key: cord-0832360-5oabd2hs authors: Rhodes, Annie; Inker, J.; Richardson, J.; Zanjani, F. title: Alzheimer’s Disease Prevention Health Coaching date: 2022-04-01 journal: J Prev Alzheimers Dis DOI: 10.14283/jpad.2022.33 sha: b38d64b5be3d227a1e8b566cd7d5d7e1b1f183ae doc_id: 832360 cord_uid: 5oabd2hs BACKGROUND: Widespread lifestyle risk reduction at the community level is considered effective in decreasing Alzheimer’s disease (AD). To address the limited use of risk deduction in AD, this study aimed to explore the feasibility of community-level implementation. Diverse older adults (60+) living in Richmond, VA, with incomes below $12,000/year and managing diabetic/cardiovascular symptoms were offered weekly lifestyle telephone-health coaching for 12-weeks in 2019–2020 (Phase 1). The health coaching sessions were framed to provide AD lifestyle risk reduction education, goal setting, and support: motivations and self-efficacy. The study sample (n=40, mean age 68 years (range: 60–76 years)) was 90% African American/Black (n=36), 100% Non-Hispanic, and 45% males (n=18). Twenty-five participants (60%) reported experiencing some/often memory problems in the last 12-months. Thirty-nine (95%) of subjects successfully participated in coaching sessions; on average, 11 (91.9%) sessions per subject were completed. Participants provided positive anecdotal feedback and stated the need for continued health coaching. Consequently, n=30 (75%) of the original sample consented to continued health coaching during the 2020–2021 COVID-19 pandemic (Phase 2). All study subjects were examined at baseline (Time 1), 3-month (Time 2), covid-baseline (Time 3), and 3-months postcovid-baseline (Time 4). Repeated Measures ANOVAs were done to examine Time and Time*Memory Status effects. RESULTS: There was a total risk reduction at Phase 1 (F=9.26; p=.004; effect size=.19). At Phase 2, alcohol use decreased (p=.05), quadratic time effects were observed in physical activity (p=.01–.02), and cubic time effects were observed in depression (p=.02). Overall, total risk reduction in Phase 2 was observed at F=5.05; p=.03 effect size=.16. Pre/post-test analyses indicated improvement in Memory Problem Time Interaction (p=.007), AD knowledge (p=.01–.03), and Tired Days (p=.04) across Phase 1. There was also improvement in Social Isolation Time Interaction (p=.03); Tobacco Addiction (p=.001); Poor Mental Health Days (p=.05), and Worried Days Time Interaction (p=.02−.01) across Phase 2. Between subject Memory Status effects, indicating poorer baseline levels for individuals reporting memory problems had greater improvement seen in memory complaints (p=.001), poor mental health days (.02), and tired days (.003−.01). CONCLUSIONS: This preliminary work creates the impetus for future large-scale lifestyle AD risk reduction investigations to mitigate and improve modifiable AD risk among low-income, diverse older adults, including individuals reporting memory problems. Our findings surrounding participant engagement and positive trends in AD risk reduction support the hypothesis that telephone-based health coaching is a practical and feasible AD risk reduction intervention. A bout a third of Alzheimer's disease (AD) cases worldwide are attributed to modifiable risk factors, particularly psycho-behavioral risk factors: memory/cognitive ability, depression, stress/anxiety, and lifestyle factors: excessive alcohol use, physical inactivity, smoking, and social isolation (1) . Preclinical stage AD risk reduction should be fully explored and tested to address increasing AD rates. Public health programming for AD risk reduction needs to address the existing barriers in knowledge, self-efficacy, and expectations for psycho-behavioral change (2). Lifestyle health coaching shows promise in potentially reducing AD but requires more testing (3, 4) . Low-income urban-dwelling adults are a highpriority risk group due to having some of the greatest frequency of lifestyle risk factors, high levels of morbidity and disability, and shorter lifespans (5, 6) . Additionally, this population experiences barriers to innovative intervention (7) . Although susceptibility to AD is not determined by income, it is influenced by personal history of income-related modifiable lifestyle risk factors (5) . In response to these barriers, we propose to address AD lifestyle risk factors in low-income groups. The main AD psycho-behavioral risk factors are cognitive ability, depression, anxiety, and lifestyle behaviors: excessive alcohol use, physical inactivity, smoking, and social isolation (3, 4) . Psychological variables such as cognitive ability, depression, and anxiety have long been identified as risk factors for AD. Cognitive problems are typically one of the first warning signs of cognitive impairment related to AD and dementia (8) . Depression/anxiety also has shown an increased risk of dementia in late-life (9) , attributed to disturbed sleep and stress-induced cardiovascular effects (10) . Change in psychological AD risk factors are more amenable to clinical and pharmaceutical-related interventions than other lifestyle factors. AD lifestyle risk factor changes are relatively more amenable to community-level interventions and can have a distal