Comparison of cardioprotective benefits of vigorous versus moderate intensity aerobic exercise.
about
Physical activity in older age: perspectives for healthy ageing and frailtyExercise for Hypertension: A Prescription Update Integrating Existing Recommendations with Emerging ResearchPhysical activity in primary and secondary prevention of cardiovascular disease: Overview updatedThe Start2Bike program is effective in increasing health-enhancing physical activity: a controlled study.Relationship of running intensity to hypertension, hypercholesterolemia, and diabetesVigorous exercise and diabetic, hypertensive, and hypercholesterolemia medication use.Physical activity and heart rate variability in older adults: the Cardiovascular Health Study.Incident diverticular disease is inversely related to vigorous physical activityEffect of left ventricular assist device implantation and heart transplantation on habitual physical activity and quality of life.Greater weight loss from running than walking during a 6.2-yr prospective follow-upWalking versus running for hypertension, cholesterol, and diabetes mellitus risk reductionSitting time and waist circumference are associated with glycemia in U.K. South Asians: data from 1,228 adults screened for the PODOSA trial.Physical activity and differential methylation of breast cancer genes assayed from saliva: a preliminary investigationDistance walked and run as improved metrics over time-based energy estimation in epidemiological studies and prevention; evidence from medication use.People who perceive themselves as active cannot identify the intensity recommended by the international physical activity guidelinesThe role of exercise and physical activity in weight loss and maintenanceSpecial needs to prescribe exercise intensity for scientific studies.The response of interleukin-6 and soluble interleukin-6 receptor isoforms following intermittent high intensity and continuous moderate intensity cyclingPhysical activity recommendations, exercise intensity, and histological severity of nonalcoholic fatty liver disease.Effectiveness of Start to Run, a 6-week training program for novice runners, on increasing health-enhancing physical activity: a controlled study.Rating of perceived exertion as a tool for prescribing and self regulating interval training: a pilot study.Effects of interval and continuous exercise training on CD4 lymphocyte apoptotic and autophagic responses to hypoxic stress in sedentary menA randomised controlled study of the long-term effects of exercise training on mortality in elderly people: study protocol for the Generation 100 study.Dose response between physical activity and risk of coronary heart disease: a meta-analysis.Exercise modalities and endothelial function: a systematic review and dose-response meta-analysis of randomized controlled trials.Association between neighborhood walkability, cardiorespiratory fitness and body-mass index.Physical inactivity is correlated with levels of quantitative C-reactive protein in serum, independent of obesity: results of the national surveillance of risk factors of non-communicable diseases in Iran.Physical activity and vascular disease in a prospective cohort study of older men: The Health In Men Study (HIMS).Determination of inflammatory and prominent proteomic changes in plasma and adipose tissue after high-intensity intermittent training in overweight and obese malesThe relationship between walking speed and changes in cardiovascular risk factors during a 12-day walking tour to Santiago de Compostela: a cohort study.Do overweight and obese individuals select a "moderate intensity" workload when asked to do so?Adherence, Compliance, and Health Risk Factor Changes following Short-Term Physical Activity Interventions.Changes in cardiopulmonary function in normal adults after the Rockport 1 mile walking test: a preliminary study.Two-player partnered exergame for obesity prevention: using discrepancy in players' abilities as a strategy to motivate physical activity.Waist circumference vs body mass index in association with cardiorespiratory fitness in healthy men and women: a cross sectional analysis of 403 subjectsPilot testing of a mindfulness- and acceptance-based intervention for increasing cardiorespiratory fitness in sedentary adults: A feasibility studyOptimizing cardiovascular benefits of exercise: a review of rodent models.Gender Differences in Pain-Physical Activity Linkages among Older Adults: Lessons Learned from Daily Life Approaches.Effects of high intensity training and continuous endurance training on aerobic capacity and body composition in recreationally active runners.A comparison between ventilation and heart rate as indicator of oxygen uptake during different intensities of exercise.
