BACKGROUND: Some drugs that are actively taken up into the liver exhibit greater than dose proportional increases in plasma exposure, although human liver-to-plasma concentration ratios have rarely been evaluated. Understanding these relationships has implications for drug concentrations at the target site for certain classes of compounds, such as direct-acting antivirals, targeted towards HCV. METHODS: Treatment-experienced, chronic HCV non-cirrhotic patients (n=3) received vaniprevir (600 mg or 300 mg twice daily) on days 1-3 and (600 mg or 300 mg single dose) on day 4. Core needle biopsy was performed at 6 or 12 h post-dose on day 4. Blood samples were collected pre-dose on days 1 and 4, and for 24 h post-dose on day 4. The primary study objective was the hepatic concentration of vaniprevir at 6 and 12 h post-dose. RESULTS: Vaniprevir plasma pharmacokinetic parameters increased in a greater than dose-proportional manner between the 300 mg and 600 mg doses, with approximately fivefold increases in AUC0-12 and Cmax associated with a twofold increase in dose (AUC0-12, 10.6 μM/h to 59.5 μM/h; Cmax, 2.60 μM to 13.5 μM). In the 300 mg and 600 mg dose groups, mean liver concentrations of vaniprevir were 84.6 μM and 169 μM at 6 h post-dose, and 29.4 μM and 53.7 μM at 12 h post-dose. Liver concentrations were higher than plasma with liver-to-plasma concentration ratios of approximately 20-280. CONCLUSIONS: These data confirm higher vaniprevir concentrations in human liver compared with plasma and demonstrate that measurement of human liver drug concentration using needle biopsy is feasible.
BACKGROUND: Some drugs that are actively taken up into the liver exhibit greater than dose proportional increases in plasma exposure, although human liver-to-plasma concentration ratios have rarely been evaluated. Understanding these relationships has implications for drug concentrations at the target site for certain classes of compounds, such as direct-acting antivirals, targeted towards HCV. METHODS: Treatment-experienced, chronic HCV non-cirrhoticpatients (n=3) received vaniprevir (600 mg or 300 mg twice daily) on days 1-3 and (600 mg or 300 mg single dose) on day 4. Core needle biopsy was performed at 6 or 12 h post-dose on day 4. Blood samples were collected pre-dose on days 1 and 4, and for 24 h post-dose on day 4. The primary study objective was the hepatic concentration of vaniprevir at 6 and 12 h post-dose. RESULTS:Vaniprevir plasma pharmacokinetic parameters increased in a greater than dose-proportional manner between the 300 mg and 600 mg doses, with approximately fivefold increases in AUC0-12 and Cmax associated with a twofold increase in dose (AUC0-12, 10.6 μM/h to 59.5 μM/h; Cmax, 2.60 μM to 13.5 μM). In the 300 mg and 600 mg dose groups, mean liver concentrations of vaniprevir were 84.6 μM and 169 μM at 6 h post-dose, and 29.4 μM and 53.7 μM at 12 h post-dose. Liver concentrations were higher than plasma with liver-to-plasma concentration ratios of approximately 20-280. CONCLUSIONS: These data confirm higher vaniprevir concentrations in human liver compared with plasma and demonstrate that measurement of human liver drug concentration using needle biopsy is feasible.
Authors: E Monteagudo; M Fonsi; X Chu; K Bleasby; R Evers; V Pucci; M V Orsale; S Cianetti; M Ferrara; S Harper; R Laufer; M Rowley; V Summa Journal: Xenobiotica Date: 2010-10-07 Impact factor: 1.908
Authors: Micaela B Reddy; Peter N Morcos; Sophie Le Pogam; Ying Ou; Karl Frank; Thierry Lave; Patrick Smith Journal: Antimicrob Agents Chemother Date: 2012-04-02 Impact factor: 5.191
Authors: K Ishak; A Baptista; L Bianchi; F Callea; J De Groote; F Gudat; H Denk; V Desmet; G Korb; R N MacSween Journal: J Hepatol Date: 1995-06 Impact factor: 25.083
Authors: Andrew H Talal; Rositsa B Dimova; Eileen Z Zhang; Min Jiang; Marina S Penney; James C Sullivan; Martyn C Botfield; Ananthsrinivas Chakilam; Rishikesh Sawant; Christine M Cervini; Marija Zeremski; Ira M Jacobson; Ann D Kwong Journal: Hepatology Date: 2014-07-31 Impact factor: 17.425
Authors: Robert B Perni; Susan J Almquist; Randal A Byrn; Gurudatt Chandorkar; Pravin R Chaturvedi; Lawrence F Courtney; Caroline J Decker; Kirk Dinehart; Cynthia A Gates; Scott L Harbeson; Angela Heiser; Gururaj Kalkeri; Elaine Kolaczkowski; Kai Lin; Yu-Ping Luong; B Govinda Rao; William P Taylor; John A Thomson; Roger D Tung; Yunyi Wei; Ann D Kwong; Chao Lin Journal: Antimicrob Agents Chemother Date: 2006-03 Impact factor: 5.191
Authors: Nigel J Liverton; Steven S Carroll; Jillian Dimuzio; Christine Fandozzi; Donald J Graham; Daria Hazuda; M Katherine Holloway; Steven W Ludmerer; John A McCauley; Charles J McIntyre; David B Olsen; Michael T Rudd; Mark Stahlhut; Joseph P Vacca Journal: Antimicrob Agents Chemother Date: 2009-10-19 Impact factor: 5.191
Authors: Charles S Venuto; Marianthi Markatou; Yvonne Woolwine-Cunningham; Rosemary Furlage; Andrew J Ocque; Robin DiFrancesco; Emily O Dumas; Paul K Wallace; Gene D Morse; Andrew H Talal Journal: Antimicrob Agents Chemother Date: 2017-04-24 Impact factor: 5.191
Authors: Darius Babusis; Michael P Curry; Brian Kirby; Yeojin Park; Eisuke Murakami; Ting Wang; Anita Mathias; Nezam Afdhal; John G McHutchison; Adrian S Ray Journal: Antimicrob Agents Chemother Date: 2018-04-26 Impact factor: 5.191
Authors: Andrew H Talal; Emily O Dumas; Barbara Bauer; Richard M Rejman; Andrew Ocque; Gene D Morse; Danijela Lucic; Gavin A Cloherty; Jennifer King; Jiuhong Zha; Hongtao Zhang; Daniel E Cohen; Nancy Shulman; Jean-Michel Pawlotsky; Christophe Hézode Journal: J Infect Dis Date: 2018-01-17 Impact factor: 5.226
Authors: L Caro; J de Hoon; M Depré; C Cilissen; J Miller; W Gao; D Panebianco; Z Guo; S L Troemel; M S Anderson; N Uemura; J Butterton; J Wagner; D H Wright Journal: Clin Transl Sci Date: 2017-08-10 Impact factor: 4.689
Authors: Ashwin Balagopal; Laura M Smeaton; Jeffrey Quinn; Charles S Venuto; Gene D Morse; Vincent Vu; Beverly Alston-Smith; Daniel E Cohen; Jorge L Santana-Bagur; Donald D Anthony; Mark S Sulkowski; David L Wyles; Andrew H Talal Journal: J Infect Dis Date: 2020-07-23 Impact factor: 7.759