Pharmacokinetic and Pharmacodynamic Analysis of Alfaxalone Administered as a Bolus Intravenous Injection of Phaxan in a Phase 1 Randomized Trial

BACKGROUND:Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) a...

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Published inAnesthesia and analgesia Vol. 130; no. 3; pp. 704 - 714
Main Authors Goodchild, Colin S., Serrao, Juliet M., Sear, John W., Anderson, Brian J.
Format Journal Article
LanguageEnglish
Published United States International Anesthesia Research Society 01.03.2020
Subjects
Adolescent
Adult
Anesthetics - administration & dosage
Anesthetics - blood
Anesthetics - pharmacokinetics
Consciousness - drug effects
Consciousness Monitors
Drug Compounding
Half-Life
Healthy Volunteers
Humans
Injections, Intravenous
Male
Metabolic Clearance Rate
Models, Biological
New Zealand
Pregnanediones - administration & dosage
Pregnanediones - blood
Pregnanediones - pharmacokinetics
Young Adult
New Zealand
Online AccessGet full text
ISSN0003-2999
1526-7598
1526-7598
DOI10.1213/ANE.0000000000004204

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Abstract BACKGROUND:Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) and pharmacodynamic (PD) characteristics of alfaxalone given as a bolus intravenous injection of this formulation to human male volunteers. METHODS:A dose of 0.5 mg/kg (0.42–0.55 mg/kg) of alfaxalone [mean (range)] was given by single intravenous bolus injection to 12 healthy subjects. Plasma alfaxalone concentrations and bispectral index (BIS) values were analyzed using an integrated pharmacokinetic–pharmacodynamic (PKPD) model using nonlinear mixed-effects models. Effect (BIS) was described using a sigmoidal fractional maximum effect (EMAX) model. All parameters were scaled using allometry and standardized to a 70-kg person using exponents of 0.75 for clearance parameters (CL, Q2, and Q3), 1.0 for volumes (V1, V2, and V3), and 0.25 for time-related parameters half-time keo (t1/2keo). RESULTS:A 3-compartment model used to fit PK data with an additional compartment, linked by t1/2keo to describe the effect compartment, yielded alfaxalone PK parameter estimatesCL1.08 L/min; 0.87–1.34 L/min (median; 95% confidence interval [CI]); central volume of distribution (V1)0.99 L; 0.53–2.05 L (median; 95% CI); intercompartment CLs (Q2)0.87 L/min; 0.32–1.71 L/min (median; 95% CI) and Q30.46 L/min; 0.19–1.03 L/min (median; 95% CI); and peripheral volumes of distribution (V2)6.36 L; 2.79–10.7 L (median; 95% CI) and V319.1 L; 8.61–37.4 L (median; 95% CI). PD interrogation assumed a baseline BIS of 96, with an estimated EMAX0.94; 0.71–0.99 (median; 95% CI), a plasma concentration (Cp) for 50% effect (C50)0.98 mg/L; 0.83–1.09 mg/L (median; 95% CI), and a Hill coefficient (γ)12.1; 6.7–15 (median; 95% CI). The t1/2keo was 8 minutes; 4.70–12.8 minutes (median; 95% CI). The mean time to a BIS 50 was 0.94 minutes (standard deviation [SD] = 0.2 minutes). CONCLUSIONS:After a single bolus intravenous injection, alfaxalone has a high plasma CL equal to hepatic blood flow as reported for earlier studies of bolus injections of a previous formulation of alfaxalone. The plasma levels associated with BIS values of <60 are comparable to those previously reported in patients anesthetized with alfaxalone. The t1/2keo is relatively high, but the large Hill coefficient contributes to rapid onset and offset of action. This information can inform future studies of this formulation.
