Caregivers' effect on weight management in adults with intellectual and developmental disabilities

Disability and Health Journal xxx (2017) 1e6

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Caregivers' effect on weight management in adults with intellectual and developmental disabilities L.T. Ptomey a, *, C.A. Gibson b, J. Lee c, D.K. Sullivan d, R.A. Washburn a, A.M. Gorczyca a, J.E. Donnelly a a Cardiovascular Research Institute, Division of Internal Medicine, The University of Kansas Medical Center, 3901 Rainbow Boulevard, Kansas City, KS 66160, USA b Department of Internal Medicine, The University of Kansas Medical Center, 3901 Rainbow Boulevard, Kansas City, KS 66160, USA c Institute for Measurement, Methodology, Analysis and Policy, Texas Tech University, 2500 Broadway, Lubbock, TX 79409, USA d Department of Dietetics and Nutrition, The University of Kansas Medical Center, 3901 Rainbow Boulevard, Kansas City, KS 66160, USA

a r t i c l e i n f o

a b s t r a c t

Article history: Received 26 September 2016 Received in revised form 3 January 2017 Accepted 8 February 2017

Introduction: Caregivers of adults with IDD often play a large role in the ability of adults with IDD to lose weight. Objective: The purpose of this study was to determine to examine the effects of the caregivers' perceived burdens and self-efficacy and their relationship to an individual (family member or paid staff) on weight changes across a weight management intervention for adults with IDD. Methods: Overweight/obese adults with mild to moderate IDD, along with assigned caregivers who served as their study partner, were randomized to an 18-month weight management intervention. The living environment and caregiver relationship were assessed at baseline. Caregivers completed questionnaires regarding perceived hassles, uplifts, and self-efficacy in helping the participant follow a weight management intervention. Results: 147 adults with IDD (~57% women and ~16% minorities) were included in data analysis. After 18 months, there were no differences in weight loss between participants who had a family member as their study partner and those who had a paid assistant as their study partner (
5.5 ± 5.2% vs.
5.6± 5.3% p ¼ 0.16). However, paid assistants reported more hassles with following the diet intervention at 6 months (p < 0.05). Participants who had a paid assistant as their study partner were more likely to have multiple study partners during the study, which was correlated with smaller weight loss. Conclusion: While caregivers are important for weight management of adults with IDD, the caregiver's relationship to the participant does not affect weight change in an intervention. © 2017 Elsevier Inc. All rights reserved.

Keywords: Caregiver Intellectual and development disabilities Adults Weight management Family

1. Introduction Approximately 1e3% of the US population is diagnosed with an intellectual or developmental disability (IDD). IDD is defined as a disability, originating before the age of 10, characterized by significant limitations in both intellectual functioning (IQ < 75) and 2 or more adaptive behaviors.1

* Corresponding author. The University of Kansas Medical Center, 3901 Rainbow Blvd, Mail Stop 1007, Kansas City, KS 66160, USA. E-mail addresses: [email protected] (L.T. Ptomey), [email protected] (C.A. Gibson), [email protected] (J. Lee), [email protected] (D.K. Sullivan), [email protected] (R.A. Washburn), [email protected] (A.M. Gorczyca), [email protected] (J.E. Donnelly).

As adults with IDD have left institutional care to live in group homes or supported living arrangements, they have adopted the physical activity2,3 and dietary characteristics4e6 of the general population and in turn have shown increased rates of overweight and obesity.7,8 The prevalence of obesity among individuals with IDD is approximately twice that in the general population, with up to 55% of adults with IDD considered obese (BMI >30 kg/m2).9e11 This high rate of obesity combined with a lower level of fitness and poor diet quality has resulted in an increased risk of heart disease, diabetes, hypertension, and osteoporosis.3,12,13 Adults with IDD live in a variety of different living environments: at home with parents or family, in group homes with live-in staff, and independently with occasional staff or parental support.14 While the living situations may vary, all have some type of

