| P2093 | author name string | Russell S Richardson | |
| | Jan Helgerud | |
| | Jan Hoff | |
| | Eivind Wang | |
| | Morten Svendsen Næss | |
| | Quan Pham | |
| | Tobias Lie Albert | |
| P2860 | cites work | Evidence and possible mechanisms of altered maximum heart rate with endurance training and tapering | Q33845774 |
| | Aerobic high-intensity intervals improve VO2max more than moderate training | Q34578445 |
| | Rate and mechanism of maximal oxygen consumption decline with aging: implications for exercise training | Q35219238 |
| | Aerobic exercise training induces skeletal muscle hypertrophy and age-dependent adaptations in myofiber function in young and older men. | Q36473691 |
| | New records in aerobic power among octogenarian lifelong endurance athletes | Q36531048 |
| | Endurance exercise performance in Masters athletes: age-associated changes and underlying physiological mechanisms | Q36918462 |
| | Cardiovascular Effects of 1 Year of Progressive and Vigorous Exercise Training in Previously Sedentary Individuals Older Than 65 Years of Age | Q37062258 |
| | Aerobic interval training versus continuous moderate exercise as a treatment for the metabolic syndrome: a pilot study. | Q37421933 |
| | The aging of elite male athletes: age-related changes in performance and skeletal muscle structure and function. | Q37592569 |
| | Exercise capacity in the elderly | Q39727301 |
| | Superior cardiovascular effect of aerobic interval training versus moderate continuous training in heart failure patients: a randomized study. | Q40206551 |
| | Oxygen transport: air to muscle cell | Q41707006 |
| | Comparison and reliability of two non-invasive acetylene uptake techniques for the measurement of cardiac output | Q42657675 |
| | Differences in cardiovascular responses to isoproterenol in relation to age and exercise training in healthy men | Q44254630 |
| | Malleability of the system in overcoming limitations: functional elements | Q44475830 |
| | Response to exercise after bed rest and after training | Q44618791 |
| | Effects of aging, sex, and physical training on cardiovascular responses to exercise | Q45831034 |
| | Aging attenuates vascular and metabolic plasticity but does not limit improvement in muscle VO(2) max. | Q46477403 |
| | Interval and strength training in CAD patients. | Q48763267 |
| | Exercise capacity and mortality among men referred for exercise testing. | Q50692793 |
| | Stroke volume does not plateau in female endurance athletes. | Q51340101 |
| | Attenuation of cardiovascular adaptations to exercise in frail octogenarians. | Q51663671 |
| | Maximal strength training improves running economy in distance runners. | Q51703476 |
| | Effects of hypoxia and physical training on hemodynamic adjustments to one-legged exercise | Q53750715 |
| | Enhanced left ventricular performance in endurance trained older men. | Q53789688 |
| | Maximal strength-training effects on force-velocity and force-power relationships explain increases in aerobic performance in humans. | Q53948907 |
| | Effects of gender, age, and fitness level on response of VO2max to training in 60-71 yr olds | Q67802851 |
| | Skeletal muscle adaptations to endurance training in 60- to 70-yr-old men and women | Q68147921 |
| | Exercise training improves left ventricular systolic function in older men | Q68177153 |
| | Muscle mass as a factor limiting physical work | Q68392526 |
| | High-intensity endurance training in 20- to 30- and 60- to 70-yr-old healthy men | Q68651226 |
| | New approaches to predict VO2max and endurance from running performances | Q68690421 |
| | Decline in VO2max with aging in master athletes and sedentary men | Q68834606 |
| | A physiological comparison of young and older endurance athletes | Q71066725 |
| | Aging among elite distance runners: a 22-yr longitudinal study | Q71628502 |
| | Cardiovascular responses to exercise. Effects of aging and exercise training in healthy men | Q72344150 |
| | Maximal oxygen uptake, anaerobic threshold and running economy in women and men with similar performances level in marathons | Q72462073 |
| | Cardiac output during submaximal and maximal exercise in active middle-aged athletes | Q72793866 |
| | Endurance exercise training augments diastolic filling at rest and during exercise in healthy young and older men | Q72800836 |
| | A 30-year follow-up of the Dallas Bedrest and Training Study: I. Effect of age on the cardiovascular response to exercise | Q74522871 |
| | A 30-year follow-up of the Dallas Bedrest and Training Study: II. Effect of age on cardiovascular adaptation to exercise training | Q74522872 |
| | Accelerated longitudinal decline of aerobic capacity in healthy older adults | Q80932627 |
| | Effective training for patients with intermittent claudication | Q81104189 |
| | Plantar flexion: an effective training for peripheral arterial disease | Q81825537 |
| | Point: in health and in a normoxic environment, VO2 max is limited primarily by cardiac output and locomotor muscle blood flow | Q82297892 |
| | Time course and mechanisms of adaptations in cardiorespiratory fitness with endurance training in older and young men | Q82430518 |
| | Plantar flexion training primes peripheral arterial disease patients for improvements in cardiac function | Q83392231 |
| | Changes in cardiorespiratory function in different groups of former and still active male cross-country skiers: a 28-30-year follow-up study | Q83784737 |
| | A hemodynamic comparison of young and older endurance athletes during exercise | Q93575650 |
| P433 | issue | 2 | |
| P921 | main subject | circulatory system | Q11068 |
| P304 | page(s) | 665-676 | |
| P577 | publication date | 2013-11-16 | |
| P1433 | published in | Age | Q4691832 |
| P1476 | title | Exercise-training-induced changes in metabolic capacity with age: the role of central cardiovascular plasticity | |
| P478 | volume | 36 | |