【 摘 要 】

Background

In Japan, although the incidence of overweight (BMI ≥ 25) is still low compared with that in Europe and the United States, the prevalence of type 2 diabetes has increased over the last 15 years,. In both Japanese and Caucasian populations it has been reported that a high level of cardiorespiratory fitness protects against the development of type 2 diabetes. However, there are no reports focused specifically on athletes that investigate whether high cardiorespiratory fitness at a young age can prevent disease later in life. We examined the relationship between cardiorespiratory fitness at a young age and the development of type 2 diabetes in Japanese athletes using a cohort study.

Methods

The cardiorespiratory fitness of male alumni of the physical education department of Juntendo University, as measured by stored data of a 1,500-m endurance run in college (1971–1991) was compared with their incidence of type 2 diabetes as determined by follow-up questionnaires (2007–2009). This study used Cox’s proportional hazards models and adjusted for age, year of graduation, BMI, smoking, and sports club participation at college age.

Results

We collected data on cardiorespiratory fitness at college age and medical history survey data during 2007–2009 from 570 male alumni. The median follow-up period was 26 years (IQR: 23–29 years), and 22 men had developed type 2 diabetes. An inverse relationship was observed between incidence of type 2 diabetes and level of cardiorespiratory fitness at time of college after adjustment for age, year of graduation, BMI, smoking, and sports participation. The adjusted hazards ratio and 95% CI by category (low, medium, and high) were 1.00 (reference), 0.40 (0.14–1.13) and 0.26 (0.07–1.00) (p = 0.03 for trend).

Conclusions

A high level of cardiorespiratory fitness at a young age can help prevent type 2 diabetes later in life.

【 授权许可】

   
2014 Someya et al.; licensee BioMed Central Ltd.

【 预 览 】

附件列表

Files	Size	Format	View
20150226213217397.pdf	305KB	PDF	download
Figure 2.	49KB	Image	download
Figure 1.	37KB	Image	download

【 图 表 】

【 参考文献 】

• [1]International Diabetes Federation: IDF Diabetes Atlas. 6th edition. [http://www.idf.org/diabetesatlas webcite]
• [2]Morimoto A, Nishimura R, Tajima N: Trends in the epidemiology of patients with diabetes in Japan. JMAJ 2010, 53(1):36-40.
• [3]Neville SE, Boye KS, Montgomery WS, Iwamoto K, Okamura M, Hayes RP: Diabetes in Japan: a review of disease burden and approaches to treatment. Diabetes Metab Res Rev 2009, 25(8):705-716.
• [4]Helmrich SP, Ragland DR, Leung RW, Paffenbarger RS Jr: Physical activity and reduced occurrence of non-insulin-dependent diabetes mellitus. N Engl J Med 1991, 18, 325(3):147-152.
• [5]Helmrich SP, Ragland DR, Paffenbarger RS Jr: Prevention of non-insulin-dependent diabetes mellitus with physical activity. Med Sci Sports Exerc 1994, 26(7):824-830.
• [6]Lynch J, Helmrich SP, Lakka TA, Kaplan GA, Cohen RD, Salonen R, Salonen JT: Moderately intense physical activities and high levels of cardiorespiratory fitness reduce the risk of non-insulin-dependent diabetes mellitus in middle-aged men. Arch Intern Med 1996, 24, 156(12):1307-1314.
• [7]Sawada SS, Lee IM, Muto T, Matuszaki K, Blair SN: Cardiorespiratory fitness and the incidence of type 2 diabetes: prospective study of Japanese men. Diabetes Care 2003, 26(10):2918-2922.
• [8]Kettunen JA, Kujala UM, Kaprio J, Sarna S: Health of master track and field athletes: a 16-year follow-up study. Clin J Sport Med 2006, 16(2):142-148.
• [9]Kujala UM, Kaprio J, Taimela S, Sarna S: Prevalence of diabetes, hypertension, and ischemic heart disease in former elite athletes. Metabolism 1994, 43(10):1255-1260.
• [10]Kujala UM, Marti P, Kaprio J, Hernelahti M, Tikkanen H, Sarna S: Occurrence of chronic disease in former top-level athletes. Predominance of benefits, risks or selection effects? Sports Med 2003, 33(8):553-561.
• [11]Sarna S, Kaprio J, Kujala UM, Koskenvuo M: Health status of former elite athletes: the Finnish experience. Aging Clin Exp Res 1997, 9(1–2):35-41.
• [12]Paffenbarger RS Jr, Wing AL: Chronic disease in former college students. XII. Early precursors of adult-onset diabetes mellitus. Am J Epidemiol 1973, 97(5):314-323.
• [13]Carnethon MR, Gidding SS, Nehgme R, Sidney S, Jacobs DR Jr, Liu K: Cardiorespiratory fitness in young adulthood and the development of cardiovascular disease risk factors. JAMA 2003, 17; 290(23):3092-3100.
• [14]Sato Y, Iguchi A, Sakamoto N: Biochemical determination of training effects using insulin clamp technique. Horm Metab Res 1984, 16(9):483-486.
• [15]Ivy JL, Zderic TW, Fogt DL: Prevention and treatment of non-insulin-dependent diabetes mellitus. Exerc Sport Sci Rev 1999, 27:1-35.
• [16]Camus G: Relationship between record time and maximal oxygen consumption in middle-distance running. Eur J Appl Physiol Occup Physiol 1992, 64(6):534-537.
• [17]Lacour JR, Padilla-Magunacelaya S, Chatard JC, Arsac L, Barthélémy JC: Assessment of running velocity at maximal oxygen uptake. Eur J Appl Physiol Occup Physiol 1991, 62(2):77-82.
• [18]Berthon P, Fellmann N, Bedu M, Beaune B, Dabonneville M, Coudert J, Chamoux A: A 5-min running field test as a measurement of maximal aerobic velocity. Eur J Appl Physiol Occup Physiol 1997, 75(3):233-238.
• [19]Burke EJ: Validity of selected laboratory and field tests of physical working capacity. Res Q 1976, 47(1):95-104.
• [20]Disch J, Frankiewicz R, Jackson A: Construct validation of distance run tests. Res Q 1975, 46(2):169-176.
• [21]DiNucci J, McCune D, Shows D: Reliability of a modification of the health-related physical fitness test for use with physical education majors. Res Q Exerc Sport 1990, 61(1):20-25.