The effect of ageing and immobilization on structure and function of human skeletal muscle fibres

D’Antona, Giuseppe; Pellegrino, Maria Antonietta; Adami, Raffaella; Rossi, R.; Carlizzi, Carmine Naccari; Canepari, Monica; Saltin, Bengt; Bottinelli, Roberto

doi:10.1113/jphysiol.2003.046276

Cited by 388 publications

(385 citation statements)

References 53 publications

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“…4A, a decrease in MHC protein content would reduce muscle force production. A similar relationship of MHC protein content to muscle force production has been demonstrated in human single muscle fibers (6,14). In this context, and in light of the current results, we put forth the hypothesis that skeletal muscle contractile dysfunction in heart failure (26) patients is caused by reduced MHC protein content rather than by alterations in the function of individual contractile proteins.…”

Section: Discussionmentioning

confidence: 73%

Skeletal muscle contractile protein function is preserved in human heart failure

Okada

Toth²,

VanBuren³

2008

Journal of Applied Physiology

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Section: Discussionmentioning

confidence: 73%

Skeletal muscle contractile protein function is preserved in human heart failure

Okada

Toth²,

VanBuren³

2008

Journal of Applied Physiology

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“…Furthermore, the decline in MHC in the semimembranosus muscle supports the agerelated muscle specific phenotype (fast-twitch versus slow-twitch discussed earlier). Interestingly, age-related changes of myosin concentration were also indicated as a major determinant of changes in P 0 of human vastus lateralis muscle (D'Antona et al, 2003).…”

Section: Age-related Alterations In Protein Expressionmentioning

confidence: 95%

Age-related muscle dysfunction

Thompson

2009

Experimental Gerontology

193

163

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Aging is associated with a progressive decline of muscle mass, strength, and quality, a condition described as sarcopenia of aging. Despite the significance of skeletal muscle atrophy, the mechanisms responsible for the deterioration of muscle performance are only partially understood. The purpose of this review is to highlight cellular, molecular and biochemical changes that contribute to age-related muscle weakness. Keywordsactin; myosin; aged muscle; enzymatic activity; oxidative modifications SarcopeniaAging is associated with a progressive decline of muscle mass, strength, and quality, a condition described as sarcopenia. These age-related changes are observed in healthy, active adults who are 50 years and older (Hughes et al., 2002). The prevalence of sarcopenia in older adults under the age of 70 years is about 25% and increases to 40% in adults 80 years or older (Baumgartner et al., 1998). Sarcopenia represents a risk factor for frailty, loss of independence, and physical disability (Roubenoff, 2000). Loss of mobility resulting from muscle loss predicts major physical disability and mortality, and is associated with poor quality of life, social needs, and health care needs (Fried and Guralnik, 1997). The economic impact of sarcopenia and its detrimental correlates are immense (Janssen et al., 2004). Thus, understanding the mechanisms leading to muscle dysfunction (e.g., weakness) at advanced age represents a high public health priority. The purpose of this article is to highlight cellular, molecular, and biochemical changes that contribute to age-related muscle dysfunction. Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access Muscle physiology-short reviewFor skeletal muscle, the control of force has to be accurate and precise with the contractile machinery being switched on and off rapidly to allow for complex coordinated movements. Action potentials initiated at the neuromuscular junction propagate along the length of the fiber and the transverse tubules. As the wave of depolarization passes down the transverse tubules there is an interaction with the sarcoplasmic reticulum that results in the release of calcium, initiating the interaction of actin and myosin and muscle contraction. This process is known as excitation-contraction coupling. Thus, age-related structural changes or chemical modifications in proteins that affect excitation-contraction coupling are likely to influence muscle function.The basic contractile unit of muscle, the myofibril, consists of a linear array of sarcomeres, which contains interdigitating myosin and actin fila...

