METHODS: The pharmacokinetics of caffeine and cardio-green (ICG) were examined in four micro swine at sea level (SEA) and following 21 d continuous exposure to 4600 m (ALT) in a hypobaric chamber. Caffeine (84.7 mg) and ICG (10 mg) were administered as separate intravenous boluses and sequential blood samples collected. RESULTS: Caffeine clearance significantly (p < 0.05) increased in ALT (96.8 +/- 20.0 ml.min-1) as compared to SEA (53.6 +/- 24.8 ml.min-1), demonstrating that liver function increased in ALT. There was no significant change in the ratio of primary metabolites to caffeine, suggesting that the increase in clearance was not due to a change in the rate of caffeine metabolism. ICG clearance significantly increased in ALT (179.8 +/- 57.4 ml.min-1) as compared to SEA (84.4 +/- 28.9 ml.min-1) indicating that hepatic blood flow (HBF) increased. CONCLUSION: These results demonstrate that chronic exposure to 4600 m increases the clearance of caffeine and ICG in the micro swine model and suggests that the increase in caffeine clearance is related to HBF.
METHODS: The pharmacokinetics of caffeine and cardio-green (ICG) were examined in four micro swine at sea level (SEA) and following 21 d continuous exposure to 4600 m (ALT) in a hypobaric chamber. Caffeine (84.7 mg) and ICG (10 mg) were administered as separate intravenous boluses and sequential blood samples collected. RESULTS:Caffeine clearance significantly (p < 0.05) increased in ALT (96.8 +/- 20.0 ml.min-1) as compared to SEA (53.6 +/- 24.8 ml.min-1), demonstrating that liver function increased in ALT. There was no significant change in the ratio of primary metabolites to caffeine, suggesting that the increase in clearance was not due to a change in the rate of caffeine metabolism. ICG clearance significantly increased in ALT (179.8 +/- 57.4 ml.min-1) as compared to SEA (84.4 +/- 28.9 ml.min-1) indicating that hepatic blood flow (HBF) increased. CONCLUSION: These results demonstrate that chronic exposure to 4600 m increases the clearance of caffeine and ICG in the micro swine model and suggests that the increase in caffeine clearance is related to HBF.
Authors: G H Kamimori; N D Eddington; R W Hoyt; C S Fulco; S Lugo; M J Durkot; A E Brunhart; A Cymerman Journal: Eur J Clin Pharmacol Date: 1995 Impact factor: 2.953