AbstractList Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) and pharmacodynamic (PD) characteristics of alfaxalone given as a bolus intravenous injection of this formulation to human male volunteers. A dose of 0.5 mg/kg (0.42-0.55 mg/kg) of alfaxalone [mean (range)] was given by single intravenous bolus injection to 12 healthy subjects. Plasma alfaxalone concentrations and bispectral index (BIS) values were analyzed using an integrated pharmacokinetic-pharmacodynamic (PKPD) model using nonlinear mixed-effects models. Effect (BIS) was described using a sigmoidal fractional maximum effect (EMAX) model. All parameters were scaled using allometry and standardized to a 70-kg person using exponents of 0.75 for clearance parameters (CL, Q2, and Q3), 1.0 for volumes (V1, V2, and V3), and 0.25 for time-related parameters half-time keo (t1/2keo). A 3-compartment model used to fit PK data with an additional compartment, linked by t1/2keo to describe the effect compartment, yielded alfaxalone PK parameter estimates: CL: 1.08 L/min; 0.87-1.34 L/min (median; 95% confidence interval [CI]); central volume of distribution (V1): 0.99 L; 0.53-2.05 L (median; 95% CI); intercompartment CLs (Q2): 0.87 L/min; 0.32-1.71 L/min (median; 95% CI) and Q3: 0.46 L/min; 0.19-1.03 L/min (median; 95% CI); and peripheral volumes of distribution (V2): 6.36 L; 2.79-10.7 L (median; 95% CI) and V3: 19.1 L; 8.61-37.4 L (median; 95% CI). PD interrogation assumed a baseline BIS of 96, with an estimated EMAX: 0.94; 0.71-0.99 (median; 95% CI), a plasma concentration (Cp) for 50% effect (C50): 0.98 mg/L; 0.83-1.09 mg/L (median; 95% CI), and a Hill coefficient (γ): 12.1; 6.7-15 (median; 95% CI). The t1/2keo was 8 minutes; 4.70-12.8 minutes (median; 95% CI). The mean time to a BIS 50 was 0.94 minutes (standard deviation [SD] = 0.2 minutes). After a single bolus intravenous injection, alfaxalone has a high plasma CL equal to hepatic blood flow as reported for earlier studies of bolus injections of a previous formulation of alfaxalone. The plasma levels associated with BIS values of <60 are comparable to those previously reported in patients anesthetized with alfaxalone. The t1/2keo is relatively high, but the large Hill coefficient contributes to rapid onset and offset of action. This information can inform future studies of this formulation.
BACKGROUND:Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) and pharmacodynamic (PD) characteristics of alfaxalone given as a bolus intravenous injection of this formulation to human male volunteers. METHODS:A dose of 0.5 mg/kg (0.42–0.55 mg/kg) of alfaxalone [mean (range)] was given by single intravenous bolus injection to 12 healthy subjects. Plasma alfaxalone concentrations and bispectral index (BIS) values were analyzed using an integrated pharmacokinetic–pharmacodynamic (PKPD) model using nonlinear mixed-effects models. Effect (BIS) was described using a sigmoidal fractional maximum effect (EMAX) model. All parameters were scaled using allometry and standardized to a 70-kg person using exponents of 0.75 for clearance parameters (CL, Q2, and Q3), 1.0 for volumes (V1, V2, and V3), and 0.25 for time-related parameters half-time keo (t1/2keo). RESULTS:A 3-compartment model used to fit PK data with an additional compartment, linked by t1/2keo to describe the effect compartment, yielded alfaxalone PK parameter estimatesCL1.08 L/min; 0.87–1.34 L/min (median; 95% confidence interval [CI]); central volume of distribution (V1)0.99 L; 0.53–2.05 L (median; 95% CI); intercompartment CLs (Q2)0.87 L/min; 0.32–1.71 L/min (median; 95% CI) and Q30.46 L/min; 0.19–1.03 L/min (median; 95% CI); and peripheral volumes of distribution (V2)6.36 L; 2.79–10.7 L (median; 95% CI) and V319.1 L; 8.61–37.4 L (median; 95% CI). PD interrogation assumed a baseline BIS of 96, with an estimated EMAX0.94; 0.71–0.99 (median; 95% CI), a plasma concentration (Cp) for 50% effect (C50)0.98 mg/L; 0.83–1.09 mg/L (median; 95% CI), and a Hill coefficient (γ)12.1; 6.7–15 (median; 95% CI). The t1/2keo was 8 minutes; 4.70–12.8 minutes (median; 95% CI). The mean time to a BIS 50 was 0.94 minutes (standard deviation [SD] = 0.2 minutes). CONCLUSIONS:After a single bolus intravenous injection, alfaxalone has a high plasma CL equal to hepatic blood flow as reported for earlier studies of bolus injections of a previous formulation of alfaxalone. The plasma levels associated with BIS values of <60 are comparable to those previously reported in patients anesthetized with alfaxalone. The t1/2keo is relatively high, but the large Hill coefficient contributes to rapid onset and offset of action. This information can inform future studies of this formulation.
Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) and pharmacodynamic (PD) characteristics of alfaxalone given as a bolus intravenous injection of this formulation to human male volunteers.BACKGROUNDPrevious formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for human use as Phaxan, an aqueous solution of 10 mg/mL of alfaxalone and 13% betadex. This study assessed the pharmacokinetic (PK) and pharmacodynamic (PD) characteristics of alfaxalone given as a bolus intravenous injection of this formulation to human male volunteers.A dose of 0.5 mg/kg (0.42-0.55 mg/kg) of alfaxalone [mean (range)] was given by single intravenous bolus injection to 12 healthy subjects. Plasma alfaxalone concentrations and bispectral index (BIS) values were analyzed using an integrated pharmacokinetic-pharmacodynamic (PKPD) model using nonlinear mixed-effects models. Effect (BIS) was described using a sigmoidal fractional maximum effect (EMAX) model. All parameters were scaled using allometry and standardized to a 70-kg person using exponents of 0.75 for clearance parameters (CL, Q2, and Q3), 1.0 for volumes (V1, V2, and V3), and 0.25 for time-related parameters half-time keo (t1/2keo).METHODSA dose of 0.5 mg/kg (0.42-0.55 mg/kg) of alfaxalone [mean (range)] was given by single intravenous bolus injection to 12 healthy subjects. Plasma alfaxalone concentrations and bispectral index (BIS) values were analyzed using an integrated pharmacokinetic-pharmacodynamic (PKPD) model using nonlinear mixed-effects models. Effect (BIS) was described using a sigmoidal fractional maximum effect (EMAX) model. All parameters were scaled using allometry and standardized to a 70-kg person using exponents of 0.75 for clearance parameters (CL, Q2, and Q3), 1.0 for volumes (V1, V2, and V3), and 0.25 for time-related parameters half-time keo (t1/2keo).A 3-compartment model used to fit PK data with an additional compartment, linked by t1/2keo to describe the effect compartment, yielded alfaxalone PK parameter estimates: CL: 1.08 L/min; 0.87-1.34 L/min (median; 95% confidence interval [CI]); central volume of distribution (V1): 0.99 L; 0.53-2.05 L (median; 95% CI); intercompartment CLs (Q2): 0.87 L/min; 0.32-1.71 L/min (median; 95% CI) and Q3: 0.46 L/min; 0.19-1.03 L/min (median; 95% CI); and peripheral volumes of distribution (V2): 6.36 L; 2.79-10.7 L (median; 95% CI) and V3: 19.1 L; 8.61-37.4 L (median; 95% CI). PD interrogation assumed a baseline BIS of 96, with an estimated EMAX: 0.94; 0.71-0.99 (median; 95% CI), a plasma concentration (Cp) for 50% effect (C50): 0.98 mg/L; 0.83-1.09 mg/L (median; 95% CI), and a Hill coefficient (γ): 12.1; 6.7-15 (median; 95% CI). The t1/2keo was 8 minutes; 4.70-12.8 minutes (median; 95% CI). The mean time to a BIS 50 was 0.94 minutes (standard deviation [SD] = 0.2 minutes).RESULTSA 3-compartment model used to fit PK data with an additional compartment, linked by t1/2keo to describe the effect compartment, yielded alfaxalone PK parameter estimates: CL: 1.08 L/min; 0.87-1.34 L/min (median; 95% confidence interval [CI]); central volume of distribution (V1): 0.99 L; 0.53-2.05 L (median; 95% CI); intercompartment CLs (Q2): 0.87 L/min; 0.32-1.71 L/min (median; 95% CI) and Q3: 0.46 