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REDS-II DONOR IRON STATUS EVALUATION (RISE) STUDY
Sponsored by:
The National Heart, Lung, and Blood Institute
Transfusion Medicine Branch
National Institute of Health
SUPPORTING STATEMENT A
Request for Revision and Renewal
Project
Officer/ICD Contact: George J. Nemo, Ph.D.
Transfusion
Medicine Branch
Division
of Blood Diseases and Resources
National
Heart, Lung, and Blood Institute
Two
Rockledge Center
Suite
10042
6701
Rockledge Drive
Bethesda,
MD 20892
Phone:
(301) 435-0075
Fax:
(301) 480-0868
Email:[email protected]
TABLE
OF CONTENTS
Section Page
List of Tables
Tables
A2.2.1:
RISE Study start dates 6
A2.2.2:
Number of donors enrolled in RISE study 7
A2.2.3:
Number of Follow-up Visits 7
SUPPORTING
STATEMENT A
Introduction
and Summary
Iron loss is a known consequence of blood donation. Although the
overall health significance of iron depletion in blood donors is
uncertain, iron depletion leading to iron deficient erythropoiesis
and lowered hemoglobin levels results in donor deferral and,
occasionally, in mild iron deficiency anemia. Hemoglobin deferrals
represent more than half of all donor deferral, deferring 16% of
donation attempts by women. This Iron Cohort study has been developed
under the National Heart, Lung, and Blood Institute’s (NHLBI)
Retrovirus Epidemiology Donor Study-II (REDS-II) contract. The
contract for REDS-II was awarded in August 2004 to six blood centers
and a coordinating center (CC). The blood centers include the
American Red Cross New England Region (NEARC), Dedham, Massachusetts;
the American Red Cross Southern Region (SARC), Atlanta, Georgia;
Blood Center of Wisconsin (BCW), Milwaukee, Wisconsin; Hoxworth Blood
Center (HBC), Cincinnati, Ohio; the Institute of Transfusion Medicine
(ITxM), Pittsburgh, Pennsylvania; and Blood Centers of the Pacific
(BCP), San Francisco, California. Westat, located in Rockville,
Maryland, serves as the CC. The CC is responsible for protocol
implementation, monitoring, data management and analysis. A REDS-II
central laboratory contract was also awarded to Blood Systems
Research Institute in San Francisco, California.
Among the six REDS-II blood centers, a longitudinal study of iron
status in two cohorts of blood donors will be conducted. The first
cohort will be comprised of 840 first time and returning
(reactivated) donors for whom baseline iron and hemoglobin status can
be assessed without the influence of previous donations, and a second
cohort of 1500 frequent donors, where the cumulative effect of
additional frequent blood donations can be assessed. For each cohort,
donors will routinely donate blood during the study period. As part
of the research study, a sample of their blood will be collected for
laboratory testing.
At the baseline and final study visits, hemoglobin levels and a panel
of iron protein and red cell and reticulocyte indices will be
measured. The final study visit is defined as the latest visit
occurring 15-24 months after the initial enrollment visit. At these
visits donors will complete a self-administered survey (Attachments
1, 2) assessing past blood donation, smoking history, use of vitamin,
mineral and iron supplements, use of aspirin, intake frequency of
heme-rich foods, and for females, menstrual status and pregnancy
history, and questions on Restless Leg Syndrome (RLS) questions and
Pica . A DNA sample will be obtained once at the baseline visit to
assess three key iron protein polymorphisms. Further, throughout the
study when a subject returns, fingerstick hemoglobin or hematocrit
values will be obtained and plasma will be collected for selected
measurements of ferritin, and sTfR levels to the extent possible.
Test results and survey data will be combined with demographic,
anthropomorphic, racial/ethnic, and zip code (to estimate altitude)
data routinely compiled at all REDS-II centers.
The primary goal of the study is to evaluate the effects of blood
donation intensity on iron and
hemoglobin status and assess how these are modified by demographic,
reproductive and behavioral factors. This study aims to identify
laboratory measures for predicting the development of iron depletion,
and hemoglobin deferral in whole blood and double red cell donors as
that could be potentially useful for donor management. The data
collected will help evaluate hemoglobin distributions in the blood
donor population (eligible and deferred donors) and compare them with
NHANES data. It will also help formulate a predictive model for the
development of iron depletion, hemoglobin deferral and/or iron
deficient hemoglobin deferral in whole blood donors, which could be
beneficial to developing optimal whole blood donation frequency
guidelines.
