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The effects of 10 days of spaceflight on the shuttle Endeavour on predominantly fast-twitch muscles in the rat (2000)

Kraemer, William J. ; Staron, Robert S. ; Gordon, Scott E. ; [et al.]

Springer

Histochemistry and cell biology 114 (2000), S. 349-355

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ISSN: 1432-119X

Keywords: Atrophy Cross sectional area Qualitative histochemistry Microgravity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. The primary purpose of this investigation was to determine the effects of microgravity on muscle fibers of the predominantly fast-twitch muscles in the rat. Cross sectional area and myosin heavy chain (MHC) composition were assessed in order to establish the acute effects of microgravity associated with spaceflight. The extensor digitorum longus (EDL) and gastrocnemius muscles were removed from 12 male Fisher 344 rats which had undergone 10 days of spaceflight aboard the space shuttle Endeavour and from 12 age- and weight-matched control animals. Both groups of animals received similar amounts of food and water and were synchronized for photoperiods, environmental temperature, and humidity. Significant (P〈0.05) reductions in muscle fiber size were observed in the gastrocnemius (fiber types I, IIA, IIDB, and IIB) and EDL (fiber type IIB) muscles after spaceflight. Significant MHC isoform transformations also resulted during this brief period of microgravity exposure with a significant decrease in MHC IId isoform in the EDL muscle. A significant decrease was also observed in the MHC IId isoform in the superficial (white) component of the gastrocnemius muscle after spaceflight, although no alterations in MHC profile were demonstrated in the deep (red) component of this muscle. These findings highlight the rapid plasticity of skeletal muscle during short-term spaceflight. If such pronounced adaptations to spaceflight also occur in humans, then astronauts are likely to suffer severe decrements in skeletal muscle performance with long-term space flight and upon return to earth after both short- and long-term missions. Thus, countermeasures aimed at slowing or even preventing muscle fiber atrophy are warranted.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004180000193

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Effects of hypnosis on plasma proenkephalin peptide F and perceptual and cardiovascular responses during submaximal exercise (1992)

Kraemer, William J. ; Lewis, Randolph V. ; Triplett, N. Travis ; [et al.]

Springer

European journal of applied physiology 65 (1992), S. 573-578

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ISSN: 1439-6327

Keywords: Enkephalins ; Endogenous opioid peptides ; Endurance exercise

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Little information is available concerning the influence of subconscious mechanisms on neuroendocrine function, more specifically, proenkephalin peptide F release. Ten men [5 middle distance runners (21.6 (SD 0.54 years) and 5 untrained men (24.0 (SD 4.3 years)] consented to be volunteers in this investigation. Submaximal exercise intensities of 25% and 50& of peak oxygen consumption ({ie573-1}) (8 min stages) were used for both the control and hypnosis treatments. A traditional hypnotic induction was used, with the suggestion of two higher intensities of exercise stress (50% and 75% peak {ie573-2}) previously experienced in familiarization and testing by each subject. Each minute oxygen consumption was measured using open circuit spirometry, heart rate via an ECG, and ratings of perceived exertion (RPE) using the Borg scale. Plasma peptide F immunoreactivity (ir) [preproenkephalin-(107–140)] in blood sampled from an indwelling cannula was measured by radioimmunoassay at 7–8 min of each stage of the exercise test. Expected significant increases were observed for all cardiorespiratory and perceptual variables over the increasing exercise intensities and there were no significant differences between trained and untrained groups for peptide F it response patterns. Hypnosis did not significantly affect peptide F it concentrations (P 〉 0.05) and did not significantly alter exercise heart rate, RPE or minute ventilation (P 〉 0.05). However, hypnosis did significantly increase oxygen consumption during exercise (P = 0.0095) but not of the magnitude needed for the metabolic demands of the higher exercise intensities. Thus, traditional hypnosis was unable to make functionally significant changes in the cardiorespiratory variables. Training did not alter responses to exercise under hypnosis. The results of this study indicate that when using traditional hypnosis and a suggestion of harder exercise in highly selected groups, it may not be possible functionally to stress adrenal medullary secretion of proenkephalin fragments, RPE or cardiorespiratory variables.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00602368

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