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1

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Plastic spray in laboratory and field (1956)

Conkin, J. E.

Society for Sedimentary Geology

In: Journal of Sedimentary Research. 1956; 26(1): 68-0. Published 1956 Mar 01. doi: 10.2110/jsr.26.68.

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Publication Date: 1956-03-01

Print ISSN: 1527-1404

Electronic ISSN: 1938-3681

Topics: Geosciences

Published by Society for Sedimentary Geology

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2

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Relationship of the time course of venous gas bubbles to altitude decompression illness (1996)

Conkin, J. ; Waligora, J. M. ; Powell, M. R. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The correlation is low between the occurrence of gas bubbles in the pulmonary artery, called venous gas emboli (VGE), and subsequent decompression illness (DCI). The correlation improves when a "grade" of VGE is considered; a zero to four categorical classification based on the intensity and duration of the VGE signal from a Doppler bubble detector. Additional insight about DCI might come from an analysis of the time course of the occurrence of VGE. Using the NASA Hypobaric Decompression Sickness Databank, we compared the time course of the VGE outcome between 322 subjects who exercised and 133 Doppler technicians who did not exercise to evaluate the role of physical activity on the VGE outcome and incidence of DCI. We also compared 61 subjects with VGE and DCI with 110 subjects with VGE but without DCI to identify unique characteristics about the time course of the VGE outcome to try to discriminate between DCI and no-DCI cases. The VGE outcome as a function of time showed a characteristic short lag, rapid response, and gradual recovery phase that was related to physical activity at altitude and the presence or absence of DCI. The average time for DCI symptoms in a limb occurred just before the time of the highest fraction of VGE in the pulmonary artery. It is likely, but not certain, that an individual will report a DCI symptom if VGE are detected early in the altitude exposure, the intensity or grade of VGE rapidly increases from a limb region, and the intensity or grade of VGE remains high.

Keywords: Aerospace Medicine

Type: Undersea &amp; hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc (ISSN 1066-2936); Volume 23; 3; 141-9

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3

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Testing of hypotheses about altitude decompression sickness by statistical analyses (1996)

Powell, M. R. ; Van Liew, H. D. ; Conkin, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: This communication extends a statistical analysis of forced-descent decompression sickness at altitude in exercising subjects (J Appl Physiol 1994; 76:2726-2734) with a data subset having an additional explanatory variable, rate of ascent. The original explanatory variables for risk-function analysis were environmental pressure of the altitude, duration of exposure, and duration of pure-O2 breathing before exposure; the best fit was consistent with the idea that instantaneous risk increases linearly as altitude exposure continues. Use of the new explanatory variable improved the fit of the smaller data subset, as indicated by log likelihood. Also, with ascent rate accounted for, replacement of the term for linear accrual of instantaneous risk by a term for rise and then decay made a highly significant improvement upon the original model (log likelihood increased by 37 log units). The authors conclude that a more representative data set and removal of the variability attributable to ascent rate allowed the rise-and-decay mechanism, which is expected from theory and observations, to become manifest.

Keywords: Aerospace Medicine

Type: Undersea &amp; hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc (ISSN 1066-2936); Volume 23; 4; 225-33

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4

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Modeling the effects of exercise during 100% oxygen prebreathe on the risk of hypobaric decompression sickness (1997)

Loftin, K. C. ; Powell, M. R. ; Conkin, J.

In: Other Sources

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Publication Date: 2011-08-24