Secondary objectives include elucidating key genetic influences on
hemoglobin levels and iron status in a donor population as a function
of donation history; and establishing a plasma and DNA archive to
evaluate the potential utility of future iron tests and genetic
polymorphisms.
Restless leg syndrome (RLS) is a neurologic movement disorder in
which patients complain of crawling, aching or indescribable feelings
in their legs or just have the need to move. Pica is an eating
disorder defined as compulsive ingestion of non-food substances. Both
disorders are strongly associated with iron deficiency. Blood
donation results in the removal of 200-250 mg of iron from the donor.
It is well established that repeated blood donation can produce iron
deficiency, yet the prevalence of RLS and Pica among blood donors is
unknown. The REDS-II Steering Committee discussed and approved the
addition of eleven questions to the study final questionnaire
designed to assess the prevalence and severity of RLS and pica in
blood donors enrolled in the RISE Study in December 2008. These
particular study subjects are an ideal study population for the
investigation of RLS and pica in blood donors. Over 2,400 subjects
with variable donation intensity (e.g. frequency with which a person
donates blood) are currently enrolled in the RISE Study. About 1500
subjects (and a minimum of 1200 subjects) are expected to complete
the final questionnaire. The iron status of all of these subjects is
well characterized, including measurement of plasma ferritin and
soluble transferrin receptor along with hemoglobin/hematocrit. These
laboratory values allow each subject to be defined as 1) iron
replete, 2) iron deficient without anemia or 3) iron deficiency
anemia. The responses to the questions concerning RLS and Pica on the
final questionnaire will be compared with the laboratory test values
to determine associations between blood donation and the development
of RLS and Pica.
A. Justification
A.1 Circumstances
Making the Collection of Information Necessary
Introduction
Deferral for low hemoglobin levels is the most common cause of
presenting donor loss, particularly in females. Within the New
England Region they represent more than half of all deferrals,1
nearly all being women. Approximately, 15% of women presenting at
blood drives are deferred for their hemoglobin
level, in contrast to approximately 5%
of male donors. The deferral of large numbers of presenting female
donors, many of whom do not return or are again deferred on repeat
presentation, leads to significant problems maintaining, let alone
increasing the blood supply –a principal goal
of REDS-II.
Several cross sectional studies of blood donors, using older measures
of iron status have indicated that being female, frequent donation
and not taking iron supplements are predictors of iron depletion.
However, none of these studies have included racial/ethnic,
anthropomorphic, or behavioral factors and none have evaluated the
impact of newly discovered iron protein polymorphisms.
Collecting the proposed information is a vital part of the overall
responsibility of the Federal Government and U.S. blood collection
centers to ensure the safety and availability of the national blood
supply. NHLBI has a Congressional mandate, Sec 421 [285b-3] and 422
[285b-4] to ensure the overall safety of the blood supply. An
important aspect to this assurance is ongoing epidemiology and
laboratory research regarding blood donation practices and procedures
to ensure the safety of donors while ensuring a blood supply adequate
to fulfill the nation’s needs. The NHLBI strategic plan for FY
2002-2006 includes work to continue improving the safety and supply
of blood for transfusion and this study supports this NHLBI mission.
This study will develop better predictive models for the development
of iron depletion and hemoglobin deferral (with or without iron
deficiency) in blood donors. It will allow for improved donor
screening strategies and open the possibility for customized donation
frequency guidelines for individuals or classes of donors thus
helping protect the well being of blood donors. It will provide
important baseline information for the design of targeted iron
supplementation strategies to replace iron loss in blood donors, and
improved counseling messages to blood donors regarding diet or
supplements. Finally, the elucidation of the effect of genetic iron
protein polymorphisms on the development of iron depletion will
enhance the understanding of the role of these proteins in states of
iron stress, using frequent blood donation as a model.
A.2 Purpose
and use of the information
Data collected in this study will be of practical use to the blood
banking community and to the Federal Government (See Section A.1.).
