key: cord-0821515-0gqnttgd authors: Whitehouse, Christina R.; Knowles, Molly; Long, Judith A.; Mitra, Nandita; Volpp, Kevin G.; Xu, Chang; Sabini, Carolyn; Gerald, Norma; Estrada, Irene; Jones, Denerale; Kangovi, Shreya title: Digital Health and Community Health Worker Support for Diabetes Management: a Randomized Controlled Trial date: 2022-05-17 journal: J Gen Intern Med DOI: 10.1007/s11606-022-07639-6 sha: 8eb8fb7f363d1a0eb12ca13c52bd09ec90b0987d doc_id: 821515 cord_uid: 0gqnttgd OBJECTIVE: The aim of this study was to evaluate the effectiveness of a digital health intervention plus community health worker (CHW) support on self-monitoring of blood glucose and glycosylated hemoglobin (HbA1c) among adult Medicaid beneficiaries with diabetes. DESIGN: Randomized controlled trial. Setting: Urban outpatient clinic. PARTICIPANTS: Adult Medicaid beneficiaries living with diabetes and treated with insulin and who had a HbA1c ≥ 9%. INTERVENTION: Participants were randomly assigned to one of three arms. Participants in the usual-care arm received a wireless glucometer if needed. Those in the digital arm received a lottery incentive for daily glucose monitoring. Those in the hybrid arm received the lottery plus support from a CHW if they had low adherence or high blood glucose levels. MAIN MEASURES: The primary outcome was the difference in adherence to daily glucose self-monitoring at 3 months between the hybrid and usual-care arms. The secondary outcome was difference in HbA1c from baseline at 6 months. KEY RESULTS: A total of 150 participants were enrolled in the study. A total of 102 participants (68%) completed the study. At 3 months, glucose self-monitoring rates in the hybrid versus usual-care arms were 0.72 vs 0.65, p = 0.23. At 6 months, change in HbA1c in the hybrid versus usual-care arms was − 0.74% vs − 0.49%, p = 0.69. CONCLUSION: There were no statistically significant differences between the hybrid and usual care in glucose self-monitoring adherence or improvements in HbA1C. TRIAL REGISTRATION: This trial is registered with clinicaltrials.gov identifier: NCT03939793. In the USA, over 34.2 million people have diabetes. 1 Diabetes disproportionately affects people facing health and social inequity, who are often insured by Medicaid. Black, Latinx, and American Indian/Alaska Native individuals experience higher rates of diabetes and diabetes-related complications than non-Latinx white individuals, 1,2 and individuals insured by Medicaid are 10% more likely to develop diabetes compared to those on Medicare. 3 Managing diabetes requires complex selfmanagement behaviors, which may be difficult for those experiencing socioeconomic barriers such as food insecurity, housing instability, unemployment, or structural discrimination within healthcare. 4, 5 Two intervention strategies have shown promise for promoting behavior change and improving health outcomes in a variety of populations: digital health interventions and community health workers (CHWs). Digital health interventions use computers or mobile devices to encourage self-monitoring of health metrics such as blood glucose. By raising an individual's awareness of their metrics and health risks, digital health interventions can shift attitudes to promote healthy behavior. Digital interventions can be augmented by behavioral economic engagement strategies such as lottery-based financial incentives, which reinforce selfmonitoring behavior and foster habit formation. Digital health interventions have significantly increased physical activity, improved glycemic management and smoking cessation rates, and helped people lose weight. 6, 7 Yet, digital health interventions have low uptake and high attrition. 7 People with lower incomes are less likely to have a smartphone or home broadband internet. 8 Since digital health interventions do not address underlying socioeconomic barriers that lead to poor health outcomes, people may find it self-defeating to monitor health metrics without support to improve them, contributing to high attrition. CHWs are public health workers who have a close understanding of a community and/or are trusted members of that community. 9 CHWs support patients in developing and sustaining health-promoting behaviors by shifting social norms and attitudes, 10 improving self-efficacy, 11, 12 and addressing socioeconomic barriers by facilitating connections to resources. 13 CHW interventions have a record of improving diabetes outcomes. [14] [15] [16] [17] However, CHW interventions are resource-intensive and potentially less scalable than digital health interventions. Some patients can also become discouraged and ashamed by failed attempts at behavior change, and disengage from their CHW. 18 Two behavioral techniques, positive affect induction and attribution retraining, may help individuals cope with failed attempts at change. Positive affect induction uses self-affirmation and "random acts of kindness" to bolster emotional resilience after failure. Attribution retraining teaches individuals to interpret failure as resulting from controllable concrete causes rather than from character flaws. [19] [20] [21] [22] [23] Although CHWs are well-suited to delivering these resilience interventions as part of the person-centered support they provide, to our knowledge, this has not yet been done. In this study, we combined a digital health intervention designed to promote self-monitoring of blood glucose (SMBG) with a CHW intervention that included strategies for coping with setbacks and failure. We tested this hybrid intervention among adult Medicaid beneficiaries with insulindependent diabetes. This study was a three-arm, type 1 effectivenessimplementation trial that combined a single-blind randomized controlled trial with qualitative process interviews. Detailed methods have been previously described. 