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| Name | Class |
|---|---|
| California Breast Cancer Research Program | OTHER |
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Many breast cancer patients experience psychological distress during their cancer care journey. There are effective treatments for breast cancer patients experiencing distress, such as individual or group therapy, health education, and medication. Unfortunately, clinicians may not be aware of the symptoms of distress in their breast cancer patients, and some breast cancer patients who could benefit from referral to behavioral health specialists are overlooked. New guidelines recommend that all cancer patients be regularly screened for distress. However, there are unanswered questions about the impact of distress screening conducted on a large scale. Few studies have evaluated the impact of distress screening on important outcomes in breast cancer patients, such as patient experience and use of health care services, as compared to the usual care offered by the health care organization. In addition, oncology clinicians may be uncertain about the benefits of large-scale distress screening, and pilot screening programs have not been uniformly successful particularly in the community oncology setting.
The overarching goals of this study are to assess the effectiveness of implementing a guideline-recommended distress screening program for newly diagnosed breast cancer patients on improving identification and referral to treatment for highly distressed breast cancer patients, to assess patient-reported outcomes, health services utilization, and implementation outcomes of the program. This study will address two main research questions: 1) Evaluate the effectiveness of a guideline-recommended distress screening program for breast cancer patients in improving identification of distressed patients, initiation and completion of referrals to behavioral health, and patient-reported and utilization outcomes as compared to usual care; 2) Identify the barriers, facilitators, and other implementation-related outcomes related to distress screening in the community oncology setting.
Please note: This study did not require a DSMB, as it falls under the exception for low-risk behavioral studies.
Background and Study Aims:
Breast cancer patients are at risk for physical and psychosocial harms. Among the most highly prevalent psychosocial issues in breast cancer patients is psychological distress. Distress is defined and assessed as psychiatric morbidity or prevalence of psychiatric disorders, particularly anxiety and depression. It is estimated that 40-50% of women diagnosed with early stage breast cancer will experience distress in the year following diagnosis. There is a rich literature on the persistent negative effects of distress in breast cancer patients, including associations with decreased physical and social functioning, increased symptom burden, higher utilization of inpatient and emergency services, and poor quality of life. Psychological distress can also adversely affect individual work productivity, and contributes to the rising costs of cancer care.
Recent guidelines from the American Society of Clinical Oncology (ASCO) and others recommend routine distress screening for breast cancer patients, recognizing the availability of effective treatments for psychological distress. Unfortunately distress remains under-detected and undertreated in breast cancer patients and rates of adherence to ASCO and other guidelines is very low. Low rates of screening might be explained in part by limited evidence of effectiveness: while efficacy of distress screening has been demonstrated in small-scale trials at academic centers, typically showing increases in number of referrals to psychosocial services, evidence supporting the effectiveness of large scale distress screening programs under routine practice conditions is limited. It is currently unknown if distress screening of breast cancer patients will improve identification of distressed patients or referrals to behavioral health services in non-academic settings. In addition, extant efficacy studies generally fail to measure key impacts and outcomes desired from distress screening, such as patient-reported outcomes (e.g., distress management, satisfaction) and changes in health care utilization (e.g., changes in emergency department use). Implementation-related factors and outcomes have also been largely overlooked in prior research (e.g., clinician acceptability, fidelity of delivery), leaving serious gaps in the understanding of barriers to adoption of distress screening programs and gaps in the knowledge needed to facilitate large-scale, routine implementation of screening.
