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T. Kue Young, MD, PhD, Peter Bjerregaard, MD, PhD, Eric Dewailly, MD, PhD, Patricia M. Risica, PhD, Marit E. Jørgensen, MD, PhD and Sven E. O. Ebbesson, PhD

T. Kue Young is with the Department of Public Health Sciences, University of Toronto, Toronto, Ontario. Peter Bjerregaard is with the National Institute of Public Health, Copenhagen, Denmark. Eric Dewailly is with Laval University, Quebec, Quebec. Patricia M. Risica is with the Institute for Community Health Promotion, Brown University, Providence, RI. Marit E. Jørgensen is with the Steno Diabetes Centre and the National Institute of Public Health, Copenhagen. At the time of the study, Sven E. O. Ebbesseon was with the Alaska-Siberia Medical Research Program, University of Alaska, Fairbanks.

Correspondence: Requests for reprints should be sent to Prof T. Kue Young, Department of Public Health Sciences, Room 547, 155 College St, Toronto, Ontario, Canada M5T 3M7 (e-mail: kue.young{at}utoronto.ca).

	ABSTRACT

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Objectives. We investigated the prevalence of obesity and the metabolic correlates of different levels of body mass index (BMI) and waist circumference among the Inuit in 3 countries.

Methods. Data from 4 surveys of Inuit in Canada, Greenland, and Alaska conducted during 1990–2001 were pooled, with a total sample size of 2545 participants. These data were compared with data from a Canadian population of predominantly European origin.

Results. Using the World Health Organization criteria for overweight and obesity, we found that the crude prevalence of overweight among Inuit men and women was 36.6% and 32.5%, respectively, and obesity was 15.8% and 25.5%, respectively. Inuit prevalences were similar to those of the highly developed countries of Europe and North America. As levels of obesity increased, as measured by BMI or waist circumference, the mean values of various metabolic indicators—lipid, glucose, and insulin levels and blood pressure—also increased. However, at each level of BMI or waist circumference, the Inuit had lower blood pressure and lipid levels than did Euro-Canadians.

Conclusions. Our data indicate that universal criteria for obesity may not reflect the same degree of metabolic risk for populations such as the Inuit and suggest that ethnic-specific criteria are needed.

	INTRODUCTION

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Obesity is now recognized as a major global health threat.¹ Evidence for the emerging epidemic has been derived from population surveys measuring body mass index (BMI) and other measures such as waist circumference. International and national guidelines, such as those adopted by the World Health Organization (WHO)¹ and the National Institutes of Health,² define categories of overweight and obese. Although guidelines are important tools for population-level monitoring, the issue of their applicability and generalizability across ethnic groups and countries, which likely differ in the health risks associated with specific BMI categories, remains unresolved.

A meta-analysis of some 33 cohort studies from the Asia-Pacific region with more than 310 000 participants found that substantial risks of cardiovascular events were associated with BMI below the currently defined lower limit of "overweight" (25.0 kg/m²).³ Recently, the International Diabetes Federation proposed a definition of the metabolic syndrome that recognized ethnic differences by including separate cutoff points for the waist circumference for Europeans, South Asians, and East Asians.⁴

We present data on the measurement of obesity and its metabolic correlates among the Inuit, a people indigenous to the Arctic region whose homeland stretches from the easternmost tip of Russia, across Alaska and Canada to Greenland.⁵ We use the term Inuit in place of Eskimo as a collective term encompassing various regional groups, including the Central and Siberian Yupik and Inupiat in Alaska, Canadian Inuit, and Greenlanders. These populations are undergoing rapid social and health transitions, with the emergence of chronic diseases such as diabetes and ischemic heart disease, from which they have previously been thought to be "protected."^6,7 Data on obesity and its impact are not only important to the health of this specific population but also contribute to the broader discussion of the need for ethnic-specific reference values for obesity.

	METHODS

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We pooled the data from 4 studies conducted between 1990 and 2001 in 4 communities in the Bering Strait region of Alaska⁸; 8 communities in the Kivalliq region of Nunavut territory, Canada⁹; 14 communities in the Nunavik region of northern Québec, Canada¹⁰; and 2 towns and 4 villages on the west coast of Greenland.¹¹ Details on the designs and methods of these studies have been reported elsewhere.^8–11 We have also previously published a study on hypertension with the pooled data set.¹²

The study population was comprised of 2545 participants aged 18 years and older: 454 from Alaska, 380 from Kivalliq, 400 from Nunavik, and 1311 from Greenland. For some analyses, we compared our data to that from a survey conducted among 2200 residents of the Canadian province of Manitoba in 1990, who were predominantly of European origin (hereafter referred to as Euro-Canadians).¹³ We also compared Inuit with published international data on BMI and waist circumference.