In addition to the traditional route of peer reviewed scientific
publication, previous REDS-I study data were the subject of numerous
requested presentations by Federal and non-Federal agencies,
including the FDA Blood Products Advisory Committee, the HHS Advisory
committee on Blood Safety and Availability, the AABB
Transfusion-Transmitted Diseases Committee, and the Americas Blood
Centers Association. We anticipate similar requests for data
generated from this study. The questionnaires for data collection
have been designed to meet the analysis objectives detailed in
Section A.16. There are two versions of the questionnaire for the
purpose of collecting data at the baseline and final visits
(Attachments 1, 2). Attachment 3 lists the questions by study
objectives along with their specific goals and source. The broad
categories of information to be collected are:
Baseline
Questionnaire:
Donation
history
Smoking
history
Diet
Use of
vitamins, supplements and aspirin containing pain killers
Reproductive
history (for female donors only)
Final
Questionnaire:
Smoking
history
Use of
vitamins, supplements and aspirin containing pain killers
Reproductive
history (for female donors only)
Restless
Leg Syndrome questions
Pica
questions
A.
2.1 Scientific Justification for RISE Repository
A small portion of the blood collected will be frozen and stored in
the repository for possible later use. These samples will be used as
other tests for iron status or iron genetic markers are developed.
Routine whole blood donation results in removal of about 250 mg of
iron from the donor. Since males typically have about 500 to 1000 mg
of stored iron, while females have much less, blood donation places a
significant stress on iron metabolism. Over the past 6 years there
have been major advances in our understanding of iron metabolism.
These advances were catalyzed by the discovery in 2001 of hepcidin,
an iron regulatory hormone made by the liver.��1,2�
Hepcidin prevents iron absorption from the gastrointestinal tract and
iron release from the reticuloendothelial system. Patients with
hemochromatosis have inappropriately low hepcidin levels and continue
to absorb iron despite elevated iron stores. In contrast, patients
with the anemia of chronic inflammation have inappropriately high
hepcidin levels (hepcidin is an acute phase protein) and do not
recycle iron from the reticuloendothelial system to produce new red
blood cells.
Establishment of a plasma and DNA archive containing samples from
blood donors with well defined donation histories will be a valuable
resource for study of how hepcidin and other recently discovered iron
regulatory proteins respond to the stress of iron loss via blood
donation. These studies of iron metabolism in healthy blood donors
will provide new information that will help us to develop new
strategies to prevent iron deficiency in blood donors and to
understand the pathophysiology of diseases with altered iron
metabolism. A repository is needed because many of these proteins
and/or their related genes have been discovered so recently that
reliable assays for their measurement are still in development. In
addition, a repository will be needed to rapidly assess the utility
in patients and in blood donors of new proteins or genes discovered
to regulate iron metabolism.
Examples of iron regulatory proteins that have recently been
discovered include hemojuvelin, ferroportin, and transferrin receptor
2. These three proteins, as well as the Hfe protein originally
linked to patients with hemochromatosis, all regulate hepcidin
production.��3� In August 2007 three additional important
papers were published describing important advances in our
understanding of iron metabolism. The publication of these papers in
the same month emphasizes how rapidly this field is advancing. First,
a new plasma/serum assay for hepcidin using liquid chromatography
mass spectrometry was published in Blood.��4� This new
assay is important because previous assays for hepcidin could only
reliably detect it in urine. Second, a common variant allele
associated with restless leg syndrome and low serum ferritin levels
was described in the New England Journal of Medicine.��5�
Third, a paper in Nature Medicine described the function of a protein
called GDF15 produced by erythroblasts in the bone marrow.��6�
It was shown that GDF15 released from the bone marrow prevents
hepcidin production by the liver resulting in increased iron
absorption from the gastrointestinal tract. Identification of this
pathway is important because it describes the molecular mechanism for
the inappropriate absorption of iron by patients with thalassemia.
This results in iron overload in these patients which is often
exacerbated by the iron received through frequent blood transfusions
to treat their anemia.
A plasma and DNA linked repository with well characterized donation
histories and classical iron markers already measured will allow
assessment in these donors of genetic, chemical or cellular markers
of iron status. This would encompass currently known iron regulatory
proteins as reliable assays become available as well as proteins or
genes that have not yet been discovered. A potential strategy,
consonant with the efforts of this protocol, would be to search for
genetic biomarkers which predict an individual donor’s
capacity/intensity for donation. The repository would also enable the
follow-up of any unexpected findings in the RISE study, and the
resolution of testing discrepancies, if necessary. Finally, the
repository will be a valuable resource for more general inquiry into
the regulation of iron, such as may be important in patients with a
variety of disease states.
