U. Site-specific MDI Tables
U. Site-specific MDI Tables.docx
Rapid Cycle Evaluation of Operational Improvements in Supplemental Nutrition Assistance Program (SNAP) Employment & Training (E&T) Programs
U. Site-specific MDI Tables
OMB: 0584-0680
Appendix U. Site-specific MDI Tables
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Appendix U. Table B2.1.a. Colorado minimum detectable impacts based on administrative data
Test |
Assumption |
Total sample size |
MDI (percentage points) |
Test 1 (Denver, Broomfield, Larimer) |
100 percent of anticipated sample |
9,000 |
2.7 pp. |
|
75 percent of anticipated sample |
6,750 |
3.2 pp. |
|
50 percent of anticipated sample |
4,500 |
3.9 pp. |
|
15 percent of anticipated sample |
1,350 |
7.1 pp. |
Test 2 (Montrose) |
100 percent of anticipated sample |
2,500 |
4.0 pp. |
|
75 percent of anticipated sample |
1,875 |
4.6 pp. |
|
50 percent of anticipated sample |
1,250 |
5.7 pp. |
|
15 percent of anticipated sample |
375 |
10.4 pp. |
Note: Test 1 includes 5 research groups, while Test 2 includes 3 research groups. MDIs are calculated for a two-tailed test with 80 percent power at a 0.05 significance level, and are based on the following assumptions: (1) R-squared (the proportion of variation in the outcome explained by covariates) is 0.05; and (2) average take-up of SNAP E&T in the control group is 10 percent. (Colorado Department of Human Services estimates between 2 and 7 percent of work registrants participate in SNAP E&T across the four counties; we assume a higher take-up rate to be conservative.) Because we are calculating MDIs for a binary outcome, the MDI is highest for an outcome with a mean of 0.5 (since this would maximize the variance of the outcome). Assuming a higher take-up rate in this context (in which take-up is below 0.5) therefore increases the MDI, which is conservative because it requires a larger impact of the intervention to detect significant effects.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
Appendix U. Table B2.1.b. Connecticut minimum detectable impacts based on administrative data
Assumptions |
|
MDI (percentage points) |
|
|
Total responding sample size |
3 research groups |
2 research groups |
7-month enrollment period (July-January) |
808 |
11.8 |
9.6 |
6-month enrollment period (July-December) |
588 |
13.8 |
11.3 |
3-month enrollment period (July-September) |
428 |
16.2 |
13.2 |
Note: MDIs are calculated for a two-tailed test with 80 percent power at a 0.05 significance level, and are based on the following assumptions: (1) an R-squared (the proportion of variation in the outcome explained by covariates) of 0.05, (2) a binary outcome with a mean value of 0.50, and (3) a design effect of 1.0 for outcomes based on administrative data due to the absence of weighting. Sample sizes are based on estimates provided by Connecticut Community College leadership of the number of community college students enrolled in SNAP E&T from July 2023 to January 2024.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
.
Appendix U. Table B2.1.c. District of Columbia minimum detectable impacts based on administrative data
Pre-post analysis |
RCT analysis |
|||
Total number of individuals in pre-intervention group |
Total number of individuals in post-intervention group |
MDI (percentage points) |
Size of treatment and control groups |
MDI (percentage points) |
300 |
240 |
11.8 |
120 and 120 |
17.7 |
200 |
160 |
14.5 |
80 and 80 |
21.7 |
175 |
140 |
15.5 |
70 and 70 |
23.2 |
150 |
120 |
16.8 |
60 and 60 |
25.1 |
Note: The pre-post analysis compares a percentage outcome among the pre- and post-intervention groups. The size of the post-intervention group assumes that 20 percent of individuals in the pre-intervention group continue to participate in SNAP E&T in the post-intervention period; these individuals will be excluded from the analyses of outcomes in the post-intervention period due to exposure to both case management approaches. MDIs are based on a 0.80 power level and assume the mean value of the binary outcome is 0.50, baseline variables explain 5 percent of the variation in the outcome, response rates of 100 percent for outcomes based on administrative data, as well as a design effect of 1.0 for outcomes based on administrative data due to the absence of weighting.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
