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C-Reactive Protein and Metabolic Syndrome in Elderly Women

A 12-year follow-up study

¹ Kuopio Research Institute of Exercise Medicine, Kuopio, Finland
² Department of Physiology, University of Kuopio, Kuopio, Finland
³ Department of Clinical Nutrition, Kuopio University Hospital and University of Kuopio, Kuopio, Finland
⁴ Department of Epidemiology and Health Promotion, National Public Health Institute, Helsinki, Finland
⁵ Department of Neuroscience and Neurology, Kuopio University Hospital, Kuopio, Finland
⁶ Department of Clinical Physiology and Nuclear Medicine, Kuopio University Hospital, Kuopio, Finland

Address correspondence and reprint requests to Maija Hassinen, MSC, Kuopio Research Institute of Exercise Medicine, Haapaniementie 16, FIN-70100 Kuopio, Finland. E-mail: maija.hassinen{at}uku.fi

Abbreviations: CRP, C-reactive protein • CVD, cardiovascular disease

	INTRODUCTION

TOP INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
Aging is associated with increased inflammatory activity (1,2). Serum C-reactive protein (CRP) is a sensitive marker of systemic low-grade inflammation and is an important predictor of type 2 diabetes (3,4) and cardiovascular disease (CVD) (5). Cross-sectional studies have found associations of CRP with metabolic syndrome (6–9) and its components, including obesity (10), insulin resistance (6,7,10), dyslipidemia (10), elevated blood pressure (11), and endothelial dysfunction (10). Prospective studies (3,4) in middle-aged individuals have observed that increased serum CRP levels predict the development of metabolic syndrome. No such data are available in the elderly. We tested the hypothesis that changes in serum CRP levels predict the development of metabolic syndrome in a population-based sample of elderly women followed-up for 12 years.

	RESEARCH DESIGN AND METHODS

TOP INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
The subjects were examined as a part of the large population-based risk factor survey in 1982 (12). The women, aged 60–70 years, were invited for the baseline examinations of the present study in 1991–1992. None of them had diabetes. In 2003, all eligible women were invited for the 12-year follow-up study, and 113 of them participated. After excluding women with CRP >10 mg/l or missing data, the final study population included 103 women. The study protocol was approved by the ethics committee of the University of Kuopio. All participants gave written informed consent.

Venous blood samples were taken after a 12-h fast. Serum assays for high-sensitivity CRP (13), triglycerides, and HDL cholesterol (14) have been described earlier. Waist circumference and blood pressure were measured according to the MONICA protocol (15). Diseases, medications, smoking, and alcohol consumption were assessed by a self-administered questionnaire. Metabolic syndrome was defined by the National Cholesterol Education Program criteria (16).

Statistical analyses were performed using SPSS for Windows, Release 11.5. If required, CRP was log transformed to obtain a normal distribution. Comparisons between groups were analyzed using independent-samples t test and ² test. To test changes during 12 years, paired-samples t test and McNemar tests were used. Logistic regression analysis was used to calculate odds ratios for the development of metabolic syndrome in women with CRP increases as compared with those with a CRP decrease. A 0.05 significance level was used for all statistical tests.

	RESULTS

TOP INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 
At baseline and after 12 years of follow-up, 11 and 46% of the women, respectively, had metabolic syndrome (P < 0.001 for difference). At baseline, the mean CRP was twice as high in women with metabolic syndrome as compared with those without it (3.1 vs. 1.5 mg/l).

While CRP increased in 37 women who developed metabolic syndrome during 12 years (from 1.7 to 3.2 mg/l, P = 0.001), it did not change in 55 women who remained free of it or in 11 women with metabolic syndrome already at baseline. An increment of 1 mg/l in CRP during 12 years was associated with a 37% (P = 0.007) increase in the risk of developing metabolic syndrome after adjustment for baseline age, smoking, the use of drugs for hypercholesterolemia, hormone replacement therapy, and prevalent CVD. The 1 mg/l increment in CRP was associated with a 26% (P = 0.047) increase in the risk after further adjustment for waist circumference and with a 31% (P = 0.018) increase after additional adjustment for triglycerides. Adjustment for changes in other components of metabolic syndrome had no effect on the association.

Of women for whom CRP decreased, increased by 0–1 mg/l, or increased by >1 mg/l, metabolic syndrome developed in 22, 50, and 60%, respectively, during 12 years (P = 0.005 for difference). Compared with women for whom CRP decreased, those with a CRP increment of 0–1 mg/l had a 4.5-fold higher (P = 0.011) and those with a CRP increase of >1 mg/l had a 6.2-fold higher (P = 0.002) risk of developing metabolic syndrome after adjustment for baseline age, smoking, the use of drugs for hypercholesterolemia, hormone replacement therapy, and prevalent CVD (Table 1, model 1). The association of CRP change with the risk of developing metabolic syndrome was weakened after further adjustment for waist circumference or triglycerides, while changes in other components of metabolic syndrome did not affect the association (Table 1, models 2–6).

	CONCLUSIONS

TOP INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

The present results agree with the findings from cross-sectional studies (6–9) and few prospective studies (3,4) of the association between elevated CRP levels and metabolic syndrome. Because most of these studies have only included middle-aged individuals or have not specifically studied elderly individuals, we investigated the association in a population-based cohort of elderly women with a follow-up of 12 years. Randomized clinical trials that include lifestyle interventions are needed to find out whether suppressed inflammation reduces the risk of developing metabolic syndrome, type 2 diabetes, and CVD.

	Acknowledgments

 
Supported by grants from Ministry of Education Finland (134/722/2002), the Academy of Finland (101878), and the City of Kuopio.

	Footnotes

 
The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C Section 1734 solely to indicate this fact.

Received for publication December 21, 2005. Accepted for publication December 23, 2005.

	References

TOP INTRODUCTION RESEARCH DESIGN AND METHODS RESULTS CONCLUSIONS References

 

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This Article Extract 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 Google Scholar Google Scholar Articles by Hassinen, M. Articles by Rauramaa, R. Search for Related Content PubMed PubMed Citation Articles by Hassinen, M. Articles by Rauramaa, R. Social Bookmarking                What's this?