Basic electrophysiological properties of spinal cord motoneurons during old age in the cat

Morales, Francisco R.; Boxer, Peter A.; Fung, Simon J.; Chase, Michael H.

doi:10.1152/jn.1987.58.1.180

Cited by 88 publications

(56 citation statements)

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“…Although a suboptimal cortical drive cannot be discounted, the progressive decline in the instantaneous motor unit discharge frequency during the successive discharges at the onset of a fast contraction is consistent with the hypothesis of an age-related alteration in the intrinsic properties of motoneurons (17,31). This early decline in motoneuron discharge rate when the cell is activated by constant-current injection, which is known as spike frequency adaptation (8,20), could be modified by aging as it seems to be the case with chronic changes in physical activity levels (18).…”

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confidence: 77%

Age-related decline in rate of torque development is accompanied by lower maximal motor unit discharge frequency during fast contractions

Klass¹,

Baudry²,

Duchateau³

2008

Journal of Applied Physiology

260

217

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The aim of this study was to investigate the association between the rate of torque development and maximal motor unit discharge frequency in young and elderly adults as they performed rapid submaximal contractions with the ankle dorsiflexors. Recordings were obtained of the torque exerted by the dorsiflexors during the isometric contractions and the surface and intramuscular electromyograms (EMGs) from the tibialis anterior. The maximal rate of torque development and integrated EMG (percentage of total EMG burst) at peak rate of torque development during fast contractions were lower in elderly than young adults by 48% (P < 0.05) and 16.5% (P < 0.05), respectively. The young adults, but not the elderly adults, exhibited a positive association (r2 = 0.33; P < 0.01) between the integrated EMG computed up to the peak rate of torque development and the maximal rate of torque development achieved during the fast contractions. These age-related changes during fast voluntary contractions were accompanied by a decline (P < 0.001) in motor unit discharge frequency (19, 28, and 34% for first 3 interspike intervals, respectively) and in the percentage of units (45%; P < 0.05) that exhibited double discharges (doublets) at brief intervals (<5 ms). Because aging decreased the maximal rate of torque development of fast voluntary contractions to a greater extent ( approximately 10%) than that of an electrically evoked twitch, collectively the results indicate that the age-related decline in maximal motor unit discharge frequency likely limit, in addition to the slowing of muscle contractile properties, the performance of fast voluntary contractions.

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supporting

confidence: 77%

Age-related decline in rate of torque development is accompanied by lower maximal motor unit discharge frequency during fast contractions

Klass¹,

Baudry²,

Duchateau³

2008

Journal of Applied Physiology

260

217

View full text Add to dashboard Cite

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“…For example, motor neurons from older animals exhibit greater input resistance (Chase et al 1985;Kalmar et al 2009;Morales et al 1987), reduced rheobase current (Kalmar et al 2009;Morales et al 1987), and either longer (Cameron et al 1991;Kalmar et al 2009) or unchanged (Engelhardt et al 1989Morales et al 1987) AHP duration. Such parameters can be estimated only with indirect approaches in humans, such as the interval death rate analysis of single motor unit ISIs (Matthews 1996) or evaluation of the relation between the mean and SD of ISIs within a train of single motor unit action potentials (Piotrkiewicz et al 2007).…”

Section: Age-related Differences In Motor Unit Dischargementioning

confidence: 99%

“…Because recordings obtained from the same motor unit in a second set of data (n ϭ 12) were consistent with the larger set of data made from separate motor units (n ϭ 53), the difference in discharge characteristics for the two tasks was attributed to differences in the integration of synaptic input received by the motor neuron (Riley et al 2008). Given age-associated changes in both the synaptic input that is delivered to motor neurons (Boxer et al 1988;Eisen et al 1996;Oliviero et al 2006) and in the intrinsic properties of the motor neurons (Engelhardt et al 1989;Morales et al 1987;Piotrkiewicz et al 2007;Rossini et al 1992), it seems likely that the discharge characteristics of motor units at recruitment will differ for older adults when they perform such tasks. The purpose of the study was to compare the discharge characteristics of motor units recruited during an isometric contraction that was sustained with the elbow flexor muscles by older adults at target forces that were less than the recruitment threshold force of each isolated motor unit.…”

Section: Introductionmentioning

confidence: 99%

Discharge Characteristics of Biceps Brachii Motor Units at Recruitment When Older Adults Sustained an Isometric Contraction

