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W H Ko

Showing results (51-60 of 105) with videos related to

Pageof 11
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Biomedical Sciences Instrumentation|January 1, 1971
Development of a miniature pH glass electrode for biological applicationsB K Ahn, C C Liu, M R Neuman, et al.
The Journal of Membrane Biology|August 12, 1999
The simultaneous measurement of epithelial ion transport and intracellular free Ca2+ in cultured equine sweat gland secretory epitheliumW H Ko, V W Law, H Y Wong, et al.
The Journal of Physiology|June 15, 1996
Ionic mechanisms of Ca(2+)-dependent electrolyte transport across equine sweat gland epitheliumW H Ko, H C Chan, S B Chew, et al.
Medical & Biological Engineering|May 1, 1975
Development of a miniature pH glass electrode with field-effect-transistor amplifier for biomedical applicationsB K Ahn, A O Wist, C C Liu, et al.
Experimental Physiology|September 11, 1999
Pyrimidine nucleotide-evoked inhibition of cyclic AMP accumulation in equine epithelial cellsS M Wilson, M Gallagher, S Rakhit, et al.
Experimental Physiology|May 1, 1996
Evidence for independent Cl- and HCO3- secretion and involvement of an apical Na(+)-HCO3- cotransporter in cultured rat epididymal epitheliaH C Chan, W H Ko, W Zhao, et al.
Biotelemetry and Patient Monitoring|January 1, 1981
Intracranial pressure telemetry system. II. Animal testingJ A Bettice, E Cheng, D G Fleming, et al.
Cardiovascular Drug Reviews|October 19, 2001
Cardiovascular actions of berberineC W Lau, X Q Yao, Z Y Chen, et al.
Biotelemetry and Patient Monitoring|January 1, 1981
An implantable RF-powered dual channel stimulatorC W Poon, W H Ko, P H Peckham, et al.
European Journal of Pharmacology|September 2, 2000
Nucleotide-evoked ion transport and [Ca(2+)](i) changes in normal and hyperhidrotic human sweat gland cellsD L Bovell, M T Clunes, H Y Elder, et al.
Pageof 11

Showing results (51-60 of 105) with videos related to

Sort By:
Pageof 11
Biomedical Sciences Instrumentation|January 1, 1971
Development of a miniature pH glass electrode for biological applicationsB K Ahn, C C Liu, M R Neuman, et al.
The Journal of Membrane Biology|August 12, 1999
The simultaneous measurement of epithelial ion transport and intracellular free Ca2+ in cultured equine sweat gland secretory epitheliumW H Ko, V W Law, H Y Wong, et al.
The Journal of Physiology|June 15, 1996
Ionic mechanisms of Ca(2+)-dependent electrolyte transport across equine sweat gland epitheliumW H Ko, H C Chan, S B Chew, et al.
Medical & Biological Engineering|May 1, 1975
Development of a miniature pH glass electrode with field-effect-transistor amplifier for biomedical applicationsB K Ahn, A O Wist, C C Liu, et al.
Experimental Physiology|September 11, 1999
Pyrimidine nucleotide-evoked inhibition of cyclic AMP accumulation in equine epithelial cellsS M Wilson, M Gallagher, S Rakhit, et al.
Experimental Physiology|May 1, 1996
Evidence for independent Cl- and HCO3- secretion and involvement of an apical Na(+)-HCO3- cotransporter in cultured rat epididymal epitheliaH C Chan, W H Ko, W Zhao, et al.
Biotelemetry and Patient Monitoring|January 1, 1981
Intracranial pressure telemetry system. II. Animal testingJ A Bettice, E Cheng, D G Fleming, et al.
Cardiovascular Drug Reviews|October 19, 2001
Cardiovascular actions of berberineC W Lau, X Q Yao, Z Y Chen, et al.
Biotelemetry and Patient Monitoring|January 1, 1981
An implantable RF-powered dual channel stimulatorC W Poon, W H Ko, P H Peckham, et al.
European Journal of Pharmacology|September 2, 2000
Nucleotide-evoked ion transport and [Ca(2+)](i) changes in normal and hyperhidrotic human sweat gland cellsD L Bovell, M T Clunes, H Y Elder, et al.
Pageof 11