Your search keyword '"Neuromusculaire en neurometabole aandoeningen"' showing total 152 results

151. Blood flow and muscle oxygen uptake at the onset and end of moderate and heavy dynamic forearm exercise

Author

Beekvelt, M. C. P., Kevin Shoemaker, Tschakovsky, M. E., Hopman, M. T. E., and Hughson, R. L.

Subjects

body regions, Neuromuscular and neurometabolic disorders, Bloeddrukregulatie, weefseloxygenatie en inspanning, Neuromusculaire en neurometabole aandoeningen, Bloodpressure regulation, tissue oxygenation and exercise

Abstract

Item does not contain fulltext We hypothesized that forearm blood flow (FBF) during moderate intensity dynamic exercise would meet the demands of the exercise and that postexercise FBF would quickly recover. In contrast, during heavy exercise, FBF would be inadequate causing a marked postexercise hyperemia and sustained increase in muscle oxygen uptake (VO(2musc)). Six subjects did forearm exercise (1-s contraction/relaxation, 1-s pause) for 5 min at 25 and 75% of peak workload. FBF was determined by Doppler ultrasound, and O(2) extraction was estimated from venous blood samples. In moderate exercise, FBF and VO(2musc) increased within 2 min to steady state. Rapid recovery to baseline suggested adequate O(2) supply during moderate exercise. In contrast, FBF was not adequate during heavy dynamic exercise. Immediately postexercise, there was an approximately 50% increase in FBF. Furthermore, we observed for the first time in the recovery period an increase in VO(2musc) above end-exercise values. During moderate exercise, O(2) supply met requirements, but with heavy forearm exercise, inadequate O(2) supply during exercise caused accumulation of a large O(2) deficit that was repaid during recovery.

152. Influence of a voluntary fatigue test on the contralateral homologous muscle in humans?

Author

Inge Zijdewind, Daniel Kernell, and Machiel J. Zwarts

Subjects

Adult, Male, STIMULATION, Dorsum, medicine.medical_specialty, Contraction (grammar), Rest, Maximum voluntary contraction, Stimulation, Functional Laterality, FORCE, ACTIVATION, Physical medicine and rehabilitation, CONTRACTION, medicine, Humans, Muscle, Skeletal, Neuromusculaire en neurometabole aandoeningen, General Neuroscience, Twitch interpolation, Middle Aged, DEPRESSION, musculoskeletal system, FACILITATION, twitch interpolation, Peripheral, body regions, MOTOR EVOKED-POTENTIALS, Neuromuscular and neurometabolic disorders, Muscle Fatigue, Physical Endurance, Physical therapy, Female, fatigue, contralateral activation, medicine.symptom, Psychology, first dorsal interosseus, human activities, Muscle Contraction, Muscle contraction

Abstract

Influences of a submaximal endurance test in the right first dorsal interosseus on force and fatigue-related parameters of activating the contralateral muscle were studied. The test consisted of a 30% maximum Voluntary contraction (MVC), regularly interrupted by maximal contractions and brief rest periods. Despite the induced central fatigue, as tested with the MVC-superimposed twitch technique, and substantial peripheral fatigue, only minor effects of the previous fatigue test were seen for the contralateral hand. No significant influence was found on endurance time, the perceived effort for maintaining 30% MVC force or the MVC-superimposed twitch. Thus, our fatigue protocol induced both central and peripheral fatigue but only minor cross-over effects of fatigue were found for the homologous contralateral muscle. (C) 1998 Published by Elsevier Science Ireland Ltd. All rights reserved.