic resistance, identify evidence-based interventions, adapt these strategies to new settings, and evaluate their effectiveness.
Within one year:
•• U.S. agencies, led by the Department of State and HHS, will develop a strategy for working
with partner countries to elevate the issue of antibiotic resistance as an international priority
for global health security.
•• U.S. agencies, led by HHS/OGA, will support development of the WHO Global Action Plan on
Antimicrobial Resistance. As part of this effort, U.S. agencies will support the inclusion of provi-
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sions that require open access to research data on factors that drive the emergence of resistance
and strategies to prevent its spread.
Within three years:
•• The Department of State, HHS, and other agency partners will convene a group of international
stakeholders to discuss best practices for research collaborations on antimicrobial resistance,
including methodologies, data-sharing policies, management plans and interoperability.
•• U.S. agencies will work with WHO, FAO, and OIE to support implementation of the WHO Global
Action Plan on Antimicrobial Resistance by:
−− Assessing country-specific and regional factors that drive the development of antimicrobial resistance, building on existing risk management frameworks such as the Codex
Alimentarius.
−− Establishing a global database to collect harmonized quantitative data on the use of antibacterial agents in animals.
−− Forging partnerships aimed at reducing the use of medically-important antibiotics for
growth promotion in food animals.
Over five years:
•• The Department of State, HHS, and other agency partners will continue to promote antibiotic
resistance as an international health priority by raising the issue of antibiotic resistance during
bilateral consultations and multilateral forums and by advancing implementation of the Global
Health Security Agenda (GHSA) Antimicrobial Resistance Action Package.
Sub-Objective 5.4.3: Provide technical assistance as needed to underdeveloped and
developing nations to improve their capacity to detect and respond effectively to antibiotic
resistance.
Milestones
Within three years:
•• CDC will develop bilateral agreements with twelve to fifteen countries to develop countryspecific surveillance strategies, and will assess expansion of these activities to additional
countries (see also Objective 5.1).
•• CDC and other U.S. agencies will assist partner countries with development and implementation
of national strategies for infection prevention and control in healthcare facilities.
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Within five years:
•• CDC and other U.S. agencies will assist at least fifteen countries with collection of resistance
surveillance data and data-sharing with stakeholders.
Research and Development: Incentivize development of therapeutics and diagnostics for
humans and animals.
5.5 Establish and promote international collaboration and public-private
partnerships to incentivize development of new therapeutics to counter
antibiotic resistance, including new, next-generation, and other alternatives
to antibiotics, vaccines, and affordable, rapidly deployable, point-of-need
diagnostics.
Milestones
Within one year:
•• U.S. agencies, led by HHS, will work with WHO, FAO, OIE, and other international partners to
accelerate investment in research to develop point-of-care diagnostics, vaccines, and drugs
to combat resistant bacteria, as well as to investigate the microbiomes of food animals. For
example, U.S. agencies and partners in industry and academia will work with TATFAR partners to
advance collaborations with EU nations to facilitate translational and clinical research on tools
to slow the emergence and spread of antimicrobial resistance. U.S. agencies will also explore
collaborations with the New Drugs 4 Bad Bugs (ND4BB) programs of the Innovative Medicines
Initiative.
Within three years:
•• U.S. agencies and partners in industry and academia will establish or expand additional international partnerships to advance research to reduce antibacterial resistance through the
development of point-of-care diagnostics, vaccines, and drugs.
•• USDA will establish or expand five collaborative international partnerships to facilitate research
regarding development of alternatives to antibiotics, as well as vaccines and new antimicrobial
drugs that are less likely to develop resistance.
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Prevention and Control: Strengthen systems in countries, regional networks, and global
partnerships to prevent and control the emergence and spread of antibiotic resistance through
evidence-based interventions, and monitor and evaluate the effectiveness of interventions.
5.6
Support countries to develop and implement national plans to combat
antibiotic resistance and strategies to enhance antimicrobial stewardship.
Milestones
Within one year:
•• U.S. agencies, led by HHS/OGA, will collaborate with the global community to ensure that the
WHO Global Action Plan on Antimicrobial Resistance incorporates approaches and interventions
that benefit all healthcare programs and calls for the development of national plans to combat
antibiotic resistance (see also Sub-Objective 5.4.2).
Within three years:
•• CDC and USAID will provide technical assistance to foreign ministries of health and agriculture
to advance the use of tools and interventions that have proven successful at slowing the spread
of resistance in healthcare and agricultural settings (e.g., infection prevention and control and
antibiotic stewardship programs in hospitals).
