Pharmacokinetics of Sublingual Versus Oral Tacrolimus in Patients Awaiting Kidney Transplantation

Kidney Failure, Chronic Clinical Trial

Official title:

Pharmacokinetic Evaluation of Sublingual Versus Oral Tacrolimus Administration in Patients Awaiting Kidney Transplantation

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT00629122
• Other study ID #: 0710009492
• Status: Completed
• Phase: Phase 4
• Start date: February 2008
• Est. completion date: December 2009

Study information

• Verified date: May 2019
• Source: Weill Medical College of Cornell University
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Tacrolimus (Prograf) belongs to a class of medications known as the calcineurin inhibitors. It is a maintenance drug that is used to prevent rejection in kidney, liver, and heart transplant recipients. Calcineurin inhibitors display high pharmacokinetic (the body's effects on a drug) variability and necessitate use of blood tests to ensure that adequate drug levels are present to maintain effectiveness and safety. Early after transplant or at times when tacrolimus cannot be taken by mouth, alternative routes of administration are sought. Although an intravenous (through the vein) product is available, it can be toxic to the kidneys and has been associated with allergic reactions. Drug delivery via the oral mucosa is an alternative method of systemic drug administration which offers an alternative when oral administration is impractical (gastrointestinal dysmotility, reduced drug absorption, intestinal failure, difficulty in swallowing, or in those with nausea or vomiting). Administration of tacrolimus by the sublingual route may allow for direct entry into the systemic circulation and bypasses problems associated with drug absorption and breakdown that take place in the small intestine.

Description:

Tacrolimus (Prograf) belongs to a class of medications known as the calcineurin inhibitors. It is a maintenance drug that is used to prevent rejection in kidney, liver, and heart transplant recipients. Calcineurin inhibitors display high pharmacokinetic (the body's effects on a drug) variability and necessitate use of blood tests to ensure that adequate drug levels are present to maintain effectiveness and safety. The amount of oral tacrolimus that is absorbed varies in all patient populations studied. Tacrolimus is metabolized or broken down for elimination by the liver and small intestine via cytochrome P450 (CYP)3A4, CYP 3A5, and p-glycoprotein enzyme systems. Enzyme activity is affected by several single nucleotide polymorphisms (SNPs) in an individuals genetic make-up and differences in expression may contribute to variations in tacrolimus pharmacokinetics. There are number of drug-drug interactions where concomitantly administered medications can increase or decrease this break down of tacrolimus. Early after transplant or at times when tacrolimus cannot be taken by mouth, alternative routes of administration are sought. Although an intravenous (through the vein) product is available, it can be toxic to the kidneys and has been associated with allergic reactions. Studies in lung transplant recipients have utilized sublingual (under the tongue) tacrolimus administration with successful outcomes. Drug delivery via the oral mucosa is an alternative method of systemic drug administration which offers an alternative when oral administration is impractical (gastrointestinal dysmotility, reduced drug absorption, intestinal failure, difficulty in swallowing, or in those with nausea or vomiting). Administration of tacrolimus by the sublingual route allows for direct entry into the systemic circulation and bypasses problems associated with drug absorption and breakdown that take place in the small intestine. In order to learn more about the possible role of sublingual tacrolimus among transplant recipients we will administer tacrolimus sublingually. In addition, we will evaluate differences in expression and bioactivity of SNP polymorphisms and their effects in tacrolimus pharmacokinetics. Patients awaiting kidney transplantation who are listed on the kidney transplant waiting list or those with upcoming living donor transplants at our center will be administered five doses of sublingual tacrolimus followed by five doses of oral tacrolimus. We will evaluate and then compare the pharmacokinetic characteristics of sublingual and oral tacrolimus administration among the study participants. The purpose of this study is to assess the pharmacokinetic and pharmacodynamic parameters of tacrolimus after sublingual and oral administration. A secondary objective is to assess the drug-drug interaction between concomitant therapy with clotrimazole.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 5
• Est. completion date: December 2009
• Est. primary completion date: December 2009
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years and older

Eligibility

Inclusion Criteria:

• Adult patients awaiting kidney transplantation aged = 18 years

Exclusion Criteria:

• Patients concurrently treated with medications that interact with tacrolimus (other than clotrimazole)

