Pleural Effusion Clinical Trial
Official title:
Ketotifen as a Treatment for Vascular Leakage During Dengue Fever (KETODEN)
Rationale and Aims: Infection by dengue virus (DENV) causes major morbidity and mortality throughout the world. In 2012, an estimated 3.6 billion people live in areas at risk for DENV infection, including Singapore. The key pathology of DENV infection is vascular leakage, which can occur in mild cases and can become life-threatening in severe cases when patients may develop dengue hemorrhagic fever (DHF) or dengue shock syndrome (DSS). Mast cells (MCs) are strongly activated by DENV with preliminary studies showing that activation levels are correlated to disease severity in human patients. Thus, the investigators propose to use the MC stabilizing drug, ketotifen, to limit the immune pathology that is characteristic of dengue infection and treat dengue-induced vascular leakage. Methods: The ability of Ketotifen to reduce vascular leakage in DENV patients will be determined by assessing the pooling of fluid in the pleural cavity (measured by MRI and CXR) after 5 days of drug administration, evaluated as a percent change compared to baseline fluid levels. Additional measures of vascular leakage and immune pathology will be compared as secondary objectives. The trial will be conducted as a randomized, double-blind study comparing the responses of dengue patients given either ketotifen or placebo (n=55 per arm). Importance of proposed research: Currently, no targeted treatments exist to limit vascular leakage during DENV infection. If Ketotifen is identified as effective for preventing pleural effusion and/or plasma leakage in DENV patients, this would constitute an advance for the clinical management of DENV fever. This finding would also support a large-scale trial to determine whether Ketotifen can be used to prevent severe vascular leakage as occurs during DHF/DSS. Benefits/Risks: Ketotifen has a record of safety and tolerability in humans, regulatory approval, and widespread use. Side effects are generally mild. The potential exists that, if effective, many of the painful and life-threatening symptoms of DENV infection that result from plasma leakage would be improved.
Approximately 230 million individuals are infected each year by dengue virus (DENV) a
Flavivirus spread by mosquito vectors that causes substantial worldwide morbidity and
mortality. Infection by DENV results in dengue fever (DF), which is usually a self-limiting
illness. However, many individuals can experience much more severe forms of disease, such as
dengue hemorrhagic fever (DHF) and dengue shock syndrome (DSS), which are characterized by
widespread vascular pathology, the most prominent manifestation of which is plasma leakage
that can lead to shock and, potentially, death. Currently, treatment for DHF/DSS is
supportive care with analgesics, fluid replacement and bed rest. Management of severe DENV
infections typically requires prolonged hospitalization accompanied by careful fluid
management . At this time, there are no targeted treatments for DF, DHF or DSS, making
improvements in care for DENV patients an urgent clinical need. In particular, there is a
need for therapeutic intervention to prevent the vascular leakage.
Animal studies suggested that drugs in the class of mast cell (MC) "stabilizers" can
effectively limit vascular leakage in mouse models of DENV infection. Drugs targeting MCs
have been in use in humans for decades, particularly for the treatment of allergy and
asthma. One "MC stabilizer", ketotifen, acts by preventing degranulation of MCs. Ketotifen
is an oral drug currently used to prevent asthma. It is most commonly supplied in the form
of a salt with fumaric acid, as ketotifen fumarate. Ketotifen has a clinical track record of
greater than 30 years as a safe drug and it is currently approved for use in Singapore. In
other formulations it is also used to treat irritation and reduce vascular leakage, such as
in the eye. It is a MC stabilizing agent that prevents degranulation of MCs, as well as the
production of additional mediators that are not contained within MC granules, including
leukotrienes and platelet activating factor. Ketotifen also functions as an antihistamine
with direct H1-receptor blocking function. The bioavailability of an oral dose of ketotifen
in humans is approximately 80-90% . Drug levels peak in the serum between 2-4 hours after
ingestion. Patients with asthma sometimes require treatment with ketotifen for weeks prior
to observing improved asthmatic responses, but this is thought to represent the time
required for chronic inflammation to subside and not the time required for MC stabilization,
which occurs immediately in animal models. The mean elimination half-life of ketotifen is 12
hours. Side effects include drowsiness, dry mouth, slight dizziness, central nervous system
(CNS) stimulation and weight gain. Patients are commonly prescribed 1-2mg tablets, twice a
day. Treatment of DENV-infected mice with MC stabilizers, cromolyn or ketotifen, resulted
reduced vascular leakage compared to untreated controls in two separate mouse models of DENV
infection. These findings were apparent using two separate measures of vascular leakage as
the endpoint readout: evans blue perfusion, which is a key experimental technique to show
plasma leakage into tissues, and hematocrit analysis, which is the clinical parameter that
is most commonly used to diagnose DHF in human patients.
This is a randomized, double blind, placebo-controlled, clinical study of ketotifen in
adults with dengue infection. The study will be conducted as an outpatient study at National
University Hospital (NUH) and Singapore General Hospital (SGH), daily with the MRIs and
chest X-rays conducted at the Clinical Imaging Research Centre (CIRC) of the National
University of Singapore (NUS). A final visit at convalescence (Day 21) can be at the site of
enrolment. One hundred and ten (110) patients will be randomized 1:1 to ketotifen or
placebo. A baseline MRI of the pleural cavity, liver, spleen and kidney will be taken.
Tablets of placebo or ketotifen will be self-administered for 5 days. Patients will be given
daily clinical exams, Day 1 to Day 5, and blood samples will be collected for plasma chymase
levels, viral load, hematology, clinical chemistry, inflammatory product profiling and
additional laboratory tests. After the administration of the final dose of drug, blood will
be drawn and a follow up MRI will be performed at the CIRC in NUS to assess fluid
accumulation within the pleural cavity as a primary clinical endpoint, with assessment of
the liver, spleen and kidney as experimental endpoints.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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