•• U.S. agencies, led by USAID and CDC, will support at least four Low and Middle Income Countries
(LMICs) in developing and/or operationalizing national antimicrobial resistance containment
plans, national healthcare-facility infection prevention and control plans, antimicrobial stewardship strategies, or comparable packages of interventions.
Within five years:
•• U.S. agencies, led by USAID and CDC, will:
−− Support at least three additional LMICs in developing and/or operationalizing national
antimicrobial resistance containment plans, national healthcare facility infection prevention and control plans, antimicrobial stewardship strategies, or comparable packages of
interventions.
−− Support the implementation of national infection prevention and control programs in at
least twenty priority healthcare facilities in eight LMICs.
−− Support operational research that leads to remedial actions and improved antibiotic use in
at least eight healthcare facilities in 4 LMICs.
−− Develop and disseminate at least four global technical leadership documents/reports for
use by LMICs and the global community, that review approaches, results, lessons learned,
and recommendations related to key antibiotic containment strategies.
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•• U.S. agencies, led by HHS/OGA, the Department of State and USAID, will support international
advocacy and coordination to contain the common threat of antimicrobial resistance, through
collaboration with WHO and other partners and participation in multilateral forums, such as
the 4th Conference on Improving Use of Medicines (ICIUM).
•• USDA will use Veterinary Accreditation training modules—including the Judicious Use Module
—to assist countries in at least three WHO regions in developing sustainable veterinary service
capacity to monitor and slow antibiotic resistance and to report outbreaks of drug resistant
disease to WHO, international surveillance networks, collaborative reporting structures, or (when
appropriate) to International Health Regulations (IHR) focal points.
•• USDA will translate the Judicious Use Module into three other languages.
A milestone on development of national plans for strengthening laboratory-based surveillance for
antibiotic resistance is provided under Objective 5.1.
5.7
Partner with other nations to promote quality, safety, and efficacy of
antibiotics and strengthen their pharmaceutical supply chains.
Milestones
Within three years:
•• U.S. agencies, led by USAID, will support country systems to enhance access to and appropriate
use of quality-assured, safe, effective essential antibiotics through improved medicines, regulatory capacity and quality assurance systems, modern procurement practices, reliable and secure
supply chains, and equitable pharmaceutical services in at least four LMICs.
Within five years:
•• U.S. agencies, led by USAID, will:
−− Support country systems that enhance access to quality-assured, safe, effective essential
antibiotics in at least eight LMICs.
−− Develop and disseminate at least four global technical leadership documents/reports, for
use by LMICs and the global community, that review approaches, results, lessons learned,
and recommendations on access to quality-assured, safe, effective antibiotics and issues
related to regulation, quality assurance, and patient safety in the use of antibiotics.
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5.8
Coordinate regulatory approaches by collaborating with international
organizations such as FAO and OIE to harmonize international data
submission requirements and risk assessment guidelines related to the
licensure and/or approval of veterinary medicinal products, including
antibacterial agents, vaccines, and diagnostics, to the extent possible.
U.S. agencies are working in partnership with TATFAR, the WHO Advisory Group on Integrated
Surveillance of Antimicrobial Resistance (AGISAR), the International Conference on Harmonization
of Technical Requirements for Registration of Pharmaceuticals for Human Use (ICH), the International
Cooperation on Harmonization of Technical Requirements for Veterinary Medicinal Products (VICH), the
Institute for International Cooperation in Animal Biologics (IICAB), and the International Medical Device
Regulators Forum (IMDRF) to facilitate the development of antibacterial drugs for human and agricultural
use, diagnostic tests for human and animal bacterial diseases, vaccines for human and animal bacterial
diseases, and risk assessments on the use of medically-important antibacterial drugs in agriculture.
Milestones
Within one year:
•• FDA and USDA will contribute to and participate in global or regional cooperation with international organizations, including AGISAR, VICH, IICAB, and IMDRF, regarding development
of vaccines, antibacterial drugs, and diagnostic tests for use in agriculture, and regarding risk
assessments of the use of medically-important antibiotics in agriculture.
•• USDA will maintain the U.S. commitment to VICH and IICAB, expanding the Global Outreach
Forum to:
−− Promote the use of VICH guidance for safety, quality, potency and effective use of vaccines
outside of the three cooperating major regions (the U.S., Japan, and the European Union).
−− Facilitate input from a broadened base of participating countries and economies.
•• USDA will plan and participate in at least three VICH Global Outreach Forums over the first two
years.
•• USDA will hold at least one international meeting in collaboration with IICAB to discuss U.S.
regulatory policy in a workshop setting.
