Acceleration-induced atrioventricular dissociation: hemodynamic consequences.
A rest, compensatory mechanisms are able to make up for the loss of a properly timed atrial systole. At maximal stress or in a severely compromised patient, however, proper atrial function may be crucial for maintaining optimum cardiac output. We report a case of an apparently healthy male subject who developed A-V dissociation during +Gz stress and subsequently could not maintain vision at the higher (+7 Gz) levels. Anatomic, geometric, and physiologic considerations suggest that the loss of atrial function is probably associated with the loss of roughly 30 torr in arterial pressure during high +Gz stress. Since the subject was an avid jogger, the etiology of the A-V dissociation was considered to be due to physiologically enhanced vagal tone. This case, therefore, suggests that special attention should be given to the physical fitness programs designed for individuals in a unique profession, such as piloting single-seat high-performance fighter aircraft.[1]References
- Acceleration-induced atrioventricular dissociation: hemodynamic consequences. Whinnery, J.E. Aviation, space, and environmental medicine. (1982) [Pubmed]
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