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Please cite this article in press as: Ptomey LT, et al., Caregivers' effect on weight management in adults with intellectual and developmental disabilities, Disability and Health Journal (2017), http://dx.doi.org/10.1016/j.dhjo.2017.02.001

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L.T. Ptomey et al. / Disability and Health Journal xxx (2017) 1e6

caregiver support, typically either a family member or paid staff. The role of caregivers has been recognized as an important factor in meeting the needs of individuals with IDD.15 This is also true in providing support for weight management. While data is limited, previous studies have reported that support from family or paid caregivers may have a positive impact on weight loss for overweight and obese adults with IDD.16,17 Including caregivers in the realm of health promotion could provide an avenue for increasing physical activity and reducing energy intake.11 Bergstrom et al.18 found that adults with IDD living in supported living homes had increases in physical activity after a weight management intervention. It is unlikely that adults with IDD can effectively implement the components of a weight management intervention without social support from caregivers.19 However, caregivers experience many barriers to providing support for weight management to adults with IDD. Spanos et al.20 identified staffing issues (e.g. constant turnover and lack of communication between staff members) and lack of caregiver knowledge on diet and physical activity as the two greatest barriers to providing successful weight management support. Matthews et al.21 completed a process evaluation of a walking intervention in adults with IDD and found that low morale for staff and increased demands in family caregivers were a few reasons for the lack of effectiveness in the trial. Thus, adults with IDD who live at home or in environments with one consistent care provider may have better support for weight management and therefore be more successful in a weight management intervention than those who live in homes with multiple staff. Previous weight loss interventions in adults with IDD have generally involved small samples (n < 25) and been conducted over a relatively short time frame (8e12 weeks),22 thus there has not been the opportunity to examine the association between caregiver relationship and weight change in a long-term weight management intervention. Data from a recently completed 18-month weight management intervention in 149 adults with IDD afforded an opportunity to examine the effects of the caregivers' perceived burdens and self-efficacy and their relationship to an individual (family member or paid staff) on weight change. 2. Methods 2.1. Study overview This was a secondary analysis of the data collected in an 18month effectiveness study with adults with IDD that compared two intervention approaches for weight management. All study participants who completed 1 month of the intervention were included in the current investigation. A detailed description of the rationale, design, and methods of this study has been previously published.23 In brief, 149 overweight/obese adults with mild to moderate IDD and their study partners were randomized to either an enhanced Stop Light Diet (eSLD)24 or a Conventional calorierestriction Diet (CD).25 Following a 6-month weight loss period, both groups were encouraged to continue following their diet for 12 months at a level of energy intake estimated to result in weight maintenance. The caregiver relationship (defined as family member or paid staff), living environment (independent living, group, or parent's home), and number of roommates were assessed at baseline using a demographic questionnaire completed by each participant's legal guardian (if applicable) or caregiver. The caregiver (staff) turnover and changes were tracked during the study, and a designated caregiver completed a nutrition hassles questionnaire at 0, 6, and 18 months of the study to determine their barriers, uplifts, and selfefficacy for helping the participant be successful in the