P2860
Q26764957-7528C62F-F8CF-40DE-9BFF-1BC1B0E86BE1Q26783924-A204C2AC-5BD4-4D4E-B85A-D234D18ABE1CQ28073657-DA0539E5-A63A-49E9-828B-CE39E53A73C7Q32173510-30293794-B9D5-45AE-B21D-00663EA742A0Q33579771-D7B9B111-33AA-4B87-A973-CD6B3F803596Q33639162-9CF7F6BD-6327-48D2-B83E-E17A82728A52Q33686365-B15EDBB9-FD28-4056-89D8-EE9D0B057CEEQ33700614-E8761FAD-64EF-4F3C-81A8-89D7C7FD93BBQ33770709-D2B7A5E0-8D5E-42DB-A71C-99A81ED357E0Q33794263-93FFD5E5-A71D-43DD-A559-C48D1E1001D4Q33794270-42CB2D8D-A95E-4D51-8F31-94BDC56C3E40Q33862282-198FDBE5-CF4B-4BD8-B075-E37B820455D0Q34305262-BF3F401A-C6CC-4607-9030-F99547D8DE7EQ34390770-7E1B7420-FFD5-4AF1-ABA2-C9F19D5D325BQ34394445-D14E6492-AF7F-4CC6-BD1A-32CA6716A875Q34398666-80B2AA28-96D8-4AEF-B41C-292C1F29ECEEQ34442547-B2F4588E-EB0E-4DB0-946D-7EBCD1BE14DAQ34505786-FDB977DA-8470-47C5-A4E3-6C99B306CF32Q34758958-CC9A7F13-64BA-462A-B8C7-BF1CB1DB4BF7Q34881215-839BD180-4A21-4B77-B096-2C5425CF57C7Q34974949-54AD20D9-4E8D-40A9-9D34-C122D96F95FBQ35043935-82D4446C-E9FF-4DAF-A82B-776B0258991DQ35088884-7317FDD2-5E52-4632-9AB8-2C98282CEB1EQ35172542-B7BDF406-2838-440A-8BB6-D3F6CC0B23DBQ35300922-DDE3CCC8-188E-410E-8227-062EF9E69D27Q35607092-12FA350B-3BD3-407D-A363-EC54D9063B03Q35852874-D9EE54B4-21CD-47E5-9381-8366150EDA84Q35864970-C2402A20-C5C6-46F8-B25B-44BA6F8F4841Q35902368-F475D297-C628-4F35-A17B-E1E55980441FQ35963055-8BE7B516-C9BA-40E6-97B5-D27A00E65E73Q35986534-F92D918E-6CD2-4302-9D29-2DB8F676DFAEQ36033852-ED3C0AD4-11B7-4FFA-BC40-453836E641EDQ36039341-04768D41-EB87-493F-848B-690DF9CDA330Q36229296-47396CFD-295F-449E-AAF9-ADF2A2FEEFD3Q36588809-DFF9225D-0DBA-48EA-BF69-BE87C148F4BDQ36806964-69EA6A9E-97A2-4EC7-8D5C-F4E84B0B9C46Q36975608-30A3F5C7-0A4A-4BD8-B799-1EFAD7F588B5Q36996898-1C3CD283-2F9B-4A8F-94FD-4F56F2D1E1BCQ37081395-A6199376-ADD1-4364-8FD4-DEE6154C48F9Q37081521-296B6F80-F0D4-45DA-A824-5EE745E09A07
P2860
Comparison of cardioprotective benefits of vigorous versus moderate intensity aerobic exercise.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Comparison of cardioprotective ...... te intensity aerobic exercise.
@ast
Comparison of cardioprotective ...... te intensity aerobic exercise.
@en
type
label
Comparison of cardioprotective ...... te intensity aerobic exercise.
@ast
Comparison of cardioprotective ...... te intensity aerobic exercise.
@en
prefLabel
Comparison of cardioprotective ...... te intensity aerobic exercise.
@ast
Comparison of cardioprotective ...... te intensity aerobic exercise.
@en
P1476
Comparison of cardioprotective ...... te intensity aerobic exercise.
@en
P2093
Barry A Franklin
David P Swain
P304
P356
10.1016/J.AMJCARD.2005.07.130
P407
P577
2005-11-16T00:00:00Z