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The influence on sarcopenia of muscle quality and quantity derived from magnetic resonance imaging and neuromuscular properties.Decreased muscle endurance associated with diabetic neuropathy may be attributed partially to neuromuscular transmission failure.Blood flow and muscle oxygenation during low, moderate, and maximal sustained isometric contractions.Physiology in Medicine: neuromuscular consequences of diabetic neuropathySkeletal muscle morphology and contractile function in relation to muscle denervation in diabetic neuropathy.Characteristics of complex regional pain syndrome in patients referred to a tertiary pain clinic by community physicians, assessed by the Budapest clinical diagnostic criteria.Motor unit number and transmission stability in octogenarian world class athletes: Can age-related deficits be outrun?The genu effect on plantar flexor power.Motor unit loss and weakness in association with diabetic neuropathy in humans.The effect of knee joint angle on plantar flexor power in young and old men.The relationship between blood pressure and sciatic nerve blood flow velocity in rats with insulin-treated experimental diabetes.Electrophysiological and neuromuscular stability of persons with chronic inflammatory demyelinating polyneuropathy.Reply to Senefeld and Hunter: Physiology in Medicine: Neuromuscular consequences of diabetic neuropathy. The authors' reply.Reply to Drs. Sacco et al.The altered vestibular-evoked myogenic and whole-body postural responses in old men during standing.Length dependent loss of motor axons and altered motor unit properties in human diabetic polyneuropathy.Tendon vibration does not alter decreased responsiveness of motoneurones in the absence of motor cortical input during fatigueEffect of demyelinating ulnar nerve injury on strength and fatigueDifferences in leg bone geometry in young, old and very old womenAssessing weakness in patients with ulnar neuropathy: comparison between a custom hand muscle dynamometer and a pinch dynamometerIncreased neuromuscular transmission instability and motor unit remodelling with diabetic neuropathy as assessed using novel near fibre motor unit potential parametersVoluntary rate of torque development is impaired after a voluntary versus tetanic conditioning contractionExercise training enhances insulin-stimulated nerve arterial vasodilation in rats with insulin-treated experimental diabetes
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description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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type
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti Douglas Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
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Matti D. Allen
@sl
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P1153
37039272400
P21
P31
P496
0000-0002-0755-3164