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1

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Cerebral blood flow velocity increases with acute head-down tilt of humans (1992)

Murthy, G. ; Kawai, Y. ; Watenpaugh, D. E. ; [et al.]

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Aerospace Medicine

Type: The Physiologist (ISSN 0031-9376); Volume 35; 1 Suppl; S186-7

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2

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Intramuscular pressure varies with depth. The tibialis anterior muscle studied in 12 volunteers (1993)

Nakhostine, M. ; Hargens, A. R. ; van Leuven, S. ; [et al.]

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Publication Date: 2011-08-24

Description: Pressures in the tibialis anterior muscle were recorded at rest and during exercise with transducer-tipped catheters in 12 volunteers while they were supine or standing. The recordings were repeated with venous stasis created by an inflated tourniquet cuff on the thigh. Catheters were placed at 3 different sites in the muscle: catheter I adjacent to the deep surface of the fascia over the anterior compartment; catheter II between the fascia and the central tendon; and catheter III deep in the muscle close to the interosseous membrane. In both the supine and standing positions the intramuscular pressure at rest and the muscle relaxation pressure during exercise, obtained by catheter II, were greater than the corresponding pressures measured by the superficially located catheter I in the normal as well as in the volume loaded limb. The same conditions for pressure measurement consistently revealed lower pressures recorded by catheter III compared to II, but the difference was not significant. Our results indicate that intramuscular pressure increases centripetally, as the centrally lying tendon is approached. We conclude that pressure measurements for diagnosis of acute and chronic compartment syndromes and in ergonomic studies should be based on recordings from a standard location of the catheter within the muscle and a standard posture of the subject.

Keywords: Aerospace Medicine

Type: Acta orthopaedica Scandinavica (ISSN 0001-6470); Volume 64; 3; 377-81

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3

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Intramuscular pressure and torque during isometric, concentric and eccentric muscular activity (1995)

Aratow, M. ; Styf, J. ; Ballard, R. ; [et al.]

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Publication Date: 2011-08-24

Description: Intramuscular pressures, electromyography (EMG) and torque generation during isometric, concentric and eccentric maximal isokinetic muscle activity were recorded in 10 healthy volunteers. Pressure and EMG activity were continuously and simultaneously measured side by side in the tibialis anterior and soleus muscles. Ankle joint torque and position were monitored continuously by an isokinetic dynamometer during plantar flexion and dorsiflexion of the foot. The increased force generation during eccentric muscular activity, compared with other muscular activity, was not accompanied by higher intramuscular pressure. Thus, this study demonstrated that eccentric muscular activity generated higher torque values for each increment of intramuscular pressure. Intramuscular pressures during antagonistic co-activation were significantly higher in the tibilis anterior muscle (42-46% of maximal agonistic activity) compared with the soleus muscle (12-29% of maximal agonistic activity) and was largely due to active recruitment of muscle fibers. In summary, eccentric muscular activity creates higher torque values with no additional increase of the intramuscular pressure compared with concentric and isometric muscular activity.

Keywords: Aerospace Medicine

Type: Scandinavian journal of medicine &amp; science in sports (ISSN 0905-7188); Volume 5; 5; 291-6

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4

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Hoffmann-reflex is delayed during 6 degree head-down tilt with balanced traction (1999)

Haruna, Y. ; Kahan, N. ; Styf, J. R. ; [et al.]

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Publication Date: 2011-08-24

Description: BACKGROUND: Increased spinal height due to the lack of of axial compression on spinal structures in microgravity may stretch the spinal cord, cauda equina, nerve roots, and paraspinal tissues. HYPOTHESIS: Exposure to simulated microgravity causes dysfunction of nerve roots so that the synaptic portion of the Achilles tendon reflex is delayed. METHODS: Six healthy male subjects were randomly divided into two groups with three in each group. The subjects in the first group underwent horizontal bed rest (HBR) for three days. After a two week interval they underwent bed rest in a position of head-down tilt with balanced traction (HDT). So that each subject could serve as his own control, the second group was treated identically but in opposite order. Bilateral F waves and H-reflexes were measured daily (18:30-20:30) on all subjects placed in a prone position. RESULTS: By means of ANOVA, differences between HDT and HBR were observed only in M-latency and F-ratio, not in F-latency, central latency, and H-latency. Differences during the course of the bed rest were observed in M-latency and H-latency only. Tibial H latency was significantly lengthened in HDT group on day 2 and 3, although no significant difference between HDT and HBR was observed. CONCLUSION: The monosynaptic reflex assessed by H-reflex was delayed during 6 degree HDT with traction. The exact mechanism of this delay and whether the change was due to lengthening of the lower part of the vertebrae remain to be clarified.