A
2.2 Summary of Activities since Previous OMB Submission
Subject enrollment for the
RISE study started in December 2007. The baseline phase of the study
ended on June 1, 2008 and 2454 donors were enrolled in the study. So
far 23 donors have been de-enrolled leaving a total of 2431 study
subjects. See Tables A2.2.1 and A2.2.2 below for start dates and
number of donors enrolled in the study.
Table A2.2.1: RISE Study start dates
RISE Study Start Dates
|
Blood Center
|
December 11, 2007
|
NEARC
|
December 17, 2007
|
BCW
|
January 02, 2008
|
HBC, BCP
|
January 07, 2008
|
ITxM, SARC
|
Table A2.2.2: Number of donors
enrolled in RISE study
Donor Status
|
Number of donors
|
First Time/Reactivated
|
914
|
Repeat
|
1517
|
Total
|
2431
|
Follow-up visits for the study
started in late February 2008. As of February 15, 2009, 1932 subjects
have made 5292 follow-up visits.
Table A2.2.3: Number of Follow-up
Visits
Donor Status
|
Number of Visits
|
First Time/Reactivated
|
1132
|
Repeat
|
4160
|
Total
|
5292
|
Laboratory Testing and Compilation of Test
Results
Baseline ADVIA samples
collected at the blood centers were tested and results were
transmitted electronically bi-weekly to the Coordinating Center. The
Coordinating Center had developed procedures to QC ADVIA results to
remove duplicates and discrepancies. All of the baseline ADVIA data
has been cleaned. In July 2008, the protocol was amended to perform
ADVIA testing on follow-up samples collected from repeat female
donors. Three blood centers, ITxM, BCW and HBC, are performing this
testing and transferring data to the CC in the same fashion as for
the baseline samples. Westat will continue to follow QC procedures
similar to those for baseline samples and will generate QC reports
monthly. Additionally, hard copies of ADVIA data are reviewed for QC
purposes as data is received from the BC.
Iron assay testing has been
performed on all of the baseline study samples and Westat has
received test results on all samples. Strategies for selecting the
interim samples for iron testing are yet to be determined. All final
samples will be sent for iron assay testing. All baseline samples
have been shipped to the Central Laboratory from the blood centers
for polymorphism testing. Testing is nearly completed.
Procedures were developed for
QC of data. Monthly QC reports are generated and distributed to the
blood centers. Each blood center is responsible for reviewing these
reports and providing information on edits. All of the baseline data
and follow-up data through November 2008 has been QCed and edited.
Data Analysis
Analysis of baseline data is
currently being performed. Longitudinal
analysis to evaluate all study hypotheses including the effects of
blood donation intensity on
iron and
hemoglobin status and assess how these are modified as a function of
baseline iron/hemoglobin measures, demographic factors, and
reproductive and behavioral factors will be performed after the end
of the study.
Data
collection and QC is an ongoing activity that will continue through
March of 2010. Data analysis will be concluded in May 2010.
A.3 Use of Information Technology and Burden
Reduction
Due to the simplicity of the questions, we believe a
self-administered, paper questionnaire that donors can quickly
complete in private at the time of donation is the least burdensome
form of data collection. The responses to the questionnaire will be
entered into a secure, web based, data capture system by specially
trained REDS-II research coordinators.
Donors will be assured of the confidentiality of their responses. A
label will be placed on the paper questionnaire with a unique Subject
ID number assigned to each enrolled donor. Use of the Subject ID on
the questionnaire will allow for tracking of survey responses without
entering identifying information into the study database. The link
between the Subject ID number and the identity of the donor is only
maintained by the blood centers. This link is maintained should there
be a need to re-contact the donor in the future or should the donor
wish to withdraw from the study. The CC will not have access to any
donor identifying information.
Efforts to minimize respondent burden are described below:
The
questions are presented along with easy-to-read instructions and
skip patterns to avoid having respondents answer unnecessary
questions.