Description: BACKGROUND: Several previous studies indicated that exercise during prebreathe with 100% O2 decreased the incidence of hypobaric decompression sickness (DCS). We report a meta-analysis of these investigations combined with a new study in our laboratory to develop a statistical model as a predictive tool for DCS. HYPOTHESIS: Exercise during prebreathe increases N2 elimination in a theoretical 360-min half-time compartment decreasing the incidence of DCS. METHODS: A dose-response probability tissue ratio (TR) model with 95% confidence limits was created for two groups, prebreathe with exercise (n = 113) and resting prebreathe (n = 113), using nonlinear regression analysis with maximum likelihood optimization. RESULTS: The model predicted that prebreathe exercise would reduce the residual N2 in a 360-min half-time compartment to a level analogous to that in a 180-min compartment. This finding supported the hypothesis. The incidence of DCS for the exercise prebreathe group was significantly decreased (Chi-Square = 17.1, p 〈 0.0001) from the resting prebreathe group. CONCLUSIONS: The results suggested that exercise during prebreathe increases tissue perfusion and N2 elimination approximately 2-fold and markedly lowers the risk of DCS. Based on the model, the prebreathe duration may be reduced from 240 min to a predicted 91 min for the protocol in our study, but this remains to be verified. The model provides a useful planning tool to develop and test appropriate prebreathe exercise protocols and to predict DCS risks for astronauts.

Keywords: Aerospace Medicine

Type: Aviation, space, and environmental medicine (ISSN 0095-6562); Volume 68; 3; 199-204

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5

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Role of metabolic gases in bubble formation during hypobaric exposures (1998)

Conkin, J. ; Waligora, J. M. ; Foster, P. P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Our hypothesis is that metabolic gases play a role in the initial explosive growth phase of bubble formation during hypobaric exposures. Models that account for optimal internal tensions of dissolved gases to predict the probability of occurrence of venous gas emboli were statistically fitted to 426 hypobaric exposures from National Aeronautics and Space Administration tests. The presence of venous gas emboli in the pulmonary artery was detected with an ultrasound Doppler detector. The model fit and parameter estimation were done by using the statistical method of maximum likelihood. The analysis results were as follows. 1) For the model without an input of noninert dissolved gas tissue tension, the log likelihood (in absolute value) was 255.01. 2) When an additional parameter was added to the model to account for the dissolved noninert gas tissue tension, the log likelihood was 251.70. The significance of the additional parameter was established based on the likelihood ratio test (P 〈 0.012). 3) The parameter estimate for the dissolved noninert gas tissue tension participating in bubble formation was 19. 1 kPa (143 mmHg). 4) The additional gas tissue tension, supposedly due to noninert gases, did not show an exponential decay as a function of time during denitrogenation, but it remained constant. 5) The positive sign for this parameter term in the model is characteristic of an outward radial pressure of gases in the bubble. This analysis suggests that dissolved gases other than N2 in tissues may facilitate the initial explosive bubble-growth phase.

Keywords: Life Sciences (General)

Type: Journal of applied physiology (Bethesda, Md. : 1985) (ISSN 8750-7587); Volume 84; 3; 1088-95

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6

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Investigation of the combined effects of bedrest and mild hypoxia (1982)

Horrigan, D. J., Jr. ; Bungo, M. W. ; Conkin, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Subjects were exposed to an 8-h mild hypoxia exposure (8000 ft. equivalent, 2438 m) with and without a 28-h period of 6 deg headdown bedrest. Anticipated responses to the bedrest and the hypoxia were observed. There was no indication that bedrest affected the arterial oxygenation or the oxygen gradient across the lungs of the subjects undergoing mild hypoxia. It is concluded that there is no evidence that would preclude an alveolar O2 pressure as low as 69 torr during contingency spacecraft operation.

Keywords: AEROSPACE MEDICINE

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7

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Pulmonary artery location during microgravity activity: Potential impact for chest-mounted Doppler during space travel (1984)

Horrigan, D. J., Jr. ; Hadley, A. T., III ; Conkin, J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Doppler, or ultrasonic, monitoring for pain manifestations of decompression sickness (the bends) is accomplished by placing a sensor on the chest over the pulmonary artery and listening for bubbles. Difficulties have arisen because the technician notes that the pulmonary artery seems to move with subject movement in a one-g field and because the sensor output is influenced by only slight degrees of sensor movement. This study used two subjects and mapped the position of the pulmonary artery in one-g, microgravity, and two-g environments using ultrasound. The results showed that the pulmonary artery is fixed in location in microgravity and not affected by subject position change. The optimal position corresponded to where the Doppler signal is best heard with the subject in a supine position in a one-g environment. The impact of this result is that a proposed multiple sensor array on the chest proposed for microgravity use may not be necessary to monitor an astronaut during extravehicular activities. Instead, a single sensor of approximately 1 inch diameter and mounted in the position described above may suffice.

