HOME HELP FEEDBACK SUBSCRIPTIONS ARCHIVE SEARCH TABLE OF CONTENTS		QUICK SEARCH:   [advanced] Author: Keyword(s): Year:  Vol:  Page:

This Article Abstract Full Text (PDF) Purchase Article View Shopping Cart Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Request Permissions Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Wu, J. H. Articles by Herman, W. H. Search for Related Content PubMed PubMed Citation Articles by Wu, J. H. Articles by Herman, W. H. Social Bookmarking                What's this?

Diabetes as a Predictor of Change in Functional Status Among Older Mexican Americans

A population-based cohort study

¹ Department of Epidemiology, University of Michigan, School of Public Health, Ann Arbor, Michigan
² Department of Health Management and Policy, University of Michigan, School of Public Health, Ann Arbor, Michigan
³ Department of Biostatistics, University of Michigan, School of Public Health, Ann Arbor, Michigan
⁴ Department of Internal Medicine, University of Michigan, Health System, Ann Arbor, Michigan

	ABSTRACT

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
OBJECTIVE—Epidemiological studies have demonstrated that older Mexican Americans are at high risk for type 2 diabetes and its complications. Type 2 diabetes leads to a more rapid decline in functional status among older Mexican Americans with diabetes. This study was designed to examine the impact of diabetes on change in self-reported functional status over a 2-year period among older Mexican Americans with diabetes.

RESEARCH DESIGN AND METHODS—We performed a longitudinal analysis with repeated measurements of functional limitations in a cohort of Mexican Americans aged 60 years in the Sacramento Area Latino Study on Aging (SALSA). Diabetes was diagnosed on the basis of self-report of physician diagnosis, medication use, and fasting plasma glucose. Functional status was measured by assessment of activities of daily living (ADL) and instrumental activities of daily living (IADL) at baseline and 1 and 2 years.

RESULTS—Of 1,789 SALSA participants, 585 (33%) had diabetes at baseline. Diabetic subjects reported 74% more limitations than nondiabetic subjects in ADL (summary score for number of limitations, 0.99 vs. 0.57; P = 0.002) and 50% more limitations in IADL (summary score for number of limitations, 7.83 vs. 5.25; P < 0.0001). The annual rate of increase in limitations of ADL and IADL was 0.046 and 0.033 (log scale) on each scale among diabetic subjects compared with 0.013 and 0.003 (log scale) among nondiabetic subjects (P < 0.0005). Complications of diabetes were found to increase ADL and IADL limitations among diabetic subjects. Longer duration of diabetes was also associated with an increase in ADL and IADL limitations.

CONCLUSIONS—There was lower baseline functional status and a more rapid decline in functional status among older Mexican Americans with diabetes versus those without diabetes.

Abbreviations: ADL, activities of daily living • CES-D scale, Center for Epidemiological Studies Depression scale • FPG, fasting plasma glucose • GEE, generalized estimating equation • IADL, instrumental activities of daily living • NHANES, National Health and Nutrition Examination Survey • SALSA, Sacramento Area Latino Study on Aging.

	INTRODUCTION

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
The population of Mexican Americans in the U.S. has increased dramatically over the past several decades due to immigration, high birth rates, and markedly reduced mortality (i.e., early and middle age). There are now an estimated 20 million Mexican Americans in the U.S., of whom 2 million are older than 60 years (1). Diabetes is a major clinical and public health challenge among Mexican Americans. Earlier epidemiological studies have shown that older Mexican Americans are among the highest-risk groups for diabetes, its complications (e.g., retinopathy, nephropathy, and peripheral vascular disease), and other comorbidities (e.g., hypertension) compared with non-Hispanic whites (2–5). Five large-scale epidemiological studies focusing on Hispanic Americans established that the prevalence of diabetes was two to three times greater for Mexican Americans than for non-Hispanic whites (6–10).