Keywords: Aerospace Medicine

Type: Aviation, space, and environmental medicine (ISSN 0095-6562); Volume 70; 3 Pt 1; 220-4

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5

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Critical discussion of research issues in body fluid metabolism and control of intravascular volume (1996)

Hargens, A. R.

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Aerospace Medicine

Type: Medicine and science in sports and exercise (ISSN 0195-9131); Volume 28; 10 Suppl; S56; discussion S56-9

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6

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Height increase, neuromuscular function, and back pain during 6 degrees head-down tilt with traction (1997)

Kahan, N. J. ; Styf, J. R. ; Watenpaugh, D. E. ; [et al.]

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Publication Date: 2011-08-24

Description: BACKGROUND: Spinal lengthening and back pain are commonly experienced by astronauts exposed to microgravity. METHODS: To develop a ground-based simulation for spinal adaptation to microgravity, we investigated height increase, neuromuscular function and back pain in 6 subjects all of whom underwent two forms of bed rest for 3 d. One form consisted of 6 degrees of head-down tilt (HDT) with balanced traction, while the other was horizontal bed rest (HBR). Subjects had a 2-week recovery period in between the studies. RESULTS: Total body and spinal length increased significantly more and the subjects had significantly more back pain during HDT with balanced traction compared to HBR. The distance between the lower endplate of L4 and upper endplate of S1, as measured by ultrasonography, increased significantly in both treatments to the same degree. Intramuscular pressures in the erector spinae muscles and ankle torque measurements during plantarflexion and dorsiflexion did not change significantly during either treatment. CONCLUSION: Compared to HBR, HDT with balanced traction may be a better method to simulate changes of total body and spinal lengths, as well as back pain seen in microgravity.

Keywords: Aerospace Medicine

Type: Aviation, space, and environmental medicine (ISSN 0095-6562); Volume 68; 1; 24-9

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7

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Supine exercise during lower body negative pressure effectively simulates upright exercise in normal gravity (1994)

Hargens, A. R. ; Murthy, G. ; Watenpaugh, D. E. ; [et al.]

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Publication Date: 2011-08-24

Description: Exercise within a lower body negative pressure (LBNP) chamber in supine posture was compared with similar exercise against Earth's gravity (without LBNP) in upright posture in nine healthy male volunteers. We measured footward force with a force plate, pressure in soleus and tibialis anterior muscles of the leg with transducer-tipped catheters, calf volume by strain gauge plethysmography, heart rate, and systolic and diastolic blood pressures during two conditions: 1) exercise in supine posture within an LBNP chamber during 100-mmHg LBNP (exercise-LBNP) and 2) exercise in upright posture against Earth's gravity without LBNP (exercise-1 G). Subjects exercised their ankle joints (dorsi- and plantarflexions) for 5 min during exercise-LBNP and for 5 min during exercise-1 G. Mean footward force produced during exercise-LBNP (743 +/- 37 N) was similar to that produced during exercise-1 G (701 +/- 24 N). Peak contraction pressure in the antigravity soleus muscle during exercise-LBNP (115 +/- 10 mmHg) was also similar to that during exercise-1 G (103 +/- 13 mmHg). Calf volume increased significantly by 3.3 +/- 0.5% during exercise-LBNP compared with baseline values. Calf volume did not increase significantly during exercise-1 G. Heart rate was significantly higher during exercise-LBNP (99 +/- 5 beats/min) than during exercise-1 G (81 +/- 3 beats/min). These results indicate that exercise in supine posture within an LBNP chamber can produce similar musculoskeletal stress in the legs and greater systemic cardiovascular stress than exercise in the upright posture against Earth's gravity.

