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Strength And Muscle Quality In A Well‐Functioning Cohort Of Older Adults: The Health, Aging And Body Composition Study

Anne B. Newman, Catherine L. Haggerty, B. Goodpaster, T. Harris, S. Kritchevsky, M. Nevitt, Toni P. Miles, M. Visser, The Health, Aging, and Body Composition Research G
Published 2003 · Medicine

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OBJECTIVES:  To determine whether lower lean mass and higher fat mass have independent effects on the loss of strength and muscle quality in older adults and might explain part of the effect of age.
This paper references
10.1093/AJCN/68.3.584
High body fatness, but not low fat-free mass, predicts disability in older men and women: the Cardiovascular Health Study.
M. Visser (1998)
10.1249/00005768-199404000-00006
Skeletal muscle weakness in old age: underlying mechanisms.
S. Brooks (1994)
10.1152/JAPPL.1986.61.1.361
Contractile changes in opposing muscles of the human ankle joint with aging.
A. Vandervoort (1986)
10.1097/00005768-199705001-00435
EXERCISE TRAINING IMPROVES PHYSICAL FUNCTIONAL PERFORMANCE IN INDEPENDENT OLDER ADULTS 436
M. Cress (1997)
10.1152/JAPPL.1999.86.1.195
Muscle quality. II. Effects Of strength training in 65- to 75-yr-old men and women.
B. Tracy (1999)
10.1093/GERONJ/45.3.M82
The role of muscle loss in the age-related decline of grip strength: cross-sectional and longitudinal perspectives.
D. A. Kallman (1990)
The association between skeletal muscle composition and strength in the elderly: The Health ABC Study
BH Goodpaster (2001)
10.7326/0003-4819-127-2-199707150-00001
Quadriceps Weakness and Osteoarthritis of the Knee
C. Slemenda (1997)
10.1093/AGEING/14.4.230
The effects of age on muscle strength and anthropometric indices within a group of elderly men and women.
M. B. Pearson (1985)
10.1152/AJPENDO.2000.279.2.E366
Weight stability masks sarcopenia in elderly men and women.
D. Gallagher (2000)
10.1093/GERONA/51A.1.B21
Bilateral and unilateral neuromuscular function and muscle cross-sectional area in middle-aged and elderly men and women.
K. Häkkinen (1996)
Validity of fan beam dual-energy x-ray absorptiometry for measuring fat-free and leg muscle mass
M Visser (1999)
10.1056/NEJM199406233302501
Exercise training and nutritional supplementation for physical frailty in very elderly people.
M. Fiatarone (1994)
Does body composition predict disability in older men and women of the Cardiovascular Health Study
M Visser (1998)
10.1210/JCEM.85.4.6533
Regulation of protein metabolism in middle-aged, premenopausal women: roles of adiposity and estradiol.
M. Toth (2000)
10.1097/00005768-200007000-00023
Validation of air displacement plethysmography for assessing body composition.
D. R. Wagner (2000)
10.1093/GERONA/54.5.B207
Muscle quality and age: cross-sectional and longitudinal comparisons.
E. Metter (1999)
10.1093/GERONA/50A.6.M307
Cross-sectional age differences in body composition in persons 60+ years of age.
R. Baumgartner (1995)
10.1152/JAPPL.1997.83.1.229
Appendicular skeletal muscle mass: effects of age, gender, and ethnicity.
D. Gallagher (1997)
10.1093/GERONJ/47.6.M204
Knee extensor and knee flexor strength: cross-sectional area ratios in young and elderly men.
T. Overend (1992)
10.1152/JAPPL.2001.90.6.2157
Attenuation of skeletal muscle and strength in the elderly: The Health ABC Study.
B. Goodpaster (2001)
10.1111/J.1475-097X.1985.TB00590.X
The size and strength of the quadriceps muscles of old and young men.
A. Young (1985)
10.1093/GERONA/53A.3.M214
Body fat and skeletal muscle mass in relation to physical disability in very old men and women of the Framingham Heart Study.
M. Visser (1998)
Exercise training improves physical functional performance in independent older adults
ME Cress (1997)
10.1007/s004240050392
Decline in isokinetic force with age: muscle cross-sectional area and specific force
S. Jubrias (1997)
10.1152/JAPPL.1999.87.4.1513
Validity of fan-beam dual-energy X-ray absorptiometry for measuring fat-free mass and leg muscle mass. Health, Aging, and Body Composition Study--Dual-Energy X-ray Absorptiometry and Body Composition Working Group.
M. Visser (1999)
10.1093/AJCN/71.6.1392
Measures of body composition in blacks and whites: a comparative review.
D. R. Wagner (2000)
10.1152/JAPPL.1991.71.2.644
A cross-sectional study of muscle strength and mass in 45- to 78-yr-old men and women.
W. Frontera (1991)
10.1152/JAPPL.1999.86.1.188
Muscle quality. I. Age-associated differences between arm and leg muscle groups.
N. Lynch (1999)
10.1016/0022-510X(88)90132-3
What is the cause of the ageing atrophy?: Total number, size and proportion of different fiber types studied in whole vastus lateralis muscle from 15- to 83-year-old men
J. Lexell (1988)
10.1007/s004210050154
Muscle strength and soft tissue composition as measured by dual energy x-ray absorptiometry in women aged 18–87 years
O. Madsen (1997)
10.1097/00005768-200009001-00009
Compendium of physical activities: an update of activity codes and MET intensities.
B. Ainsworth (2000)