Patients with diabetes are two to three times more likely to report disability than their nondiabetic counterparts (11). Diabetic subjects >65 years of age averaged 19.4 days of restricted activity compared to only 8.2 days for nondiabetic subjects (12). Diabetes as a chronic disease significantly limits daily activity in 60% of diabetic people >65 years of age compared with only 33.5% of those without diabetes (12). Disability is associated with an increased likelihood for hospitalization, institutionalization, and loss of economic self-sufficiency (13,14). Disabled persons with diabetes utilized health care services more frequently than nondisabled diabetic subjects (32.4% vs. 13.2% hospitalized in the past year) (15).

The impact of diabetes on functional limitations and disability has been addressed in some earlier studies (11,16–19). For instance, Haan et al. (19) showed that diabetic subjects 60 years and older, especially Spanish-speaking Hispanics, reported a greater number of limitations for activities of daily living (ADL) and instrumental activities of daily living (IADL). (ADL measures the activities for personal care, and IADL measures the activities related to household management [20,21]).

Unfortunately, most of the studies examining the impact of diabetes on functional limitations and disability were based on cross-sectional designs and could not capture declines in functional status (11,16–19). Diagnosis of diabetes in some previous studies of functional status was ascertained using self-reporting by the subjects (11). Underreporting of diabetes might be present and might result in nondifferential misclassification bias of diabetes status. In addition, some of the earlier studies involved only small numbers of subjects or substantial nonparticipation rates (11,16,19). These limitations may affect the generalizability of these studies to other populations. Also, evaluation of the effect of diabetes on functional status in these studies did not focus on some high-risk groups, such as older Mexican Americans.

Older Mexican Americans generally have a higher prevalence of diabetes, its complications, and related comorbid conditions and worse glycemic control than non-Hispanic whites (2–10). Older Mexican Americans with diabetes might have significant decline in functional status compared with nondiabetic subjects. This in turn might lead to disability, diminished quality of life, and an increase in the economic burden for these individuals and society at large. In this article, we examine the association of diabetes with decline in ADL and IADL in a population-based sample of older Mexican Americans.

	RESEARCH DESIGN AND METHODS

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
Study population and recruitment
Participants in the Sacramento Area Latino Study on Aging (SALSA) were used in this research. The SALSA participants were recruited from the Sacramento Metropolitan area and four surrounding rural counties in California in 1998–1999. An eligible person was 60 years or older in 1998 and self-designated as Latino/-a.

The sampling frame in SALSA involved identifying 1990 census tracts in all areas, updating population estimates from 1998 census sources, and characterizing them by the percentage of eligible residents (aged 60, Latino/-a). These tracts were ranked in order of percent eligible, and all tracts in which the percent eligible was at least 5% were selected for the target population. Participants were contacted in three stages: by mail, by phone, and finally, by door-to-door neighborhood enumeration. Up to 10 attempts to contact the participants by telephone were allowed and up to five attempts at the household. A separate report contains a detailed description of the sampling frame and recruitment (22).

Data collection
Baseline data collection began in 1998 and was completed in 1999. The first and second follow-up visits were completed in 2000 and 2001, respectively. The SALSA participants were interviewed in the language of choice at baseline and annually. All data collection, except for neuroimaging, was done at the participants’ homes. In a 2-h interview, each participant answered questions about lifestyle factors, acculturation, and medical diagnosis. A proxy interview was done with caregivers of participants who were deemed too impaired cognitively or otherwise to respond accurately to interview questions. In total, 5% of the participants died, 4% were lost to follow-up, and 11% refused further follow-up at the end of year 2. This study analyzed change in functional status from baseline over the 2 years of follow-up.

Measurement
Diabetes
Diagnosis of diabetes was ascertained using a combination of medical history, drug use, and fasting blood glucose. Data were collected during interview and blood sample protocol at baseline and at every annual visit. Participants who met any of the following criteria at baseline or follow-up were characterized as having diabetes:

• Fasting plasma glucose (FPG) level 126 mg/dl (7.0 mmol/l) (fasting was defined as no caloric intake for at least 8 h).
  
• Use of an antidiabetic medication.
  
• Self-report of a doctor’s diagnosis of diabetes.
  

Functional status
This study focused on self-reported functional status in personal care (basic ADL) and household management (IADL) (20,21). ADL comprises seven items to measure the abilities to walk across a small room, brush hair or teeth, eat, use the toilet, transfer, dress, and bathe (20). IADL comprises 15 items to measure the ability for household management such as prepare meals, do housework, manage money, and use the telephone (21).

