Rotavirus Gastroenteritis Clinical Trial
Official title:
A Randomized Phase I/II Study to Evaluate Safety & Reactogenicity of Heat Stable Rotavirus Vaccine, in Healthy Adult; Followed by Evaluation of the Safety, Reactogenicity & Immunogenicity of a 3-dose Series in Infants Age 6-8 Weeks
Rotaviruses are the leading cause of severe, dehydrating diarrhoea and related deaths in
children aged less than 5 years worldwide and are reported to infect nearly every child by
the age of 5 years. About 90% of all rotavirus-associated fatalities occur in low income
countries in Africa and Asia and are related to poor health care. In view of high global RVGE
burden, the World Health Organization (WHO) on 5th June 2009, recommended the inclusion of
rotavirus vaccine in all the national immunization programs.
Currently available rotavirus vaccines, RotaTeq® and Rotarix®, are WHO prequalified vaccines
which are stable for recommended duration at storage temperature between 2-8 °C. However, if
these vaccine are exposed to temperatures above 30 °C, the vaccine has to be discarded due to
lost potency. It is very difficult to maintain the cold chain required to conserve the
vaccine potency particularly in developing and low income countries, resulting in large
amount of vaccine being wasted and in worst case scenario, endangering the lives of potential
recipients. The WHO estimates that nearly half of freeze-dried and quarter of liquid vaccines
are wasted each year. One of the biggest contributors to this wastage is disruption of the
cold chain systems.
Hilleman Labs new Rotavirus vaccine is a lyophilized heat stable rotavirus vaccine comprising
of five live attenuated reassortant rotaviruses similar to RotaTeq®. The new heat stable
rotavirus vaccine (HSRV) formulation offers a stability profile of 9 months at 45 °C and 12
months at 37 °C. This new heat stable formulation (HSRV) could be transported in
non-refrigerated supply chain significantly reducing the cost and complications associated
with transporting vaccine to remote corners of the developing world. Heat-stable rotavirus
vaccine (HSRV) has a potential to sustain high temperatures frequently encountered in regions
where majority of rotavirus burden exists and has potential to partially or completely
eliminate cold chain dependence.
The current study has been designed to test for the first time in humans, the safety and
tolerability of the new heat stable rotavirus vaccine (HSRV) in adults; followed by safety
and immunogenicity in infants of age 6-8 weeks, as compared to the licensed RotaTeq® vaccine.
Rotaviruses are the leading cause of severe, dehydrating diarrhea and related deaths in
children aged less than 5 years worldwide and are reported to infect nearly every child by
the age of 5 years. About 90% of all rotavirus-associated fatalities occur in low income
countries in Africa and Asia and are related to poor health care. In most low income
countries in Asia and Africa, rotavirus epidemiology is characterized by one or more periods
of relatively intense rotavirus circulation against a background of year-round transmission,
whereas in high income countries with temperate climates a distinct winter seasonality is
typically observed. In 2008, WHO estimated approximately 453,000 (420,000-494,000) rotavirus
gastroenteritis (RVGE) associated child deaths worldwide. These fatalities accounted for
about 5% of all child deaths with a cause-specific mortality rate of 86 deaths per 100,000
population aged less than 5 years. In view of high global RVGE burden, the World Health
Organization (WHO) on 5th June 2009, recommended the inclusion of rotavirus vaccine in all
the national immunization programs.
As in other Asian countries, Rotavirus infection is a significant cause of illness and
hospitalizations in Bangladesh with approximately 2.4 million cases being reported every year
and nearly two-thirds of all diarrhea-related hospitalizations in children under age 5. While
progress has been made in reducing diarrhea-related deaths among children, it is still one of
the leading causes of illness among children under 5 in Bangladesh. About half of all
rotavirus hospitalizations were among infants age 6-11 months, Rotavirus vaccines could have
a powerful public health impact if introduced into Bangladesh's national immunization
program.
The basis for developing a rotavirus vaccine rested on the observation that wild-type
rotavirus infection immunized children against subsequent disease. The immunity from
wild-type infection does not prevent all subsequent infections; however, it provides nearly
complete protection against severe disease and substantial protection against mild disease.
