Death Clinical Trial
Official title:
Long-Term Valcyte Therapy in Transplant Patients and the Development of Ganciclovir Resistant CMV
CMV viral disease negatively affects transplant patients. CMV is the most prevalent
infection in transplant patients and 3 month drug regimens to prevent the virus have been
mostly unsuccessful, usually after the drug has been stopped, the patient develops the viral
disease. Extended use of anti-viral drugs may, in fact, may lead to the development of
resistant virus. We hypothesize that extended use (12 months) of valganciclovir
(Valcyte™)will not only be efficacious but will not be associated with the development of
resistant CMV.
Sample Size: 100 patients at 3 sites have been enrolled
Patient Selection: Adult (>18 years) recipients of cadaveric or living donor kidneys,
pancreas, or combine kidney-pancreas transplants.
Immunosuppression: To be determined according to each center’s standard protocol (s).
Study Drug: Valcyte™ Days 0 – 90: All Patients, 900 mg QD
Days 91 – 365:
Group 1: 900 mg QD Group 2: 450 mg QD
Assessment of Valgancicovir (Valcyte™)Resistant CMV : Serial serum samples (at transplant, 6
weeks, and 3, 6, 9 and 12 months post-transplant) for PCR amplification and DNA sequence
analysis from detectable CMV to identify the presence of mutations within the UL97 and UL54
genes.
Other Analyses:
Additional information will be evaluated relating to the development of CMV disease,
development of ganciclovir toxicity, graft rejection or graft loss and patient death.
Preliminary information regarding the predictive value of DNA assays for the development of
CMV disease will be evaluated.
CMV infection occurs most frequently in the first three months following transplantation and
following treatment for acute rejection; both instances can be related to relatively high
levels of immunosuppression relative to stable long-term allograft recipients. Disease then
can occur and is manifest as fever, low white blood cell count, pneumonitis,
gastroenteritis, hepatitis, retinitis, and a multitude of other symptoms.
Ganciclovir, a potent inhibitor of the herpesviridae DNA polymerase encoded for on the
unique long (UL54) region of the CMV genome, has had a significant impact on both the
prophylaxis and treatment of CMV infection in transplant patients. CMV-infected cells
produce a phosphotransferase, or kinase (UL97 region) that phosphorylates ganciclovir to
ganciclovir-triphosphate. The triphosphate product inhibits CMV replication by competitively
inhibiting the incorporation of deoxyguanine triphosphate (dGTP) into the DNA region
encoding the polymerase (UL54 region), thus resulting in the premature termination of viral
DNA synthesis. Resistance to ganciclovir is conferred when mutations occur on the UL97
region of the CMV genome.
Ganciclovir is available in either an oral or an intravenous formulation. The obvious
advantages of the oral formulation are somewhat offset by the fact that its bioavailability
is only 8 to 10%. The product has been reformulated with the addition of an L-valyl ester;
the resulting compound, valganciclovir (Valcyte™) is metabolized to ganciclovir and has a 3
to 7 fold increase in bioavailability and is able to maintain serum concentrations
equivalent to the intravenous formulation. This provides a convenient method for obtaining
therapeutic concentrations of ganciclovir for extended periods of time without the need for
in-dwelling intravenous lines.
The optimal length of treatment has not been established and relapse rates as high as 25%
are common upon cessation of the antiviral agent.6 Patients with CMV disease are initially
treated with intravenous ganciclovir for two or more weeks, and then with an oral agent for
many weeks thereafter. Current laboratory technology allows detection of active viral
replication, either through the detection of the pp65 antigen on the surface of infected
leukocytes or through the use PCR amplification for the detection of viral DNA. It is
however, still unclear whether the best therapeutic option is to treat until symptoms
disappear or to treat until evidence of active viral replication ceases.
The question of whether or not prolonged exposure to ganciclovir will result in an increase
in the incidence of resistant CMV strains has not been answered. There is also a theoretical
increase in the risk of selection pressure for resistant CMV when the lower dose of
valganciclovir (450 mg) is used. This proposal will document the emergence of
ganciclovir-resistant strains of CMV in high-risk kidney, pancreas, or combined
kidney/pancreas transplant patients receiving long-term suppressive therapy with Valcyte™
and will also address the issue of selection pressure by randomizing for low and high dose
valganciclovir prophylaxis. Emergence of resistance will be defined as detection of a
resistance-conferring mutation in the UL97 (phosphotransferase) or UL54 (DNA polymerase)
open reading frame of detectable CMV.
Objectives
Primary
To document:
1. The emergence of ganciclovir-resistant CMV by PCR amplification and DNA sequence
analysis for detecting resistance-conferring mutations of UL97 and/or UL54 open reading
frames.
2. The development and time-to-onset of CMV disease
Secondary
To document:
1. The development of ganciclovir toxicity
2. Loss of kidney and/or pancreas graft function
3. Patient death
Tertiary
To attempt to determine the predictive value of DNA assays for the development of CMV
disease.
Study Design
This will be a phase 4, 4 center, and randomized pilot study. Kidney, pancreas or combined
kidney/pancreas transplant patients that receive induction anti-thymocyte globulin or OKT3
and/or are either seropositive for CMV or receive a graft from a CMV seropositive donor will
receive Valcyte™ 900 mg daily for 90 days. Patients will then be randomized to either 450 mg
or 900 mg Valcyte™ each day for days 91 to 365. Patients will be serially monitored for the
development of ganciclovir-resistant CMV. Patients will receive standard immunosuppression,
antibacterial and antifungal prophylaxis, and other necessary medications as determined by
their physicians.