Pascoe

Holmes

Enoka

2011

Journal of Neurophysiology

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Pascoe MA, Holmes MR, Enoka RM. Discharge characteristics of biceps brachii motor units at recruitment when older adults sustained an isometric contraction. J Neurophysiol 105: 571-581, 2011. First published December 15, 2010 doi:10.1152/jn.00841.2010. The purpose of this study was to compare the discharge characteristics of motor units recruited during an isometric contraction that was sustained with the elbow flexor muscles by older adults at target forces that were less than the recruitment threshold force of each isolated motor unit. The discharge times of 27 single motor units were recorded from the biceps brachii in 11 old adults (78.8 Ϯ 5.9 yr). The target force was set at either a relatively small (6.6 Ϯ 3.7% maximum) or large (11.4 Ϯ 4.5% maximum) difference below the recruitment threshold force and the contraction was sustained until the motor unit was recruited and discharged action potentials for about 60 s. The time to recruitment was longer for the large target-force difference (P ϭ 0.001). At recruitment, the motor units discharged repetitively for both target-force differences, which contrasts with data from young adults when motor units discharged intermittently at recruitment for the large difference between recruitment threshold force and target force. The coefficient of variation (CV) for the first five interspike intervals (ISIs) increased from the small (18.7 Ϯ 7.9) to large difference (35.0 Ϯ 10.2%, P ϭ 0.008) for the young adults, but did not differ for the two target force differences for the old adults (26.3 Ϯ 14.7 to 24.0 Ϯ 13.1%, P ϭ 0.610). When analyzed across the discharge duration, the average CV for the ISI decreased similarly for the two target-force differences (P ϭ 0.618) in old adults. These findings contrast with those of young adults and indicate that the integration of synaptic input during sustained contractions differs between young and old adults.

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“…In this study we have the first indication that in white matter myelin damage precedes axon loss, as the proportion of abnormal myelin profiles increases significantly in middle-aged animals compared to young animals. Disruption of myelin sheaths in the optic nerve is known to impair the conduction velocity of action potentials (Gutierrez et al, 1995), and an age-related reduction in axonal conduction velocity has been reported in several other systems (Aston-Jones et al, 1985;Morales et al, 1987;Xi et al, 1999). Reduction in conduction velocity might explain why the prevalence of myelin abnormalities in monkey prefrontal and visual cortex relates to the magnitude of age-related cognitive impairment Peters and Sethares, 2002), since the timing in neuronal circuits would thereby be altered with age.…”

Section: Conclusion and Functional Implicationsmentioning

confidence: 99%

Disrupted myelin and axon loss in the anterior commissure of the aged rhesus monkey

Sandell

Peters

2003

J of Comparative Neurology

146

106

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This study assesses the effects of age on the composition of the anterior commissure of the rhesus monkey. The anterior commissures of nine young (5-10 years), five middle-aged (15-20 years), and eight old (25-35 years) monkeys were examined by light and electron microscopy. In all, 90-95% of the nerve fibers in the anterior commissure are myelinated. With age, the structure of the myelin sheaths of some nerve fibers is altered. Some of the axons also show signs of degeneration and this leads to a loss of nerve fibers. Thus, in young and the middle-aged monkeys the mean number of myelinated nerve fibers in the anterior commissure is 2.2 x 10(6), while in the old monkeys the mean is 1.2 x 10(6). Increasing age is correlated with a reduction in the number of myelinated nerve fibers in the anterior commissure, an increase in the frequency of structural alterations in myelin sheaths, and an increase in the frequency of occurrence of degenerating axons. However, the number of myelinated nerve fibers is the only variable that correlates with cognition: in monkeys 5-20 years of age the fewer the number of nerve fibers the poorer the cognitive performance, as measured by our Cognitive Impairment Index (CII). The most common neuroglial cells in the anterior commissure are oligodendrocytes. They account for 86% of all neuroglial cell profiles, while astrocytes account for 9%, and microglial cells for 5% of profiles. There is no apparent change with age in the total numbers of neuroglial cells, although as they age each of the neuroglial cell types acquires some inclusions in their cytoplasm. The data, together with those from previous studies, support the concept that in aging there is a ubiquitous loss of myelinated nerve fibers from the brain and that fiber loss is preceded by alterations in the structure of many of the myelin sheaths.

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Basic electrophysiological properties of spinal cord motoneurons during old age in the cat

Cited by 88 publications

References 0 publications

Age-related decline in rate of torque development is accompanied by lower maximal motor unit discharge frequency during fast contractions

Age-related decline in rate of torque development is accompanied by lower maximal motor unit discharge frequency during fast contractions

Discharge Characteristics of Biceps Brachii Motor Units at Recruitment When Older Adults Sustained an Isometric Contraction

Disrupted myelin and axon loss in the anterior commissure of the aged rhesus monkey

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