The overarching goal of this study is to implement and evaluate a guideline-based distress screening program for newly diagnosed breast cancer patients, measuring its effectiveness and impacts on key outcomes and examining barriers and facilitators to routine adoption. There is a critical need for translational research to assess the effectiveness of distress screening programs in improving (a) identification of distress, (b) referral for services, (c) outcomes for breast cancer patients in real-world oncology settings, and in understanding implementation barriers and facilitators. Without evidence of effectiveness, it is unlikely that clinical and operational health system leaders will invest in distress screening programs, potentially leading to serious adverse consequences. This proposed translational research is crucial in order to bridge the gap between academic studies and non-academic, community oncology practice, where the majority of breast cancer patients are treated. In addition, gaining insight and understanding into barriers and facilitators to implementation of distress screening programs is critically important. The objectives are to assess the effectiveness of the recommended screening program from the joint task force of the American Psychosocial Oncology Society, Association of Oncology Social Work, and Oncology Nursing Society on improving identification and referral to treatment for highly distressed breast cancer patients within an integrated health care system, and to assess patient-reported outcomes, health services utilization, and implementation outcomes of the program.
Specific Aims:
Aim 1: Evaluate the effectiveness of a guideline-recommended distress screening program for breast cancer patients in improving identification of distressed patients, initiation and completion of referrals to behavioral health, and patient-reported and utilization outcomes as compared to usual care within Kaiser Permanente Southern California (KPSC), using a pragmatic cluster randomized control trial design at six medical centers.
Aim 2: Identify patient-, clinician-, and system-level barriers and facilitators to implementation of the program, and assess stakeholder-perceived acceptability, fidelity, and achievements of the program.
Study Methods The setting for this research is Kaiser Permanente Southern California, a large, integrated health care system with 14 medical centers serving a highly diverse population of over 4 million members. The investigators will use a novel hybrid effectiveness-implementation study design that allows for dual study of the clinical effectiveness and implementation-related factors to address the need for evidence in both areas. This study will employ mixed methods, collecting both qualitative and quantitative data as appropriate to address the study aims. To evaluate effectiveness, this study will use a cluster randomized control trial (RCT) design, clustered at the medical center level, and will implement the program at the intervention sites and offering screening to all newly diagnosed breast cancer patients. To evaluate the effectiveness of the program, the investigators will collect structured data from the KPSC electronic record (referral initiation/completion, use of health services) and patient-reported data (functioning, symptom management). Existing work from a pilot primary care-based distress screening program will be leveraged for this research, demonstrating the feasibility of this study. Implementation outcomes will be assessed with qualitative and survey data.
Knowledge gained from this research will be used to inform the continued development and implementation of systematic distress screening programs for breast cancer patients, and will enrich the evidence base by providing critical information on relevant patient- and system-level outcomes. These results will have an impact on the quality of life and quality of care for these patients, and will directly influence distress screening program adoption, scale-up, and spread, making this work highly relevant to breast cancer patients throughout California and across the nation.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Intervention | Newly diagnosed breast cancer patients will be offered a brief distress screening questionnaire, the Patient Health Questionnaire (PHQ), around the time of their breast cancer diagnosis and again at subsequent transitions in care as appropriate (e.g., the initiation of chemotherapy). |
| |
| Control | Newly diagnosed breast cancer patients will experience usual care. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Distress screening | Behavioral | A brief depression and anxiety screening instrument, the Patient Health Questionnaire-9 (PHQ-9), will be administered to newly diagnosed breast cancer patients in the Distress Screening arm. |
| Measure | Description | Time Frame |
|---|---|---|
| Number of Participants Offered and Screened for Distress | # of newly diagnosed breast cancer patients offered and screened with the Patient Health Questionnaire 9 at their initial consult | Patients assessed during initial consult - e.g. 1 day during 60 min consult |