Appendix U. Table B2.1.d. Kansas minimum detectable impacts based on administrative data
|
Based
on starting |
|
Assumption |
Sample
size |
MDI (percentage points) |
All individuals (100 percent of starting sample) |
|
|
Estimate effect of receiving behaviorally informed text message appointment reminders compared to not receiving them on percentage of individuals who remain engaged in SNAP E&T activities |
300 and 300 |
11.2 |
Estimate effect of receiving behaviorally informed text message nudges compared to not receiving them on percentage of individuals who remain engaged in SNAP E&T activities |
300 and 300 |
11.2 |
Estimate effect of receiving behaviorally informed text message appointment reminders and nudges compared to not receiving them on percentage of individuals who remain engaged in SNAP E&T activities |
300 and 300 |
11.2 |
Estimate effect of receiving behaviorally informed text message reminders or nudges compared to not receiving them on percentage of individuals who remain engaged in SNAP E&T activities |
900 and 300 |
9.1 |
Note: MDIs are calculated for a two-tailed test with 0.80 power level at a 0.05 significance level and assume: (1) the mean value of the binary outcome is 0.50, (2) baseline variables explain 5 percent of the variation in the outcome, (3) response rates are 100 percent for outcomes based on administrative data, as well as (4) the design effect is 1.0 for outcomes based on administrative data due to the absence of weighting.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
Appendix U. Table B2.1.e. Massachusetts minimum detectable impacts based on administrative data
|
Based
on starting |
|
Assumption |
Sample size for each group |
MDI (percentage points) |
Compare text message treatment group 1 to text message treatment group 2 to estimate the effect of message content on expressing interest in learning more about E&T services |
12,000 and 12,000 |
1.8 |
Compare (1) the combination of individuals who do not pass the survey screener and those who pass the screener and are placed in the control group for the assessment and (2) the text message control group to estimate the effect of the outreach message on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T1.) |
9,000 and 6,000 |
2.3 |
Compare (1) the combination of individuals who do not pass the survey screener and those who pass the screener and are placed in the control group for the assessment and (2) the text message control group to estimate the effect of the outreach message on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T2.) |
9,000 and 6,000 |
2.3 |
Compare (1) the combination of individuals in the assessment treatment group who were deemed not to be work ready and those in the assessment treatment group who were deemed to be work ready but were assigned to the career center control group and (2) the assessment control group, to estimate the effect of the assessment on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T1.) |
2,100 and 3,000 |
3.9 |
Compare (1) the combination of individuals in the assessment treatment group who were deemed not to be work ready and those in the assessment treatment group who were deemed to be work ready but were assigned to the career center control group and (2) the assessment control group, to estimate the effect of the assessment on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T2.) |
2,100 and 3,000 |
3.9 |
Compare the career center treatment group and the career center control group to estimate the effect of the warm handoff referral on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T1.) |
900 and 900 |
6.4 |
Compare the career center treatment group and the career center control group to estimate the effect of the warm handoff referral on the percentage of individuals who enroll in SNAP E&T. (All originating from treatment group T2.) |
900 and 900 |
6.4 |
Note: MDIs are calculated for a two-tailed test with 0.80 power level at a 0.05 significance level. MDIs assume: the mean value of the binary outcome is 0.50, baseline variables explain 5 percent of the variation in the outcome, response rates of 100 percent for outcomes based on administrative data, as well as a design effect of 1.0 for outcomes based on administrative data due to the absence of weighting.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
.
