Add to ORKGThe neural mechanisms responsible for respiratory rhythmogenesis in mammals were studied first in vivo in adults and subsequently in vitro in neonates. In vitro data have suggested that the pacemaker neurons are the kernel of the respiratory network. These data are reviewed, and their relevance to adults is discussed
The brainstem pre-Bötzinger complex (preBötC) generates inspiratory breathing rhythms, but which neu...
grantor: University of TorontoI examined the functional interconnexions among medullary re...
grantor: University of TorontoI examined the functional interconnexions among medullary re...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Simulations of a ventrolateral medullary neural network for respiratory rhythmogenesis inferred spik...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The aim of the present review is to summarise available studies dealing with the respiratory control...
In this review, the maturational changes occurring in the mammalian respiratory network from fetal t...
AbstractPacemaker neurons have been described in most neural networks. However, whether such neurons...
The exchange of gases between the external environment and the organism is controlled by a neural ne...
The brainstem pre-Bötzinger complex (preBötC) generates inspiratory breathing rhythms, but which neu...
The brainstem pre-Bötzinger complex (preBötC) generates inspiratory breathing rhythms, but which neu...
grantor: University of TorontoI examined the functional interconnexions among medullary re...
grantor: University of TorontoI examined the functional interconnexions among medullary re...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Breathing in mammals is a seemingly straightforward behaviour controlled by the brain. A brainstem n...
Simulations of a ventrolateral medullary neural network for respiratory rhythmogenesis inferred spik...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The survival of neonatal mammals requires a correct function of the respiratory rhythm generator (RR...
The aim of the present review is to summarise available studies dealing with the respiratory control...
In this review, the maturational changes occurring in the mammalian respiratory network from fetal t...
AbstractPacemaker neurons have been described in most neural networks. However, whether such neurons...
The exchange of gases between the external environment and the organism is controlled by a neural ne...
The brainstem pre-Bötzinger complex (preBötC) generates inspiratory breathing rhythms, but which neu...
The brainstem pre-Bötzinger complex (preBötC) generates inspiratory breathing rhythms, but which neu...
grantor: University of TorontoI examined the functional interconnexions among medullary re...
grantor: University of TorontoI examined the functional interconnexions among medullary re...