Keywords: Aerospace Medicine

Type: Journal of applied physiology (Bethesda, Md. : 1985) (ISSN 8750-7587); Volume 76; 6; 2742-8

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8

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Intramuscular pressures for monitoring different tasks and muscle conditions (1995)

Sejersted, O. M. ; Hargens, A. R.

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Publication Date: 2011-08-24

Description: Intramuscular fluid pressure (IMP) can easily be measured in man and animals. It follows the law of Laplace which means that it is determined by the tension of the muscle fibers, the recording depth and by fiber geometry (fiber curvature or pennation angle). Thick, bulging muscles create high IMPs (up to 1000 mmHg) and force transmission to tendons becomes inefficient. High resting or postexercise IMPs are indicative of a compartment syndrome due to muscle swelling within a low-compliance osseofascial boundary. IMP increases linearly with force (torque) independent of the mode or speed of contraction (isometric, eccentric, concentric). IMP is also a much better predictor of muscle force than the EMG signal. During prolonged low-force isometric contractions, cyclic variations in IMP are seen. Since IMP influences muscle blood flow through the muscle pump, autoregulating vascular elements, and compression of the intramuscular vasculature, alterations in IMP have important implications for muscle function.

Keywords: Aerospace Medicine

Type: Advances in experimental medicine and biology (ISSN 0065-2598); Volume 384; 339-50

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9

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Back pain during 6 degrees head-down tilt approximates that during actual microgravity (1995)

Murthy, G. ; Hutchinson, K. J. ; Watenpaugh, D. E. ; [et al.]

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Publication Date: 2011-08-24

Description: Astronauts often experience back pain during spaceflight. Retrospectively, Wing et al. (14) found that during spaceflight, 14 of 19 Shuttle crewmembers experienced back pain, which they described as dull (62%), localized to the lower back (50%), and with an intensity of 2 on a 5-point scale. Further, the spine lengthens 4-7 cm in microgravity. Our objective was to compare back pain and spinal lengthening (body height increase) during simulated microgravity (6 degrees head-down tilt, HDT) with the same parameters during actual microgravity. Eight male subjects completed a modified McGill pain questionnaire with intensity graded from zero (no pain) to five (intense and incapacitating pain) each day at 7:00 pm during 2 d pre-HDT control, 16 d HDT, and 1 d post-HDT recovery periods. Also, the subjects' heights were measured each day while supine (control and recovery) and during HDT. Back pain increased from zero (pre-tilt control period) to 2.3 +/- 0.4 at days 1 to 3 of HDT, and was categorized as dull and/or burning pain in subjects' lower backs. Only 2 subjects reported any pain after day 9 of HDT and during recovery. Heights increased 2.1 +/- 0.5 cm by day 3 of HDT and remained at that level until the end of the HDT period. Although spinal lengthening in space is greater than that during HDT, the HDT model approximates the level, type, distribution, and time course of back pain associated with actual microgravity. In the HDT model, pain subsides in intensity when spinal lengthening stops.(ABSTRACT TRUNCATED AT 250 WORDS).

Keywords: Aerospace Medicine

Type: Aviation, space, and environmental medicine (ISSN 0095-6562); Volume 66; 3; 256-9

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10

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Cycle-powered short radius (1.9M) centrifuge: exercise vs. passive acceleration (1996)

Greenleaf, J. E. ; Marchman, N. ; Looft-Wilson, R. ; [et al.]

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Publication Date: 2011-08-24

Description: A human-powered short-arm centrifuge is described. This centrifuge could be used during spaceflight to provide +Gz acceleration while subjects performed exercise, thus supplying two forms of weightlessness countermeasures. Results from a study of cardiovascular responses while using the centrifuge are presented.

Keywords: Aerospace Medicine

Type: Journal of gravitational physiology : a journal of the International Society for Gravitational Physiology (ISSN 1077-9248); Volume 3; 2; 61-2

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