| Number of Participants Offered an Appropriate Referral | For patients who had screening done in Oncology, appropriate action for those with a medium/high PHQ-9 is a referral to social work, psychiatry, depression care management. | Patients assessed during initial consult - e.g. 1 day during 60 min consult |
| Measure | Description | Time Frame |
|---|---|---|
| Functional Assessment of Cancer Therapy, Breast Cancer (FACT-B) | Self-reported for physical well-being; social family well-being; emotional well-being; functional well-being; and additional concerns over the past 7 days; scale: 0=not at all; 1=a little bit; 2=somewhat; 3=quite a bit; 4=very much; responses indicate symptoms/concerns in the past 7 days. The higher the score, the better the outcome. To derive a FACT-B total score, score range 0-148. The subscales include: (1) Physical Well-Being, score range 0-28; (2) Social/Family Well-Being, score range 0-28; (3) Emotional Well-Being, score range 0-24; (4) Functional well-being, score range 0-28; (5) Breast Cancer Subscale, score range 0-40. |
| Measure | Description | Time Frame |
|---|---|---|
| Number of Participants Utilizing Behavioral Health Services | Between group comparison of number of visits with behavioral health providers. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | 18 months |
Inclusion Criteria:
Exclusion Criteria:
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Newly diagnosed breast cancer patients
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| Name | Affiliation | Role |
|---|---|---|
| Erin E Hahn, PhD | Kaiser Permanente | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Anaheim Medical Center | Anaheim | California | 92806 | United States | ||
| Baldwin Park Medical Center |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 37436477 | Derived | Hahn EE, Munoz-Plaza CE, Lyons LJ, Lee JS, Pounds D, La Cava S, Brasfield FM, Durna LN, Kwan KW, Beard DB, Ferreira A, Gould MK. Barriers and facilitators to implementation and sustainment of guideline-recommended depression screening for patients with breast cancer in medical oncology: a qualitative study. Support Care Cancer. 2023 Jul 12;31(8):461. doi: 10.1007/s00520-023-07922-0. | |
| 34982119 |
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| ID | Title | Description |
|---|---|---|
| FG000 | Distress Screening | Newly diagnosed breast cancer patients will be offered a brief distress screening questionnaire, the Patient Health Questionnaire (PHQ), around the time of their breast cancer diagnosis and again at subsequent transitions in care as appropriate (e.g., the initiation of chemotherapy). Distress screening: A brief depression and anxiety screening instrument, the Patient Health Questionnaire (PHQ-9) will be administered to newly diagnosed breast cancer patients in the Distress Screening arm. |
| FG001 | No Screening | Newly diagnosed breast cancer patients will experience usual care, which may include PHQ-9 screening. |
| Title | Milestones | Reasons Not Completed | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Overall Study |
|
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| ID | Title | Description |
|---|---|---|
| BG000 | Distress Screening | Newly diagnosed breast cancer patients will be offered a brief distress screening questionnaire, the Patient Health Questionnaire (PHQ), around the time of their breast cancer diagnosis and again at subsequent transitions in care as appropriate (e.g., the initiation of chemotherapy). Distress screening: A brief depression and anxiety screening instrument, the Patient Health Questionnaire (PHQ), will be administered to newly diagnosed breast cancer patients in the Distress Screening arm. The PHQ starts with a 2-item screen, and branches to the full screening instrument as needed. |
| Units | Counts |
|---|---|
| Participants |
|
| Title | Description | Population Description | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Denominator Units Selected | Denominators | Classes |
|---|---|---|---|---|---|---|---|---|---|
| Age, Categorical | Count of Participants |
| Type | Title | Description | Population Description | Reporting Status | Anticipated Posting Date | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Time Frame | Units Analyzed | Denominator Units Selected | Arm/Group Information | Denominators | Classes | Analyses | ||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Primary | Number of Participants Offered and Screened for Distress | # of newly diagnosed breast cancer patients offered and screened with the Patient Health Questionnaire 9 at their initial consult | Posted | Count of Participants | Participants | Patients assessed during initial consult - e.g. 1 day during 60 min consult |
|
12 months
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| ID | Title | Description | Deaths (Affected) | Deaths (At Risk) | Serious Events (Affected) | Serious Events (At Risk) | Other Events (Affected) | Other Events (At Risk) |
|---|---|---|---|---|---|---|---|---|