Related Conditions & MeSH terms

• Kidney Failure, Chronic
• Renal Insufficiency

Intervention

Drug:
• Tacrolimus (Arm B)
Study day 1 (9a): Initiate sublingual (SL) tacrolimus and clotrimazole troche x 5 doses; Study day 3 (9a): Collection of pharmacokinetic parameters around the 5th SL tacrolimus dose; Study day 3 (9p): Start washout period, no drug administration (tacrolimus, clotrimazole); Study day 5 (9p): End washout period; Study day 6 (9a): Initiate oral tacrolimus and clotrimazole troche x 5 doses; Study day 8 (9a): Collection of pharmacokinetic parameters around the 5th oral tacrolimus dose; Study day 15: Contact subject by telephone to assess for any adverse effects. To ensure that dietary intake does not affect the absorption profile of tacrolimus we will ensure that breakfast is given 15 minutes prior to drug administration on the days of pharmacokinetic assessment (study day 3 and 8).
• Clotrimazole Troche
Study day 1 (9a): Initiate sublingual (SL) tacrolimus and clotrimazole troche x 5 doses; Study day 3 (9a): Collection of pharmacokinetic parameters around the 5th SL tacrolimus dose; Study day 3 (9p): Start washout period, no drug administration (tacrolimus, clotrimazole); Study day 5 (9p): End washout period; Study day 6 (9a): Initiate oral tacrolimus and clotrimazole troche x 5 doses; Study day 8 (9a): Collection of pharmacokinetic parameters around the 5th oral tacrolimus dose; Study day 15: Contact subject by telephone to assess for any adverse effects. To ensure that dietary intake does not affect the absorption profile of tacrolimus we will ensure that breakfast is given 15 minutes prior to drug administration on the days of pharmacokinetic assessment (study day 3 and 8).
• Tacrolimus (Arm A)
Study day 1 (9a): Initiate sublingual (SL) tacrolimus and nystatin suspension x 5 doses; Study day 3 (9a): Collection of pharmacokinetic parameters around the 5th SL tacrolimus dose; Study day 3 (9p): Start washout period, no drug administration (tacrolimus, nystatin); Study day 5 (9p): End washout period; Study day 6 (9a): Initiate oral tacrolimus and nystatin suspension x 5 doses; Study day 8 (9a): Collection of pharmacokinetic parameters around the 5th oral tacrolimus dose; Study day 15: Contact subjects by telephone to assess for any adverse effects. To ensure that dietary intake does not affect the absorption profile of tacrolimus we will ensure that breakfast is given 15 minutes prior to drug administration on the days of pharmacokinetic assessment (study day 3 and 8).
• Nystatin Suspension
Study day 1 (9a): Initiate sublingual (SL) tacrolimus and nystatin suspension x 5 doses; Study day 3 (9a): Collection of pharmacokinetic parameters around the 5th SL tacrolimus dose; Study day 3 (9p): Start washout period, no drug administration (tacrolimus, nystatin); Study day 5 (9p): End washout period; Study day 6 (9a): Initiate oral tacrolimus and nystatin suspension x 5 doses; Study day 8 (9a): Collection of pharmacokinetic parameters around the 5th oral tacrolimus dose; Study day 15: Contact subjects by telephone to assess for any adverse effects. To ensure that dietary intake does not affect the absorption profile of tacrolimus we will ensure that breakfast is given 15 minutes prior to drug administration on the days of pharmacokinetic assessment (study day 3 and 8).

Locations

Country	Name	City	State
United States	NewYork-Presbyterian Hospital	New York	New York

Sponsors (1)

Lead Sponsor	Collaborator
Weill Medical College of Cornell University

Country where clinical trial is conducted

United States, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	C0 (ng/mL)	Trough concentration	Day 3 and Day 8, time 0 (before tacrolimus dose)
Primary	Cmax	Maximum concentration (ng/mL)	Day 3 and Day 8, at time of maximum concentration
Primary	Tmax	Time to Maximum concentration (hours)	Day 3 and Day 8, time of maximum concentration
Primary	Estimated AUC 0-6	Area Under the Concentration-Time Curve from 0-6 hours (mg-hr/L)	Day 3 and Day 8, calculated based on concentrations measured between hours 0 and 6
Primary	Tacrolimus Powder Dissolution Time	Tacrolimus Powder Dissolution Time during Sublingual Administration (minutes)	Day 3, minutes to powder dissolution
Secondary	Drug Interactions and Genotypes	Impact of drug interaction between tacrolimus and clotrimazole troche vs. nystatin suspension. Evaluate genotype polymorphisms that influence CYP3A4, CYP3A5, and p-glycoprotein expression to determine impact on sublingual and oral tacrolimus delivery.	2 weeks