Transplantation Infection Clinical Trial
Official title:
Study Aimed at Determining the Relation Between the Administered Dose and Exposure to Immunosuppressive Medication in Children After Solid Organ Transplantation
The long-term success of solid organ transplantation is largely dependent on the efficacy of
immunosuppressive medication. Unfortunately, for the most important agents the correct drug
levels are difficult to attain, with potential severe consequences of drug under- or
overexposure. In addition there is a large variation in dose requirements within and between
different subjects. Clinical studies have demonstrated that a better control of drug
exposure can improve outcome. A large set of patient characteristics appear important in
determining dose requirements in adults, in particular genetic variation in genes involved
in drug metabolism. In children relative dose requirements are increased compared to adults,
but is not known why and the role of pharmacogenetic variation has not been described.
Our study aims to describe relative dose requirements in children after solid organ
transplantation with the help of clinical and laboratory data obtained during regular
hospital visits (retrospective). In addition we will assess their genotype for genes
involved in the metabolism of immunosuppressives.
The success of solid organ transplantation is for an important part determined by the
potency of the immunosuppressive regime to prevent allograft rejection. Depending on the
type of organ transplanted current 5-year graft survival for liver is circa 70% and for
kidney almost 80% (1-3). Although acute rejection has become less a problem, analyses of
data on the follow-up of solid organ recipients has demonstrated that long-term allograft
survival has not improved much in the last decade. The life expectancy of a donor organ
appears limited due to phenomena such as chronic, antibody mediated, rejection and the toxic
effects of immunosuppressive medication.
Unfortunately, the most commonly applied immunosuppressive agents (in particular the
calcineurin-inhibitors) possess a narrow therapeutic index with potential severe
consequences of drug under- or overexposure. Furthermore, in clinical practice optimal
dosing is difficult to achieve due to important inter- and intraindividual variation in drug
pharmacokinetics. Consequently attention has shifted towards designing a "tailored
immunosuppressive maintenance therapy", aimed at optimization of drug efficacy and the
prevention of these unintended and possible deleterious side effects in the individual
recipient. For a "perfect fit" this entails a fundamental knowledge of the individual
characteristics of the recipient and its graft in relation to the pharmacodynamic and
-kinetic properties of the agent.
A complex and often interdependent set of factors appears relevant in determining drug
exposure. These include recipient characteristics such as age, race, body composition, organ
function (intestine-liver-kidney), food and concomitant medication intake, but also
graft-related characteristics such as: seize, donor-age, and time after transplantation.
Longitudinal and cross-sectional analysis of clinical and genetic co-variables in allograft
recipient cohorts has identified several single nucleotide polymorphisms (SNPs) in genes
encoding for enzymes and transporters involved in drug metabolism(CYP3A4, CYP3A5, MDR1),
which were associated with differences in dosing and toxicity (4-10). In particular carriers
of a common polymorphism in CYP3A5 (designated CYP3A5*1) demonstrate a 25-40% increase in
tacrolimus clearance and a 2-3 fold increase in dose requirements.
In children the dose requirements per kg bodyweight to attain desired blood concentrations
are approximately 2.7 fold higher for patients under 5 years and 1.9 fold higher for
patients aged 5 to 12 years when compared to older patients11-14. Age-related differences in
expression of enzymes or transporters involved in drug metabolism might play an important
role. Fakhoury et al demonstrated an increase in intestinal CYP3A4/5 mRNA and protein
expression from childhood to adulthood (15). In addition other factors such as intestinal
transit time and length, body composition, protein binding, body metabolism and organ
function, might be important in determining dose requirements in children (16-18). The
importance of the aforementioned genetic polymorphisms on long-term dose requirements have
not been studied in children.
Objective:
To describe dose requirements of immunosuppressive medication in relation to a set of
clinical and non-clinical (genetic) factors in a cohort of pediatric recipients of a solid
organ allograft.
Methods:
A retrospective study in a single center (University Hospitals Leuven) with an active
program for pediatric kidney, liver and intestinal transplantation. The study population
consists of subjects who received a solid organ transplant (liver, kidney, intestine,
combined) between 0 and 18 years of age.
As a part of their standard care patients are admitted to the department for a yearly
check-up after transplantation. During this admission a set of investigations are performed
to evaluate the current medical situation, including an elaborate pharmacokinetic (PK)
assessment. Patient characteristics and clinical data (age, bodyweight, sex, type of graft,
cause of organ failure, co-medication, laboratory results, PK data) will be retrieved from
the patient files concerning these follow-up admissions. In addition patients and/or their
parents will be requested permission to collect one extra tube of whole blood (ca 8 ml) for
DNA analysis during a standard blood collection at a regular hospital/outpatient visit.
After collection patient data will be given a code for further anonymous storage and
analysis. DNA SNP analysis will take place at our laboratory for pediatric nephrology with
PCR.
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Observational Model: Cohort, Time Perspective: Retrospective
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