24 The study was approved by the Institutional Review Board of the University of Pennsylvania. Participants were recruited from May 22 through December 19, 2019. Eligible participants were patients from an urban academic outpatient facility and met the following criteria: (1) diagnosed with diabetes mellitus based on ICD-10-CM codes documented within the year prior to enrollment, (2) hemoglobin A1c (HbA1c) level ≥ 9% within the prior 6 months, (3) insulin-dependent and advised to perform daily SMBG, 25 (4) aged ≥ 18 years, and (5) lived in a high-poverty zip code in Philadelphia, PA. Exclusion criteria included use of a continuous glucose monitor, in another study that involved SMBG, already working with an IMPaCT CHW, or unable/unwilling to consent. After obtaining written consent, research assistants collected baseline clinical, psychosocial, demographic, and psychometric data, including SF-12, 26 Adverse Childhood Experiences, 27 Single-Item Drug Screen, 28 Single-Item Alcohol Screen, 29 Single-Item Health Literacy Screen, 30 the Perceived Stress Scale, 31 Enriched Social Support Inventory, 32 and Patient Activation Measure. 33 Research assistants used a script and low-literacy visual aid to share participants' current HbA1c, provide brief education around evidence-based behavioral strategies for improving diabetes outcomes, and set a realistic goal for reducing HbA1c over the 6-month study period. Baseline HbA1c were collected onsite for participants who did not already have a HbA1c recorded within 28 days prior to enrollment. If participants did not have a glucometer or if their glucometer was incompatible with the data management platform used by the study team, they were provided with a glucometer (OneTouch Verio Flex®, LifeScan Scotland Ltd.) and a 24week supply of test strips and lancets. Participants were asked to bring their glucometers for SMBG data extraction using the Glooko® patient management software at 3-and 6-month follow-up visits. The 3month visit consisted of a brief assessment of adverse medical events and extraction of patients' SMBG data including dates, times, and values since enrollment. The 6-month visit included a patient-reported outcomes survey, SMBG data extraction, adverse event screening, and HbA1c. If the participant did not attend their 6-month visit, HbA1c was extracted from the electronic health record (EHR) at 6 months ± 28 days postbaseline. Participants received a $50 reloadable gift card upon completion of the enrollment visit, $50 upon completion of the 3month follow-up, and $100 upon completion of the 6-month follow-up. On March 13, 2020, the COVID-19 pandemic was declared a national emergency; at this point, 17 (11.3%) participants were eligible for but had not completed their 3-month visit, and 97 (64.7%) were eligible for but had not completed their 6-month visit. To minimize risk of harm to participants and research personnel in attending in-person visits, the study team planned several modifications that were approved by the Institutional Review Board. Remaining in-person visits were suspended and converted to telephonic visits; as a result, participants did not bring in their glucometers or have studyrelated labs drawn. To maximize available outcome data, the primary endpoint was shifted from 6-month to 3-month SMBG adherence, and laboratory orders for HbA1c were placed in the EHR so participants could have HbA1c drawn if they were obtaining other labs associated with their routine care. At enrollment, research assistants created participant profiles in the Way to Health digital health platform, an automated technology platform that integrates clinical trial randomization, biometric devices, financial system fulfillment, and secure data capture. 34 Way to Health used an allocation sequence to randomize participants in a 1:1:1 ratio to one of three arms: usual care, digital health intervention, or hybrid. Usual Care. Participants randomized to the usual-care arm were asked to check their daily blood glucose and to continue with their usual care. Digital Health. Participants randomized to the digital health arm were asked to check their blood glucose and text the value daily to a phone number linked to the Way to Health platform. To promote early motivation and habit formation, participants were entered into a lottery each day they texted their glucose values for the first 6 weeks of the study period. Each day participants texted, the lottery provided an 18 in 100 chance of winning $5 and 1 in 100 chance of winning $50. Accrued money was distributed to participants biweekly on a reloadable card. If participants texted in a blood glucose value that was preestablished as medically dangerous (< 60, > 400), they received an automated text encouraging them to follow up with their provider. These values were also routed directly to the study clinician who called each patient within 24 hours to provide clinical management and coordinate care with the patient's provider. Hybrid Digital Health and Community Health Worker Support. Participants in the hybrid arm received all aspects of the digital health intervention: they were asked to check their blood glucose daily, were entered into a daily lottery each day they texted their blood glucose levels, and had out-ofrange values routed to the study clinician who intervened as above. Additionally, CHWs met with participants at enrollment and provided brief coaching using positive affect induction and attribution retraining to increase resilience to setbacks. Details of this coaching are described elsewhere. 