Lifetime risks for cardiovascular disease mortality by cardiorespiratory fitness levels measured at ages 45, 55, and 65 years in men. The Cooper Center Longitudinal Study.
about
Exercise Modulates Oxidative Stress and Inflammation in Aging and Cardiovascular DiseasesAutonomic dysfunction in early breast cancer: Incidence, clinical importance, and underlying mechanismsImproved arterial-ventricular coupling in metabolic syndrome after exercise training: a pilot study.Bilateral common carotid artery ultrasound for prediction of incident strokes using intima-media thickness and external diameter: an observational study.Cyclo-oxygenase-2 inhibition and endothelium-dependent vasodilation in younger vs. older healthy adults.Exercise and the cardiovascular system: clinical science and cardiovascular outcomes.Cardiorespiratory fitness and long-term survival in "low-risk" adults.Premature Atherosclerotic Cardiovascular Disease in Childhood Cancer Survivors.Physical fitness in children infected with the human immunodeficiency virus: associations with highly active antiretroviral therapyLifetime risk of developing coronary heart disease in Aboriginal Australians: a cohort study.Waist circumference vs body mass index in association with cardiorespiratory fitness in healthy men and women: a cross sectional analysis of 403 subjectsExercise volume and aerobic fitness in young adults: the Midwest Exercise Trial-2.A non-exercise testing method for estimating cardiorespiratory fitness: associations with all-cause and cardiovascular mortality in a pooled analysis of eight population-based cohorts.Association of cardiorespiratory fitness with total, cardiovascular, and noncardiovascular mortality across 3 decades of follow-up in men and women.Association between family history and coronary heart disease death across long-term follow-up in men: the Cooper Center Longitudinal Study.Fitness, but not physical activity, is related to functional integrity of brain networks associated with aging.Reduced cardiorespiratory fitness in adult survivors of childhood acute lymphoblastic leukemia.Molecular sources of residual cardiovascular risk, clinical signals, and innovative solutions: relationship with subclinical disease, undertreatment, and poor adherence: implications of new evidence upon optimizing cardiovascular patient outcomes.Red cell distribution width, inflammatory markers and cardiorespiratory fitness: results from the National Health and Nutrition Examination SurveyPhysical fitness training after stroke.Physical fitness and risk for heart failure and coronary artery disease.Association between cardiorespiratory fitness and accelerometer-derived physical activity and sedentary time in the general population.Changes in mid-life fitness predicts heart failure risk at a later age independent of interval development of cardiac and noncardiac risk factors: the Cooper Center Longitudinal Study.Cardiorespiratory Fitness and Highly Sensitive Cardiac Troponin Levels in a Preventive Medicine Cohort.Midlife fitness and the development of chronic conditions in later life.Cardiorespiratory fitness and classification of risk of cardiovascular disease mortality.The effect of an advanced glycation end-product crosslink breaker and exercise training on vascular function in older individuals: a randomized factorial design trial.Reducing residual risk: modern pharmacochemistry meets old-fashioned lifestyle and adherence improvement.Exercise and cardiovascular risk in patients with hypertension.Cardiorespiratory fitness modulates the acute flow-mediated dilation response following high-intensity but not moderate-intensity exercise in elderly men.Is high-intensity interval training more effective on improving cardiometabolic risk and aerobic capacity than other forms of exercise in overweight and obese youth? A meta-analysis.Aortic augmentation index in endurance athletes: a role for cardiorespiratory fitness.Lifetime risk for cardiovascular disease in a Chinese population: the Chinese Multi-Provincial Cohort Study.Low aerobic capacity in middle-aged men associated with increased mortality rates during 45 years of follow-up.Age-dependent prognostic value of exercise capacity and derivation of fitness-associated biologic age.Physical Activity in Adults With Type 1 Diabetes.Physical Activity and Lifetime Risk of Cardiovascular Disease and Cancer.The safety and efficacy of early-initiation exercise training after acute venous thromboembolism: a randomized clinical trial.Use of exercise capacity to improve SCORE risk prediction model in asymptomatic adults.Lifelong Physical Activity Regardless of Dose Is Not Associated With Myocardial Fibrosis.
