Jj. Pandit et Pa. Robbins, ACUTE VENTILATORY RESPONSES TO HYPOXIA DURING VOLUNTARY AND ELECTRICALLY-INDUCED LEG EXERCISE IN MAN, Journal of physiology, 477(1), 1994, pp. 161-168
1. The acute ventilatory response to a brief period of hypoxia (AHVR)
was measured in six subjects (a) at rest, (b) during electrically indu
ced leg exercise (EEL), (c) during voluntary leg exercise at an extern
al work rate matched to electrical exercise (EV1) and (d) during volun
tary leg exercise at an internal work rate (i.e. metabolic rate) match
ed to electrical exercise (EV2). The end-tidal P-O2 during hypoxia was
50 mmHg and the end-tidal P-CO2 was held constant at 1-2 mmHg above r
esting values throughout each of these four protocols. 2. EEL was prod
uced by surface electrode stimulation of the quadriceps muscles so as
to cause the legs to extend at the knee and lift a set of weights via
a pulley system. During EV1, each subject lifted the same weight throu
gh the same height and at the same frequency as during his EEL protoco
l. During EV2, the weight, the height through which it was lifted and
the frequency of voluntary contractions were altered to produce a simi
lar O-2 consumption and CO2 production as during EEL. 3. In each subje
ct, end-tidal P-CO2 values showed no change between the four protocols
, and in three subjects in whom they were measured, arterial P-CO2 val
ues were also similar between the protocols. Venous lactate levels did
not increase after EEL or EV2. 4. The AHVR during EEL (14.1 +/- 1.42
l min(-1); mean+/-S.E.M) was significantly increased (Student's paired
t test) compared with rest 7.55 +/- 1.10 l min(-1); P < 0.003). The A
HVR during EV2 was very similar to that during EEL(13.6 +/- 1.35 l min
(-1)). The AHVR during EV1 was significantly increased compared with r
est (9.62 +/- 0.88 l min(-1); P < 0.002) but significantly lower than
during both EEL (P < 0.004) and EV2 (P < 0.008). 5. These results sugg
est that the increase in the acute ventilatory response to hypoxia whi
ch normally occurs during exercise in man can also occur in the absenc
e of a drive to exercise from the cortex.