Other variables
Diagnosis of hypertension was ascertained using a combination of medical history and measured blood pressure. Participants who met either of the following criteria were characterized as having hypertension:

• systolic pressure 140 mmHg and/or diastolic pressure 90 mmHg; and
  
• self-report of a doctor’s diagnosis of hypertension or high blood pressure.
  

Depressive symptoms were measured with the Center for Epidemiological Studies Depression (CES-D) scale (23). Acculturation was measured by the Acculturation Rating Scale for Mexican Americans (ARSMA-II) (24). Weight, height, and waist and hip circumference were measured using standardized instruments. BMI was calculated as measured weight in kilograms divided by measured height in meters squared. Education, medical insurance, household income, smoking status, and alcohol use as well as physical activities were assessed in home visit.

Statistical methods
Statistical analysis was performed using PC-SAS (version 8.1). Baseline analysis was carried out using ², linear regression, or logistic regression. A longitudinal analysis based on the measurements at three time points was performed using a generalized estimating equation (GEE). A 0.05 level of significance was used for all the analyses.

For baseline linear regression analysis, a summary score was created as a continuous variable for ADL and IADL (range, 7–28 and 15–60, respectively). Each summary score for ADL and IADL was log-transformed to achieve normality for longitudinal analysis. In addition, a binary response variable (0 and 1) was created for logistic regression analysis. The response probability for the binary ADL variable was defined as probability of reporting difficulty in at least one of seven ADL items. The response probability for the binary IADL variable was defined as probability of reporting difficulty in at least 3 of 15 IADL items. A high threshold for IADL was used, because a high percentage of subjects were reporting difficulties in IADL (82.3% diabetic, 71.9% nondiabetic).

Diagnosis of diabetes was coded as a dichotomous independent variable (0 and 1). The effect of diabetes on 2-year change in ADL and IADL for each subject was specified by including the variable time in years from baseline through the second follow-up in the model (0, baseline; 1, year 1; and 2, year 2). An interaction term between diabetes and time was used to test the hypothesis that functional status change varied by diabetes status (a simple linear model was assumed).

GEE requires missing data completely at random. Thus, to evaluate the missing data mechanism, the participants were stratified into three groups (responded, died, and did not respond), and the outcome variables (e.g., ADL and IADL) at baseline were compared in these three groups. The results suggested that the missing data mechanism was not completely at random (reporting difficulty performing at least one item for ADL: responded, 12%; did not respond, 15%; died, 45%; at least three items for IADL: responded, 41%; did not respond, 50%; died, 68%).

Multiple imputation (using proc mi and proc mianalyze in SAS) was used to impute missing data in conjunction with the GEE method (25–27). The imputation model, which included the demographic variables, socioeconomic status, CES-D score, medical history, and outcomes of interest, was essentially the same as the analysis model. Any missing data for the summary score of ADL and IADL as well as associated covariates were imputed. Five imputed datasets were used in the analysis. The nonrespondents (refusal, dropped, and lost to follow-up) were included in the imputation, because their baseline values (ADL and IADL) were a good estimate of follow-up values.

Confounding factors were evaluated, depending on their influence on the main effect terms or from the literature. Effect modification by hypertension (stroke or age) for the association between diabetes and change in functional status over time was assessed by including in the model the three-way interaction term, e.g., diabetes x time x hypertension.

In the subgroup analysis, only diabetic subjects (n = 585) were included, and measurements at three time points were analyzed to examine the association of diabetic complications (or duration of diabetes) with functional limitations. The model included time and other covariables. The effect of diabetic complications (or duration of diabetes) on change in functional status over time was not assessed. Diabetic complication was coded as a dichotomous independent variable (0 and 1). Duration of diabetes was coded as a dummy variable (10, 11–20, 21–30, >30 years: 0, 1, 2, 3).