The
questionnaire contains tried and tested questions from previous REDS
survey, the California Smoking Survey,2 the NIH Diet
History Questionnaire;3 the National Health and Nutrition
Examination Survey (NHANES)4 and the
Mansfield-Voda-Jorgensen Menstrual Bleeding Scale 5.
A.4 Efforts to Identify Duplication and Use of
Similar Information
None of the iron status studies conducted in the past have included
racial/ethnic, anthropomorphic, or behavioral factors and none have
evaluated the impact of newly discovered iron protein polymorphisms.
This information is not routinely collected by U.S. blood collection
centers in the course of their regular donor screening operations.
A.5 Impact on Small Businesses or Other Small
Entities
Small businesses or entities are not involved. All respondents are
individual blood donors.
A.6 Consequences of Collecting the Information at
a Chosen Frequency
Questionnaires will be administered at the baseline and final
follow-up visit for the two donor cohorts (first time/reactivated and
repeat donors). This will help to study the impact of diet, behavior,
use of supplements, reproductive history for females, and frequency
of donation on the iron status of the donor. In addition, RLS and
Pica questions will be asked at the final visit. Blood samples will
be collected at these two visits and also during the interim visits.
A.7 Special Circumstances Relating to the
Guidelines of 5 CFR 1320.5
The proposed data collection is consistent with 5 CFR 1320.5.
A.8 Comments in Response to the Federal Register
Notice and Efforts to Consult Outside Agency
The 60-day Federal Register Notice requesting comments was published
on March 9, 2009. No comments were received in response to this
notice. There has been consultation outside of NHLBI to conceptualize
and design the proposed study. The final study design was developed,
reviewed, and approved by the REDS-II subcommittee, the REDS-II
Steering Committee, and the Observational Study Monitoring Board
(OSMB) (See Attachment 4 for a complete list of members). The OSMB
reviewed the final protocol and provided input and comments (See
Attachment 5). Revisions were made to the sample size and consent
document incorporating the suggestions of the OSMB.
A.9 Explanation of Any Payment or Gifts to
Respondents
Study participants will not receive any payments or gifts.
A.10 Assurance of Confidentiality Provided to
Respondents
The Privacy Act does not apply to the proposed data collection since
identifiable information will not be collected on this questionnaire.
A.11 Justification for Sensitive Questions
The deferral of large numbers of presenting female donors, many of
whom do not return or are again deferred on repeat presentation,
leads to significant problems maintaining, let alone increasing the
blood supply – a principal goal of REDS-II. The relationship of
blood donation to iron stores was first elucidated by Simon, et al.
in a cross-sectional observational study of blood donors.6 The
overall frequency of iron depletion was 8% in male blood donors and
23% in female blood donors. The loss of approximately 230
mg iron with each whole blood donation along with a limited
absorption capacity leads to a high incidence of iron deficiency in
frequent donors, especially women. More than two thirds of body iron
is contained in red cells, and red cell loss is the major route for
iron loss from the body.
To satisfy study objectives, it is essential to collect information
on factors that influence iron balance in women. This includes
menstrual history, as well as the number, outcome (live birth, still
birth, or whether they were miscarriages/terminated pregnancy) and
date of pregnancy.
The average menstrual period results in a loss of 15-25 mg of iron
contained in shed red cells. This causes pre-menopausal women to have
a dietary requirement that is 50% higher than men. There is
considerable variability in the frequency and amount of menstrual
bleeding. The age of onset of menopause is quite variable as well.
Because there is this significant variation among women in their iron
loss from non-blood donation sources, it is necessary for the
protocol objectives to accurately assess these variables. In fact, it
is expected that menstrual variables may be important in determining
the ability of a woman donor to donate at her desired frequency.
Pregnancy places an even more extreme, although short-term, iron
stress on women. The average pregnancy causes a woman to lose
700-1000 mg of iron, equivalent to the donation of 3-4 units of
blood. Miscarriage or other earlier termination of pregnancy will
have a lesser, but meaningful impact on body iron stores. Thus a
woman’s pregnancy history is highly important as a variable to
explain her ability to donate blood subsequently.
For additional information see Attachment 3. There is no attempt to
recruit female donors based on specific reproductive histories.
