Peripheral chemoreflex inhibition with low-dose dopamine: New insight into mechanisms of extreme apnea
American Physiological Association
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The purpose of this study was to determine the impact of peripheral chemoreflex inhibition with low-dose dopamine on maximal apnea time, and the related hemodynamic and cerebrovascular responses in elite apnea divers. In a randomized order, participants performed a maximal apnea while receiving either intravenous 2 μg·kg−1·min−1 dopamine or volume-matched saline (placebo). The chemoreflex and hemodynamic response to dopamine was also assessed during hypoxia [arterial O2 tension, (PaO2) ∼35 mmHg] and mild hypercapnia [arterial CO2 tension (PaCO2) ∼46 mmHg] that mimicked the latter parts of apnea. Outcome measures included apnea duration, arterial blood gases (radial), heart rate (HR, ECG), mean arterial pressure (MAP, intra-arterial), middle (MCAv) and posterior (PCAv) cerebral artery blood velocity (transcranial ultrasound), internal carotid (ICA) and vertebral (VA) artery blood flow (ultrasound), and the chemoreflex responses. Although dopamine depressed the ventilatory response by 27 ± 41% (vs. placebo; P = 0.01), the maximal apnea duration was increased by only 5 ± 8% (P = 0.02). The PaCO2 and PaO2 at apnea breakpoint were similar (P > 0.05). When compared with placebo, dopamine increased HR and decreased MAP during both apnea and chemoreflex test (P all <0.05). At rest, dopamine compared with placebo dilated the ICA (3.0 ± 4.1%, P = 0.05) and VA (6.6 ± 5.0%, P < 0.01). During apnea and chemoreflex test, conductance of the cerebral vessels (ICA, VA, MCAv, PCAv) was increased with dopamine; however, flow (ICA and VA) was similar. At least in elite apnea divers, the small increase in apnea time and similar PaO2 at breakpoint (∼31 mmHg) suggest the apnea breakpoint is more related to PaO2, rather than peripheral chemoreflex drive to breathe.
American Journal of Physiology - Regulatory, Integrative and Comparative Physiology;
Bain, A.R., Dujic, Z., Hoiland, R.L., Barak, O.F., Madden, D., Drvis, I., Stembridge, M., MacLeod, D.B., MacLeod, D.M. and Ainslie, P.N. (2015) 'Peripheral chemoreflex inhibition with low-dose dopamine: new insight into mechanisms of extreme apnea', American Journal of Physiology - Regulatory, Integrative and Comparative Physiology, 309(9), pp.R1162-R1171. DOI: 10.1152/ajpregu.00271.2015.
Dynodwr Gwrthrych Digidol (DOI)https://doi.org/10.1152/ajpregu.00271.2015
Article published in American Journal of Physiology - Regulatory, Integrative and Comparative Physiology on 01 November 2015, freely available at: https://doi.org/10.1152/ajpregu.00271.2015.
Cardiff Metropolitan University (Grant ID: Cardiff Metropolian (Internal))
Canadian Research Chair and Natural Sciences and Engineering Research Council (NSERC) Discovery grant held by P. N. Ainslie. Z. Dujic, O. F. Barak, and P. N. Ainslie were also funded through the Croatian Science Foundation. A. R. Bain was funded through a postgraduate NSERC scholarship.
- Sport Research Groups 
Yn dangos eitemau sy’n perthyn drwy deitl, awdur, pwnc a chrynodeb.
Busch, S.A.; Davies, H.E.; Van Diepen, S; Simpson, L.L.; Sobierajski, F.; Riske, L.; Stembridge, Mike; Ainslie, Philip N.; Willie, C.K.; Hoiland, R.L.; Moore, J.P. (American Physiological Society, 2018-04-12)Peripheral chemoreflex mediated increases in both parasympathetic and sympathetic drive under chronic hypoxia may evoke bradyarrhythmias during apneic periods. We determined whether 1) voluntary apnea unmasks arrhythmia ...
Hoiland, Ryan; Ainslie, Philip; Bain, Anthony; MacLeod, David; Stembridge, Mike; Drvis, Ivan; Madden, Dennis; Barak, Otto; MacLeod, Doug; Dujic, Zeljko (American Physiological Society, 2017-04-01)We hypothesized that the cardioselective β1-adrenoreceptor antagonist esmolol would improve maximal apnea duration in elite breath hold divers. In elite national level divers (n=9), maximal apneas were performed in a ...
Bain, Anthony; Ainslie, Philip; Hoiland, Ryan; Barak, Otto; Cavar, Marija; Drvis, Ivan; Stembridge, Mike; MacLeod, Douglas; Bailey, Damien; Dujic, Zeljko; MacLeod, David (Wiley, 2016-06-03)Prolonged apnea in humans is reflected in progressive hypoxemia and acidosis. Here, we explore the cerebral metabolic responses under extreme hypoxia and acidosis associated with prolonged apnea. We hypothesized that the ...