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Effects of depression, metabolic syndrome, and cardiorespiratory fitness on mortality: results from the Cooper Center Longitudinal Study

Published online by Cambridge University Press:  17 April 2017

C. D. Rethorst*
Affiliation:
Department of Psychiatry, Center for Depression Research and Clinical Care, University of Texas Southwestern Medical Center, Dallas, TX, USA
D. Leonard
Affiliation:
Cooper Institute, Dallas, TX, USA
C. E. Barlow
Affiliation:
Cooper Institute, Dallas, TX, USA
B. L. Willis
Affiliation:
Cooper Institute, Dallas, TX, USA
M. H. Trivedi
Affiliation:
Department of Psychiatry, Center for Depression Research and Clinical Care, University of Texas Southwestern Medical Center, Dallas, TX, USA
L. F. DeFina
Affiliation:
Cooper Institute, Dallas, TX, USA
*
*Address for correspondence: C. D. Rethorst, Ph.D., Department of Psychiatry, Center for Depression Research and Clinical Care, University of Texas Southwestern Medical Center, Dallas, TX, USA. (Email: [email protected])

Abstract

Background

Depression and metabolic syndrome (MetS) are frequently comorbid disorders that are independently associated with premature mortality. Conversely, cardiorespiratory fitness (CRF) is associated with reduced mortality risk. These factors may interact to impact mortality; however, their effects have not been assessed concurrently. This analysis assessed the mortality risk of comorbid depression/MetS and the effect of CRF on mortality in those with depression/MetS.

Methods

Prospective study of 47 702 adults in the Cooper Center Longitudinal Study. Mortality status was attained from the National Death Index. History of depression was determined by patient response (yes or no) to a standardized medical history questionnaire. MetS was categorized using the American Heart Association/National Heart, Lung, and Blood Institute criteria. CRF was estimated from the final speed/grade of a treadmill graded exercise test.

Results

13.9% reported a history of depression, 21.4% met criteria for MetS, and 3.0% met criteria for both MetS and history of depression. History of depression (HR = 1.24, p = 0.003) and MetS (HR = 1.28, p < 0.001) were independently associated with an increased mortality risk, with the greatest mortality risk among individuals with both a history of depression and MetS (HR = 1.59, p < 0.001). Higher CRF was associated with a significantly lower risk of mortality (p < 0.001) in all individuals, including those with MetS and/or a history of depression.

Conclusions

Those with higher levels CRF had reduced mortality risk in the context of depression/MetS. Interventions that improve CRF could have substantial impact on the health of persons with depression/MetS.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 2017 

