Low Cardiorespiratory Fitness Levels and Elevated Blood Pressure : What Is The

Individuals with poor cardiorespiratory fitness have higher blood pressure than fit individuals. Individuals with low fitness levels also tend to be characterized by higher visceral adiposity compared with physically fit individuals. We tested the hypothesis that the relationship between low fitness and elevated blood pressure could be related, at least in part, to the higher level of visceral adipose tissue often found among unfit individuals. This study included 407 asymptomatic, nondiabetic participants. Visceral adipose tissue was assessed by computed tomography, and fitness was measured by a progressive submaximal physical working capacity test. Participants in the highest visceral adipose tissue tertile showed the highest systolic and diastolic blood pressures, whereas participants in the highest fitness tertile had the lowest blood pressure values (P<0.001). When participants were classified into fitness tertiles and then subdivided on the basis of visceral adipose tissue (high versus low), participants with a high visceral adipose tissue had higher systolic and diastolic blood pressure values (P=0.01), independent of their fitness category. Linear regression analyses showed that age and visceral adipose tissue, but not fitness, predicted systolic blood pressure (r2=0.11 [P<0.001], 0.12 [P<0.001], and 0.01 [P value nonsignificant], for age, visceral adipose tissue, and fitness, respectively) and diastolic blood pressure (r2=0.17 [P<0.001], 0.14 [P<0.001], and 0.01 [P value nonsignificant], for age, visceral adipose tissue, and fitness, respectively). Individuals with high visceral adipose tissue levels have higher blood pressure, independent of their fitness. Visceral adipose tissue may represent an important clinical target in the management of elevated blood pressure.

[1]  Y. Matsuzawa,et al.  Close correlation of intra-abdominal fat accumulation to hypertension in obese women. , 1990, Hypertension.

[2]  C. Stehouwer,et al.  “Vasocrine” signalling from perivascular fat: a mechanism linking insulin resistance to vascular disease , 2005, The Lancet.

[3]  R. Pratley,et al.  The evolving role of inflammation in obesity and the metabolic syndrome , 2005, Current diabetes reports.

[4]  C. Bouchard,et al.  Visceral adipose tissue accumulation, cardiorespiratory fitness, and features of the metabolic syndrome. , 2007, Archives of internal medicine.

[5]  R. Collins,et al.  Age-specific relevance of usual blood pressure to vascular mortality: a meta-analysis of individual data for one million adults in 61 prospective studies , 2002, The Lancet.

[6]  P. Kokkinos,et al.  Exercise Capacity and Blood Pressure Associations With Left Ventricular Mass in Prehypertensive Individuals , 2007, Hypertension.

[7]  M. Zamboni,et al.  Visceral obesity and metabolic syndrome , 2000, Obesity reviews : an official journal of the International Association for the Study of Obesity.

[8]  Daniel W. Jones,et al.  The Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure: the JNC 7 report. , 2003, JAMA.

[9]  P. Hsu,et al.  Presence and progression of abdominal obesity are predictors of future high blood pressure and hypertension. , 2006, American journal of hypertension.

[10]  C. Laurell,et al.  Quantitative estimation of proteins by electrophoresis in agarose gel containing antibodies. , 1966, Analytical biochemistry.

[11]  Manish Prakash,et al.  Exercise capacity and mortality among men referred for exercise testing. , 2002, The New England journal of medicine.

[12]  C. Stehouwer,et al.  Regulation of Vascular Function and Insulin Sensitivity by Adipose Tissue: Focus on Perivascular Adipose Tissue , 2007, Microcirculation.

[13]  J. Després,et al.  Abdominal obesity and metabolic syndrome , 2006, Nature.

[14]  J. Després,et al.  Effects of Diet and Physical Activity on Adiposity and Body Fat Distribution: Implications for the Prevention of Cardiovascular Disease , 1993, Nutrition Research Reviews.

[15]  E. Ferrannini Insulin and blood pressure: connected on a circumference? , 2005, Hypertension.

[16]  J. Kampert,et al.  Cardiorespiratory fitness is an independent predictor of hypertension incidence among initially normotensive healthy women. , 2006, American journal of epidemiology.

[17]  M. Paul,et al.  Gene expression of the renin-angiotensin system in human tissues. Quantitative analysis by the polymerase chain reaction. , 1993, The Journal of clinical investigation.

