CINCINNATI—Transplant researchers at the University of Cincinnati (UC) have received a grant from the U.S. Food and Drug Administration to study the safety and efficacy of a generic immunosuppressive drug in high-risk transplant patients.
Rita Alloway , PharmD, received a $2.25 million FDA grant to run two clinical trials studying the effects of immunosuppressant tacrolimus (Prograf and generics) in high-risk transplant patients.
Tacrolimus is a "cornerstone drug” in post-transplant immunosuppression, used after transplant to reduce the activity of the patient’s immune system and lower the risk of rejection, according to the Medline Plus website . Generic versions were introduced in 2009.
Currently Alloway, a UC research professor of medicine and director of transplant clinical research within the UC Department of Internal Medicine, estimates more than 70 percent of transplant patients are dispensed generic tacrolimus.
"The largest concern for clinicians is the switchability between various generics,” said Alloway, whose work interests are in the area of kidney, liver and pancreas solid organ transplantation. “When patients receive their prescription, they could be getting medication from different manufacturers each month. Most immunosuppressant drugs require individualized dosing and careful management to ensure the proper blood concentrations are maintained.”
The three-year grant will support retrospective and prospective studies in high-risk transplant recipients who have converted from branded tacrolimus to a generic version.
In the retrospective study, transplant recipients will be assessed one year prior and one year post conversion to the generic, with researchers assessing their tacrolimus dose changes, incidence of rejection, hospital admission, changes in renal function and changes in transplanted organ function, according to a release from the University of Cincinnati.
The release indicates that the prospective study will compare the "bioavailability" (the fraction of an administered dose of unchanged drug that reaches the systemic circulation )and steady-state "pharmacokinetics" (branch of pharmacology dedicated to the determination of the fate of substances administered externally to a living organism) of six tacrolimus formulations in a six-way cross-over study.
This study will compare patients who express the CYP3A5 (a protein) enzyme and those who do not, as CYP3A5 expressors have been shown to require larger doses of tacrolimus to attain therapeutic blood concentrations.
Preliminary data from Alloway’s tacrolimus research has suggested a link between CYP3A5 expression and peak tacrolimus levels after dosing in generic tacrolimus formulations.
“This study will analyze an enriched patient population based upon genetic factors which predispose the patient to be high risk and most likely to experience problems with generic switching if problems exist,” states Alloway.
In 2012, Alloway received a $2.7 million grant from the FDA to study whether the two most disparate generic versions of tacrolimus are bioequivalent to the branded, or innovator, version of the drug in stable transplant patients.
“The results of these studies should address public concerns regarding the use of generic tacrolimus formulations in transplant recipients and provide the transplant clinician and recipients with objective data to address their concerns,” she said.