Special attention has been devoted to carefully design possible
sensitive questions related to pregnancy history in a straightforward
and non-judgmental way. Demographic variables (e.g., age, gender,
race/ethnicity), genetic factors (e.g., transferrin G277S
polymorphism, HFE markers), behavioral factors (e.g., mineral
supplements, smoking) are all known to impact iron or hemoglobin
status. The study proposed here will investigate how these factors
interact with one another to influence the development of iron
depletion and deficiency in blood donors. These questions have been
developed, tested, and are used by the National Health and Nutrition
Examination Survey (NHANES) conducted by Health and Human Services
(HHS). In addition, being aware of the possibly sensitive nature of
the pregnancy related questions, the following steps will be taken to
assure the confidentiality of respondents:
Identities
of donors who enroll in the study are known only to the blood
center. All information is transmitted to the CC via a secure web
portal and will contain only Study ID numbers. These numbers can be
linked to the donor’s identity only by the blood center. Once
entered and data verified, the blood center will not retain the hard
copy questionnaires.
To help
ensure privacy, the questionnaire will be self-administered.
All data
will be stored in a secure location, accessible only to authorized
study personnel.
Donors are
advised of the voluntary nature of their participation in the study
and of the steps taken to ensure the confidentiality of the
information collected. See Informed Consent Document, Attachment 6.
A.12 Estimates of Hour Burden Including
Annualized Hourly Costs
Burden hours and annualized costs to respondents have been revised
based on the time required to complete the revised final visit
questionnaire. We estimate the new time to be 15 minutes because of
the additional eleven questions.
The annualized cost to respondents is estimated at $15,588 for the
baseline visit and $6,894 for final visits based on $18 per hour. It
is estimated that each respondent will spend about 22 minutes (0.37
burden hours) reading and understanding the study information
material and completing the baseline questionnaire and about 15
minutes (0.25 burden hours) completing the final follow up
questionnaire. The respondent population of U.S. blood donors
represents a wide range of wage rates. Therefore, the $18 per hour
wage rate was selected based on reported overall labor force mean
hourly earnings in 20047.
Table A.12. Estimates of hour
burden and annualized cost to respondents
Type of Respondents
|
Estimated Number of Respondents
|
Estimated Number of Responses per Respondent
|
Average Burden Hours per Response
|
Hourly Wage Rate ($)
|
Estimated Total Annual Burden Hours Requested
|
Blood donors at Baseline Visit
|
2,340
|
1
|
0.37
|
18
|
866
|
Blood donors at Final Visit
|
1,530
|
1
|
0.25
|
18
|
383
|
|
|
|
|
|
1,249(Total)
|
A.13 Estimates of Other Total Annual Cost Burden
to Respondents or Record Keepers
There are no capital or start-up costs, and no maintenance or service
cost components to report.
A.14 Annualized Cost to the Federal Government
The total cost to the Federal Government for the proposed study is
estimated to be approximately $3.2 million for a 24 month period, or
an annualized cost of approximately $ 1.6 million. The annualized
cost for the baseline questionnaire is $15,588 and the final
questionnaire is $6,894.
A.15 Explanation for Program Changes or
Adjustments
The estimates of burden hours in Section A.12 have been recalculated
for the revised final visit questionnaire Eleven new questions on RLS
and pica were added per the direction and approval of the REDS-II
Steering Committee, the rationale for which is previously described
in the Introduction and Summary section.
A.16 Plans for Tabulation and Publication and
Project Time Schedule
The schedule for study activities is shown in Table A.16.
Table A.16. Study Activities
Step
|
Date of completion
|
Comment
|
Donor enrollment and baseline assessment Visit
|
December 2007–May 2008
|
Five months allotted to recruitment in the study. However some
centers plan to start recruitment in December 2007, while others
will start in January 2008.
|
Baseline Laboratory Testing
|
June–July 2008
|
Up to two months allotted for receiving results of tests conducted
on all samples taken at baseline
|
Baseline data compilation and cleaning
|
August 2008
|
This step includes development of baseline data frequency
dictionaries
|
Baseline data analyses/interpretation
|
November 2008–February 2009
|
Statistical analyses of baseline data
|
Interim Period
|
June 2008–July 2009
|
Research staff not at blood collection sites.