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“…Spasticity was not associated with gender, age, race/ color, marital status, schooling level, status within professional occupation, social class or sports activities. Our initial hypothesis was that constitutional and functional characteristics relating to sex, age and ethnicity might be associated with differences in the prevalence of spasticity, due to alterations in the proportions, quantities, distribution and type of muscle fibers at different ages 14,16,25,26 .…”

Section: Discussionmentioning

confidence: 99%

Predictive factors for spasticity among ischemic stroke patients

Moura

Fukujima

Aguiar³

et al. 2009

Arq. Neuro-Psiquiatr.

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-Spasticity is a determining for functional loss following ischemic stroke. Objective: To detect possible predictive factors for its occurrence. Method: Demographic, clinical and tomographic data on 146 stroke patients were analyzed. Results: Spasticity was noted more frequently among patients who underwent physiotherapy (p<0.0001; OR=19.4; 95% CI: 4.4-84.5), those who underwent such treatment for long periods (p=0.028; OR=4.80; 95% CI: 1.1-8.3) and those with manual work (p=0.041; OR=2.2; 95% CI: 1.02-4.6), lower income (p=0.038), pain complaints (p<0.0001; OR=107.0; 95% CI: 13.5-847.3), appearance of pain at the same time as spasticity (p<0.0001), previous vascular disease (p=0.001; OR=4.2; 95% CI: 1.7-10.3), muscle weakness (p<0.0001; OR=91.9; 95% CI: 12.0-699.4), extensive lesions as seen on tomography (p=0.01) and lesions affecting more than one cerebral lobe (p=0.018). Manual work had a relative risk of 2.9; previous stroke 3.9, and extensive lesion 3.6. Conclusion: Spasticity affected 25% of the patients, and was associated with: manual work, previous stroke, extensive lesions, decrease in individual income, underwent physiotherapy, underwent physiotherapy for longer period, pain complaints, the pain started simultaneously with the spasticity, presented changes in strength.KEY WORDS: spasticity, stroke, cerebral infarct, physiotherapy. Fatores preditivos para espasticidade após acidente vascular cerebralResumo -A espasticidade é fator determinante para perda funcional após o acidente vascular cerebral isquêmico (AVCI). Objetivo: Detectar possíveis fatores preditivos para a ocorrência da espasticidade. Método: Foram analisados dados demográficos, clínicos e tomográficos de 146 pacientes pós-AVCI. Resultados: Na análise univariada a espasticidade foi notada com maior freqüência em pacientes que realizaram fisioterapia (p<0,0001; OR=19,4; 95% CI: 4,4-84,5), com maior tempo de duração desse tratamento (p=0,028; OR=4,80; 95% CI: 1,1-8,3) e que realizavam trabalho braçal (p=0,041; OR=2,2; 95% CI: 1,02-4,6), renda menor (p=0,038), referência de dor (p<0,0001; OR=107,0; 95% CI: 13,5-847,3) e seu aparecimento simultâneo à espasticidade (p<0,0001), acidente vascular cerebral (AVC) pregresso (p=0,001; OR=4,2; 95% CI: 1,7-10,3), fraqueza muscular (p<0,0001; OR=91,9; 95% CI: 12,0-699,4), lesão tomográfica extensa (p=0,01) e lesão afetando mais de um lobo cerebral (p=0,018). Na análise de regressão multivariada a atividade braçal apresentou risco relativo de 2,9; acidente vascular cerebral prévio com risco relativo de 3,9 e lesão tomográfica extensa risco relativo de 3,6. Conclusão: A espasticidade afetou um quarto da população estudada e esteve associada ao trabalho braçal, AVC pregresso, lesões tomográficas extensas, diminuição da renda individual, realização de fisioterapia, realização de fisioterapia por um período maior, presença de dor, surgimento da dor simultânea à espasticidade e alteração da força. PALAVRAS-CHAVE: espasticidade, acidente vascular cerebral, infarto cerebral isquêmico, fisioterapia.

show abstract

The effect of ageing and immobilization on structure and function of human skeletal muscle fibres

Cited by 388 publications

References 53 publications

Skeletal muscle contractile protein function is preserved in human heart failure

Skeletal muscle contractile protein function is preserved in human heart failure

Age-related muscle dysfunction

Predictive factors for spasticity among ischemic stroke patients

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