24 At this initial meeting, CHWs explained to patients that they might work with them in the future if they needed additional support. During the first 12 weeks of the study, hybrid arm participants with low rates of SMBG (defined as 5 instances of missed readings) and/or elevated glucose readings (defined as a glucose level > 300 mg/dL for > 30% of days over any 2-week period) were 'escalated' to receive intensive CHW support. CHWs implemented the IMPaCT intervention, 14, 15, 35 in which the CHW used an in-depth semi-structured interview guide to get to know participants' strengths, goals, and unmet social needs (e.g., food insecurity, housing instability, drug and alcohol use, family stress, etc.). As a part of this conversation, CHWs asked: "What do you think you'll need in order to improve your health?" Participants' individualized goals became the basis for tailored action plans. For the remainder of the 24-week study period, CHWs provided coaching, social support, advocacy, and navigation to support participants in achieving their health goals. CHWs communicated with participants at least once per week, including monthly face-toface contact. During these encounters, CHWs normalized setbacks and used positive affect induction and attribution retraining to help patients to cope with failure. CHWs did not provide diabetes education; however, they confirmed participant access to a glucometer and asked about their blood glucose readings. CHWs also helped participants connect to long-term family and social supports after the intervention ended. Initially, CHWs worked with participants both by phone and in person, depending on participant preference and situation. When COVID-19-related restrictions began in March 2020, all CHW engagement transitioned to telephonic and text message support. This occurred in month 10 of the study and affected half of the participants who received CHW support. Participants who completed the intervention prior to the COVID-19 restrictions had an average of 14.3 successful contacts with the CHW, compared with an average of 10.8 contacts for participants whose intervention period overlapped with the stay-at-home order. The primary outcome of interest was the difference between hybrid and usual-care arms in adherence to SMBG at 3 months, as measured by the total number of days the glucometer was used divided by the 90 days in the follow-up period. The primary outcome was measured by extracting SMBG data directly from glucometers. The secondary outcome was the difference between hybrid and usual-care arms in change in HbA1c from baseline to 6-month follow-up. As an exploratory analysis, we compared the outcomes above between hybrid and digital health arms. We defined participants with complete adherence data to include anyone whose glucometer data included a reading before and after the primary endpoint (90 days). To avoid underestimating adherence rates, we considered participants who were lost to follow-up, who did not bring glucometers to follow-up visits, whose glucometer could not be read by the data management platform, or whose glucometer readings started after 90 days post-enrollment to be non-completers, i.e., to have missing adherence data rather than 0% adherence. Means, medians, standard deviations, and proportions were calculated to describe the sample. Descriptive comparisons of baseline characteristics between arms used chi-square test for categorical and Wilcoxon rank-sum test for continuous variables. We used Wilcoxon rank-sum test to assess differences between two arms for the primary and secondary outcomes. We first conducted a complete case analysis using Poisson regression to model rate of adherence to SMBG at 3 months. We also imputed missing data, using multiple imputation with the chained equations method based on baseline characteristics. Each of the 20 imputed datasets were analyzed with a Poisson model, and results were combined for inference using Rubin's rules. Results from two separate analyses (complete case and imputed) were nearly identical; since the data may not be missing at random, we report complete case results from the Wilcoxon rank-sum test. All statistical analyses were carried out with SAS (version 9.4). A significance level of 0.05 was used. Based on a similar 24-week trial, 36 we assumed that SMBG adherence rate in the usual-care arm would be 40%. We hypothesized that rate in the hybrid intervention would be 80%. Using a two-sample comparison of proportions (usual care versus hybrid), we estimated a sample size of 28 participants per arm to detect differences with 80% power, assuming a type I error rate of 0.05 and 20% attrition. We enrolled 50 participants per arm to ensure that we would exceed minimum threshold for appropriate sample size Out of 485 patients screened, 59 (12.2%) did not meet eligibility criteria. Of the remaining 426 patients, 181 (65.6%) were not interested, 79 (28.6%) did not arrive for their initial visit, and 16 (5.8%) declined to consent. A total