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Effect of phenolphthalein on in vitro rabbit ileal electrolyte transport
D. W. Powell
, B. A. Lawrence
, S. M. Morris
, D. R. Etheridge
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
Overview
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Dive into the research topics of 'Effect of phenolphthalein on in vitro rabbit ileal electrolyte transport'. Together they form a unique fingerprint.
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Keyphrases
Electrolyte Transport
100%
Phenolphthalein
100%
Sodium Chloride
20%
Bicarbonate
20%
Epithelium
13%
Chloride
13%
Short-circuit Current
13%
Ringer's Solution
13%
Cyclic nucleotides
13%
Sodium Absorption
13%
Chloride Absorption
13%
Hydrogen Ion
6%
Inhibitory Effect
6%
Anions
6%
Tissue Level
6%
Sodium
6%
Transport Processes
6%
Ussing Chamber
6%
Potential Difference
6%
Intestinal Electrolyte Transport
6%
Residual Flux
6%
Glucose Transport
6%
Sodium Transport
6%
Chloride Secretion
6%
Anion Exchange
6%
Sodium Pump
6%
Sodium Potassium ATPase
6%
Chloride Transport
6%
Alanine Transport
6%
Bicarbonate Ion
6%
Separation Effect
6%
Sodium-free
6%
Medicine and Dentistry
In Vitro
100%
Electrolyte Transport
100%
Phenolphthalein
100%
Sodium Bicarbonate
26%
Secretion (Process)
20%
Table Salt
20%
Alanine
13%
Ringer Solution
13%
Adenosine Triphosphatase (Potassium Sodium)
13%
Cyclic Nucleotide
13%
Sodium Absorption
13%
Sodium Transport
6%
Ussing Chamber
6%
Ion Exchange
6%
Agricultural and Biological Sciences
Leporidae
100%
Table Salt
100%
Cyclic Nucleotide
66%
Alanine
66%
ATPase
33%
Pharmacology, Toxicology and Pharmaceutical Science
Leporidae
100%
Phenolphthalein
100%
Dicarbonate
26%
Table Salt
20%
Alanine
13%
Adenosine Triphosphatase (Potassium Sodium)
13%
Ringer Solution
13%
Cyclic Nucleotide
13%
Food Science
Sodium
100%
Table Salt
50%
Alanine
33%
Potassium
16%
Sodium Transport
16%
Material Science
Sodium
100%
Electronic Circuit
20%
Alanine
20%
Potassium
10%
Ion Exchange
10%