intervention. This study was approved by the Institutional Review Board at the University of Kansas. 2.2. Participants The study was conducted between July 2011 and May 2014. All participants lived within ~50 miles of Lawrence, KS, United States of America, which includes the greater Kansas City Metropolitan. Participants were men and women, 18 years of age or older, with a diagnosis of mild to moderate IDD as determined by a Community Service Provider operating in Kansas under the auspices of a Community Developmental Disability Organization (CDDO). To be included in the study, participants had to reside in a supported living condition either at home or with no more than 1e4 residents and have a caregiver (parent or staff) who assisted with food shopping, meal planning, and meal preparation. Participants had to be overweight or obese (BMI > 25 kg/m2), able to walk, and have a clearance from their physician to participate. Potential participants also must have had the ability to communicate preferences (e.g., foods liked and disliked), wants (e.g., more to eat, drink), and needs (e.g., assistance with food preparation) through spoken language, sign language, or augmentative and alternative communication systems, such as voice output communication aides. Individuals were excluded if they had uncontrolled insulin dependent diabetes, hypertension, severe heart disease, cancer, or HIV. Individuals were also excluded if they had participated in physical activity and weight reduction programs within the past 6 months or were being treated for an eating disorder. If a female participant was or became pregnant, she was excluded/terminated from the study. All participants were required to have a caregiver, defined as a parent/guardian whom the participant lived with or a direct care support staff who had primary responsibility for managing the house where the participant resided. The caregiver was referred to as the participant's “study partner.” The study partner agreed to participate in each of the monthly meetings with the participant and to support the participant in following the intervention. Study partners were not asked to follow the diet or to increase their own physical activity. When study partners who were unable to complete their partner role (e.g., they changed jobs, they were no longer able to commit to attending the monthly meetings, participants moved out of their care, etc.), they were replaced. New caregivers were provided training that was identical to that received by the original caregiver. 2.3. Recruitment procedure Participants were recruited through community and home visits. Written informed consent was obtained from either participants (self as guardian) or their legal guardian, and the caregiver. 2.4. Intervention overview At baseline, participants and study partners attended a 90-min, at-home diet orientation session conducted by their assigned health educator, and subsequently participated in monthly athome education sessions during the 18-month intervention with the same health educator. During a 6-month weight loss period, participants followed one of two different diet prescriptions, eSLD or CD. Following the weight loss period, both groups were encouraged to continue following their diet prescription for 12 months but at a level of energy intake designed to provide weight maintenance. Both groups were asked to wear a step counter and record steps walked with an eventual goal of 150 min per week.

Please cite this article in press as: Ptomey LT, et al., Caregivers' effect on weight management in adults with intellectual and developmental disabilities, Disability and Health Journal (2017), http://dx.doi.org/10.1016/j.dhjo.2017.02.001

L.T. Ptomey et al. / Disability and Health Journal xxx (2017) 1e6

2.4.1. Weight loss diets (Months 0e6) eSLD. The original Stop Light Diet developed by Epstein26 for use in children was enhanced (eSLD) with the addition of fruits and vegetables minimum recommendations (5 servings/day) and high-volume, low-energy portion controlled meals (PCMs) es and 2 shakes per day. The PCMs consisted consisting of 2 entre of pre-packaged, pre-portioned food products that were low in calorie but high in nutritional content, and intended to take the place of regular meals or snacks. Non-caloric beverages were allowed ad libitum. Participants were instructed to consume 2 es and 2 shakes per day, and if they were still hungry or were entre e or shake, they could pick foods from unable to consume an entre the Stop Light Diet picture guide. Participants were instructed to choose green or yellow foods and to avoid red foods. Shakes were provided to participants during the weight loss phase, and participants were instructed to purchase their own approved entrees. CD. Participants in the CD diet were educated to consume a nutritionally balanced, high-volume, lower fat diet as recommended by the United States Department of Agriculture.27 Participants' energy needs were estimated using the equation of MifflinSt Jeor28 multiplied by 1.4e1.6 to account for physical activity. A deficit of 500e700 kcal/day was prescribed; however, prescriptions never recommended less than 1200 kcals/day. Consumption of five servings of fruits and vegetables per day was recommended. Participants were provided examples of meal plans based on the 2010 MyPlate guidelines,27 each consisted of suggested servings of grains, proteins, fruits, vegetables, dairy, and fats based on their energy needs, and was counseled on appropriate portion sizes using three-dimensional food models. 2.4.2. Weight maintenance diets (Months 7e18) Energy intake for weight maintenance was estimated separately for the eSLD and CD diets was estimated using the equation of Mifflin-St Jeor28 multiplied by 1.4e1.6 to account for physical activity. Participants in the eSLD diet were encouraged, but not required, to continue to consume 14 PCMS per week and 5 servings of fruits and vegetables per day. Participants in the CD diet were provided examples of meal plans based on their energy needs for weight maintenance. 2.4.3. Weekly tracking and monthly meetings Participants, with assistance from their study partners, were asked to complete weekly data recording cards that were specific to their diet group (eSLD/CD) during the 18-month intervention. All participants were visited once a month by their assigned health educator. During the monthly home visits, the health educator assessed body weight and compliance with the intervention, provided feedback to the participant, answered any questions the participant or caregiver had, and resolved any issues related to following the diet or physical activity goals. 2.5. Outcomes assessments 2.5.1. Overview Demographic information including living environment was obtained at baseline. Anthropometric measurements (i.e., weight, height, BMI, waist circumference) and a nutritional hassles questionnaire were completed at baseline, following at 6 months during the weight loss period and at 12 and 18 months during the weight maintenance period. Study partner changes were monitored and documented monthly over the study. All outcomes were assessed at the participant's home during a single visit by study staff blinded to the intervention.