Within three years:
•• FDA and USDA will consult with regional health authorities about their processes for achieving
regulatory approval of new antibacterial drugs, diagnostics, and vaccines for use in medicine and
agriculture and for conducting risk assessments on the use of medically-important antibiotics
in agriculture.
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Within five years:
•• FDA and USDA will engage China and additional interested partner countries to exchange technical information and harmonize approaches for risk assessment and regulation of veterinary
medicinal products.
•• FDA and USDA will work with OIE and other international partners on development of standardized methods of reporting antimicrobial drug use in animals.
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Appendix
TABLE 3: CDC’s Antibiotic-Resistant Threats in the United States, 2013
URGENT Threat Level Pathogens (3)
Clostridium difficile
250,000 infections per year requiring hospitalization or affecting hospitalized patients.
14,000 deaths per year.
At least $1 Billion in excess medical costs per year.
C. difficile deaths increased 400% between 2000-2007 because of the emergence of a strain resistant to a common antibiotic
class (fluoroquinolones).
Almost half of infections occur in people younger than 65, but more than 90% of deaths occur in people 65 and older.
Half of C. difficile infections first show symptoms in hospitalized or recently hospitalized patients, and half show symptoms
in nursing home patients or in people recently cared for in doctors’ offices and clinics who received antibiotics.
The majority (71%) of pediatric Clostridium difficile infections, which are bacterial infections that cause severe diarrhea and
are potentially life-threatening, occur among children in the general community, 73% were found to have recently taken
antibiotics prescribed in doctor’s offices for other outpatient settings.6
Carbapenem-Resistant Enterobacteriaceae*
Out of ~140,000 healthcare-associated Enterobacteriaceae infections per year, more than 9,000 are caused by CRE (7,900
CR-Klebsiella spp; 1,400 CR-E. coli.).
Out of ~140,000 healthcare-associated Enterobacteriaceae infections per year, more than 9,000 are caused by CRE (7,900
CR-Klebsiella spp; 1,400 CR-E. coli.).
44 States have had at least one type of CRE confirmed by CDC testing.
CRE are resistant to nearly all antibiotics including carbapenems—the antibiotic of last resort.
Neisseria gonorrhoeae* (Notifiable to CDC)
Neisseria gonorrhoeae causes gonorrhea, is the second most common reportable infection in the United States, and is
developing resistance to the cephalosporin antibiotics, the last line treatment option for this infection.
Of the 820,000 cases per year, 30% (246,000) now demonstrate resistance to at least one antibiotic.
If cephalosporin-resistant N. gonorrhoeae becomes widespread, the public health impact during a 10-year period is
estimated to be 75,000 additional cases of pelvic inflammatory disease, 15,000 cases of epididymitis, and 222 additional HIV
infections, with an estimated direct medical cost of at least $235 million.
SERIOUS Threat Level Pathogens (12)
Multidrug-Resistant Acinetobacter
12,000 healthcare-associated Acinetobacter infections occur in the U.S. of which 7,000 are multidrug-resistant
~ 500 deaths per year.
At least three different classes of antibiotics no longer cure resistant Acinetobacter infections.
Drug-Resistant Campylobacter
Campylobacter causes ~1.3 Million infections, 13, 000 hospitalizations and 120 deaths each year; 310,000 (25%) drugresistant Campylobacter infections are found each year.
Campylobacter drug resistance increased from 13% in 1997 to 25% in 2011.
Campylobacter spreads from animals to people through contaminated food, particularly raw or undercooked chicken and
unpasteurized milk.
Antibiotic use in food animals can results in resistant Campylobacter than can spread to humans.
Fluconazole-Resistant Candida
Out of 46,000 Candida yeast infections per year, 3,400 (30%) of patients with bloodstream infections with drug-resistant
(DR)-Candida die during their hospitalization.
CDC estimates that each case of Candida infection results in 3-13 days of additional hospitalization and a total of $6,000$29,000 in direct healthcare costs per patient.
6. Wendt, J.M. et al. Clostridium difficile Infection Among Children Across Diverse US Geographic Locations.
Pediatrics. January 3, 2014
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TABLE 3: CDC’s Antibiotic-Resistant Threats in the United States, 2013
SERIOUS Threat Level Pathogens (12), continued
Extended Spectrum β-Lactamase (ESBL) Producing Enterobacteriaceae*
Extended Spectrum β-Lactamase (ESBL) is an enzyme that allows bacteria to become resistant to a wide spectrum of
penicillins and cephalosporins.
Of 140,000 Enterobacteriaceae infections per year, 26,000 are drug resistant causing 1,700 deaths.