of 150 participants were enrolled and randomized to one of three arms. Loss to follow-up was greater than anticipated at both 3 and 6 months. A total of 40 (80.0%) control arm, 34 (68.0%) digital health alone, and 28 (56.0%) hybrid participants completed data collection for the primary outcome (Fig. 1) . We compared study participants who completed 3 months of SMBG adherence (N = 102) with those who did not (N = 48). The non-completers differed significantly on arm assignment (20.0% usual care vs. 33 Overall, 41 hybrid arm participants (82.0%) required escalation to intensive support from a CHW because they demonstrated low adherence or elevated blood glucose levels. In this randomized controlled trial, which enrolled Medicaidinsured patients with insulin-dependent diabetes, we did not observe statistically significant differences in either SMBG adherence or improvement in HbA1c between any of the three arms (usual care, digital health alone, or hybrid digital health with CHW support for those with persistent elevated glucose levels or non-adherence to SMBG). All three arms received proven effective strategies for improving blood glucose management, including basic diabetes education with goal setting, which has been shown to improve HbA1c. 37 Although both financial incentives and CHW support have previously been shown to be cost-effective strategies 38,39 that improve diabetes outcomes 14, 15, 35 but have not been studied in combination. Over 80% of participants in the hybrid arm demonstrated low adherence or high blood glucose levels, even with the digital health intervention, and were thus "escalated" to receive CHW support. CHWs reinforced participants' established goals and the importance of self-monitoring of blood glucose, addressed the socio-behavioral determinants of health, and provided strategies for coping with the setbacks that individuals may encounter when living with diabetes. Interestingly, we observed greater attrition at the 3-month follow-up in the hybrid arm (44%) than in either of the other arms. This rate is higher than what we have seen in previous studies of the IMPaCT model. 14, 15, 35 Several factors may have contributed to this attrition. Since participants knew they were only receiving CHW support because they had not succeeded in following their self-monitoring regimen, it is possible that feelings of embarrassment may have led them to disengage, consistent with a previous qualitative study. 18 In addition, priming participants to expect a light-touch, technology-focused intervention, and delaying the more intensive and interactive CHW support until they struggled may also have led participants to disengage out of perceived inconvenience. This study is timely because the COVID pandemic has catalyzed a shift toward digital health, as well as home and community-based care for conditions like diabetes. Digital health has grown as a share of health care services, 40 supported by new policy flexibilities from legislators, regulators, and payers. 41 In addition, a U.S. congressional bill introduced in the House of Representatives in early 2021 would invest in expanding home and community-based care through increasing the applicable Medicaid federal matching rate for those services. 42 In the past, digital health interventions and community-based supports have been viewed as separate and distinct. In theory, patients would benefit from habit formation encouraged by digital health interventions combined with support to address underlying social needs. Our study demonstrates the feasibility of a hybrid approach which may overcome limitations of digital health or CHW support alone. However, the lack of improvement for the hybrid arm relative to the usual-care and digital health arms in either SMBG adherence or HbA1c, as well as the high attrition rate we observed in the hybrid arm, indicate that more research is needed to identify optimal combinations of these strategies. Our study has some limitations. This single-center study had a relatively small sample size with high loss to follow-up limiting power and generalizability. The COVID pandemic altered our study design and may have led to a higher-thanexpected rate of loss to follow-up at 6 months. Unlike many digital health interventions which require smartphones or broadband connection, we only required participants to have a basic cell phone with SMS messaging; this was an intentional modification to make the intervention more accessible to low-income populations. However, it meant that participants needed to complete an additional step of texting their SMBG to the study platform which may have contributed to increased rates of attrition in the two arms that required this step. In addition, because we used low-tech glucometers covered by Medicaid instead of ones that upload real-time data via Bluetooth connection, we were dependent on extracting data from the physical device; if someone lost or did not bring in their glucometer, this resulted in missing data. Finally, one of the COVID-19 modifications included a truncation of our primary measure (adherence) from 6 to 3 months. Future studies should include longer follow-up times. In a randomized trial of Medicaid-insured patients with insulin-dependent diabetes using two behavioral interventions (digital incentives and CHW) compared with usual care, we did not find statistically significant improvements in SMBG and HbA1c. 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