Appendix U. Table B2.1.f. Minnesota-Hennepin minimum detectable impacts based on administrative data
Assumption |
Total sample size |
MDI (percentage points) |
100 percent of projected sample |
4,700 |
5.6 |
75 percent of projected sample |
3,525 |
6.5 |
50 percent of projected sample |
2,350 |
8.0 |
Note: Power calculations do not adjust for multiple comparisons. MDIs are calculated for a two-tailed test with 80 percent power at a 0.05 significance level and are based on the following assumptions: (1) R-squared (the proportion of variation in the outcome explained by covariates) is 0.05; (2) Average take-up of SNAP E&T in the control group is 50 percent; (3) there is no design effect from weighting because these outcomes will be based on administrative data.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
Appendix U. Table B2.1.g. Minnesota-Rural minimum detectable impacts based on administrative data
Total sample size |
MDI (percentage points) |
4,500 |
4.1 |
3,375 |
4.7 |
2,250 |
5.8 |
1,125 |
8.1 |
Note: MDIs are calculated for a two-tailed test with 80 percent power at a 0.05 significance level, and are based on the following assumptions: (1) an equal number of individuals are randomly assigned to the treatment and control groups (2) R-squared (the proportion of variation in the outcome explained by covariates) is 0.05; (3) Average take-up of SNAP E&T in the control group is 50 percent; (4) there is no design effect from weighting because these outcomes will be based on administrative data.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
Appendix U. Table B2.1.h. Rhode Island minimum detectable impacts based on administrative data
|
|
Based
on starting |
|
Comparison |
Main outcomes |
Sample size for each group |
MDI (percentage points) |
All individuals (100 percent of starting sample) |
|
|
|
Compare Treatment Group 2 (email web link) to control group to estimate the effect of message content on expressing interest in learning more about E&T services |
Percentage of individuals who view the website Percentage of individuals who complete and submit contact form in website link Percentage of individuals who enroll in SNAP E&T |
750 and 1,000 |
6.6 |
Compare Treatment Group 1 (text web link) to Treatment Group 2 (email web link) to estimate the effect of type of outreach messaging on outcomes |
Percentage of individuals who view the website Percentage of individuals who complete and submit contact form in website link Percentage of individuals who enroll in SNAP E&T |
750 and 750 |
7.1 |
Compare (1) the combination of individuals in Treatment Group 3 (text) who do not reply and those who do reply but are assigned to receive the existing assessment and (2) Treatment Group 1 (text web link) to estimate the effect of replying to outreach messages on outcomes |
Percentage of individuals who complete and submit contact form in website link in the email or who reply to the text; percentage that completes form or responds within 1 month of receiving the message Percentage of individuals who enroll in SNAP E&T |
700 and 750 |
7.2 |
Compare (1) the combination of individuals in Treatment Group 4 (email) who do not reply and those who do reply but are assigned to receive the existing assessment and (2) Treatment Group 2 (email web link) to estimate the effect of replying to outreach messages on outcomes |
Percentage of individuals who complete and submit contact form in website link in the email or who reply to the text; percentage that completes form or responds within 1 month of receiving the message Percentage of individuals who enroll in SNAP E&T |
700 and 750 |
7.2 |
Compare Treatment Group 3A (text) who receives enhanced assessment and Treatment Group 3B who receives current assessment to estimate the effect of the enhanced assessment on outcomes measuring whether individuals are a “better fit” with providers. (Both groups initially received a text message inviting them to reply “Yes” to learn more about E&T.) |
Percentage of individuals who finish an assessment Percentage of individuals who are referred to a provider Percentage of individuals who start intake at a provider Percentage of individuals who stay with a provider Percentage of individuals who get assigned to a component Percentage of individuals who start a component Percentage of individuals who remain in the component for a certain period of time Percentage of individuals who experience an inter-provider referral Percentage of individuals who are referred to another provider or back to DHS |
450 and 450 |
9.1 |
Compare Treatment Group 4A (email) who receives the enhanced assessment and Treatment Group 4B who receives the current assessment to estimate the effect of the enhanced assessment on outcomes measuring whether individuals are a “better fit” with providers. (Both groups initially received an email inviting them to reply “Yes” to learn more about E&T.) |
Percentage of individuals who finish an assessment Percentage of individuals who are referred to a provider Percentage of individuals who start intake at a provider Percentage of individuals who stay with a provider Percentage of individuals who get assigned to a component Percentage of individuals who start a component Percentage of individuals who remain in the component for a certain period of time Percentage of individuals who experience an inter-provider referral Percentage of individuals who are referred to another provider or back to DHS |
450 and 450 |
9.1 |
Note: MDIs are calculated for a two-tailed test with 0.80 power level at a 0.05 significance level. MDIs assume the mean value of the binary outcome is 0.50, baseline variables explain 5 percent of the variation in the outcome, response rates of 100 percent for outcomes based on administrative data, as well as a design effect of 1.0 for outcomes based on administrative data due to the absence of weighting.
MDIs
calculated using the following formula:
Where
is the significance level,
is the probability of type II error, and
is the inverse of the t distribution with degrees of freedom (df)
equal to the total sample size minus 1. Deff is the assumed design
effect,
is the share of variation in the outcome that can be explained by
baseline covariates,
is the variance
of the outcome, and
and
are the treatment and control group sample sizes, respectively. The
MDI calculations use the following parameter values:
,
80,
,
deff=1, and
.
and
are as listed in each row of the table.
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