[18]  C. Bouchard,et al.  Are gender differences in cardiovascular disease risk factors explained by the level of visceral adipose tissue? , 1994, Diabetologia.

[19]  Robert Ross,et al.  Reduction in Obesity and Related Comorbid Conditions after Diet-Induced Weight Loss or Exercise-Induced Weight Loss in Men , 2000, Annals of Internal Medicine.

[20]  C. Bouchard,et al.  Visceral adipose tissue and low-density lipoprotein particle size in middle-aged versus young men. , 1999, Metabolism: clinical and experimental.

[21]  C. Bouchard,et al.  Seven-Year Changes in Body Fat and Visceral Adipose Tissue in Women. Association with indexes of plasma glucose-insulin homeostasis , 1996, Diabetes Care.

[22]  J. Després,et al.  Impact of Waist Circumference on the Relationship Between Blood Pressure and Insulin: The Quebec Health Survey , 2005, Hypertension.

[23]  C. Bouchard,et al.  Cardiorespiratory fitness, BMI, and risk of hypertension: the HYPGENE study. , 2007, Medicine and science in sports and exercise.

[24]  R. Ross,et al.  Cardiorespiratory fitness attenuates metabolic risk independent of abdominal subcutaneous and visceral fat in men. , 2005, Diabetes care.

[25]  Daniel W. Jones,et al.  Seventh report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure. , 2003, Hypertension.

[26]  P. Poirier Obesity, adiposity indices, and blood pressure; ethnicity does matter. , 2008, American journal of hypertension.

[27]  K. Ohkawara,et al.  A dose–response relation between aerobic exercise and visceral fat reduction: systematic review of clinical trials , 2008, International Journal of Obesity.

[28]  A Tremblay,et al.  Do elevated levels of abdominal visceral adipose tissue contribute to age-related differences in plasma lipoprotein concentrations in men? , 1995, Atherosclerosis.

[29]  Y. Matsuzawa,et al.  Sexual dimorphism of age-related changes in whole-body fat distribution in the obese. , 1994, International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity.

[30]  Hidekatsu Yanai,et al.  The underlying mechanisms for development of hypertension in the metabolic syndrome , 2008, Nutrition Journal.

[31]  C. Bouchard,et al.  Age-related increase in visceral adipose tissue and body fat and the metabolic risk profile of premenopausal women. , 1999, Diabetes care.

[32]  G. Borkan,et al.  Age changes in body composition revealed by computed tomography. , 1983, Journal of gerontology.

[33]  A. G. Shaper,et al.  Obesity and cardiovascular disease. , 1996, Ciba Foundation symposium.

[34]  R. Richterich,et al.  [Determination of plasma glucose by hexokinase-glucose-6-phosphate dehydrogenase method]. , 1971, Schweizerische medizinische Wochenschrift.

[35]  Albert R. Behnke,et al.  Evaluation and regulation of body build and composition , 1974 .

[36]  Kiang Liu,et al.  Cardiorespiratory fitness in young adulthood and the development of cardiovascular disease risk factors. , 2003, JAMA.

[37]  J. Orr,et al.  Cardiorespiratory Fitness Influences the Blood Pressure Response to Experimental Weight Gain , 2007, Obesity.

[38]  S. Blair,et al.  Cardiorespiratory fitness and risk of nonfatal cardiovascular disease in women and men with hypertension. , 2007, American journal of hypertension.

[39]  L. Sjöström,et al.  Human adipose tissue expresses angiotensinogen and enzymes required for its conversion to angiotensin II. , 1998, The Journal of clinical endocrinology and metabolism.

[40]  G. Hotamisligil,et al.  Inflammation and metabolic disorders , 2006, Nature.

[41]  R. Havel,et al.  The distribution and chemical composition of ultracentrifugally separated lipoproteins in human serum. , 1955, The Journal of clinical investigation.

[42]  Youfa Wang,et al.  Tracking of Blood Pressure From Childhood to Adulthood: A Systematic Review and Meta–Regression Analysis , 2008, Circulation.

[43]  Jiang He,et al.  Metabolic syndrome and risk of cardiovascular disease: a meta-analysis. , 2006, The American journal of medicine.

[44]  B. Fernhall,et al.  Determinants of exercise blood pressure response in normotensive and hypertensive women: role of cardiorespiratory fitness. , 2002, Journal of cardiopulmonary rehabilitation.