|
Follow-up period
|
December 2007–May 2008 to February 2009–July 2009
|
19-20 months follow-up period (minimum of 15 to maximum of 24
months)
|
Final donor visit
|
July 2009–December 2009
|
Six months allotted to obtain final data on each donor
|
Laboratory Testing
|
January–February 2010
|
Testing of purple top tubes obtained during follow-up (ferritin/
sTfR) and testing of specimens obtained during the follow-up
visit.
|
Data compilation and cleaning
|
March 2010
|
QC and formation of dataset
|
Data analyses
|
April–July 2010
|
Four months for longitudinal data statistical analysis
|
Subject to NHLBI approval, data will be disseminated to the
scientific and blood banking community and others through peer-review
journal publications, and presentations at government (FDA Blood
Products Advisory Committee) and professional meetings (American
Association of Blood Banks).
A.16.1 Baseline Tabulations
We will use descriptive statistics to evaluate the distributions of
all baseline variables. We will use log-likelihood 2
statistics (or exact tests if cell sizes are too small) to evaluate
if the distribution of a categorical characteristic (e.g., high vs.
low baseline hemoglobin in first-time/reactivated donors; high vs.
low HYPOm) is significantly different among groups (e.g. gender,
race/ethnicity, iron supplementation vs. not). For comparison of
continuous characteristics among groups, we will compare means among
several groups by conducting t-test (two groups) or analysis of
variance (> 2 groups); or if a non-parametric method is more
appropriate by conducting a Wilcoxon rank-sum test (two groups) or a
Kruskal-Wallis test (> 2 groups). Correlations and coefficients of
determination may also be used to evaluate the association between
two continuous variables. To evaluate whether two continuous
variables are equivalent (such as evaluating if the hemoglobin level
obtained by fingerstick HemoCue® is similar to that obtained from
a pre-donation venous draw), a paired t-test could be used.
The baseline venous hemoglobin measures from FT/reactivated donors
will be weighted (to reflect differential sampling probabilities of
deferred and non-deferred donors) to determine estimates of the mean
hemoglobin levels for the blood donor population by age, gender and
race. These means will be compared to the NHANES-III data results.
A.16.2 End-of-Study Evaluations
Study hypotheses will be tested using cross-sectional analyses of
end-of-study variables (primarily final visit iron status variables
and donation intensity). These analyses will be based on the
log-likelihood 2
statistics associated with the corresponding 2x2 tables. Males and
females will initially be analyzed separately.
The sample sizes were determined to test hypotheses concerning the
final visit iron status variables. In addition, longitudinal models
will be developed to evaluate changes in iron status variables over
time. For example, fingerstick hematocrit may decline over time with
a slope that depends on donation intensity (such an analysis will be
restricted to the centers that will use HemoCue® as their
test-of-record).
A.17 Reason(s) Display of OMB Expiration Date is
Inappropriate
The OMB expiration date will be displayed in the upper-right hand
corner of the questionnaire.
A.18 Exceptions to Certification for Paperwork
Reduction Act Submissions
There are no exceptions to the certification statement of OMB Form
83-I.
REFERENCES
American Red Cross.
Donor deferral data, 2002.
2
California Smoking Survey: At
http://webtecc.etr.org/cstats/base/publications/docs/Survey_CTS2002_Eng_Screener.pdf
3 NIH
Diet History Questionnaire: At
http://riskfactor.cancer.gov/DHQ/forms/files/shared/dhq1.2002.sample.pdf
4 NHANES:
At http://www.cdc.gov/nchs/data/nhanes/nhanes_01_02/CAPI_RHQVB.pdf
5
Mansfield, P.K., Voda, A., and Allison, G (2004). Validating a
pencil-and-paper measure of perimenopausal menstrual blood loss.
Women’s Health issues, 14, 242-247.
6 Simon
TL, Garry PJ, and Hooper EM. Iron stores in blood donors. JAMA 1981;
245:2038‑2043.
7 U.S.
Department of Labor, Bureau of Labor Statistics. Employment
Statistics Survey: Occupational Employment Statistics, National Data
2004.1
| File Type | application/msword |
| File Title | REDS-II DONOR IRON STATUS EVALUATION (RISE) STUDY |
| Author | S. Mathew |
| Last Modified By | curriem |
| File Modified | 2009-05-18 |
| File Created | 2009-05-18 |