Population Pharmacokinetic Modeling of the Association between 63396C->T Pregnane X Receptor Polymorphism and Unboosted Atazanavir Clearance | Zendy

A. Schipani | Zendy; Marco Siccardi | Zendy; Antonio D’Avolio | Zendy; L. Baietto | Zendy; M. Simiele | Zendy; Stefano Bonora | Zendy; S. Rodriguez Novoa | Zendy; Laura Giménez Cuenca | Zendy; Vincent Soriano | Zendy; N. Chierakul | Zendy; N. Saguenwong | Zendy; C. Chuchuttaworn | Zendy; J. M. Hoskins | Zendy; A. M. Dvorak | Zendy; H. L. McLeod | Zendy; G. Davies | Zendy; S. Khoo | Zendy; D. J. Back | Zendy; G. Di Perri | Zendy; A. Owen | Zendy

Open Access

Population Pharmacokinetic Modeling of the Association between 63396C->T Pregnane X Receptor Polymorphism and Unboosted Atazanavir Clearance

Author(s) -

A. Schipani,

Marco Siccardi,

Antonio D’Avolio,

L. Baietto,

M. Simiele,

Stefano Bonora,

S. Rodriguez Novoa,

Laura Giménez Cuenca,

Vincent Soriano,

N. Chierakul,

N. Saguenwong,

C. Chuchuttaworn,

J. M. Hoskins,

A. M. Dvorak,

H. L. McLeod,

G. Davies,

S. Khoo,

D. J. Back,

G. Di Perri,

A. Owen

Publication year - 2010

Publication title -

carolina digital repository (university of north carolina at chapel hill)

Language(s) - English

DOI - 10.17615/s5w0-jb06

Subject(s) - population pharmacokinetics , atazanavir , pharmacokinetics , pregnane , pregnane x receptor , medicine , polymorphism (computer science) , population , pharmacology , biology , virology , oncology , genetics , genotype , antiretroviral therapy , human immunodeficiency virus (hiv) , nuclear receptor , viral load , transcription factor , gene , environmental health

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