Statistical Analysis
Primary Endpoints: Time to development of any CMV disease or emergence of
ganciclovir-resistant CMV.
Methods: Kaplan-Meier product limit estimates for median time to CMV disease for both
treatment groups will be used, and a Kaplan-Meier survival curve will be plotted to compare
treatment difference. Kaplan-Meier product limit estimates for median time to CMV resistance
for both treatment groups will be used, and a Kaplan-Meier survival curve will be plotted to
compare treatment difference. In addition, the Cox regression will be performed to compare
treatment groups using treatment as a covariate in the model.
Secondary Endpoints: Incidence of ganciclovir toxicity, loss of kidney and/or pancreas, and
patient death.
Methods: Cox regression will be performed to compare treatment groups using treatment and
incidence of resistance as covariates in the model. Fisher’s exact test will be used to
analyze the loss of kidney and/or pancreas allograft function, and patient mortality.
Toxicity within the two prophylaxis cohorts will be compared using Fisher’s exact test,
also.
Tertiary Endpoint: Efficacy of DNA assay to predict CMV disease. Method: A two-tailed t test
comparison will be used to test the hypothesis that high copy numbers of CMV DNA correlate
with the development of CMV disease. Additionally, a test based on a Cox proportional hazard
model will be used to assess other variables and their impact on the development of CMV
resistance and their relationship to copy numbers of DNA.
The above parameters will be assessed at three time points…6 months from the initiation of
the trial, at 12 months post enrollment for each patient, and again at 24 months
post-enrollment.
Materials and Methods
Definitions of CMV CMV Infection
CMV infection is defined as the isolation or identification of CMV from any site (blood,
urine, sputum, stool), positive seroconversion (presence of positive CMV IgM or a four-fold
increase in the titer of CMV IgG), or evidence of CMV viral replication (pp65 antigenemia or
positive CMV by PCR amplification techniques) in the absence of clinical symptoms.
CMV Syndrome
CMV syndrome is defined as a virologically confirmed illness with any of the following:
fever, pneumonia, leukopenia, lymphocytosis, thrombocytopenia, serum alanine aminotranferase
levels > 2.5 x normal, with or without “flu–like” manifestations of viral immunity (malaise,
myalgias, arthralgias, anorexia, nausea, vomiting). Any patient presenting with any of these
signs or symptoms at any time during this study will have blood, body fluid, and/or biopsy
specimen sent for viral confirmation which may include any of the following studies:
histology for the presence of inclusion bodies, immunofluorescence of antibody to pp65
antigen or qualitative presence of CMV genome by PCR amplification.
CMV Disease
CMV disease will be defined as CMV infection and syndrome with any of the following:
evidence of host cellular viral inclusions on biopsy or body fluid for cytology, a positive
conventional viral culture for CMV, a positive “rapid antigen” test for the presence of pp65
antigen on the cell surface of buffy coat leukocytes, or the qualitative presence of CMV DNA
as analyzed by PCR amplified virus. Specimens used for the above diagnostic procedures may
include blood, liver or lung biopsy, endoscopic mucosal biopsy or brushing, bronchoalveolar
lavage, or cerebrospinal fluid.
Severe CMV Disease
Severe CMV disease is defined as CMV disease in two or more organs or one or more of the
following: CMV pneumonia, CMV retinitis, CMV CNS involvement, and invasive fungal or
parasitic disease in association with CMV infection of any sort.
CMV Mortality
CMV mortality is defined as any death due to symptomatic CMV disease or death from any
opportunistic infection while there is evidence of CMV disease or ongoing CMV viral
replication.
Ganciclovir Resistant CMV
Ganciclovir resistant CMV is defined as the detection of a resistance-conferring mutation of
the UL97 and/or the UL54 open reading frame by DNA sequence analysis of PCR amplified CMV
genome.
Valganciclovir (Valcyte™)
Valcyte™ is a product of Roche Laboratories, Nutley, New Jersey. Patients will receive 450
or 900 mg per day depending on the stage of the study and the individual’s randomization.
Dosage will be adjusted for renal insufficiency as per package insert. If creatinine
clearance (crcl) is >60 (ml/min), no adjustment is needed. If crcl is 40-59, patients can
only receive up to 450 mg once daily. Therefore, those randomized to the 900mg/day cohort
will receive 450 mg and those randomized to receive 450 mg/day will receive 450 mg every
other day (QOD). If creatinine clearance is less than 40 and will never improve, patients
will be excluded or terminated from the study.
Immunosuppression
Immunosuppressive medications will be administered according to the protocols in place at
each participating center. The choice of maintenance immunosuppression and treatment for
rejection will be at the discretion of the center’s principal investigator.
Concomitant Anti-infectives
Patients enrolled in the study will receive anti-bacterial and anti-fungal prophylaxis as
determined by the protocol in place for their transplanted organ at their transplant center.
The use of antibiotics and anti-fungals for the treatment of disease will be at the
discretion of the individual patient’s physician.
Hematopoietic Growth Factors
Regrastim (GM-CSF) (Prokine® Hoechst-Roussel, and Leukine®, Immunex) and filgrastim (G-CSF)
(Neupogen®, Amgen) may be used at the discretion of the physician for the treatment of
leukopenia, including ganciclovir-related leukopenia.
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