This paper is referenced by
10.3143/geriatrics.49.788
[Japanese translation of "Sarcopenia: European consensus on definition and diagnosis: Report of the European Working Group on Sarcopenia in Older People" with supplementary explanation by the JGS working group].
高齢者における加齢性筋肉減弱現象(サルコペニア)に関する予防対策確立のための包括的研究研究班 厚生労働科学研究補助金(長寿科学総合研究事業) (2012)
10.1097/GME.0000000000000333
Association of adiposity and muscle quality with physical function differs in young and old women
R. Larson (2015)
10.7600/JSPFSM.65.491
高齢者における筋量・筋力と起居移動動作能力および転倒との関連性 −SarcopeniaとDynapeniaに着目した検討−
美珍 金 (2016)
10.1093/GERONA/61.10.1059
The loss of skeletal muscle strength, mass, and quality in older adults: the health, aging and body composition study.
B. Goodpaster (2006)
Mise au point La sarcopénie Sarcopenia
Y. Rolland (2009)
10.1093/gerona/gly129
Strong Relation Between Muscle Mass Determined by D3-creatine Dilution, Physical Performance, and Incidence of Falls and Mobility Limitations in a Prospective Cohort of Older Men.
P. Cawthon (2019)
10.1016/j.exger.2020.111036
High intensity interval training combined with L-citrulline supplementation: Effects on physical performance in healthy older adults
F. Buckinx (2020)
10.1152/physiolgenomics.00112.2017
Identification of human skeletal muscle miRNA related to strength by high-throughput sequencing.
C. Mitchell (2018)
10.1093/gerona/glu023
Cutpoints for Low Appendicular Lean Mass That Identify Older Adults With Clinically Significant Weakness
P. Cawthon (2014)
10.2146/ajhp160319
Fracture risk associated with common medications used in treating type 2 diabetes mellitus.
D. Wolverton (2017)
STUDIES IN SPORT PHYSICAL EDUCATION AND HEALTH 100
Sari Ranta (2004)
10.1152/JAPPLPHYSIOL.01276.2004
Skeletal muscle fatigue, strength, and quality in the elderly: the Health ABC Study.
A. Katsiaras (2005)
10.1093/GERONA/61.1.72
Strength, but not muscle mass, is associated with mortality in the health, aging and body composition study cohort.
A. Newman (2006)
SARCOPENIA EN PACIENTES VIH: PREVALENCIA Y FACTORES ASOCIADOS
Facultad de Medicina (2012)
Epidemiologic and genetic aspects
J. Franklin (2010)
10.1590/1809-98232016019.140228
Existe associação entre massa e força muscular esquelética em idosos hospitalizados
B. Martinez (2016)
10.4081/or.2018.7460
The role of oxidative and nitrosative stress in the pathology of osteoarthritis: Novel candidate biomarkers for quantification of degenerative changes in the knee joint
A. Franz (2018)
10.3109/13685538.2014.963040
Uncomplicated diabetes does not accelerate age-related sarcopenia
T. Akpınar (2014)
TNF Promoter Polymorphisms Associated with Skeletal Muscle Phenotypes in Humans
Dongmei Liu (2008)
Skeletal Muscle Function Deficits in the Elderly: Current Perspectives on Resistance Training.
E. Papa (2017)
10.1002/9781118338032.CH6
The Complex Relation between Muscle Mass and Muscle Strength
T. Manini (2012)
10.1016/B978-0-12-800270-4.00003-1
Sarcopenia and nutrition.
A. Laviano (2014)
10.1093/gerona/glr025
Serum concentrations of myostatin and myostatin-interacting proteins do not differ between young and sarcopenic elderly men.
A. Ratkevičius (2011)
10.1007/s00223-014-9894-z
Lean Mass, Muscle Strength and Gene Expression in Community Dwelling Older Men: Findings from the Hertfordshire Sarcopenia Study (HSS)
H. Patel (2014)
10.1007/s10522-016-9671-7
Twelve weeks’ progressive resistance training combined with protein supplementation beyond habitual intakes increases upper leg lean tissue mass, muscle strength and extended gait speed in healthy older women
P. Francis (2016)
10.1111/j.1532-5415.2008.01708.x
Association Between Interleukin‐6 and Lower Extremity Function After Hip Fracture—The Role of Muscle Mass and Strength
R. Miller (2008)
10.1002/oby.21005
Changes in Body Composition over Eight Years in a Randomized Trial of a Lifestyle Intervention: The Look AHEAD Study
H. Pownall (2015)
10.3389/fneur.2018.00710
Sarcopenia and Muscle Functions at Various Stages of Alzheimer Disease
Y. Ogawa (2018)
10.1177/1099800409352377
Inflammation in Aging Part 2: Implications for the Health of Older People and Recommendations for Nursing Practice
K. Hunt (2010)
10.16926/KF.2016.15.40
Influence of Physical Activities on Stress Reduction among Third Age University Students
Svatava Nováková (2016)
10.1123/japa.2013-0009
Body composition, muscle capacity, and physical function in older adults: an integrated conceptual model.
A. Brady (2014)
10.2337/db05-1183
Decreased Muscle Strength and Quality in Older Adults With Type 2 Diabetes
S. Park (2006)
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