The five most prevalent rotavirus genotype/serotype combinations are G1P1A[8], G2P1B[4],
G3P1A[8], G4P1A[8], and G9P1A[8].
Currently, RotaTeq® and Rotarix® are the two WHO prequalified vaccines which are stable for
recommended duration at storage temperature between 2-8 °C. Studies indicate that if these
currently available vaccine, for example RotaTeq®, is inadvertently exposed or stored at
temperatures above 8 °C, the potency is maintained for the maximum exposure of 48 hours at 9
°C to 25 °C or for a bare 12 hours at 26 °C to 30 °C. However, if RotaTeq® vaccine is exposed
to temperatures above 30 °C, the vaccine has to be discarded due to lost potency. There is
limited data to suggest that if the vaccine is inadvertently exposed to temperatures below 0
°C, the potency of the vaccine is maintained. Another, currently available freeze dried
vaccine i.e. Rotarix® vaccine exhibits stability with a shelf life of 36 months at 2 °C to 8
°C.
Hence these vaccines do not possess enough thermostability profile suitable for storage
outside cold chain for any meaningful amount of time and needs to be stored and transported
under refrigeration. It is very difficult to maintain the cold chain required to conserve the
vaccine potency particularly in developing and low income countries, resulting in large
amount of vaccine being wasted and in worst case scenario, not providing protection against
rotavirus infection to potential recipients. Many other existing vaccines do exhibit some
degree of thermostability, however, the existing licensed vaccines possess shorter period of
thermostability (e.g. VVM 7 or VVM 14) which fails to address the issues in developing
countries especially in region of extreme climatic conditions, reaching up to 40 °C.
Heat Stable Rotavirus Vaccine is a lyophilized heat stable rotavirus vaccine comprising of
five live reassortant rotaviruses in RotaTeq®. The parent strains of the reassortants were
isolated from human and bovine hosts. Four reassortant rotaviruses express one of the outer
capsid proteins (G1, G2, G3, or G4) from the human rotavirus parent strain and the attachment
protein (P7) from the bovine rotavirus parent strain. The fifth reassortant virus expresses
the attachment protein, P1A (genotype P[8]), referred to as P1[8], from the human rotavirus
parent strain and the outer capsid protein G6 from the bovine rotavirus parent strain. These
reassortants were suspended in stabilizer solution which was then lyophilized to obtain
thermostable cake. This lyophilized cake will be reconstituted using a reconstitution buffer.
There are no preservatives or thimerosal present in the vaccine. The new heat stable
rotavirus vaccine (HSRV) formulation offers higher titer value even at extreme temperature
conditions up to 45 °C for prolonged periods of time. This new heat stable formulation (HSRV)
could be transported in non-refrigerated supply chain significantly reducing the cost and
complications associated with transporting vaccine to remote corners of the developing world.
The bulk of reassortants virus have been procured directly from Merck and Co., USA, currently
licensed in USA and many countries as liquid formulation RotaTeq®, offering an easier
regulatory path for new heat-stable rotavirus vaccine licensure & WHO prequalification.
Heat-stable rotavirus vaccine (HSRV) has a potential to sustain high temperatures frequently
encountered in regions where majority of rotavirus burden exists and has potential to
partially or completely eliminate cold chain dependence.
The aim of the current study is to assess the safety and reactogenicity of a single dose of
Hilleman Labs.' oral live attenuated HSRV vaccine in healthy adults aged 18 years to 45 years
followed by safety & immunogenicity evaluation in infant population 6-8 weeks of age. In
current study, adult subjects will either receive a single dose of oral live attenuated HSRV
vaccine or placebo at Day 0. There will be a safety follow-up for all subjects for a period
of 14 days after vaccination. The investigators intend to establish the safety of HSRV in
healthy adults prior to testing in infant population. Acceptable safety data from the adult
cohort will allow enrolment of subjects in the infant cohort, after approval from study DSMB.
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