	RESULTS

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
Prevalence of diabetes
Of 1,788 households initially contacted, 1,350 households were eligible and agreed to participate. Of 1,789 study participants, 585 were identified as having diabetes at baseline (32.7%). Among those with diabetes, 218 (37%) met the three diagnostic criteria: 207 (35%) by self-report plus FPG 126 mg/dl or self-report plus medication use; 10 (2%) by FPG plus medication; 67 (12%) by either FPG or medication; and only 83 (14%) by self-report alone. Of diabetic patients, 56% were women and 44.1% were men. Men had a slightly higher prevalence of diabetes than women (men 34.5% vs. women 31.4%). The prevalence of diabetes was similar in the age subgroups.

The mean duration of diabetes was 12.5 years (median 10 years, range 1 month to 61 years); 341 diabetic subjects (58.3%) used either oral antidiabetic drugs or insulin. Sulfonylureas were the most common class of diabetic drugs, and 73% of the diabetic drug users (249 subjects) used either a single sulfonylurea drug or the combination of a sulfonylurea drug with other medications. Glyburide was the most common agent used of the sulfonylurea drugs (20.5%).

Baseline characteristics
Diabetic subjects did not differ by age (diabetic vs. nondiabetic, 70.3 ± 0.3 vs. 70.8 ± 0.2 years; P = 0.16), sex (diabetic vs. nondiabetic, 55.9% female vs. 59.3% female; P = 0.17), or education level (diabetic vs. nondiabetic, 7.04 ± 0.22 vs. 7.32 ± 0.15 years; P = 0.31). Diabetic subjects were slightly more likely to have medical insurance (diabetic vs. nondiabetic, 92.9% vs. 89.7%; P = 0.03). Diabetic subjects had lower household incomes (diabetic vs. nondiabetic, 45.6% vs. 44.5% <$1,000 per month; P = 0.47). There was no difference in acculturation scores (diabetics vs. nondiabetic, 17.5 vs. 17.9; P = 0.14). Diabetic subjects had higher BMI, waist-to-hip ratios, and CES-D scores than nondiabetic subjects (diabetic vs. nondiabetic, BMI 30.9 ± 0.5 vs. 29.0 ± 0.5, P < 0.0001; waist-to-hip ratio 0.92 ± 0.004 vs. 0.90 ± 0.003, P < 0.0001; CES-D 10.9 ± 0.5 vs. 9.6 ± 0.3, P = 0.01).

There was no significant difference in self-reported physical activity between diabetic and nondiabetic subjects. A slightly higher percentage of diabetic subjects were former smokers, but this was not statistically significant. Diabetic subjects were more likely to report a history of hypertension (odds ratio [OR] 1.96, 95% CI 1.58–2.43), stroke (2.46, 1.78–3.39), heart attack (2.46, 1.76–3.43), kidney disease (2.29, 1.63–3.21), diabetic retinopathy (7.6% in diabetic group), and amputation (2.81, 1.12–7.02).

Functional status: baseline analysis
Figure 1 shows the baseline ADL and IADL scores by age and diabetes status. ADL and IADL limitations increased with age. Diabetic subjects had higher ADL and IADL scores than nondiabetic subjects across age-groups. Female subjects had higher ADL and IADL scores than male subjects (summary score for number of ADL limitations: diabetic women, 1.15 ± 0.16; diabetic men, 0.78 ± 0.14; nondiabetic women, 0.67 ± 0.11; nondiabetic men, 0.43 ± 0.10; summary score for number of IADL limitations: diabetic women, 9.22 ± 0.43; diabetic men, 6.05 ± 0.42; nondiabetic women, 6.05 ± 0.29; nondiabetic men, 4.09 ± 0.30). Overall, diabetic subjects reported 74% more limitations than nondiabetic subjects in ADL (summary score for number of limitations 0.99 vs. 0.57; P = 0.002) and 50% more limitations in IADL (summary score for number of limitations 7.83 vs. 5.25; P < 0.0001).

View larger version (21K): [in this window] [in a new window]   Figure 1— Baseline ADL and IADL scores by age in SALSA.