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2.5.2. Living environment At baseline, the participant's legal guardian or caregiver completed a form to determine if the participant lived at home or out of the home, the number of individuals who resided in the home, the number of staff who provided support in the home each week, and how many individuals in the home participated in the program. It was also determined if the study partner was a parent/ family member or paid staff. 2.5.3. Anthropometrics Participants were weighed in a hospital gown between 8:00 and 10:00 a.m., in duplicate, on a calibrated scale (Model #PS6600, Belfour, Saukville, WI) to the nearest 0.25 kg, following an overnight fast (~12 h). Standing height was measured in duplicate with a portable stadiometer (Model #IP0955, Invicta Plastics Limited, Leicester, UK). BMI was calculated as weight (kg)/height (m2). Waist circumference, as a surrogate for abdominal adiposity, was assessed using the procedures described by Lohman et al.29 Three measurements were taken, resulting in anthropometric outcomes recorded as the average of the closest 2 values. 2.5.4. Nutritional hassles questionnaire A nutrition hassles questionnaire was administered to study partners in order to assess hassles, uplifts, and self-efficacy that might influence their ability to help others in a weight management intervention. To create this questionnaire, the Hassles Scale,30 Hassles and Uplifts Scale,31 and Nutrition Hassles Questionarie32 were modified into 26 items that measure three constructs (Hassles, Uplifts, and Self-efficacy) with adequate psychometric properties. All three subscales (constructs) showed acceptable reliability, with Cronbach's alpha values of 0.90e0.93 for Hassles, 0.78e0.85 for Uplifts, and 0.93e0.95 for Self-efficacy across three measurements (0, 6, and 18 months). The convergent validity of the questionnarie was assessed by the composite reliability (CR) and average variance extracted (AVE) estimated from longitudinal confirmatory factor analysis. The CR values were more than acceptable (i.e., >0.70), with 0.89e0.92 for Hassles, 0.88e0.91 for Uplifts, and 0.93e0.96 for Self-efficacy across three measurements. The discriminant validity of the questionnaire was also evaluated by comparing each construct's AVE value against squared correlations that the construct has other two constructs.33 The discriminant validity was fully supported as the AVE values were always greater than the squared correlations. The hassles subscale included 10 items regarding minor annoyances to major problems or difficulties, such as planning meals, preparing meals, and grocery shopping. The hassle items were rated on a 3-point scale from 1 (somewhat severe) to 3 (extremely severe). If the item was not considered a hassle by the caregiver, it was scored as 0. The uplifts subscale included six different events that increase positive feelings, such as eating out or cooking for someone else. Study partners indicated how often an uplifting event has occurred in the last month using a scale from 1 (somewhat often) to 3 (extremely often). If the item was not considered an uplifting event by the caregiver, it was scored as 0. The selfefficacy subscale included 10 items designed to determine how confident study partners feel in their ability to perform different healthy nutrition behaviors, such as “identify appropriate food for meals and snacks,” “help to limit portion size,” and “prepare recipes using a variety of cooking methods.” Ratings ranged from 1 (not at all confident) to 5 (very confident). The questionnaire took approximately 10 min to complete. 2.5.5. Statistical analysis Participant demographics and all study outcomes (anthropometrics, hassles, uplifts, and self-efficacy) were summarized using

