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Calcium and avian intrapulmonary chemoreceptor response to CO
2
S. C. Hempleman
, S. X. Egan
, J. Q. Pilarski
, T. P. Adamson
, I. C. Solomon
Biological Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
9
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Scopus citations
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Dive into the research topics of 'Calcium and avian intrapulmonary chemoreceptor response to CO
2
'. Together they form a unique fingerprint.
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Pharmacology, Toxicology and Pharmaceutical Science
Carbon Dioxide
100%
Bird
100%
Calcium Ion
83%
Calcium Channel
66%
Charybdotoxin
50%
Potassium Channel
50%
Chloride Channel
50%
Niflumic Acid
33%
Apamin
33%
Diapsid
16%
Nifedipine
16%
Keyphrases
Chemoreceptor
100%
Partial Pressure of CO2 (pCO2)
33%
Ca2+
33%
Spike Frequency Adaptation
26%
Lung
20%
CO2 Reactivity
20%
Chloride Channel
20%
L-type Ca2+ Channel
20%
Charybdotoxin
20%
Apamin
13%
Niflumic Acid
13%
Transmembrane
6%
Single Unit
6%
Respiratory Chemoreceptors
6%
CO2 Sensitivity
6%
Reflex
6%
CO 2
6%
Inhibitory Effect
6%
Ca2+-activated K+ Channels
6%
Diapsid
6%
Ca2+ Channels
6%
Tonic
6%
Attenuation
6%
Ca2+ Influx
6%
Cadmium
6%
SK Channels
6%
Reptiles
6%
Vagal Afferents
6%
Cobalt
6%
Nifedipine
6%
K Channels
6%
Large Conductance
6%
Biochemistry, Genetics and Molecular Biology
Bird
100%
Chemoreceptor
100%
Spike
25%
Calcium Channel
25%
Potassium Channel
18%
Chloride Channel
18%
Charybdotoxin
18%
Apamin
12%
Breathing Rate
6%
Breathing Depth
6%
Diapsid
6%
Conductance
6%
Nifedipine
6%
Neuroscience
Chemoreceptor
100%
Calcium Channel
25%
Potassium Channel
18%
Charybdotoxin
18%
Chloride Channel
18%
Niflumic Acid
12%
Apamin
12%
Nifedipine
6%