Single and multiple dose intravenous and oral pharmacokinetics of the hedgehog pathway inhibitor vismodegib in healthy female subjects
WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT • While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non‐linear, there has not been a report describing the mechanisms of non‐linearity. WHAT THIS STUDY ADDS • This study provides evidence that two separate processes...
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| Published in | British journal of clinical pharmacology Vol. 74; no. 5; pp. 788 - 796 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford, UK
Blackwell Publishing Ltd
01.11.2012
Blackwell Blackwell Science Inc |
| Subjects | |
| Online Access | Get full text |
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| Abstract | WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT
• While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non‐linear, there has not been a report describing the mechanisms of non‐linearity.
WHAT THIS STUDY ADDS
• This study provides evidence that two separate processes, namely, solubility‐limited absorption and concentration–dependent plasma protein binding, can explain the non‐linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing.
AIM Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non‐linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of 14C‐vismodegib with single and multiple oral doses.
METHODS Healthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a 14C‐labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC‐MS/MS and for 14C‐vismodegib by accelerator mass spectrometry.
RESULTS Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h−1, 16.4 l and 31.8%, respectively. Parallel concentration–time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady‐state, mean clearance and volume of distribution were 78.5 ml h−1 and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half‐life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4‐fold with continuous daily dosing.
CONCLUSION Vismodegib exhibited a long terminal half‐life after oral and i.v. administration, moderate absolute bioavailability and non‐linear PK after repeated dosing. Results from this study suggest that the non‐linear PK of vismodegib result from two separate, non‐linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding. |
|---|---|
| AbstractList | WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT
• While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non‐linear, there has not been a report describing the mechanisms of non‐linearity.
WHAT THIS STUDY ADDS
• This study provides evidence that two separate processes, namely, solubility‐limited absorption and concentration–dependent plasma protein binding, can explain the non‐linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing.
AIM
Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non‐linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of
14
C‐vismodegib with single and multiple oral doses.
METHODS
Healthy post menopausal female subjects (
n
= 6/group) received either a single or daily 150 mg vismodegib oral dose with a
14
C‐labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC‐MS/MS and for
14
C‐vismodegib by accelerator mass spectrometry.
RESULTS
Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h
−1
, 16.4 l and 31.8%, respectively. Parallel concentration–time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady‐state, mean clearance and volume of distribution were 78.5 ml h
−1
and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half‐life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4‐fold with continuous daily dosing.
CONCLUSION
Vismodegib exhibited a long terminal half‐life after oral and i.v. administration, moderate absolute bioavailability and non‐linear PK after repeated dosing. Results from this study suggest that the non‐linear PK of vismodegib result from two separate, non‐linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding. WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT • While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non‐linear, there has not been a report describing the mechanisms of non‐linearity. WHAT THIS STUDY ADDS • This study provides evidence that two separate processes, namely, solubility‐limited absorption and concentration–dependent plasma protein binding, can explain the non‐linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing. AIM Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non‐linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of 14C‐vismodegib with single and multiple oral doses. METHODS Healthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a 14C‐labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC‐MS/MS and for 14C‐vismodegib by accelerator mass spectrometry. RESULTS Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h−1, 16.4 l and 31.8%, respectively. Parallel concentration–time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady‐state, mean clearance and volume of distribution were 78.5 ml h−1 and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half‐life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4‐fold with continuous daily dosing. CONCLUSION Vismodegib exhibited a long terminal half‐life after oral and i.v. administration, moderate absolute bioavailability and non‐linear PK after repeated dosing. Results from this study suggest that the non‐linear PK of vismodegib result from two separate, non‐linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding. While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non-linear, there has not been a report describing the mechanisms of non-linearity.WHAT IS ALREADY KNOWN ABOUT THIS SUBJECTWhile recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non-linear, there has not been a report describing the mechanisms of non-linearity.This study provides evidence that two separate processes, namely, solubility-limited absorption and concentration-dependent plasma protein binding, can explain the non-linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing.WHAT THIS STUDY ADDSThis study provides evidence that two separate processes, namely, solubility-limited absorption and concentration-dependent plasma protein binding, can explain the non-linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing.Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non-linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of (14) C-vismodegib with single and multiple oral doses.AIMVismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non-linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of (14) C-vismodegib with single and multiple oral doses.Healthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a (14) C-labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC-MS/MS and for (14) C-vismodegib by accelerator mass spectrometry.METHODSHealthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a (14) C-labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC-MS/MS and for (14) C-vismodegib by accelerator mass spectrometry.Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h(-1) , 16.4 l and 31.8%, respectively. Parallel concentration-time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady-state, mean clearance and volume of distribution were 78.5 ml h(-1) and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half-life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4-fold with continuous daily dosing.RESULTSFollowing a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h(-1) , 16.4 l and 31.8%, respectively. Parallel concentration-time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady-state, mean clearance and volume of distribution were 78.5 ml h(-1) and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half-life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4-fold with continuous daily dosing.Vismodegib exhibited a long terminal half-life after oral and i.v. administration, moderate absolute bioavailability and non-linear PK after repeated dosing. Results from this study suggest that the non-linear PK of vismodegib result from two separate, non-linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding.CONCLUSIONVismodegib exhibited a long terminal half-life after oral and i.v. administration, moderate absolute bioavailability and non-linear PK after repeated dosing. Results from this study suggest that the non-linear PK of vismodegib result from two separate, non-linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding. While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non-linear, there has not been a report describing the mechanisms of non-linearity. This study provides evidence that two separate processes, namely, solubility-limited absorption and concentration-dependent plasma protein binding, can explain the non-linear PK of vismodegib. This study provides quantitative results which can account for the lower than expected accumulation of vismodegib with continuous daily dosing. Vismodegib has demonstrated clinical activity in patients with advanced basal cell carcinoma. The pharmacokinetics (PK) of vismodegib are non-linear. The objective of this study was to determine whether vismodegib PK change following repeated dosing by administering a tracer intravenous (i.v.) dose of (14) C-vismodegib with single and multiple oral doses. Healthy post menopausal female subjects (n= 6/group) received either a single or daily 150 mg vismodegib oral dose with a (14) C-labelled 10 µg i.v. bolus dose administered 2 h after the single or last oral dose (day 7). Plasma samples were assayed for vismodegib by LC-MS/MS and for (14) C-vismodegib by accelerator mass spectrometry. Following a single i.v. dose, mean clearance, volume of distribution and absolute bioavailability were 43.4 ml h(-1) , 16.4 l and 31.8%, respectively. Parallel concentration-time profiles following single oral and i.v. administration of vismodegib indicated elimination rate limited PK. Following i.v. administration at steady-state, mean clearance and volume of distribution were 78.5 ml h(-1) and 26.8 l, respectively. Comparison of i.v. PK parameters after single and multiple oral dosing showed similar half-life, increased clearance and volume of distribution (81% and 63% higher, respectively) and decreased bioavailability (77% lower) after repeated dosing. Relative to single dose, the unbound fraction of vismodegib increased 2.4-fold with continuous daily dosing. Vismodegib exhibited a long terminal half-life after oral and i.v. administration, moderate absolute bioavailability and non-linear PK after repeated dosing. Results from this study suggest that the non-linear PK of vismodegib result from two separate, non-linear processes, namely solubility limited absorption and high affinity, saturable plasma protein binding. |
| Author | Hop, Cornelis E. C. A. Low, Jennifer A. Malhi, Vikram Lum, Bert L. Borin, Marie T. Graham, Richard A. Colburn, Dawn Dresser, Mark J. Chang, Ilsung Shin, Young G. |
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| Copyright | 2012 Genentech, a member of the Roche Group. British Journal of Clinical Pharmacology © 2012 The British Pharmacological Society 2015 INIST-CNRS 2012 Genentech, a member of the Roche Group. British Journal of Clinical Pharmacology © 2012 The British Pharmacological Society. Copyright © 2012 The British Pharmacological Society 2012 |
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| Keywords | Human Intravenous administration Healthy subject Single dose Oral administration of distribution vismodegib Bioavailability Clearance Multiple dose GDC-0449 volume Hedgehog protein absolute bioavailability Distribution Inhibitor Pharmacokinetics |
| Language | English |
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• While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non‐linear, there has... While recent publications have suggested the pharmacokinetics (PK) of vismodegib appear to be non-linear, there has not been a report describing the mechanisms... |
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| SubjectTerms | absolute bioavailability Anilides - administration & dosage Anilides - pharmacokinetics Antineoplastic Agents - administration & dosage Antineoplastic Agents - pharmacokinetics Biological and medical sciences Biological Availability Blood Proteins - metabolism Chromatography, Liquid clearance Drug Administration Schedule Female GDC‐0449 Half-Life Humans Injections, Intravenous Mass Spectrometry - methods Medical sciences Middle Aged Nonlinear Dynamics of distribution Pharmacokinetics Pharmacology. Drug treatments Protein Binding Pyridines - administration & dosage Pyridines - pharmacokinetics Solubility Tandem Mass Spectrometry Tissue Distribution vismodegib volume |
| Title | Single and multiple dose intravenous and oral pharmacokinetics of the hedgehog pathway inhibitor vismodegib in healthy female subjects |
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