Functional status: longitudinal analysis
Table 1 presents multivariate regression analysis using the GEE method based on the five complete datasets from multiple imputation. The rate of increase in ADL and IADL scores among nondiabetic subjects was very small or not significant (ADL, OR 0.013, 95% CI 0.001–0.024; IADL, 0.003, -0.010–0.016). However, there was a significant increase in ADL and IADL scores among diabetic subjects (ADL, 0.046, 0.029–0.063; IADL, 0.033, 0.010–0.056). Effect modification of hypertension (stroke or age) was assessed by including in the model a three-way interaction term, e.g., diabetes x time x hypertension. The results indicated that hypertension, stroke, and age were not significant effect modifiers on the association of diabetes with the decline in ADL and IADL. Therefore, these terms were not reported (hypertension x diabetes x year: ADL, P = 0.45; IADL, P = 0.35; stroke x diabetes x year: ADL, P = 0.59; IADL, P = 0.42; age x diabetes x year: ADL, P = 0.11; IADL, P = 0.08).

In addition, diabetic subjects with a longer duration of diabetes were more likely to report functional limitations than those with a shorter duration of the disease. For instance, diabetic subjects with diabetes duration of >30 years were 1.10 times more likely to report IADL limitations than those with duration 10 years, when controlled for age, sex, household income, BMI, waist-to-hip ratio, CES-D score, and a number of diabetes-related complications (11–20 years: IADL, OR 1.03, 95% CI 0.98–1.07; 21–30 years: IADL, 1.08, 1.01–1.15; >30 years: IADL, 1.10, 1.02–1.18).

	CONCLUSIONS

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
We found that the prevalence of diabetes among Mexican Americans aged 60 and above was 32.7% (men 34.5%, women 31.4%), which is close to the prevalence found among Mexican Americans with the same age range in the Starr County (Texas) Study (men 31.6%, women 25.8%) (6). The prevalence of diabetes is also similar to that estimated in the Third National Health and Nutrition Examination Survey (NHANES III) conducted in 1988–1994 for Mexican Americans (10). We found that older Mexican Americans with diabetes had a higher risk for hypertension, stroke, myocardial infarction, kidney disease, and amputation. Presence of diabetes and associated complications may lead to a significant decline in functional status among these patients.

The prevalence of functional limitations among diabetic subjects was found to be nearly two times higher than that among nondiabetic subjects in our study. Our results are comparable with other studies conducted among various ethnic groups, although the criteria used to define functional limitations are slightly different across studies. For instance, in the 1982–1984 NHANES, activity limitations (as measured by job performance, ability to perform housework, and ADL) were nearly two times more common in Mexican Americans with diabetes than in those without diabetes (28). In a study by Tucker et al. (11), it was found that diabetes was more often associated with disability (as measured in 12-item ADL and 6-item IADL) among Puerto Ricans aged >55 years. In another study of inner-city blacks, those with diabetes aged 70 years and older had higher scores in four assessments related to functional status (as measured by general health, IADL, modified versions of the Rosow-Breslau scale, and the Sanford Health Assessment Questionnaire) than nondiabetic control subjects (18). In a study among older (age 65 years) French people living in the community, diabetic subjects more often lacked autonomy according to the Katz ADL Scale and the Lawton IADL Scale (16,29).

We found similar patterns of functional limitations between and within sex subgroups as reported in a previous study of Spanish-speaking Hispanic subjects aged 60 years (19). Women reported more limitations than men, and limitations also increased with age in both diabetic and nondiabetic subjects.

The current study provides the first longitudinal analysis with repeated measurements to examine the effect of diabetes on the decline in functional status among older Mexican Americans. Our results support the hypothesis that older Mexican Americans with diabetes had a significantly higher decline rate in their functional status than their nondiabetic counterparts. There is another 2-year cohort study in older Mexican Americans (30). Although their scope and study design were slightly different from ours, our data also showed that the higher CES-D score was associated with higher ADL and ADL scores (P < 0.0001).

Our results also indicated that both diabetes-related complications and a longer duration of diabetes contribute to the increase in functional decline among these subjects. Our results are consistent with the finding from the 1989 National Health Interview Survey, in which diabetic subjects with complications were more likely to be impaired in their normal activities than those without the chronic complications of diabetes. In addition, 66–81% of type 2 diabetic subjects with amputation, sensory neuropathy, kidney disease or proteinuria, angina or any heart trouble, or retinopathy reported limitation in activities (15).