26,000 healthcare-associated Enterobacteriaceae infections are caused by ESBL-Enteorbacteriaceae.
26,000 healthcare-associated Enterobacteriaceae infections are caused by ESBL-Enteorbacteriaceae.
Vancomycin-Resistant Enterococcus
Of 66,000 Enterococcus infections per year, 20,000 are drug resistant causing 1,300 deaths.
Enterococcus strains resistant to vancomycin leave few or no treatment options.
Multidrug-Resistant Pseudomonas aeruginosa
Of 51,000 Pseudomonas infections per year, 6,700 are multidrug resistant causing 440 deaths.
13% of severe healthcare-associated infections caused by Pseudomonas are multidrug resistant, meaning nearly all or all
antibiotics no longer cure these infections.
Drug-Resistant Non-Typhoidal Salmonella* (Notifiable to CDC)
Non-typhoidal Salmonella causes 1.2 million infections per year, of which 100,000 are drug- resistant resulting in 23,000
hospitalizations and 450 deaths each year.
Non-typhoidal Salmonella results in higher number of hospital stays, length of stay, and treatment costs.
Drug-Resistant Salmonella typhi (Notifiable to CDC)
Of 21.7 M Salmonella typhi infections worldwide, 5,700 illnesses in the U.S. with 3,800 (67%) of infections are drug-resistant
resulting in 620 hospitalizations each year.
Before the antibiotic era or in areas where antibiotics are unavailable, Salmonella typhi results in up to 20% deaths.
Drug-Resistant Shigella* (Notifiable to CDC)
Shigella causes ~ 500,000 illnesses, 5,500 hospitalizations, and 40 deaths each year in the U.S.
Since 2006, Shigella resistance to traditional first-line antibiotics has become so high that physicians must now rely on
alternative drugs (ciprofloxacin and azithromycin) to treat infections.
Methicillin-Resistant Staphylococcus aureus (MRSA)*
Over 80,000 invasive MRSA infections and 11,285 related deaths per year (in 2011).
Severe MRSA infections most commonly occur during or soon after inpatient medical care.
Between 2005 and 2001, overall rates of invasive MRSA dropped 31% predominantly due to appropriate medical procedures
implemented in central-line maintenance.
Drug-Resistant Streptococcus pneumoniae* (Notifiable to CDC)
Of 4 million disease incidents and 22,000 deaths; 1.2 M are drug resistant (to amoxicillin and azithromycin (Z-Pak) resulting
in 19,000 excess hospitalizations and 7,900 deaths.
In 30% of S. pneumoniae cases, the bacteria are fully resistant to one or more antibiotics causing complications in treatment
and death.
Pneumococcal pneumonia accounts for 72% of all direct medical costs for treatment of pneumococcal disease and in
excess of $96 million in medical costs per year.
Pneumococcal conjugate vaccine (PCV) prevents disease, reduces antibiotic-resistance by blocking the transmission of
resistant S. pneumoniae strains, and protects against 13 strains of Streptococcus.
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TABLE 3: CDC’s Antibiotic-Resistant Threats in the United States, 2013
SERIOUS Threat Level Pathogens (12), continued
Drug-Resistant Tuberculosis* (Notifiable to CDC)
Tuberculosis is among the most common infectious diseases and cause of death worldwide.
Of 10,528 Tb cases in the U.S. in 2011, 1,042 (9.9%) were resistant to antibiotics resulting in 50 deaths.
CDC manages 5 Tb Regional Training and Medical Consultation Centers (RTMCCs) and ongoing surveillance for drugresistant Tb in all 50 states and DC using the National Tuberculosis Surveillance System (NTSS).
OF CONCERN Threat Level Pathogens (3)
Vancomycin-Resistant Staphylococcus aureas (Notifiable to CDC)
Few cases thus far (13 cases in 4 States since 2002).
Staph a strains resistant to vancomycin leave very few or no treatment options.
Erythromycin-Resistant Group A Streptococcus
Group A Strep (GAS) causes many illnesses including strep throat (up to 2.6 M cases per year), toxic shock syndrome, and
“flesh-eating” disease (necrotizing fasciitis, 25-35% fatal).
Erythromycin-resistant GAS causes 1,300 illnesses and 160 deaths.
Current concern is the increase in bacteria that show resistance to. clindamycin—which has a unique role in treatment of
GAS infections.
Clindamycin-Resistant Group B Streptococcus
Of 27,000 Group B Strep (GBS) cases, 7,600 illnesses are drug-resistant resulting in 440 deaths in the U.S. each year.
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