| EG000 | Distress Screening | Newly diagnosed breast cancer patients will be offered a brief distress screening questionnaire, the Patient Health Questionnaire (PHQ), around the time of their breast cancer diagnosis and again at subsequent transitions in care as appropriate (e.g., the initiation of chemotherapy). Distress screening: A brief depression and anxiety screening instrument, the Patient Health Questionnaire (PHQ-9) will be administered to newly diagnosed breast cancer patients in the Distress Screening arm. |
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No limitations to report
| Title | Organization | Phone | Extension | |
|---|---|---|---|---|
| Erin Hahn | Kaiser Permanente Southern California Department of Research and Evaluation | 626-564-3505 | Erin.E.Hahn@kp.org |
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| Type | Includes Protocol | Includes SAP | Includes ICF | Document Label | Document Date | Document Uploaded Date | Document File Name |
|---|---|---|---|---|---|---|---|
| Prot_SAP | Yes | Yes | No | Study Protocol and Statistical Analysis Plan | Mar 26, 2020 | Apr 6, 2020 | Prot_SAP_000.pdf |
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| ID | Term |
|---|---|
| D001943 | Breast Neoplasms |
| ID | Term |
|---|---|
| D009371 | Neoplasms by Site |
| D009369 | Neoplasms |
| D001941 | Breast Diseases |
| D012871 | Skin Diseases |
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| 12 months |
| Breast Cancer Prevention Trial (BCPT) Symptom Checklist | Self-reported measure of physical symptoms in the past 4 weeks; scale: 0=not at all; 1=slightly; 2=moderately; 3=quite a bit; 4=extremely. Higher scores indicate greater symptom burden. Sub-scales include Hot Flashes, Nausea, Bladder Control, Vaginal Problems, Musculoskelatal Pain, Cognitive Problems, Weight Problems, and Arm Problems. | 12 months |
| Number of Patients With Oncology Visit | Between group comparison of number of visits to oncology. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | 18 months |
| Number of Patients With Primary Care Visit | Between group comparison of number of visits to primary care. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | 18 months |
| Number of Participants Utilizing Emergency and Urgent Care Services |
Between group comparison of number of visits to emergency and urgent care services. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. |
| 18 months |
| Baldwin Park |
| California |
| 91706 |
| United States |
| South Bay - Harbor City Medical Center | Harbor City | California | 90710 | United States |
| Los Angeles Medical Center | Los Angeles | California | 90027 | United States |
| West Los Angeles Medical Center | Los Angeles | California | 90034 | United States |
| Woodland Hills Medical Center | Woodland Hills | California | 91364 | United States |
| Derived |
| Hahn EE, Munoz-Plaza CE, Pounds D, Lyons LJ, Lee JS, Shen E, Hong BD, La Cava S, Brasfield FM, Durna LN, Kwan KW, Beard DB, Ferreira A, Padmanabhan A, Gould MK. Effect of a Community-Based Medical Oncology Depression Screening Program on Behavioral Health Referrals Among Patients With Breast Cancer: A Randomized Clinical Trial. JAMA. 2022 Jan 4;327(1):41-49. doi: 10.1001/jama.2021.22596. |
| BG001 | No Screening | Newly diagnosed breast cancer patients will experience usual care. |
| BG002 | Total | Total of all reporting groups |
| Participants |
|
| Age, Continuous | Mean | Standard Deviation | years |
|
| Sex: Female, Male | Count of Participants | Participants |
|
| Ethnicity (NIH/OMB) | Count of Participants | Participants |
|
| Race (NIH/OMB) | Count of Participants | Participants |
|
| Region of Enrollment | Count of Participants | Participants |
|
| Charlson Comorbidity Score | The score included diagnoses from 1 year prior to the index visit and excluded codes for breast cancer. The index quantifies an individual's burden of disease corresponding 1-year mortality risk. 22 comorbid conditions are assessed, including heart disease, AIDS, cancer, etc. Each condition is assigned a score of 1, 2, 3, or 6 depending on the risk of dying associated with each one (1=lower risk; 6 = highest). Scores are summed to provide a total score to predict mortality. | Mean | Standard Deviation | units on a scale |
|
| Cancer Stage | Cancer stage estimated from pathology, diagnosis codes, and visit notes. There are 5 stages of cancer assigned: stage 0 (carcinoma in situ), stage I, stage II, stage III and stage IV. Lower stages indicate that the disease is more localized, isolated or contained, whereas higher stages refer to cancers that have spread into other areas of the body. Stage 0 is considered the best outcome, with Stage IV representing the worst outcome. | Count of Participants | Participants |
|
| No Screening |
Newly diagnosed breast cancer patients will experience usual care, which may include PHQ-9 screening. |
|
|
| Primary | Number of Participants Offered an Appropriate Referral | For patients who had screening done in Oncology, appropriate action for those with a medium/high PHQ-9 is a referral to social work, psychiatry, depression care management. | Patients who completed PHQ-9 screening in Oncology with med/high score | Posted | Count of Participants | Participants | Patients assessed during initial consult - e.g. 1 day during 60 min consult |
|
|
|