Furthermore, the current research supports the causal relationship of diabetes with functional impairment. This study using a prospective cohort study design confirmed the time relationship that exposure (diabetes) precedes outcome (decline in ADL and IADL) in time. Diabetic subjects with worse glycemic control are more likely to develop complications, leading to functional impairments. The results suggest that duration of diabetes is related to diminished functional status in a dose-response manner when controlled for age, sex, household income, BMI, and diabetes-related complications. Diabetic patients with a longer duration of the disease were more likely to report functional limitations than those with a shorter duration. Finally, results obtained from the current research were in line with prior studies conducted in different populations and settings that diabetic subjects had more functional limitations than nondiabetic subjects (11,16,19).

The findings of this research have important implications for the Mexican American society. The limitations in ADL and IADL, which are commonly used to assess disability in basic life activities among the population >65 years of age, can be observed as evidence of disability. Disability is a major social, economic, and public health issue. Disability is associated with a greater increase in physician visits, utilization of health care services, hospitalization, institutionalization, dependency in basic life activities, and loss of economic self-sufficiency (13,14). These circumstances greatly diminish the quality of life of those affected as well as increase the economic burden for individuals and society.

Attenuation of diabetes progression into chronic complications could result in reduced economic, social, and public health burden for individuals and society. Promoting proper patient education/awareness, increasing access to regular medical care, and providing good quality of care might help to circumvent some of the problems, especially in communities with lower socioeconomic status. In addition, functional status perhaps should be considered a potential long-term outcome of diabetes when clinicians are caring for their older adult patients with diabetes.

This study has several strengths. First, a population-based sample of older Mexican Americans was used, which could result in generalizability to other older Mexican-American communities in other geographic localities in the U.S. Second, unlike most of the previous studies, which have substantial underreporting rates using self-reported physician-diagnosed diabetes, the current study used three diagnostic criteria to decrease the underreporting rate. Third, a repeated-measure design provides more precise estimates for the outcomes of interest than previous cross-sectional studies. Fourth, a longitudinal study is the best design to assess functional status change over time with regard to diabetes status and allow for establishing relative temporality of exposure and outcome.

	Acknowledgments

 
This study was funded by the National Institute on Aging (12975). The assistance provided by Prof. Roderick Little for multiple imputation is gratefully acknowledged. Dr. Man Fung has contributed useful comments on this manuscript.

	Footnotes

 
Address correspondence and reprint requests to Mary N. Haan, MPH, DrPH, University of Michigan, School of Public Health, Department of Epidemiology, Ann Arbor, MI 48109-2029. E-mail: mnhaan{at}umich.edu.

Received for publication 17 January 2002 and accepted in revised form 14 October 2002.

A table elsewhere in this issue shows conventional and Système International (SI) units and conversion factors for many substances.

	References

TOP ABSTRACT INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 

1. US Census Bureau: Population by age, hispanic origin, race, and sex: March1999 . Current Population Survey Internet release, March 8, 2000 [article online]. Available from http://www.bls.gov/cps/home.htn
   
2. Harris MI: Summary. In Diabetes in America. 2nd ed. Harris MI, Cowie CC, Stern MP, Eds. National Institutes of Health, National Institute of Diabetes and Digestive and Kidney Diseases,1 :1 –14,1995 (NIH publ. no. 95-1468)
   
3. Carter JS, Pugh JA, Monterrosa A: Non-insulin-dependent diabetes mellitus in minorities in the United States. Ann Intern Med125 :221 –232,1996[Abstract/Free Full Text]
   
4. de Lissovoy G, Ganoczy DA, Ray NF: Relationship of hemoglobin A1c, age of diabetes diagnosis, and ethnicity to clinical outcomes and medical costs in a computer-simulated cohort of persons with type 2 diabetes. Am J Manage Care6 :573 –584,2000[Medline]
   
5. Black SA: Increased health burden associated with comorbid depression in older diabetic Mexican Americans: results from the Hispanic Established Population for the Epidemiologic Study of the Elderly survey. Diabetes Care22 :56 –64,1999[Abstract/Free Full Text]
   