Table 1 summarizes the various anthropometric and metabolic indicators for men and women in the 4 Inuit study regions. Participants fasted overnight and then completed an interviewer-administered questionnaire and underwent venipuncture, anthropometry, and blood pressure measurements. Height and weight were measured with the participants wearing underwear and socks. With the participant standing, waist circumference was measured midway between the iliac crest and the costal margin (except in Alaska, where it was at the level of the umbilicus; the 4 studies were not planned together with a uniform protocol, so some methodological differences are present).

Glucose was analyzed by the hexokinase–glucose 6-phosphate dehydrogenase method, and insulin by radioimmunoassay. Lipids were determined using an autoanalyzer system that used enzymatic colorimetric methods. Canadian and Alaskan samples were analyzed in laboratories that were participants of the Centers for Disease Control and Prevention–National Heart, Lung and Blood Lipids Standardization Program.

The 4 data sets were checked for data entry errors and merged. Statistical analyses on the combined data set were performed using SPSS for Windows, version 13.0 (SPSS Institute, Cary, NC). Gender-specific means of various metabolic variables and their 95% confidence intervals (CIs) were computed for different categories of BMI and waist circumference and compared with the Inuit and Euro-Canadian samples. Because of the skewed distribution of the lipids, glucose, and insulin variables in both samples, log-transformed values were used in the analysis (and back-transformed as geometric means in the graphical presentation).

	RESULTS

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Prevalence of Overweight and Obesity
When the WHO criteria for overweight (BMI=25.0 to 29.9) and obesity (BMI 30.0) were used, the crude prevalence among Inuit men was 36.6% overweight and 15.8% obese, whereas 32.5% of Inuit women were overweight and 25.5% were obese.

We compared the results from the Inuit population with global data. The WHO publication Comparative Quantification of Health Risks¹⁴ provides prevalence estimates for various WHO regions by age and gender groups. When the direct method of age standardization was used, using the hypothetical "world" population of the International Agency for Research on Cancer as the standard, the Inuit’s BMI ranked among the highest of the highly developed countries of Europe and North America (Figure 1).

View larger version (10K): [in this window] [in a new window] [Download PPT slide]   FIGURE 1—— Age-standardized prevalence of overweight and obesity among Inuit compared with World Health Organization (WHO) regions. Source. Prevalence data for WHO regions are from Tables 8.23 and 8.24 in James et al.14 Note. AFR = Africa region; SEAR = south-east Asia region; EMR = eastern Mediterranean region; WPR = western Pacific region; EUR = European region; AMR = American region. Age-standardization to the International Agency for Research on Cancer "world population" was by the direct standardization method. Data for WHO regions was based on 5 age groups (15–29, 30–44, 45–59, 60–69, 70 years); Inuit data were based on 4 age groups (15–29, 30–44, 45–59, 60 years).

Few countries have reported waist circumference data. One source is the multinational Monitoring of Trends and Determinants of Cardiovascular Disease study, whose final surveys were conducted in the mid-1990s.¹⁶ The age-standardized mean waist circumference of Inuit women (90.3 cm) was higher than those of women at all 36 participating sites, mostly from Europe, North America, and Australasia. Inuit men, with an age-standardized mean of 91.6 cm, ranked quite low; their waist circumference exceeded that of other men at only 4 sites.

Metabolic Correlates of Overweight and Obesity
As levels of obesity increased, as measured by the BMI or waist circumference, the mean values of various metabolic indicators—blood pressure and blood levels of lipids, glucose, and insulin—also increased. However, at each level of the BMI or waist circumference, Inuits had lower levels of most risk factors than did non-Inuit Canadians. Exceptions were fasting plasma levels of both glucose and insulin; with these indicators the 2 groups tended to overlap. Figures 2 and 3 show the relation between the BMI and high-density lipoprotein (HDL) cholesterol levels and between the waist circumference and triglyceride levels. (Data tables and additional graphs are available as an online supplement to this article).

View larger version (12K): [in this window] [in a new window] [Download PPT slide]   FIGURE 2—— Relation of body mass index (BMI) and mean high-density lipoprotein (HDL) cholesterol values, by gender and ethnic group.

View larger version (14K): [in this window] [in a new window] [Download PPT slide]   FIGURE 3—— Relation of waist circumference and mean triglyceride values, by gender and ethnic group.