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L.T. Ptomey et al. / Disability and Health Journal xxx (2017) 1e6

descriptive statistics and bivariate analysis. Independent-samples t-test (with Satterthwaite approximation, if necessary) was conducted to examine group differences between participants who were supported by a family member and those who were supported by a paid assistant. In addition, general mixed modeling for repeated measures was utilized to estimate overall group difference (i.e., group effect), linear or quadratic change from 0 to 18 months (i.e., time effect), and group difference in this change (i.e., group-by-time interaction) for each outcome, accounting for age, sex, race, education level, and support level. All analyses were conducted using SAS 9.4 (SAS Institute, 2002e2012). 3. Results 3.1. Participants A total of 149 adults with IDD were participated in the study. Of those, 147 completed at least one month of the intervention and were included for analysis d 124 completed the 6-month weight loss and 101 completed the full 18-month intervention. There were no differences in demographic characteristics and study outcomes at baseline (anthropometrics; hassles, uplifts, and self-efficacy) between those who completed the study and those who did not, indicating a minimal or no bias due to the sample attrition. Full baseline demographic data for the 147 participants are presented in Table 1. This sample comprised ~57% women and ~16% minorities, with a mean age of ~36 years and BMI of ~37 kg/m2. 3.2. Weight change in diet groups Percent change in weight during the 18-month intervention was not significantly different between the eSDL and CD diets (
7.4% ± 8.0 vs.
6.7% ± 8.2; p ¼ 0.68). 3.3. Study partner relationship At baseline, 38 participants had a family member as their study

partner, and 108 participants had a paid assistant as their study partner. Participants whose study partner was a paid assistant were older (p < 0.05) and had a greater severity of IDD (p < 0.01) compared to those whose study partner was a family member (Table 1). There were no significant differences in % weight change between participants who were supported by a family member and those who were supported by paid assistant during the 6month weight loss period (
5.5 ± 5.2 vs.
5.6 ± 5.3, p ¼ 0.97) or the entire 18-month study (
6.3 ± 10.2 vs
7.5 ± 8.4, p ¼ 0.14). There were also no significant differences in change in weight (kg), BMI, and waist circumference during the 6-month weight loss period or the entire 18-month study (all p > 0.05). Mixed modeling revealed that participants achieved significant reductions in weight (kg; p < 0.05 for quadratic change), BMI (p < 0.05 for quadratic change), and waist circumference (p < 0.001 for linear change) over the 18-month period, but the change patterns did not differ between those whose study partner was a family member and those whose study partner was a paid assistant (i.e., no significant group effect or group-by-time interaction). When looking at hassles, uplifts, and self-efficacy for helping participants with the intervention (Table 2), the only significant finding was that study partners who were a paid assistant reported more hassles with following the diet at 6 months compared to those who were a family member (p < 0.05). However, there were no significant differences at 18 months. Mixed modeling also indicated that neither group effect nor group-bytime interaction was significant for hassles, uplifts, and selfefficacy. Significant increases over time were found only in selfefficacy (p < 0.05 for linear change). 3.4. Relationships of hassles, uplifts, and self-efficacy to weight change Study partners' reported hassles, uplifts, and self-efficacy were not significantly associated with participants' weight and % weight change at 6 months (all p > 0.05). However, hassles were positively correlated with weight (kg) at 18 months (r ¼ 0.30, p < 0.01), and