effect on AD-disease risk and AD-psychological risk factors. For instance, in the case of excessive alcohol use, there are detrimental neuro-psychological effects from heavy levels (hazardous/intoxicating) of intake, and it is a risk factor for AD (11, 12) , especially among APOE e4 allele carriers (13) . Physical inactivity is one of the most consistent AD risk factors because of influences on cognition, vascular health, and brain metabolism (14) . There is an overall AD risk reduction in physically active adults compared to non-active counterparts, extending into old age (15) . Smoking increases the risk of AD (16), explained by vascular and neurological detriments (17) . Lonely persons also have a higher AD risk; cognitive decline and the onset of AD can be delayed/prevented with frequent participation in social activities (18) , partially explained by the vascular and oxidative stress benefits (19) . Prevention at the preclinical stage is currently the most effective way to decrease the incidence of AD and its associated burden for individuals and society (20) . Health coaching, a lifestyle intervention, operates by supporting lifestyle change with trained, motivational coaches who systematicaly encourage, support, plan, and address individual goals, barriers, and motivators, ultimately creating sustained lifestyle changes within their clients (21, 22) . Health coaching also removes attitude, belief, and knowledge barriers by engaging participants in discussions around health literacy, adherence, and self-efficacy (23, 24) . Health literacy and knowledge barriers are specifically relevant because, while AD is often a major concern for adults (25), there is frequently an individual failure to connect lifestyle behaviors and AD (2). Precision education which teaches the association between behavior risk, lifestyle change,, and AD can be psychologically beneficial, motivating, and programmatically concrete (26) , especially among individuals with poor AD health risk appraisal (27) . Furthermore, there is evidence for health coaching efficacy in low-income and underserved populations (28, 29) . Health coaching is especially beneficial for lifestyle change in people with numeracy and literacy deficits because it facilities participant interpretation of health risk information (30) . Previous findings have indicated that health coaches should personalize the coaching experience to balance competing and conflicting needs in limited-resource groups to maximize lifestyle change (31) . Health coaching is an under-tested strategy for AD risk reduction (32) . There have been calls for lifestyle change health coaching to be more fully explored and evaluated (33, 34) . While findings are mixed (33) relevant to AD, health coaching interventions have shown improvement in alcohol/smoking use (35) , physical activity (36, 37) , and social isolation (38) . In addition to lifestyle behaviors, health coaching indirectly supports psychological and emotional health, improving stress levels (37) and mental health (39) . Evidence indicates that health coaching enhances participant care and satisfaction compared to standard treatment, reducing depressive symptoms and hospitalizations (40) . In a sample with Type 2 Diabetes Mellitus, health coaching increased selfmanagement skills and reduced 30-day readmissions (41) . Health coaching also distally improves healthy quality of life, i.e., healthy days, through lifestyle management (42) . Lifestyle change can be difficult due to motivation, self-efficacy, and knowledge barriers (43, 44) . In turn, improving individual understanding of barriers/benefits of supporting lifestyle change within an AD context can improve attempts to induce positive change in AD-risk populations. Lifestyle health coaching is a promising yet underresearched strategy for reducing AD risk factors (32). Programmatically connecting individual-level lifestyle health coaching requires testing to address AD risk reduction outcomes (26) . Accordingly, we proposed to offer AD targeted lifestyle health coaching to explore reductions in AD modifiable psycho-behavioral risk factors. This study's primary aim is to examine change in AD modifiable risk factors (e.g., memory/cognitive ability, stress/anxiety, depression, and lifestyle) in highrisk older adults. Twelve telephone-based health coaching contacts (once/week) are offered to 60+ aged adults, using a participant preference strategy, in which the participant decides the lifestyle factor to target. This research occurred in collaboration with partnering urban subsidized housing unit contexts (45) , as part of the Virginia Commonwealth University (VCU) iCubed Health and Wellness in Aging Population Core. We aimed to recruit n=40 high-AD risk adults as indicated by aged 60+, low-income (below $12,000/year), and managing diabetes or cardiovascular symptoms. The overall hypothesis of this research is that AD risk can be reduced by implementing a telephone-based health coaching intervention. The study sample (n=40, mean age 68 years (range: 60-77 years) was 90% African American/Black (n=36), 100% Non-Hispanic, and 45% males (n=18)). All study recruitment and research activities occurred in Richmond, VA, focused on senior public