P2860
Q26773005-709C8AC8-448D-496B-BC77-7E0160DAE10BQ26795624-3ED97400-C7B4-4DD5-B310-24E7856F301AQ30394959-2D9C321C-B3ED-4EB3-A251-4E420BC30678Q30453314-B40D7CBB-3568-4A0D-9B96-3D81DB45BDFFQ34554429-7A0ABF42-515A-44B6-9367-7F35D5237918Q35825197-500BE94F-4477-458B-B282-2737B75DA6F4Q36366244-AB2CE3C5-09C3-44F2-AEB6-D2C037345448Q36498620-A0969994-511D-4402-B4CB-1333CEAC3B7EQ36509694-B6924ACE-9F86-4F64-94EB-AFED01B1596BQ36584107-6C375989-5C5B-44EB-8C6D-E0F953884F89Q36588809-C99A4A7C-61E0-469A-A117-BF560835745DQ36620028-BA1635D7-ED83-4A03-9249-E9E650A4101AQ36662962-2B677F6F-8102-43CE-8968-C77DC86DB2ACQ36781778-30B9B39C-ED41-4DD0-85D5-D3845223A58BQ36781807-F26E6B24-8C7D-4A18-A707-6E8206BDB49AQ36814040-CF1E2C73-CE7C-4C07-9CCA-31BF161EE7A3Q37051195-1415C3DD-B6ED-4CB0-9897-4CB266A0FB8AQ37254899-A14D94CD-6C61-425C-B2E3-FBAC1C35290BQ37387150-FCDFF30D-3C5E-4C35-86B1-4C4811F4B008Q37482121-742E0E9B-E0ED-491C-969E-0245C7C48C60Q37495516-4183B371-D5AA-4009-98C7-6F50A42AF0F2Q37495520-9465E2DC-5424-4EA9-A62B-3905C10628B0Q37495523-4795404D-E4D9-4AD7-A2E7-5DDEA142CD57Q37556336-74AD8A9A-FE35-444F-BEFF-9D34EB69CB12Q37588781-78AFC985-7FE8-4DFA-806E-4C5FB2F76E3CQ37588795-1258E81D-9515-417F-8E7A-53BEE80B6B4FQ37603478-A34ADB8A-4ABF-4FA8-84A5-40D32C99CB44Q38079763-E45C867D-6283-4918-B49C-C4B0ED261D71Q38259094-DBC0AAF2-E23A-4E5C-A645-F931B59C0876Q38756372-8973CACB-90FF-4144-AB18-545954B8022AQ38762827-8666E39F-FB1F-48DE-B4F6-32D90295C992Q38856142-9530AB52-287F-47E1-A186-34D20267601DQ39295261-50C33E52-2C26-40A8-87EB-3B8F1940EE48Q39556085-C4105F91-6C04-42A9-84D7-B7DC51BA51CEQ40144182-36830F1E-8ECD-45C4-96E8-B65904E9D0CAQ40224453-657FFACF-1851-45E6-8B70-C656C240501AQ40270280-DB88D9E0-3661-4E49-B1D2-7701047EC333Q41014765-F668F3AE-52D4-4C2B-93C1-472DBE15AB59Q42063564-72144915-3B44-4F25-B1FB-DF18D347516AQ42803984-9A92B071-EDAD-4397-92E8-9E524337613D
P2860
Lifetime risks for cardiovascular disease mortality by cardiorespiratory fitness levels measured at ages 45, 55, and 65 years in men. The Cooper Center Longitudinal Study.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@ast
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@en
type
label
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@ast
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@en
prefLabel
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@ast
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@en
P2093
P2860
P1476
Lifetime risks for cardiovascu ...... per Center Longitudinal Study.
@en
P2093
Amit Khera
Anand Rohatgi
Benjamin Willis
Carolyn E Barlow
James A de Lemos
Jarett D Berry
Sachin Gupta
William Haskell
P2860
P304
P356
10.1016/J.JACC.2010.10.056
P407
P577
2011-04-01T00:00:00Z