Table 1 Demographic data of adults with IDD enrolled in a weight loss program. Variable

Age (yr) (M ± SD) Gender Male Female Race White Black or African American Pacific Islander Asian American Indian/Alaska Native Two or more races Ethnicity Hispanic Non-Hispanic Education level >9th grade 9th-12th grade High school graduate/GED Post graduate classes Support level Mild Moderate BMI (kg/m2) (M ± SD) a b

Family member (n ¼ 38)

Paid assistant (n ¼ 108)

n

All (n ¼ 147) %

n

%

n

%

147

36.4 ± 12.1

38

32.7 ± 10.3

108

37.8 ± 12.5

63 84

42.9% 57.1%

13 25

34.2% 65.8%

50 58

46.3% 53.7%

123 19

83.7% 12.9%

33 3

86.8% 7.9%

89 16

82.4% 14.8%

0 2 1

0.0% 1.4% 0.7%

0 1 0

0.0% 2.6% 0.0%

0 1 1

0.0% 0.9% 0.9%

2

1.4%

1

2.6%

1

0.9%

4 143

2.7% 97.3%

1 37

2.6% 97.4%

3 105

2.8% 97.2%

4 20 91 29

2.8% 13.9% 63.2% 20.1%

1 5 22 10

2.6% 13.2% 57.9% 26.3%

3 15 71 19

2.8% 13.9% 65.7% 17.6%

74 73 147

50.3% 49.7% 36.9 ± 8.0

27 11 34

71.1% 28.9% 36.6 ± 7.1

47 61 97

43.5% 56.5% 37.1 ± 8.4

p

0.027a 0.196

0.619

0.962

0.715

0.004b

0.726

Significant difference between groups at p < 0.05. Significant difference between groups at p < 0.01.

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L.T. Ptomey et al. / Disability and Health Journal xxx (2017) 1e6 Table 2 Hassles, uplifts, and study partner self-efficacy related to helping the participant with the diet for adults with IDD whose study partner was a family member or a paid assistant. Variable

Hassles score Month 0 Month 6 Month 18 Change from months 0e6 Change from months 6e18 Uplifts score Month 0 Month 6 Month 18 Change from months 0e6 Change from months 6e18 Confidence score Month 0 Month 6 Month 18 Change from months 0e6 Change from months 6e18 a

Family member (n ¼ 38)

Paid assistant (n ¼ 108)

p

d

n

M

SD

n

M

SD

34 26 23 23

0.7 0.4 0.6
0.1

0.8 0.5 0.6 0.8

97 76 65 76

0.7 0.8 0.8 0.1

0.7 0.6 0.7 0.7

0.814 0.015a 0.243 0.208

0.047 0.564 0.285 0.306

23

0.2

0.7

65

0.1

0.7

0.674

0.110

34 26 23 26

1.4 1.5 1.7 0.2

0.8 0.8 0.7 0.9

97 76 65 76

1.3 1.6 1.5 0.3

0.8 0.7 0.9 1.1

0.576 0.709 0.450 0.853

0.112 0.085 0.184 0.045

23

0.0

1.0

65


0.1

1.1

0.585

0.143

34 26 23 26

3.4 3.6 3.8 0.0

1.2 1.3 1.2 1.4

97 76 65 76

3.5 3.7 3.9 0.1

1.4 0.9 1.0 1.5

0.697 0.749 0.837 0.864

0.078 0.086 0.050 0.041

23

0.2

2.0

65

0.1

1.2

0.825

0.072

Significant difference between groups at p < 0.05.

self-efficacy change and % weight change from 6 to 18 months were negatively correlated (r ¼
0.20, p < 0.05). Self-efficacy were negatively correlated with hassles at 0, 6, and 18 months (r ¼ 0.39,
0.30, and
0.38, respectively; all p < 0.01). 3.5. Number of study partners Sixty-two percent of participants had 1 study partner, 27% had 2, and 11% had 3 or more during the 18-month study. The total number of study partners had no impact on weight change in kg during the 6-month weight loss period or the entire 18-month study; however, during the 6-month weight loss period, % weight loss was significantly greater among participants who had 1 study partner compared to those with 3 or more study partners (
6.5± 5.0% vs.
2.5± 6.3%; p < 0.05; Table 3). The number of people living with the participant and the total number of support staff during the week were not significantly correlated with weight change (in either kg or %) during the study.

