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Published in the
Bulletin of Experimental Treatments for AIDS Winter 2002 issue,
by the San Francisco AIDS Foundation.
Winter
2002 Table of Contents
Main Page
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VALGANCICLOVIR
A NEW
TREATMENT
FOR CYTOMEGALOVIRUS RETINITIS
by Michael Marco
In March 2001 the U.S. Food
and Drug Administration (FDA) approved valganciclovir (Valcyte) as a
new treatment for cytomegalovirus (CMV) retinitis. CMV retinitis is
an inflammation of the retina, characterized by loss of visual acuity
(sharpness) or “blind spots.” A herpesvirus, CMV can infect
almost any part of the body, but in persons with HIV it can devastate
the eyes. If left untreated, CMV retinitis can lead to blindness.
History
of CMV
Prior to the HIV/AIDS epidemic (i.e., before 1981), CMV retinitis was
a rare disease occurring only among individuals with primary (inherited)
immunodeficiency syndromes, autoimmune disorders, and those who had
undergone organ transplants or immunosuppressive cancer chemotherapy.
In people with HIV, retinitis is by far the most common manifestation
of CMV. (In persons who have had bone marrow transplants, in contrast,
CMV pneumonitis [lung inflammation] occurs much more frequently than
retinitis.)
From the beginning of the HIV epidemic through 1996, estimates of the
incidence of CMV disease in HIV positive individuals ranged from 10%
to 40%. In the current era of highly active antiretroviral therapy (HAART),
the CMV prevalence rate among those who have access to HAART is less
than 5%. CMV disease generally occurs late in the course of HIV disease
and is associated with very low CD4 cell counts. The average CD4 cell
count in persons with newly diagnosed CMV retinitis is below 30 cells/mm3.
The main symptoms of CMV retinitis include “floaters” (moving
spots), blurred vision, “blind spots” (missing portions
of the visual field), and visions of flashing lights or sparks. Even
subtle visual changes, such as a minor loss of peripheral vision, can
signal the development of CMV retinitis.
Treatments for CMV retinitis are suppressive rather than curative,
that is, they inhibit CMV progression but do not eradicate the virus.
Resistance to the antiviral drugs previously approved by the FDA for
CMV retinitis—intravenous (IV) ganciclovir (Cytovene), foscarnet
(Foscavir), and cidofovir (Vistide)—is common. Until recently,
no oral drug indicated for CMV induction therapy existed. Induction
therapy is used to control the active spread of CMV and usually requires
higher and/or more frequent dosing than is required after the disease
has been brought under control. Once the spread of CMV is controlled,
a lower and/or less frequent dose (known as maintenance therapy) is
used to prevent CMV reactivation. In severely immunosuppressed people
with CMV retinitis, lifelong maintenance therapy is recommended to keep
the infection in a quiescent, or inactive, state. However, many people
taking HAART have been able to stop preventive therapy. Recently published
guidelines from the U.S. Public Health Service (USPHS) and the Infectious
Diseases Society of America (IDSA) indicate that “discontinuation
of [secondary CMV] prophylaxis may be considered in patients with a
sustained (e.g., greater than three- to six-month) increase in CD4 cell
count to greater than 100–150 cells/mm3 on HAART.”
Pivotal
CMV Study: Valganciclovir
Valganciclovir is the oral prodrug of IV ganciclovir. A prodrug is
an inactive form of a drug that is converted within the body to a usable,
or active, form. Valganciclovir is thus converted into ganciclovir when
taken into the body as a pill. In 1997 the FDA declined to approve valganciclovir
solely on the basis of pharmacokinetic data (information about drug
absorption, metabolism, and elimination) demonstrating that WATCH a
900 mg daily dose of valganciclovir yielded drug levels comparable to
standard daily IV ganciclovir at a dose of 5 mg/kg (as measured by area
under the curve, or AUC, an expression of the total drug concentration
in the blood plasma over time). Instead, the FDA required Hoffmann-La
Roche, the manufacturer of valganciclovir, to conduct a randomized,
controlled clinical trial demonstrating equivalence between valganciclovir
and IV ganciclovir for CMV retinitis induction therapy.
Roche WV 15376 was a registrational study by Hoffmann- La Roche that
evenly randomized 160 persons with CMV retinitis to receive either valganciclovir
or IV ganciclovir. (A registrational, or pivotal, study is designed
specifically—with input from the FDA—to produce data to
be considered by the FDA for the drug’s approval.) Valganciclovir
was taken at a dose of 900 mg twice daily for three weeks, followed
by 900 mg once daily for one week; IV ganciclovir was taken at a dose
of 5 mg/kg twice daily for three weeks, followed by 5 mg/kg once daily
for one week. After the four-week induction phase, all participants
received maintenance therapy with open-label valganciclovir (900 mg
daily). The primary study endpoint was CMV retinitis progression within
four weeks of initiating treatment. Progression was measured using fundus
photography, a specialized form of medical imaging used to diagnose
abnormalities in the eye. Progression was defined as expansion or enlargement
of an existing retinal lesion greater than or equal to 750 mm or the
appearance of new lesions greater than or equal to 750 mm in diameter.
Statistically, the study was not a traditional head-to-head comparison
(comparing two drugs with each other), but a noninferiority study (proving
that one medication is not inferior to another). The study was powered
to show that valganciclovir was not 10% less effective than IV ganciclovir.
Both study arms were similar in terms of baseline demographics and disease
status: approximately 90% were men, approximately 70% were taking HAART,
the median CD4 cell count was 23 cells/mm3, the median HIV viral load
was approximately 4,000 copies/mL, approximately 24% had zone 1 retinitis,
and approximately 25% had bilateral retinitis (i.e., in both eyes).
