Lecture 23: Respiration 2 Flashcards
What produces active expiration?
activation of RTN / pFRG
What does respiratory rhythm (both inspiratory and expiratory) originate from? Where is it transmitted?
the brainstem and is transmitted to the spinal cord
What sites are involved in the current view of respiratory rhythmogenesis?
pre-Bötzinger complex (inspiration)
postinspiratory complex (PiCo - post-inspiration)
RTN / pFRG (expiration)
What is the respiratory neuronal network made up of?
continuous column of “respiratory neurons” from the pontine tegmentum to the origin of the spinal cord (PRG + VRG)
What does the PRG and the VRG stand for?
the pontine respiratory group and the ventral respiratory group
What is the DRG?
the dorsal respiratory group = NTS
Which regions is the ventral respiratory group subdivided into?
the Bötzinger complex, the pre-Bötzinger complex, the rostral ventral respiratory group and the caudal ventral respiratory group
What are the types of respiratory neurons within the VRG?
I neurons, post-inspiratory neurons, E2 neurons and augmenting expiratory neurons
What are these neurons classified by?
by the respiratory phase the neurons are active in
What type of neurons are BötC neurons?
post-I and aug-E neurons are inhibitory glycinergic
What type of neurons are pre-BötC neurons?
pre-I/I neurons are excitatory glutamatergic and early-I neurons are inhibitory
What type of neurons are rVRG neurons?
aug-I neurons are excitatory to motor output
What is substance P and what receptor does it act on?
a neuropeptide which acts on the metabotropic receptor neurokinin 1 (NK1)
What happens when substance P binds to neurokinin 1?
decreases potassium conductance
What is the effect of decreasing potassium conductance on neuronal membrane potential?
becomes less negative