L/min; 0.19-1.03 L/min (median; 95% CI); and peripheral volumes of distribution (V2): 6.36 L; 2.79-10.7 L (median; 95% CI) and V3: 19.1 L; 8.61-37.4 L (median; 95% CI). PD interrogation assumed a baseline BIS of 96, with an estimated EMAX: 0.94; 0.71-0.99 (median; 95% CI), a plasma concentration (Cp) for 50% effect (C50): 0.98 mg/L; 0.83-1.09 mg/L (median; 95% CI), and a Hill coefficient (γ): 12.1; 6.7-15 (median; 95% CI). The t1/2keo was 8 minutes; 4.70-12.8 minutes (median; 95% CI). The mean time to a BIS 50 was 0.94 minutes (standard deviation [SD] = 0.2 minutes).After a single bolus intravenous injection, alfaxalone has a high plasma CL equal to hepatic blood flow as reported for earlier studies of bolus injections of a previous formulation of alfaxalone. The plasma levels associated with BIS values of <60 are comparable to those previously reported in patients anesthetized with alfaxalone. The t1/2keo is relatively high, but the large Hill coefficient contributes to rapid onset and offset of action. This information can inform future studies of this formulation.CONCLUSIONSAfter a single bolus intravenous injection, alfaxalone has a high plasma CL equal to hepatic blood flow as reported for earlier studies of bolus injections of a previous formulation of alfaxalone. The plasma levels associated with BIS values of <60 are comparable to those previously reported in patients anesthetized with alfaxalone. The t1/2keo is relatively high, but the large Hill coefficient contributes to rapid onset and offset of action. This information can inform future studies of this formulation.
Author Serrao, Juliet M.
Goodchild, Colin S.
Sear, John W.
Anderson, Brian J.
AuthorAffiliation From Drawbridge Pharmaceuticals Pty Ltd, Malvern, Victoria, Australia
Nuffield Department of Anaesthetics, University of Oxford, Oxford, United Kingdom
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  organization: Nuffield Department of Anaesthetics, University of Oxford, Oxford, United Kingdom
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/31124836$$D View this record in MEDLINE/PubMed
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Snippet BACKGROUND:Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been...
Previous formulations of alfaxalone have shown it to be a fast-acting intravenous anesthetic with high therapeutic index. Alfaxalone has been reformulated for...
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SubjectTerms Adolescent
Adult
Anesthetics - administration & dosage
Anesthetics - blood
Anesthetics - pharmacokinetics
Consciousness - drug effects
Consciousness Monitors
Drug Compounding
Half-Life
Healthy Volunteers
Humans
Injections, Intravenous
Male
Metabolic Clearance Rate
Models, Biological
New Zealand
Pregnanediones - administration & dosage
Pregnanediones - blood
Pregnanediones - pharmacokinetics
Young Adult
Title Pharmacokinetic and Pharmacodynamic Analysis of Alfaxalone Administered as a Bolus Intravenous Injection of Phaxan in a Phase 1 Randomized Trial
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https://www.ncbi.nlm.nih.gov/pubmed/31124836
https://www.proquest.com/docview/2232127428
Volume 130
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