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References

American College of Sports Medicine (2013). ACSM's Guidelines for Exercise Testing and Prescription. Lippincott Williams & Wilkins: Baltimore, MD.Google Scholar
Blair, SN, Kampert, JB, Kohl, HW III, Barlow, CE, Macera, CA, Paffenbarger, RS Jr, Gibbons, LW (1996). Influences of cardiorespiratory fitness and other precursors on cardiovascular disease and all-cause mortality in men and women. JAMA 276, 205210.CrossRefGoogle ScholarPubMed
Blair, SN, Kohl, HW III, Paffenbarger, RS Jr, Clark, DG, Cooper, KH, Gibbons, LW (1989). Physical fitness and all-cause mortality. A prospective study of healthy men and women. JAMA 262, 23952401.Google Scholar
Breslow, NE (1972). Discussion of Professor Cox's paper. Journal of the Royal Statistical Society: Series B, Statistical Methodology 34, 216217.Google Scholar
Brien, SE, Janssen, I, Katzmarzyk, PT (2007). Cardiorespiratory fitness and metabolic syndrome: US National Health and Nutrition Examination Survey 1999–2002. Applied Physiology, Nutrition, and Metabolism 32, 143147.Google Scholar
Church, TS, Cheng, YJ, Earnest, CP, Barlow, CE, Gibbons, LW, Priest, EL, Blair, SN (2004). Exercise capacity and body composition as predictors of mortality among men with diabetes. Diabetes Care 27, 8388.Google Scholar
Church, TS, Lamonte, MJ, Barlow, CE, Blair, SN (2005). Cardiorespiratory fitness and body mass index as predictors of cardiovascular disease mortality among men with diabetes. Archives of Internal Medicine 165, 21142120.Google Scholar
Church, TS, Thompson, AM, Katzmarzyk, PT, Sui, X, Johannsen, N, Earnest, CP, Blair, SN (2009). Metabolic syndrome and diabetes, alone and in combination, as predictors of cardiovascular disease mortality among men. Diabetes Care 32, 12891294.CrossRefGoogle ScholarPubMed
Coyne, JC, Schwenk, TL, Fechner-Bates, S (1995). Nondetection of depression by primary care physicians reconsidered. General Hospital Psychiatry 17, 312.Google Scholar
Cuijpers, P, Smit, F (2002). Excess mortality in depression: a meta-analysis of community studies. Journal of Affective Disorders 72, 227236.Google Scholar
Currier, MB, Nemeroff, CB (2014). Depression as a risk factor for cancer: from pathophysiological advances to treatment implications. Annual Review of Medicine 65, 203221.Google Scholar
Defina, LF, Haskell, WL, Willis, BL, Barlow, CE, Finley, CE, Levine, BD, Cooper, KH (2015). Physical activity versus cardiorespiratory fitness: two (Partly) distinct components of cardiovascular health? Progress in Cardiovascular Diseases 57, 324329.Google Scholar
Ford, ES (2005). Risks for all-cause mortality, cardiovascular disease, and diabetes associated with the metabolic syndrome a summary of the evidence. Diabetes Care 28, 17691778.Google Scholar
Ford, ES, Kohl, HW, Mokdad, AH, Ajani, UA (2005). Sedentary behavior, physical activity, and the metabolic syndrome among US adults. Obesity Research 13, 608614.Google Scholar
Galper, DI, Trivedi, MH, Barlow, CE, Dunn, AL, Kampert, JB (2006). Inverse association between physical inactivity and mental health in men and women. Medicine and Science in Sports and Exercise 38, 173178.Google Scholar
Goldbacher, EM, Bromberger, J, Matthews, KA (2009). Lifetime history of major depression predicts the development of the metabolic syndrome in middle-aged women. Psychosomatic Medicine 71, 266272.Google Scholar
Greenberg, PE, Kessler, RC, Birnbaum, HG, Leong, SA, Lowe, SW, Berglund, PA, Corey-Lisle, PK (2003). The economic burden of depression in the United States: how did it change between 1990 and 2000? Journal of Clinical Psychiatry 64, 14651475.Google Scholar
Grundy, SM, Cleeman, JI, Daniels, SR, Donato, KA, Eckel, RH, Franklin, BA, Gordon, DJ, Krauss, RM, Savage, PJ, Smith, SC (2005). Diagnosis and management of the metabolic syndrome an American Heart Association/National Heart, Lung, and Blood Institute scientific statement. Circulation 112, 27352752.CrossRefGoogle ScholarPubMed
Kachur, S, Menezes, AR, De Schutter, A, Milani, RV, Lavie, CJ (2016). Significance of comorbid psychological stress and depression on outcomes after cardiac rehabilitation. American Journal of Medicine 129, 13161321.Google Scholar
Katon, WJ, Simon, G, Russo, J, Von Korff, M, Lin, EH, Ludman, E, Ciechanowski, P, Bush, T (2004). Quality of depression care in a population-based sample of patients with diabetes and major depression. Medical Care 42, 12221229.Google Scholar
Kinder, LS, Carnethon, MR, Palaniappan, LP, King, AC, Fortmann, SP (2004). Depression and the metabolic syndrome in young adults: findings from the Third National Health and Nutrition Examination Survey. Psychosomatic Medicine 66, 316322.Google Scholar
Lavie, CJ, Menezes, AR, De Schutter, A, Milani, RV, Blumenthal, JA (2016). Impact of cardiac rehabilitation and exercise training on psychological risk factors and subsequent prognosis in patients with cardiovascular disease. Canadian Journal of Cardiology 32, S365S373.Google Scholar
Lee, IM, Shiroma, EJ, Lobelo, F, Puska, P, Blair, SN, Katzmarzyk, PT (2012). Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy. Lancet 380, 219229.Google Scholar
Mathers, CD, Loncar, D (2006). Projections of global mortality and burden of disease from 2002 to 2030. PLoS Medicine 3, e442.Google Scholar
Musselman, DL, Betan, E, Larsen, H, Phillips, LS (2003). Relationship of depression to diabetes types 1 and 2: epidemiology, biology, and treatment. Biological Psychiatry 54, 317329.Google Scholar
Musselman, DL, Evans, DL, Nemeroff, CB (1998). The relationship of depression to cardiovascular disease: epidemiology, biology, and treatment. Archives of General Psychiatry 55, 580592.Google Scholar
Myers, J, McAuley, P, Lavie, CJ, Despres, J-P, Arena, R, Kokkinos, P (2015). Physical activity and cardiorespiratory fitness as major markers of cardiovascular risk: their independent and interwoven importance to health status. Progress in Cardiovascular Diseases 57, 306314.Google Scholar
Pan, A, Keum, N, Okereke, OI, Sun, Q, Kivimaki, M, Rubin, RR, Hu, FB (2012). Bidirectional association between depression and metabolic syndrome: a systematic review and meta-analysis of epidemiological studies. Diabetes Care 35, 11711180.Google Scholar
Park, Y-W, Zhu, S, Palaniappan, L, Heshka, S, Carnethon, MR, Heymsfield, SB (2003). The metabolic syndrome: prevalence and associated risk factor findings in the US population from the Third National Health and Nutrition Examination Survey, 1988–1994. Archives of Internal Medicine 163, 427436.Google Scholar
Rethorst, CD, Bernstein, I, Trivedi, MH (2014). Inflammation, obesity, and metabolic syndrome in depression: analysis of the 2009–2010 National Health and Nutrition Examination Survey (NHANES). Journal of Clinical Psychiatry 75, E1428E1432.Google Scholar
Sisson, SB, Camhi, SM, Church, TS, Martin, CK, Tudor-Locke, C, Bouchard, C, Earnest, CP, Smith, SR, Newton, M Jr, Robert, L, Rankinen, T (2009). Leisure time sedentary behavior, occupational/domestic physical activity, and metabolic syndrome in US men and women. Metabolic Syndrome and Related Disorders 7, 529536.Google Scholar
Vallance, JK, Winkler, EA, Gardiner, PA, Healy, GN, Lynch, BM, Owen, N (2011). Associations of objectively-assessed physical activity and sedentary time with depression: NHANES (2005–2006). Preventive Medicine 53, 284288.CrossRefGoogle ScholarPubMed
Wei, M, Gibbons, LW, Kampert, JB, Nichaman, MZ, Blair, SN (2000). Low cardiorespiratory fitness and physical inactivity as predictors of mortality in men with type 2 diabetes. Annals of Internal Medicine 132, 605–+.CrossRefGoogle ScholarPubMed