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http://worldcat.org/entity/work/id/137457677

Statistical Analysis of the Human Strangulation Experiments: Comparison to +GZ-Induced Loss of Consciousness

In 1943, Rossen, Kabat, and Anderson (RKA), published the results of their investigations involving acute arrest of the cerebral circulation in man. Their studies on the effects of brief periods of cerebral ischemia have become a classic reference in a wide variety of scientific publications including those related to acceleration induced loss of consciousness (G-LOC). An accurate quantitative kinetic comparison of the RKA data and data from G-LOC could provide information concerning the possible similarities and/or differences in the mechanisms of the two phenomena. To this end, we attempted to relate the RKA work with current G-LOC theory by re-analyzing the RKA data in such a way that quantitative comparisons could be accomplished. The induction time for RKA loss of consciousness (LOC) was 6.4 to 6.9 s and found to be similar to both the equivalent parameter in G-LOC research of 8.8 s, and the time at maximum +Gz prior to LOC of 7.3 s. The RKA time from LOC to recovery was 5.9 to 6.4 s and shorter than the equivalent G-LOC parameter of 23.7 s. However, the predicted minimum G-LOC recovery time is 6.8 s. Further, the loss of consciousness syndrome encompassing numerous psychophysiologic symptoms are essentially equivalent for both types of insults. The results seem to suggest an analogous mechanism for LOC induction and recovery caused by strangulation (RKA) and +Gz stress. Neurophysiology; Unconsciousness; Ischemia; +Gz Acceleration; Strangulation; Fighter Aviation.

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  • "In 1943, Rossen, Kabat, and Anderson (RKA), published the results of their investigations involving acute arrest of the cerebral circulation in man. Their studies on the effects of brief periods of cerebral ischemia have become a classic reference in a wide variety of scientific publications including those related to acceleration induced loss of consciousness (G-LOC). An accurate quantitative kinetic comparison of the RKA data and data from G-LOC could provide information concerning the possible similarities and/or differences in the mechanisms of the two phenomena. To this end, we attempted to relate the RKA work with current G-LOC theory by re-analyzing the RKA data in such a way that quantitative comparisons could be accomplished. The induction time for RKA loss of consciousness (LOC) was 6.4 to 6.9 s and found to be similar to both the equivalent parameter in G-LOC research of 8.8 s, and the time at maximum +Gz prior to LOC of 7.3 s. The RKA time from LOC to recovery was 5.9 to 6.4 s and shorter than the equivalent G-LOC parameter of 23.7 s. However, the predicted minimum G-LOC recovery time is 6.8 s. Further, the loss of consciousness syndrome encompassing numerous psychophysiologic symptoms are essentially equivalent for both types of insults. The results seem to suggest an analogous mechanism for LOC induction and recovery caused by strangulation (RKA) and +Gz stress. Neurophysiology; Unconsciousness; Ischemia; +Gz Acceleration; Strangulation; Fighter Aviation."@en

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  • "Statistical Analysis of the Human Strangulation Experiments: Comparison to +GZ-Induced Loss of Consciousness"@en

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