housing settings. With appropriate permissions, study staff set up recruitment/ research tables in common areas where advertisements were viewable and flyers were made available for dissemination. The study coordinator staffed recruitment events. Participants affirmed their eligibility to participate to the study coordinator: English proficiency, denial of cognitive impairment, actively managing diabetic or cardiovascular health symptoms, aged 60+ years, income below $12,000/year, and an accessible telephone. For individuals interested, consent and the baseline interviews could be completed immediately. After the onset of the COVID-19 pandemic, recruitment and assessment activities took place via telephone or mail. Once the baseline assessment was complete, the health coach was assigned to complete the study intervention. After the subjects completed their 12-week intervention, they were contacted by study staff to complete their follow-up assessment (Phase 1). At the conclusion of the 12-week intervention program, study staff offered participants an additional 6 weeks of follow-up health coaching (Phase 2). The additional coaching was added in response to the COVID-19 pandemic and focused on pandemic knowledge, prevention, and safety. Thirty of the original participants (75%) agreed to participate in the COVID-19 Phase 2 follow-up coaching. Of the phase 2 sample (n=30, 86% African American/Black and 36% male), 66% of participants had minimally completed high school. In Phase 1, the health battery was administered at baseline (prior to coaching, Time 1) and again at exit (after 12 weeks of health coaching, Time 2). Prior to starting the COVID-19 coaching (Phase 2), participants who re-enrolled were given a Phase 2 (Time 3) health assessment. At the end of the COVID-19 six-coaching sessions, the final (Time 4) health battery was administered. All selected instruments are state dynamic to assess change over the intervention period. • AD Knowledge: AD Knowledge Scale (46), 34-item self-report survey, includes health disparities and behavioral health risk factor information. • Alcohol Use: Audit-C (47). Brief 3-item self-report alcohol screen that reliably identifies alcohol quantity, hazardous drinkers, or active alcohol use disorders. Total Risk Score is an aggregate score calculated from affirmation to 1) any depression symptoms, 2) drinking more than 1 drink/day, 3) any smoking, 4) any social isolation symptoms, 5) reporting more than 5 medications, and 6) reporting <1.5 hours physical activity/exercise each week. Memory Problem Status is a dichotomous score calculated from the following question: "In the past 12 months, how much of the time have you had any of the following problems? Memory Problems". Never/rarely, sometimes, and often. Sometimes and often were coded as 1=Yes for Memory problems. Never/rarely was coded as 0=No for Memory Problems. Twelve telephone-based health coaching contacts (weekly over 3-months) were offered as the study intervention. Health coaching calls lasted an average of 15-20 minutes per session and were structured with learning objectives. The first call focused on scheduling, developing familiarity/comfort, AD education/ learning objectives, lifestyle change goal setting/ planning, coaching-creating change, identifying barriers/ motivators, problem-solving, and summarization/ learning verification. The subsequent ten sessions consisted of education/learning objectives, goal achievements/reidentification, lifestyle change coaching, progress/planning on barriers/motivators/problem solving, and summarization/learning verification. The final session was a closure call, focusing on continued goal setting and planning for sustained lifestyle change for AD prevention and highlighting and celebrating achievements. For participants who chose to re-enroll in the COVID-19 coaching program, the health coaching calls were similar. However, they included COVID-19 learning objectives and supported overcoming COVIDrelated barriers to sustaining lifestyle risk reduction. The intervention protocol was conceptually designed to provide health coaching to target AD-Lifestyle risk via education, personal risk assessment, attitudes, and lifestyle behavioral change, to reduce AD risk. Health coaching praxis supports individual lifestyle change using trained individuals that serve as coaches to systematically encourage, support, plan, and address goals, barriers, and motivators to create learning objectives and sustain lifestyle change (21, 22) . The Health Belief Model56 and the Information-Motivation-Behavioral Skills Model (57) are guiding health coaching models. Theoretical principles including informationeducation, threat, motivation, skills, and barrier/ motivator domains were foundational concepts integrated into the intervention protocol (58) . A participant preference lifestyle change approach framed the health coaching sessions. Participant preference approaches are cost-effective, feasible, and support knowledge, evaluation, and understanding of health concepts (59, 60) . Increasing these skills is critical in low-income populations, who are at higher risks of health literacy challenges and may need support to synthesize health information