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4. Discussion Caregivers' involvement is considered to be an essential component of health promotion efforts for adults with IDD.15 In the context of weight management, caregivers play a pivotal and potentially supportive role in assisting with decisions regarding meal planning, food shopping, and meal preparation, as well as assisting with scheduling and participating in appropriate physical activity, a task which can be difficult without encroaching on the autonomy of the adult they are caring for. This study sought to find out how much the caregiver and living environment influenced the ability of adults with IDD to lose and maintain weight loss during an 18-month weight management intervention. We observed no significant differences in weight loss between adults with IDD who received care from a family member or from paid staff. Nevertheless, those who had a paid assistant did experience greater staff turnover and changes in study partners across the study. Our results showed that individuals who had a consistent study partner had greater % weight loss during the 6-month weight loss period compared to those who had 3 or more study partners. While multiple study partners did not impact weight loss during the entire 18-month study, this finding still suggests that adults with IDD may benefit from having a consistent caregiver during a weight management intervention. Similarly, Spanos et al.20 reported that participants who are in homes with multiple staff would benefit from having consistent shift patterns and more oneon-one time allocated with the person they support. Study partners' reported hassles (e.g., planning meals, getting individuals to eat what is prepared, and finding time to prepare healthy foods) and self-efficacy (e.g., the ability to limit portion size, prepare low-fat meals, and choose low calorie snacks) did not impact participants' weight during the 6-month weight loss phase but did influence weight at the end of the 18-month intervention. Participants who had study partners that reported more hassles had higher weights at the end of the 18-month study, and those who had study partners who reported higher self-efficacy had greater weight loss at the end of the study. This is in agreement with previous research17,20,34 that suggests a successful weight management intervention needs to reduce barriers for not only the participants but also for their caregivers. Spanos et al.20 suggests that, in order to reduce caregiver barriers, weight management interventions need to incorporate small, established staff teams that can follow the weight loss plan consistently and to establish better communication and cooperation between the staff within the same support team. Strengths of the current study include the use of a randomized controlled trial with a weight management intervention over 18 months, a relatively large sample, the inclusion of both males and

Table 3 Impact of multiple study partners on weight across the 18-month study. Variable

Weight (kg) Baseline 6 months 18 months Weight Loss (kg) 0e6 months 0e18 months Weight Loss (%) 0e6 months 0e18 months a b c

1 study partner

2 study partners

3 or more study partners

Group difference (p)

n

M

SD

n

M

SD

n

M

SD

1v2

1v3

91 74 60

96.0 89.4 88.6

22.7 21.5 22.2

40 32 27

98.1 91.4 88.9

22.2 25.0 22.7

18 18 14

112.8 109.9 105.0

32.5 31.4 34.4

0.653 0.422 0.501

0.007 0.001 0.015

74 60


6.2
6.6

5.5 8.1

32 27


4.5
5.2

4.9 6.7

18 14


3.0
8.6

6.8 12.6

0.250 0.484

0.077 0.517

74 60


6.5
6.9

5.0 8.5

32 27


5.0
5.5

4.7 6.9

18 14


2.5
7.3

6.3 10.7

0.311 0.443

0.028 0.915

2v3 b c a

0.033a 0.018a 0.079 0.448 0.282

a

0.214 0.653

Significant difference between groups at p < 0.05. Significant difference between groups at p < 0.01. Significant difference between groups at p < 0.001.

