Add to ORKGDissertation (Ph.D.) University of Alaska Fairbanks, 2013Central chemosensitivity is the vital ability of the brain to detect and respond to changes in tissue CO2 /pH. Changing CO 2 /pH causes brainstem central chemoreceptors to modulate ventilation, but the cellular basis of this chemosensitivity is not well understood. When studied in vitro, neurons within the rat medullary raphe are intrinsically sensitive to changes in pH. Serotonin/ substance P (5-HT) synthesizing raphe neurons are stimulated, and gamma-aminobutyric acid (GABA) synthesizing neurons are inhibited by CO2 /acidosis. The contribution of these neurons to central chemosensitivity in vivo, however, is controversial. Also unknown is whether there are other types of chemosensi...
In in vitro rat brainstem-spinal cord preparations, the pre-Botzinger complex (pre-BotC) has been as...
Central chemosensitive neurons increase their firing rate (FR) upon exposure to hypercapnia. Current...
Recent advances have clarified how the brain detects CO2 to regulate breathing (central respiratory ...
The identity and location of central pH/CO2 sensitive chemoreceptors are not fully understood. Sero...
Activity of CO2–stimulated rat medullary raphé RCA interneurons is mediated by intra-network inputs ...
We studied the CO2-sensitivity of neurons from LC, NTS and RTN. Firing rate and intracellular pH (pH...
We used epifluorescence microscopy and a voltage-sensitive dye, di-8-ANEPPS, to study changes in mem...
Central chemoreception is the mechanism by which the brain regulates breathing in response to change...
The rat retrotrapezoid nucleus (RTN) contains pH-sensitive neurons that are putative central chemore...
An increase in CO2/H+ is a major stimulus for increased ventilation and is sensed by specialized bra...
Brainstem regulation of CO2 chemoreception is essential in matching ventilation to the metabolic dem...
Regulation of systemic PCO2 is a life-preserving homeostatic mechanism. In the medulla oblongata, th...
Breathing is our first act upon birth and the last action we complete before death. The first to las...
Serotonergic (5-HT) neurons in the nucleus raphe obscurus (ROb) are involved in the respiratory cont...
In in vitro rat brainstem-spinal cord preparations, the pre-Botzinger complex (pre-BotC) has been as...
Central chemosensitive neurons increase their firing rate (FR) upon exposure to hypercapnia. Current...
Recent advances have clarified how the brain detects CO2 to regulate breathing (central respiratory ...
The identity and location of central pH/CO2 sensitive chemoreceptors are not fully understood. Sero...
Activity of CO2–stimulated rat medullary raphé RCA interneurons is mediated by intra-network inputs ...
We studied the CO2-sensitivity of neurons from LC, NTS and RTN. Firing rate and intracellular pH (pH...
We used epifluorescence microscopy and a voltage-sensitive dye, di-8-ANEPPS, to study changes in mem...
Central chemoreception is the mechanism by which the brain regulates breathing in response to change...
The rat retrotrapezoid nucleus (RTN) contains pH-sensitive neurons that are putative central chemore...
An increase in CO2/H+ is a major stimulus for increased ventilation and is sensed by specialized bra...
Brainstem regulation of CO2 chemoreception is essential in matching ventilation to the metabolic dem...
Regulation of systemic PCO2 is a life-preserving homeostatic mechanism. In the medulla oblongata, th...
Breathing is our first act upon birth and the last action we complete before death. The first to las...
Serotonergic (5-HT) neurons in the nucleus raphe obscurus (ROb) are involved in the respiratory cont...
In in vitro rat brainstem-spinal cord preparations, the pre-Botzinger complex (pre-BotC) has been as...
Central chemosensitive neurons increase their firing rate (FR) upon exposure to hypercapnia. Current...
Recent advances have clarified how the brain detects CO2 to regulate breathing (central respiratory ...