effectively (61) . Based on Maslow's hierarchy, low-income populations are one of the most challenging groups in which to create lifestyle change, partly from competing basic needs and increased vulnerability (62) . Employing the participant preference approach generates understanding between the health coach and the participant. It empowers the participant to choose which lifestyle behavior issues are most pressing and/or feasible for sustained change. Repeated Measures Analysis of Variance, with time as the independent variable and outcome scores (e.g., cognitive functioning, alcohol use, depression, physical inactivity, smoking, social isolation, and medication risk), as the primary dependent variable, effects of self-reported memory problem status on the dependent variables are also explored. Change is evaluated at 2-4 time points, depending on if participants re-enrolled in COVID-19 coaching. Statistical significance is set at (p<.05), trends in cognitive change are identified as (p<.10). The study sample (n=40, mean age 67.85 years (range: 60-77 years, 4.78 standard deviation) was 90% African American/Black (n=36), 100% Non-Hispanic, 55% females (n=22), and 60% of the sample reported memory problems sometimes or often in the past 12 months. Approximately 70% of the sample had minimally completed high school (GED earned). 87% (n=35) of the sample had monthly incomes equal to or less than $1,000. 82% of the sample (n=33) lived in senior housing or apartments. The rest (n=7) of the sample lived in a singlefamily home. 93% of participants lived alone. Table 1 shows the demographic distribution across memory status (MS), indicating no demographic differences across memory. Overall, the subjects were able to engage in telephone health coaching. Thirty-nine (95%) of subjects successfully participated in coaching sessions; on average, 91.9% (11) sessions/subject were completed during Phase 1. On a scale of 0-100 (higher scores= more positivity), they rated their experience a 93.3. On a scale of 0-10 (higher scores= more improvement), rated their health improved 8.36. There was a total risk reduction at Phase 1 (F=9.26; p=.004; effect size=. 19 ). Significant improvement in depression risk status was seen at Phase 1 (F=4.89; p=.03; effect size=.11). The other risk factors showed trends for improvement and no smoking change. At Phase 2, there was a quadratic time effect for Total Risk (F=5.05; p=.03; effect size=.16), indicating improvement that was not sustained. Phase 2 total risk change was driven by cubic Between subject MS effects indicated poorer baseline levels for individuals reporting memory problems, but often with more significant improvement. Between subjects effects for memory status were seen in memory problems (F=80.98; p=.001), poor mental health days (F=5.77; p=.02), and tired days (F=9.99; p=.003). Figure 1 depicts Memory status time interaction effects. There was no clear indication that the intervention impacted cognitive ability due to COVID-19 IRB restrictions which limited face-to-face cognitive assessments. There were some trends indicating improvement in the Trails A (F=3.72; p=07; effect size=.16/ MS Between Subjects F=2.87;p=.10;effect size=.13) and COGTEL (F=3.33; p=09; effect size=.18) performance over time. We conclude that telephone-based AD Health Coaching is a feasible community health intervention. Participants provided positive anecdotal feedback and the need for continued health coaching. Participants tolerated the intervention well, as demonstrated by 97% of participants completing all or most of Phase 1 and 93% of participants completing phase 2. Likely, the ease of accessing the intervention (participants only needed a telephone) combined with the health coaches' patient preference strategy helped retain participants in the program. There were significant improvements in overall risk, memory complaints, social isolation, smoking, Alzheimer's Knowledge, and poor mental health/tired/ worried days across timepoints. Memory complaints and tired days did not have continued significant changes during Phase 2, suggesting that the COVID-19 pandemic may have undermined continued improvement. The Phase 2 improvements observed in social isolation, smoking, poor mental health days, and worried days suggest that some AD risk factors may need higher dosages of health coaching for improvement to be observed. Time 3 measurement indicated higher Fagerstrom smoking scores than Time 1 measurement. Tobacco use is of particular interest because smoking increased in some users during the pandemic. Still, tobacco users may have been uniquely motivated to reduce or stop their use due to fears related to vulnerability to the virus (Rigotti et al., 2021) . Although the Fagerstrom smoking scores increased to above baseline levels at the Time 3 COVID-19 entry, the additional 6 health coaching sessions successfully reduced tobacco use. Despite our intervention occurring during the pandemic lockdown, participants in the health coaching program had reduced social isolation, smoking, poor mental health days, and worried days during the COVID-19 pandemic. The decrease in memory complaints is particularly exciting, as cognitive difficulty/memory complaints are frequently