Journal of Applied Physiology, Vol 58, Issue 4 1239-1245, Copyright © 1985 by American Physiological Society
Central and peripheral causes of hyperreflexia in humans breathing 5% trimix at 650 m
J. L. Parmentier, D. J. Harris and P. B. Bennett
To clarify the mechanism of increased stretch reflex responsiveness in deep
divers (hyperbaric hyperreflexia), comparative studies of stretch (T) and
Hoffmann (H) reflexes were done on three men breathing 5% N2-0.5 bar
O2-balance He at pressures up to 650 m of seawater (msw) (Atlantis IV
simulated dive, F.G. Hall Laboratory, Duke Medical Center).
Electromyography revealed increases at depth of up to 160% in the T reflex
recruitment ratio (T reflex/Mmax) compared with surface controls. The H
reflex recruitment ratio (Hmax/Mmax) did not change significantly. It is
concluded that hyperbaric hyperreflexia is mainly due to increased muscle
spindle sensitivity, presumably arising as a central effect on
gamma-motoneuron activity. However, a purely peripheral effect of pressure
on the spindle end-organ itself is not ruled out. Increases of 100-200% in
muscle twitch peak force are reported and provide evidence that pressure
can act directly on peripheral physiology. Postreflex clonic potentials
(rebounds) during voluntary plantar flexion were significantly increased
both in amplitude and number, leading to sustained clonus in one subject.
In this respect, 5% N2 was less effective than 10% N2 of Atlantis III in
controlling underdamping of the reflex loop. Conversely, the twitch
contraction rate and clonic frequency in this study were only half as
slowed compared with results from the earlier dive.