Inuit men with a waist circumference between 95 and 100 cm, considered at high risk by the International Diabetes Federation’s criteria for metabolic syndrome, had a mean triglyceride level of 1.02 mmol/L (95% CI = 0.90, 1.15), which is equivalent to the mean triglyceride level of Euro-Canadians with a waist circumference of 75 to 80 cm (mean = 1.08 mmol/L; 95% CI = 0.94, 1.21).

	DISCUSSION

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Our pooled data from 4 separate regional studies of Inuit indicate that this ethnic group has high levels of obesity based on BMI and waist circumference according to international guidelines. Among the Inuit, the mean levels of various cardiovascular risk factors increase with increasing levels of obesity, as they do in other populations. However, the metabolic impact of different levels of obesity, at least cross-sectionally, appears to be much less among the Inuit than among Euro-Canadians, especially for indicators such as HDL cholesterol and triglycerides. Although the long-term health consequences of different categories of the BMI and waist circumference can only be ascertained by cohort studies, our data do raise concern about the "one-size-fits-all" approach of international obesity guidelines.

Our data are derived from 4 separate studies that were generally comparable but not identical in methods. In the measurement of the waist circumference, for example, 1 site used a slightly different reference point on the waist. It is unlikely, however, that this slight difference would have affected the results. We also lacked dietary data and thus were unable to assess whether dietary intake could have contributed to the different metabolic responses at different levels of obesity. Because the traditional Inuit diet contains high levels of omega-3 fatty acids from marine mammals and fish, one could speculate that consuming these traditional Inuit foods could modify the relation between obesity and health outcomes.

The limitations of using the BMI as an indicator of excess body fat are well known.¹⁷ Although the BMI "adjusts" for height in its computation, it does not completely adjust for body dimensions. Studies have found that it correlates with relative sitting height (ratio of sitting height to stature) across populations.^18,19

The early physical anthropology literature has shown that the Inuit tend to have shorter legs.²⁰ The Nutrition Canada Survey of the 1970s confirmed that the relative sitting height of the Inuit was higher than that of Canadians nationally.²¹ Some of this difference may have been attenuated with increasing height among the younger generation, but there are no recent anthropometry data that include relative sitting height.

The waist circumference does not have the limitations of the BMI with regard to body dimensions. We have found that the waist circumference parallels the BMI in demonstrating the metabolic impact of increasing levels of obesity. The high ranking of waist circumference among Inuit women compared with international populations is of concern. The waist circumference can serve as a focus and yardstick of health promotion activities directed at obesity.

Physiologists Rode and Shephard²² have suggested that long-term adaptation to the Arctic cold favors the deposition of intra-abdominal fat, which stores quickly available fuel for heat production in response to cold-induced catecholamine stimulation. Although subcutaneous fat provides insulation, it is metabolically less active and has a limited blood supply and is thus relatively inflexible when responding to increases in heat flux generated by physical activity.²² Without imaging studies (e.g., computer tomography, ultrasonagraphy, or magnetic resonance imaging) of cross-sections of the body, it is not known whether the central obesity represented by the high waist circumference is predominantly intraabdominal or subcutaneous. We also do not know the body composition (e.g., percentage body fat) of Inuit corresponding to various BMI or waist circumference measurements. Direct measures such as deuterium oxide dilution²³ and hydrostatic densitometry²² have been performed on small samples in only 1 community in the 1970s and 1980s, but the underlying assumptions relating to body components and the resulting equations are themselves based on European subjects.

Although the Inuit populations are numerically small globally, their data are of potential interest to other ethnic groups with similar body dimensions (especially East Asians). Unlike East Asians, among whom lower cutoff points for obesity are recommended by some bodies such as the International Diabetes Federation⁴ but not the World Health Organization,²⁴ it would appear that for the Inuit, higher cutoff points may be needed. However, given the increasing threat of diabetes and other obesity-related diseases, the full public health impact of increasing cutoff points needs to be carefully determined.

	Acknowledgments

 
The merging of the data set and the international collaboration in data analysis and report writing were supported by a development grant awarded to T. K. Young from the Canadian Institutes of Health Research (grant OWK 73 987).

We acknowledge the assistance and collaboration of the local communities and regional governments in the 3 countries.

Human Participant Protection
All 4 surveys received institutional review board approvals from their respective institutions. Informed consent was obtained from all participants.

	Footnotes

 
Peer Reviewed

Contributors
T. K. Young was the primary author and, together with P. Bjerregaard, was responsible for merging the data sets. All authors were responsible for study design, data collection, and analysis of the 4 separate surveys and contributed to the writing and editing of the article.

Accepted for publication April 15, 2006.

	References

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