the first sign of AD. Furthermore, the group differences seen for memory status indicate greater levels of improvement in the memory complaint group. Study cognitive ability trends also showed patterns for improvement. Future research is needed to address how AD health coaching can be used as a remedial intervention to address memory complaints prior to a formal AD diagnosis. There are some limitations to our findings to be noted. The COVID-19 pandemic began after recruiting approximately half of our participants, forcing us to adjust our instruments and recruiting methods. Our original recruitment strategy focused on an in-person presence within Richmond, Virginia's senior public housing communities. After pandemic onset, we switched to snowball recruiting and select outdoor events, slowing recruitment efforts. We were unable to administer the TMT or the Memory Ability Test. Instead, we used the COGTEL, but it makes it difficult to compare memory changes across participants. We are also not able to adjust our scores in cognitive measures for social factors. The additional 6 sessions of COVID-19 (Phase 2) health coaching were not part of the original study design. The time difference between lapses in health coaching varies considerably among participants. Some participants re-enrolled for an additional 6 weeks of COVID-focused health coaching after a 2 week waiting period following the conclusion of the 12-session intervention. Other participants had been disenrolled for more extended periods. Finally, the majority of this study took place during 2020-2021 amid the COVID-19 pandemic. It is possible that testing this intervention during "normal" times may have yielded different results due to fewer demands on cognitive reserves and more resources for participants. Many participants provided anecdotal evidence that exercise programs, social activities, and transportation services were limited or halted during the pandemic. Time 3 measurement indicated higher Fagerstrom smoking scores than Time 1 measurement. Tobacco use is of particular interest because smoking increased in some users during the pandemic. Still, tobacco users may have been uniquely motivated to reduce or stop their use due to fears related to the virus (63) . Although the Fagerstrom smoking scores increased to above baseline levels at the Time 3 COVID-19 entry, the additional 6 health coaching sessions successfully reduced tobacco use. Despite our intervention occurring during lockdown, participants in the health coaching program had reduced social isolation, smoking, poor mental health days, and worried days during the COVID-19 pandemic. The challenges faced during the pandemic emphasize the strengths inherent in a telephonic, patient preference lifestyle intervention. Health coaches are trained to be cognizant of participant wishes and mindful of barriers, potential competing needs, and to respect voice and choice. The patient preference strategy encouraged both coach and participant to find methods and set feasible Note. Due to IRB COVID-19 precautions Sample groups for cognition instruments are uneven goals for risk reduction. From an operational and methodological standpoint, our intervention showed resilience and robust effects. Despite the pandemic, we continued providing uninterrupted health coaching to participants. We proceeded with our recruitment and measurement with only minor modifications. Using the telephone instead of videoconferencing or more modern telehealth approaches meant that participants could continue accessing coaching even after many of them lost access to the computer labs in their housing complexes and local libraries. We used the mail to obtain signatures and compensate participants. The consideration of delivering accessible interventions is relevant beyond the lens of pandemic preparedness. Lower educational attainment, lower-income, identifying as African American/Black, and being 65+ correlate with a lack of internet access (64) . Our telephonic health coaching model could also be applied in rural populations, who also are more likely to be without internet access. In conclusion, this preliminary work creates the impetus for future large-scale lifestyle AD risk reduction investigations to improve the lives of AD-risk, lowincome, diverse older adults. These findings demonstrate that telephone-based health coaching is feasible, based on participant engagement, and practical, based on positive trends in reducing AD risk factors. The employment of a telephone-based model allowed for the continuation of coaching through pandemic shutdowns and made the intervention more accessible for participants with physical disabilities or those who did not have access to computers than traditional in-person or telehealth interventions. Health coaching interventions are costeffective when compared to licensed professionals that work in behavior change. The relationship-building between participants and health coaches allowed coaches to be conscious of individual barriers to implementing change while continuously reinforcing the connections between participants, their susceptibility to AD, and their strengths in behavior change. 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