| Secondary | Functional Assessment of Cancer Therapy, Breast Cancer (FACT-B) | Self-reported for physical well-being; social family well-being; emotional well-being; functional well-being; and additional concerns over the past 7 days; scale: 0=not at all; 1=a little bit; 2=somewhat; 3=quite a bit; 4=very much; responses indicate symptoms/concerns in the past 7 days. The higher the score, the better the outcome. To derive a FACT-B total score, score range 0-148. The subscales include: (1) Physical Well-Being, score range 0-28; (2) Social/Family Well-Being, score range 0-28; (3) Emotional Well-Being, score range 0-24; (4) Functional well-being, score range 0-28; (5) Breast Cancer Subscale, score range 0-40. | Patients who completed at least one survey item in Fact-B at the 3, 6 and/or 12 month survey. The number of participants analyzed for the total scores and sub-scale scores at 3-, 6- and 12 months varies, because not all patients responded to all surveys or answered all of the questions in a survey. | Posted | Mean | Standard Deviation | units on a scale | 12 months |
|
|
|
|
| Secondary | Breast Cancer Prevention Trial (BCPT) Symptom Checklist | Self-reported measure of physical symptoms in the past 4 weeks; scale: 0=not at all; 1=slightly; 2=moderately; 3=quite a bit; 4=extremely. Higher scores indicate greater symptom burden. Sub-scales include Hot Flashes, Nausea, Bladder Control, Vaginal Problems, Musculoskelatal Pain, Cognitive Problems, Weight Problems, and Arm Problems. | Number of participants analyzed varies across rows for 3-, 6- and 12-month surveys because not all patients completed all surveys and/or answered all questions in a survey. | Posted | Mean | Standard Deviation | units on a scale | 12 months |
|
|
|
|
| Secondary | Number of Patients With Oncology Visit | Between group comparison of number of visits to oncology. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | Posted | Count of Participants | Participants | 18 months |
|
|
|
|
| Secondary | Number of Patients With Primary Care Visit | Between group comparison of number of visits to primary care. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | Posted | Count of Participants | Participants | 18 months |
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|
| Other Pre-specified | Number of Participants Utilizing Behavioral Health Services | Between group comparison of number of visits with behavioral health providers. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | Posted | Count of Participants | Participants | 18 months |
|
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|
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| Other Pre-specified | Number of Participants Utilizing Emergency and Urgent Care Services | Between group comparison of number of visits to emergency and urgent care services. Restricted to patients with at least 100 days of follow-up. Covariates included in multivariable models were age, Charlson's comorbidity index, race/ethnicity, marital status, and cancer stage. | Posted | Count of Participants | Participants | 18 months |
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|
|
| 25 |
| 744 |
| 0 |
| 744 |
| 0 |
| 744 |
| EG001 | No Screening | Newly diagnosed breast cancer patients will experience usual care, which may include PHQ-9 screening. | 16 | 692 | 0 | 692 | 0 | 692 |
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| D017437 |
| Skin and Connective Tissue Diseases |
| Fact-B 3-month Physical Well-Being Subscale |
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| Fact-B 3 month Social/Family Well-Being Subscale |
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| Fact-B 3 month Emotional Well-Being Subscale |
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| Fact-B 3-month Functional Well-Being Subscale |
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| Fact-B 3-month Breast Cancer Subscale |
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| Fact-B 6 month Total Score |
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| Fact-B 6 month Physical Well-Being Subscale |
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| Fact-B 6 month Social/Family Well-Being Subscale |
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| Fact-B 6 month Emotional Well-Being Subscale |
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| Fact-B 6 month Functional Well-Being Subscale |
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| Fact-B 6 month Breast Cancer Subscale |
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| Fact-B 12 month Total Score |
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| Fact-B 12 month Physical Well-Being Subscale |
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| Fact-B 12 month Social/Family Well-Being Subscale |
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| Fact-B 12 month Emotional Subscale |
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| Fact-B 12 month Functional Well-Being |
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| Fact-B 12 month Breast Cancer Subscale |
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| The data below is for FACT-B 6 month Total Score | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.57 | see above | 1.37 | 2-Sided | 95 | -3.41 | 6.15 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction. |
