Amplitude cancellation reduces the size of motor unit potentials averaged from the surface EMG.
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Motor unit number in a small facial muscle, dilator narisThe extraction of neural strategies from the surface EMG: an update.Cortical and spinal mechanisms of task failure of sustained submaximal fatiguing contractions.Medium-intensity, high-volume "hypertrophic" resistance training did not induce improvements in rapid force production in healthy older men.Neurogenic changes in the upper airway of patients with obstructive sleep apnea.Influence of amplitude cancellation on the accuracy of determining the onset of muscle activity from the surface electromyogramA simulation-based analysis of motor unit number index (MUNIX) technique using motoneuron pool and surface electromyogram models.Amplitude cancellation of motor-unit action potentials in the surface electromyogram can be estimated with spike-triggered averaging.Experimentally valid predictions of muscle force and EMG in models of motor-unit function are most sensitive to neural properties.Epoch length to accurately estimate the amplitude of interference EMG is likely the result of unavoidable amplitude cancellationMotor unit.Motor unit activity after eccentric exercise and muscle damage in humans.Effect of transcranial direct current stimulation on neuroplasticity in corticomotor pathways of the tongue muscles.Associations between Motor Unit Action Potential Parameters and Surface EMG Features.Neurophysiological Mechanisms Underpinning Stretch-Induced Force Loss.The optimal neural strategy for a stable motor task requires a compromise between level of muscle cocontraction and synaptic gain of afferent feedback.Increases in corticospinal responsiveness during a sustained submaximal plantar flexion.Excitability at the motoneuron pool and motor cortex is specifically modulated in lengthening compared to isometric contractions.Oscillations in motor unit discharge are reflected in the low-frequency component of rectified surface EMG and the rate of change in force.Differential modulation of spinal and corticospinal excitability during drop jumps.Spinal mechanisms contribute to differences in the time to failure of submaximal fatiguing contractions performed with different loads.Output of human motoneuron pools to corticospinal inputs during voluntary contractions.Motor units in the human medial gastrocnemius muscle are not spatially localized or functionally grouped.Neural drive to human genioglossus in obstructive sleep apnoea.Pain reported during prolonged standing is associated with reduced anticipatory postural adjustments of the deep abdominals.Neuromuscular adjustments that constrain submaximal EMG amplitude at task failure of sustained isometric contractions.Motor Unit Action Potential Clustering-Theoretical Consideration for Muscle Activation during a Motor Task.Distribution of muscle fibre conduction velocity for representative samples of motor units in the full recruitment range of the tibialis anterior muscle.Comparison of the power spectral changes of the voluntary surface electromyogram and M wave during intermittent maximal voluntary contractions.Identification of common synaptic inputs to motor neurons from the rectified electromyogram
P2860
Q30373171-CECD7462-A4AE-4CF3-A7B0-8AAB6ABEF3B5Q34626929-B96D61AE-E41A-47BB-8450-6246C3B95AB0Q35131116-4B96AD1F-7728-4C3C-974A-296E3280D21DQ35537503-B5E4F370-B7AB-4257-A7E0-B03A3D664FE4Q35813714-7FD13BD9-56D0-439C-BDD5-9E378D1C7BA5Q35977281-E21DBBCF-41ED-4CE0-AC8E-CFF58662D9DCQ36566229-75F16575-CE0D-452F-9476-50D201A620F4Q36805164-D04501A3-93BE-4DBA-BEEC-BC28D3FD8398Q36872177-9D9B5441-FD5D-4F74-B1C9-6CD38AB5A3B5Q37004303-F5D8F557-C2CE-41AC-9CDC-8485B0A6F01CQ38110501-3D765A89-09FB-460A-B5F7-97B55607E767Q38206782-A6170080-903C-4C86-99DE-D37E1B12A4C3Q38545991-98296395-ED01-4035-99AC-15B79F36ECFCQ38656643-36866133-2B21-44C6-84DD-EEB15ED0A04EQ39102203-E6B7B7FC-981B-448A-9F62-ED8D1C31E34EQ42585043-A1799FA9-F87F-4222-9170-A1A306491B1CQ45225801-CF4A523C-95F1-4B75-8C5C-27C9500F6821Q46133303-727281C8-6CD1-4BD1-B94C-9212542878C4Q46139044-F2929840-F3D7-439D-8CB7-868A846A1CD7Q46804860-6F1A7D83-4851-44FD-9347-E29D83DB001DQ46815650-72B91B9C-A7E0-45C0-A82D-845C3A83EB0DQ46947173-1D078860-C481-44A0-9525-B3032BE571A1Q48143154-421C81D1-0ADF-4F81-BBD5-410E82F7957EQ48455141-EDDABD5C-FEE5-48E8-AA72-CC5EFE62F07AQ48638769-52EBCE64-C28C-4636-BADD-5B7AE676EA31Q48867776-B0BC1E7A-2022-4077-A611-F6515CB9CD5EQ49258040-9DAEF395-EEE5-4D7D-9919-3E9FA29104D3Q51806125-3F760CB1-D784-40E1-A811-70C1B5B9F2C3Q53528490-94D9A5B9-3D0D-4563-9480-AC6C0D9F9D95Q58060704-1EEF32BB-BF80-4E28-8235-3DF8A00AFB29
P2860
Amplitude cancellation reduces the size of motor unit potentials averaged from the surface EMG.
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Amplitude cancellation reduces ...... averaged from the surface EMG.
@en
Amplitude cancellation reduces ...... averaged from the surface EMG.
@nl
type
label
Amplitude cancellation reduces ...... averaged from the surface EMG.
@en
Amplitude cancellation reduces ...... averaged from the surface EMG.
@nl
prefLabel
Amplitude cancellation reduces ...... averaged from the surface EMG.
@en
Amplitude cancellation reduces ...... averaged from the surface EMG.
@nl
P2093
P2860
P1476
Amplitude cancellation reduces ...... averaged from the surface EMG
@en
P2093
Dario Farina
Roberto Merletti
Roger M Enoka
P2860
P304
P356
10.1152/JAPPLPHYSIOL.01282.2005
P407
P577
2006-01-05T00:00:00Z