Please cite this article in press as: Ptomey LT, et al., Caregivers' effect on weight management in adults with intellectual and developmental disabilities, Disability and Health Journal (2017), http://dx.doi.org/10.1016/j.dhjo.2017.02.001

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females, and a rigorous assessment of body weight and validated measures of hassles, uplifts, and self-efficacy. However, while the results are encouraging, this study should be considered in the context of certain limitations. First, the main intervention was not specifically designed or powered to detect between- or withingroup differences of weight or hassles, uplifts, and self-efficacy between the caregiver groups. Next, study partners' hassles, uplifts, and self-efficacy were obtained using self-report, which might have introduced some responder bias.35 However, to limit potential socially desirable responses, study partners completed the questionnaires in private and were told that their responses would not be shared. There were also unequal numbers of participants who had a family member and who had a paid assistant as their study partner. However, such unequal group sizes reduced power to detect group differences by only 3.4% on average. Finally, demographic information about the caregivers was not obtained, so it is unknown if there are certain characteristics (e.g., age, sex, education level) that may influence the ability of a caregiver to successfully support adults with IDD during a weight management intervention. The current trial did not specifically evaluate the impact of the caregiver on weight loss/maintenance. However, we observed no significant differences in weight loss between adults with IDD who received care from a family member or from paid staff, or who had two or more different study partners during the 18-month trial. Although in need of confirmation, these results suggest that adults with IDD can achieve clinically relevant weight loss under a variety of supportive situations. Innovative strategies to improve caregiver training and to provide support for caregivers in their efforts to assist adults with IDD in weight management warrant investigation. Funding The National Institute of Diabetes and Digestive and Kidney Disease (R01- DK83539). We acknowledge HMR for providing the pre-packaged meals. Conflict of interest No authors report any conflicts of interest. References 1. American Association on Intellectual and Developmental Disabilities. Definition of Intellectual Disabilities Washington, D.C.2012 [cited 2012 April 16th]. Available from: http://www.aaidd.org/content_100.cfm?navID¼21. 2. Draheim CC, Williams DP, McCubbin JA. Prevalence of physical inactivity and recommended physical activity in community based adults with mental retardation. Ment Retard. 2002;40(6):436e444. 3. Beange H, McElduff A, Baker W. Medical disorders of adults with mental retardation: a population study. Am J Ment Retard. 1995;99(6):595e604. PubMed PMID: 7632427. 4. Mercer KC, Ekvall SW. Comparing the diets of adults with mental retardation who live in intermediate care facilities and in group homes. J Am Diet Assoc. 1992;92(3):356e358. PubMed PMID: 1552140. 5. Robertson J, Emerson E, Gregory N, et al. Lifestyle related risk factors for poor health in residential settings for people with intellectual disabilities. Res Dev Disabil. 2000;21(6):469e486. PubMed PMID: 11153830. 6. Ptomey L, Goetz J, Lee J, Donnelly J, Sullivan D. Diet quality of overweight and obese adults with intellectual and developmental disabilities as measured by the healthy eating index-2005. J Dev Phys Disabil. 2013;25(6):625e636. 7. Rimmer JH, Yamaki K. Obesity and intellectual disability. Ment Retard Dev Disabil Res Rev. 2006;12(1):22e27. PubMed PMID: 16435329. 8. Melville CA, Hamilton S, Hankey CR, Miller S, Boyle S. The prevalence and determinants of obesity in adults with intellectual disabilities. Obes Rev. 2007;8(3):223e230. 9. Rimmer JH, Wang E. Obesity prevalence among a group of Chicago residents with disabilities. Archives Phys Med rehabilitation. 2005;86(7):1461e1464.

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Please cite this article in press as: Ptomey LT, et al., Caregivers' effect on weight management in adults with intellectual and developmental disabilities, Disability and Health Journal (2017), http://dx.doi.org/10.1016/j.dhjo.2017.02.001