| The data below is for the Fact-B 12 month Total Score | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.62 | see above | 1.18 | 2-Sided | 95 | -3.54 | 5.89 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 3 month Physical Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.83 | see above | 0.12 | 2-Sided | 95 | -0.99 | 1.23 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction. |
| Data below is for the Fact-B 6 month Physical Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.82 | see above | 0.15 | 2-Sided | 95 | -1.15 | 1.45 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| Data below is for the Fact-B 12 month Physical Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.84 | see above | -0.13 | 2-Sided | 95 | -1.41 | 1.15 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 3 month Social/Family Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.77 | see above | -0.17 | 2-Sided | 95 | -1.31 | 0.96 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 6 month Social/Family Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.42 | see above | -0.56 | 2-Sided | 95 | -1.91 | 0.79 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 12 month Social/Family Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.90 | see above | -0.08 | 2-Sided | 95 | -1.41 | 1.24 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 3 month Emotional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.90 | see above | 0.05 | 2-Sided | 95 | -0.76 | 0.87 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact B 6 month Emotional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.25 | see above | 0.58 | 2-Sided | 95 | -0.40 | 1.56 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 12 month Emotional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.22 | see above | 0.60 | 2-Sided | 95 | -0.36 | 1.57 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for Fact-B 3 month Functional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.81 | see above | 0.14 | 2-Sided | 95 | -1.05 | 1.34 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for Fact-B 6 month Functional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.45 | see above | 0.54 | 2-Sided | 95 | -0.85 | 1.94 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 12 month Functional Well-Being Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.87 | see above | -0.11 | 2-Sided | 95 | -1.48 | 1.26 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 3 month Breast Cancer Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.80 | see above | 0.16 | 2-Sided | 95 | -1.13 | 1.45 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 6 month Breast Cancer Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.35 | see above | 0.73 | 2-Sided | 95 | -0.79 | 2.24 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the Fact-B 12 month Breast Cancer Subscale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects. | 0.42 | see above | 0.60 | 2-Sided | 95 | -0.88 | 2.09 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| BCPT Survey 3 month Hot Flashes Sub-Scale |
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| BCPT Survey 3 month Nausea Sub-Scale |
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| BCPT Suvey 3 month Bladder Control Sub-Scale |
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| BCPT Survey 3 month Vaginal/Sex Problems Sub-Scale |
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| BCPT Survey 3 month Musculoskeletal Pain Sub-Scale |
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| BCPT Suvey 3 month Cognitive Problems Sub-Scale |
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| BCPT Survey 3 month Weight Problems Sub-Scale |
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| BCPT Survey 3 month Arm Problems Sub-Scale |
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| BCPT Suvey 6 month Total Score |
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| BCPT Survey 6 month Hot Flashes Sub-Scale |
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| BCPT Survey 6 month Nausea Sub-Scale |
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| BCPT Survey 6 month Bladder Control Sub-Scale |
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| BCPT Survey 6 month Vaginal/Sex Problems Sub-Scale |
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| BCPT Survey 6 month Musculoskeletal Pain Sub-Scale |
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| BCPT Survey 6 month Cognitive Problems Sub-Scale |
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| BCPT Survey 6 month Weight Problems Sub-Scale |
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| BCPT Survey 6 month Arm Problems Sub-Scale |
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| BCPT Survey 12 month Total Score |
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| BCPT Survey 12 month Hot Flashes Sub-Scale |
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| BCPT Survey 12 month Nausea Sub-Scale |
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| BCPT Survey 12 month Bladder Control Sub-Scale |