Keywords: AEROSPACE MEDICINE

Type: NASA-TM-58262 , S-538 , NAS 1.15:58262

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8

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Increase in whole-body peripheral vascular resistance during three hours of air or oxygen prebreathing (1984)

Riddle, J. R. ; Conkin, J. ; Stanford, J., Jr. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Male and female subjects prebreathed air or 100% oxygen through a mask for 3.0 hours while comfortably reclined. Blood pressures, heart rate, and cardiac output were collected before and after the prebreathe. Peripheral vascular resistance (PVR) was calculated from these parameters and increased by 29% during oxygen prebreathing and 15% during air prebreathing. The oxygen contributed substantially to the increase in PVR. Diastolic blood pressure increased by 18% during the oxygen prebreathe while stystolic blood pressure showed no change under either procedure. The increase in PVR during air prebreathing was attributed to procedural stress common to air and oxygen prebreathing.

Keywords: AEROSPACE MEDICINE

Type: NASA-TM-58261 , S-537 , NAS 1.15:58261

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9

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Verification of an altitude decompression sickness prevention protocol for Shuttle operations utilizing a 10.s psi pressure stage (1984)

Conkin, J. ; Hadley, A. T., III ; Waligora, J. M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Three test series involving 173-man tess were conducted to define and verify a pre-extravehicular activity (EVA) denitrogenation procedure that would provide acceptable protection against altitude decompression sickness while minimizing the required duration of oxygen (O2) prebreathe in the suit prior to EVA. The tests also addressed the safety, in terms of incidence of decompression sickness, of conducting EVA's on consecutive days rather than on alternate days. The tests were conducted in an altitude chamber, subjects were selected as representative of the astronaut population, and EVA periods were simulated by reducing the chamber pressure to suit pressure while the subjects breathed O2 with masks and worked at EVA representative work rates. A higher than anticipated incidence of both venous bubbles (55%) and symptoms (26%) was measured following all denitrogenation protocols in this test. For the most part, symptoms were very minor and stabilized, diminished, or disappeared in the six-hour tests. Instances of clear, possible, or potential systemic symptoms were encountered only after use of the unmodified 10.2 psi protocol and not after the modified 10.2 psi protocol, the 3.5-hour O2 prebreathed protocol, or the 4.0-hour O2 prebreathe protocol. The high incidence of symptoms is ascribed to the type and duration of exercise and the sensitivity of the reporting technique to minor symptoms. Repeated EVA exposures after only 17 hours did not increase symptom or bubble incidence.

Keywords: AEROSPACE MEDICINE

Type: NASA-TM-58259 , S-534 , NAS 1.15:58259

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10

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Effect of hydration on nitrogen washout in human subjects (1983)

Waligora, J. ; Conkin, J. ; Horrigan, D. J., Jr.

In: CASI

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Publication Date: 2019-06-28

Description: Five subjects were tested to assess the influence of drinking hypotonic water (distilled water) on whole body tissue nitrogen washout. During the test, the subjects breathed aviators' oxygen for three hours. Each subject performed two baseline nitrogen washouts in a two-week period. The third washout, in the third week, was done under a transient hydrated condition. This was accomplished by having the subjects drink 1.5 liters of hypotonic water 30 minutes before the washout. Five-minute plots of tissue nitrogen removal from the three separate washouts were analyzed to ascertain if the hydration technique had any effect. Our results clearly indicate that the hydration technique did not alter the tissue nitrogen washout characteristics to any degree over three hours. An increase in tissue nitrogen washout under a transient hydrated condition using hypotonic fluid was not demonstrated to be the mechanism responsible for the reported benefit of this technique in preventing Type I altitude decompression pain in man.

Keywords: AEROSPACE MEDICINE

Type: NASA-TM-58254 , S-525 , NAS 1.15:58254

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