6. Hanis CL, Ferrell RE, Baron SA, Aguilar L, Garza-Ibarra A, Tulloch BR, Garcia CA, Schull WJ: Diabetes among Mexican-Americans in Starr County, Texas. Am J Epidemiol118 :649 –672,1983
   
7. Stern MP, Gaskill SP, Hazuda HP, Gardner LI, Haffner SM: Does obesity explain excess prevalence of diabetes among Mexican Americans? Results of the San Antonio Heart Study. Diabetologia24 :272 –277,1983[Medline]
   
8. Hamman RF, Marshall JA, Baxter J, Kahn LB, Mayer EJ, Orleans M, Murphy JR, Lezotte DC: Methods and prevalence of non-insulin-dependent diabetes mellitus in a biethnic Colorado population: the San Luis Valley Diabetes Study. Am J Epidemiol129 :295 –311,1989[Abstract/Free Full Text]
   
9. Flegal KM, Ezzati TM, Harris MI, Haynes SG, Juarez RZ, Knowler WC, Perez-Stable EJ, Stern MP: Prevalence of diabetes in Mexican Americans, Cubans, and Puerto Ricans from the Hispanic Health and Nutrition Examination Survey, 1982–1984 . Diabetes Care14 :628 –638, 1991
   
10. Harris MI, Flegal KM, Cowie CC, Eberhardt MS, Goldstein DE, Little RR, Wiedmeyer HM, Byrd-Hold DD: Prevalence of diabetes, impaired fasting glucose, and impaired glucose tolerance in US adults: the Third National Health and Nutrition Examination Survey (NHANES), 1988–94. Diabetes Care21 :518 –524,1998[Abstract]
    
11. Tucker KL, Falcon LM, Bianchi LA, Cacho E, Bermudez OI: Self-reported prevalence and health correlates of functional limitation among Massachusetts elderly Puerto Ricans, Dominicans, and non-Hispanic white neighborhood comparison group. J Gerontol Ser A, Biol Sci Med Sci55 :M90 –M97,2000
    
12. Adams PF, Benson V: National Center for Health Statistics: current estimates from the National Health Interview Survey,1991 . Vital Health Stat10 :184 , 1993
    
13. Locker D: Disability and Disadvantage: the Consequences of Chronic Illness. London, Tavistock Publications, 1983
    
14. Ferguson R: The impact of disability on employment and earnings. In Disability Survey ’72, Disabled and Non-disabled Adults. Ferron DT, Ed. SSA, 1981 (Research Report 56, no. 13-111812)
    
15. Centers for Disease Control, Division of Diabetes Translation: Disability. In Diabetes Surveillance, 1993. Atlanta, Centers for Disease Control, November 1993
    
16. Bourdel-Marchasson I, Dubroca B, Manciet G, Decamps A, Emeriau JP: Prevalence of diabetes and effect on quality of life in older French living in the community: the PAQUID Epidemiological Survey. J Am Geriatr Soc45 :295 –301,1997[Medline]
    
17. Ahroni JH, Boyko EJ, Davignon DR, Pecoraro RE: The health and functional status of veterans with diabetes. Diabetes Care17 :318 –321,1994[Abstract]
    
18. Miller DK, Lui LY, Perry HM 3rd, Kaiser FE, Morley JE: Reported and measured physical functioning in older inner-city diabetic African Americans. J Gerontol Ser A, Biol Sci Med Sci54 :M230 –M236,1999
    
19. Haan MN, Weldon M: The influence of diabetes, hypertension, and stroke on ethnic differences in physical and cognitive functioning in an ethnically diverse older population. AEP6 :392 –398,1996
    
20. Katz S, Downs TD, Cash HR: Progress in development of the index of ADL. Gerontologist10 :20 –30,1970[Medline]
    
21. Spector WD, Katz S, Murphy JB, Fulton JP: The hierarchical relationship between activities of daily living and instrumental activities of daily living. J Chron Dis40 :481 –489,1987[Medline]
    
22. Haan MN, Mungas DM, Gonzalez HM, Ortiz TA, Acharya A, Miller JW, Ramos MI, Jagust WJ: Prevalence of dementia in older Mexican Americans. JAGS In press
    
23. Radloff LS: The CES-D scale: A self-report depression scale for research in the general population. Appl Psychol Meas1 :45 –50,1977
    