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| BCPT Survey 12 month Vaginal/Sex Problem Sub-Scale |
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| BCPT Survey 12 month Musculoskeletal Pain Sub-Scal |
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| BCPT Survey 12 month Cognitive Problems Sub-Scale |
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| BCPT Survey 12 month Weight Problems Sub-Scale |
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| BCPT Survey 12 month Arm Problems Sub-Scale |
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| The data below is the BCPT survey 6 month Total Score | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.47 | see above | 0.05 | 2-Sided | 95 | -0.09 | 0.19 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Total Score | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.37 | see above | -0.06 | 2-Sided | 95 | -0.20 | 0.07 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Hot Flashes Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.65 | see above | -0.05 | 2-Sided | 95 | -0.26 | 0.17 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Hot Flashes Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.54 | see above | 0.08 | 2-Sided | 95 | -0.17 | 0.33 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Hot Flashes Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.87 | see above | -0.02 | 2-Sided | 95 | -0.27 | 0.22 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Nausea Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.32 | see above | -0.06 | 2-Sided | 95 | -0.17 | 0.06 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Nausea Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.96 | see above | 0.00 | 2-Sided | 95 | -0.15 | 0.14 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Nausea Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.32 | see above | -0.07 | 2-Sided | 95 | -0.21 | 0.07 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Bladder Control Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.44 | see above | -0.07 | 2-Sided | 95 | -0.24 | 0.11 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Bladder Control Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.38 | see above | 0.09 | 2-Sided | 95 | -0.11 | 0.30 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is for the BCPT survey 12 month Bladder Control Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.47 | see above | -0.07 | 2-Sided | 95 | -0.28 | 0.13 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Vaginal Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.13 | see above | -0.17 | 2-Sided | 95 | -0.39 | 0.05 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Vaginal Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.03 | see above | -0.29 | 2-Sided | 95 | -0.55 | -0.02 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Vaginal Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.14 | see above | -0.19 | 2-Sided | 95 | -0.45 | 0.06 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Musculoskeletal Pain Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.53 | see above | 0.07 | 2-Sided | 95 | -0.14 | 0.28 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Musculoskeletal Pain Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.47 | see above | 0.10 | 2-Sided | 95 | -0.16 | 0.35 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Musculoskeletal Pain Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.57 | see above | 0.07 | 2-Sided | 95 | -0.18 | 0.33 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Cognitive Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.85 | see above | 0.02 | 2-Sided | 95 | -0.18 | 0.21 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Cognitive Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.38 | see above | 0.10 | 2-Sided | 95 | -0.12 | 0.32 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Cognitive Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.23 | see above | -0.13 | 2-Sided | 95 | -0.35 | 0.09 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Weight Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.18 | see above | -0.14 | 2-Sided | 95 | -0.35 | 0.07 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Weight Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.35 | see above | -0.12 | 2-Sided | 95 | -0.36 | 0.13 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Weight Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.34 | see above | -0.12 | 2-Sided | 95 | -0.36 | 0.12 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 3 month Arm Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.22 | see above | 0.09 | 2-Sided | 95 | -0.06 | 0.25 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 6 month Arm Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.26 | see above | 0.11 | 2-Sided | 95 | -0.08 | 0.29 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| The data below is the BCPT survey 12 month Arm Problems Sub-Scale | Mixed Models Analysis | We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects | 0.34 | see above | 0.09 | 2-Sided | 95 | -0.09 | 0.27 | Other | Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction |
| 0.497 |
| Rate Ratio |
| 0.84 |
| 2-Sided |
| 95 |
| 0.51 |
| 1.38 |
| Other |