[Ed. note: Assessments of retinal abnormalities are described using
a grading protocol defined in terms of zones that specify the location
of lesions. The diameter of the optic nerve (the optic “head”)
is used as a unit of measurement such that “zone” is a unique
measure for a given individual; specifically, zone refers to the number
of optic head distances from the center. Zone 1 retinitis refers to
lesions within the optic nerve; zones 2 and 3 refer to lesions located
two and three diameter-lengths away from the optic nerve, respectively,
and so on.]
Study
Results
Of 146 participants who completed the four-week induction phase, seven
of 73 participants (10%) in the valganciclovir arm experienced retinitis
progression, compared with seven of 73 (10%) in the IV ganciclovir arm.
No progression was seen in 64 and 63 participants, respectively, in
the valganciclovir and IV ganciclovir arms. Hoffmann-La Roche also carried
out an open-label safety study, Roche WV 15705, involving approximately
200 participants. No significant differences in adverse events or hematological
(blood) toxicities were noted between the valganciclovir and IV ganciclovir
arms.
Safety
Data
Safety data for the Roche WV 15376 study were available for 158 participants.
Adverse events were similar for valganciclovir and IV ganciclovir: headache
(9% vs 5%, respectively), diarrhea (16% vs 10%), fever (13% vs 11%),
nausea (8% vs 14%), and vomiting (11% vs 6%). The administration of
both IV ganciclovir and IV foscarnet requires long-term catheters, or
plastic tubes, placed in large central veins (usually underneath the
collarbone); catheters are prone infection. Not surprisingly, the IV
ganciclovir group had significantly more infection: 2% for valganciclovir
vs 11% IV ganciclovir. There were no significant differences in hematological
abnormalities between the valganciclovir and ganciclovir arms: absolute
neutrophil count less than 750 cells/mm3 (21% vs 19%), hemoglobin 6.5–8.0
g/dL (5% vs 3%), and low platelet counts of 25,000–50,000 cells/mm3
0% vs 1%). [Ed. note: Neutrophils are a type of immune system white
blood cell that protects against bacterial infections. Hemoglobin is
a measure of red blood cell oxygencarrying capacity; a low hemoglobin
level is an indication of anemia. Platelets are cell fragments necessary
for normal blood clotting.]
The safety profile of valganciclovir is almost identical to that of
IV ganciclovir. The most serious toxicity of both valganciclovir and
IV ganciclovir is neutropenia (low neutrophil count), which leaves those
taking the drug prone to infection. In the Roche WV 15376 study, approximately
20% participants experienced a grade 3 or 4 adverse event by week 4.
[Ed. note: In clinical trials, symptoms are graded on basis of severity
and frequency. Grade 1 side effects are mild and transient, grade 2
side effects are moderate or persistent, grade 3 adverse effects are
severe, and grade 4 side effects are life-threatening.]
Conclusion
Valganciclovir has been shown to provide systemic drug levels (AUC)
comparable to IV ganciclovir. Hoffmann-La Roche fulfilled the FDA Antiviral
Drugs Division’s approval requirements by carrying out a randomized,
controlled Phase study of valganciclovir, which showed that valganciclovir
was not inferior to IV ganciclovir for induction therapy for AIDS-related
CMV retinitis. The recommended dosage of valganciclovir for individuals
with active CMV retinitis is 900 (two 450 mg tablets) taken with food
twice daily for 21 days. Following induction treatment, the recommended
dosage is 900 mg (two 450 mg tablets) taken with food once daily.
Hoffmann-La Roche should be commended for testing valganciclovir against
the “gold standard” treatment, IV ganciclovir; other available
CMV antiviral drugs were approved using the quick and easy immediate
vs deferred trial design (in which some participants are given the drug
at the start of the trial and compared with other participants who receive
no treatment until later in the study). Valganciclovir is the first
drug that has been tested against IV ganciclovir for induction therapy
for CMV retinitis since the Studies of Ocular Complications of AIDS
(SOCA) Research Group tested IV foscarnet vs IV ganciclovir in 1990.
In the 13 years since the FDA approved IV ganciclovir, the prevalence
of AIDS-related CMV retinitis has declined dramatically in industrialized
countries, due in large part to the use of HAART. Nevertheless, having
an effective oral agent to treat CMV—freeing those who need treatment
from the risks and discomfort of IV therapy—will completely alter
the clinical management of this infection.
A similar article by Michael Marco appears on TAG’s Web site
www.aidsinfonyc.org/tag/comp/valgposition.html.
Michael Marco is director of the Infections and Oncology Project
of the New York-based Treatment Action Group (TAG).
CMV
Factors and Diagnosis
Factors most associated with CMV disease are a CD4 cell count
below 50 cells/mm3 and at least one other prior opportunistic
infection (OI). Recent studies have shown that anyone who has
detectable CMV levels using the PCR (polymerase chain reaction)
viral load test, or who is either CMV antigen or culture positive,
is at higher risk for developing CMV disease; however, a measurable
CMV level by itself does not always correlate with active infection
or symptomatic disease.
The diagnosis of CMV retinitis is usually confirmed by an ophthalmologist,
a physician who specializes in diseases of the eye. The ophthalmologist
applies chemicals to dilate the eye, making it easier to look
inside the eyeball for evidence of retinal lesions that may be
caused by CMV. The virus also commonly attacks the gastrointestinal
tract (stomach and intestines) and the nervous system (brain and
spinal cord); the diagnosis of CMV disease in other parts of the
body is usually done by performing a biopsy of tissue from the
suspected organ.
For more information about CMV see: www.cdc.gov/ncidod/diseases/cmv.htm
www.projinf.org/fs/cmv.html
www.aegis.com/topics/oi/oi-cmv.html
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last updated 21 March 2002
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