24. Cuellar I, Arnold B, Maldonado R: Acculturation Rating Scale for Mexican Americans-II: a revision of the original ARSMA Scale. Hisp J Behav Sci17 :275 –324,1995[Abstract]
    
25. Schafer JL, Olsen MK: Multiple imputation for multivariate missing-data problems: a data analyst’s perspective. Multivar Behav Res33 :545 –571,1998
    
26. Schafer JL: Analytics of Incomplete Multivariate Data. London, Chapman & Hall, 1997
    
27. Rubin DB: Multiple Imputation for Nonresponse in Surveys. New York, Wiley & Sons, 1987
    
28. MacHeledt JE, Vernon SW: Diabetes and disability among Mexican Americans: the effect of different measures of diabetes on its association with disability. J Clin Epidemiol45 :519 –528,1992[Medline]
    
29. Lawton MP, Brody EM: Assessment of older people: self-management and instrumental activities of daily living. Gerontologist9 :179 –186,1969[Medline]
    
30. Ostir GV, Markides KS, Black SA, Goodwin JS: Emotional well-being predicts subsequent functional independence and survival. JAGS48 :473 –478,2000
    

CiteULike

Del.icio.us

Digg

Reddit

Technorati

This article has been cited by other articles:

				A. E. Aiello, M. N. Haan, C. M. Pierce, A. M. Simanek, and J. Liang Persistent Infection, Inflammation, and Functional Impairment in Older Latinos J. Gerontol. A Biol. Sci. Med. Sci., June 1, 2008; 63(6): 610 - 618. [Abstract] [Full Text] [PDF]

				S. Bossoni, G. Mazziotti, C. Gazzaruso, D. Martinelli, S. Orini, S. B. Solerte, G. Romanelli, and A. Giustina Relationship between instrumental activities of daily living and blood glucose control in elderly subjects with type 2 diabetes Age Ageing, March 1, 2008; 37(2): 222 - 225. [Full Text] [PDF]

				C. S. Blaum, N. A. West, and M. N. Haan Is the Metabolic Syndrome, With or Without Diabetes, Associated With Progressive Disability in Older Mexican Americans? J. Gerontol. A Biol. Sci. Med. Sci., July 1, 2007; 62(7): 766 - 773. [Abstract] [Full Text] [PDF]

				D. C. Van Pelt, E. B. Milbrandt, L. Qin, L. A. Weissfeld, A. J. Rotondi, R. Schulz, L. Chelluri, D. C. Angus, and M. R. Pinsky Informal Caregiver Burden among Survivors of Prolonged Mechanical Ventilation Am. J. Respir. Crit. Care Med., January 15, 2007; 175(2): 167 - 173. [Abstract] [Full Text] [PDF]

				K. S. Markides and K. Eschbach Aging, Migration, and Mortality: Current Status of Research on the Hispanic Paradox J. Gerontol. B. Psychol. Sci. Soc. Sci., October 1, 2005; 60(suppl_Special_Issue_2): S68 - S75. [Abstract] [Full Text] [PDF]

				S. Al Snih, M. N. Fisher, M. A. Raji, K. S. Markides, G. V. Ostir, and J. S. Goodwin Diabetes Mellitus and Incidence of Lower Body Disability Among Older Mexican Americans J. Gerontol. A Biol. Sci. Med. Sci., September 1, 2005; 60(9): 1152 - 1156. [Abstract] [Full Text] [PDF]

				R. A. Incalzi, A. Corsonello, C. Pedone, F. Corica, P. Carbonin, R. Bernabei, and on Behalf of the GIFA Investigators Construct Validity of Activities of Daily Living Scale: A Clue To Distinguish the Disabling Effects of COPD and Congestive Heart Failure Chest, March 1, 2005; 127(3): 830 - 838. [Abstract] [Full Text] [PDF]

This Article Abstract Full Text (PDF) Purchase Article View Shopping Cart Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Request Permissions Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Wu, J. H. Articles by Herman, W. H. Search for Related Content PubMed PubMed Citation Articles by Wu, J. H. Articles by Herman, W. H. Social Bookmarking                What's this?