Cholera Clinical Trial
Official title:
Studies of Acute and Memory Immune Responses to Orally Administered Vaccines in Developing Country Children and Factors That May Augment Such Responses
The efficacy and immunogenicity of enteric vaccines have generally been found to be lower in
children in the developed than in the developing countries. This has been observed with
vaccines against cholera rotavirus, ETEC and typhoid vaccines. There are a number of factors
that may contribute to such differences in vaccine "take rates" in children, e.g. breast
feeding and nutritional status of the children might influence their immunogenicity and
efficacy. Thus, breast feeding of newborn and young infants may adversely influence the
immune response to vaccination, which might have more pronounced effect in developing than in
developed countries. Breastfeeding has also been shown to interfere with the serum immune
responses to rotavirus vaccine although this effect could be overcome by administering three
rather than one dose of the oral rotavirus vaccine. Our recent study of Dukoral in
Bangladeshi children aged 18 months or younger has shown that the response rates and the
magnitude of responses improved when breast milk was temporarily withheld . Thus,
administration of vaccines may have to be adjusted when given to breast fed children. Another
factor that may affect the immunogenicity is the effect of zinc. Previous studies have shown
that zinc enhances the immune response to cholera vaccine in participants > 2 years of age ,
a recent study also observed a similar effect in infants.
In this research project, we plan to study a number of different factors that might influence
the immunogenicity of the two licensed oral model vaccines, specifically the inactivated
killed oral cholera vaccine, Dukoral, and the live oral typhoid vaccine, Ty21a. We will also
identify strategies that might improve the immunogenicity of the vaccines. The main objective
of our study is to identify immunization regimens that may improve the immunogenicity of the
vaccines in young children, which could be subsequently in field trials in Bangladesh and
other developing countries. Specifically, we will determine if: (i) interventions identified
to enhance immune responses to Dukoral, including zinc supplementation, could also enhance
the immune responses to Ty21a; (ii) these two vaccines are able to induce both acute and
memory B and T cell responses, (iii) treatment with antiparasitic drugs prior to immunization
could modulate the immune responses to cholera and typhoid vaccines; and (iv) examine if
arsenic exerts a suppressive effect on the immunogenicity of these vaccines.
Research Design and Methods
Vaccine field sites and overall study design:
Mirpur. The vaccine studies will be carried out at the field site in Mirpur, in urban Dhaka,
where oral cholera, ETEC and rotavirus studies as well as amoebiasis studies are being
conducted over the last 15 years . For the Dukoral vaccine, two doses will be given to the
study participants, 14 days apart. In case of Vivotif, 3 doses will be administered on
alternate days i.e. days 1, 3 and 5 or in two doses 28 days apart.
Blood and stool samples will be collected prior to vaccination, and 7 days after intake of
each dose of the cholera vaccine and 7 days after the intake of last dose of typhoid vaccine,
and the volumes to be sampled for immunological assays have been described in Appendix 2. The
participants will not be allowed to eat or drink from one hour before and one hour after
intake of the vaccine. To assess the effect of zinc on immune response to typhoid vaccine in
young children, supplementation will be initiated 2 weeks before the first dose and will
continue up to 21 days after the last (third) dose of typhoid vaccine (that is for a total of
40 days).
Serum zinc concentrations will be determined at baseline only. Venous blood will be collected
in trace element free vacutainers, which will be placed in ice until arrival at the ICDDR,B
laboratory the same day.
Vaccine studies in an arsenic contaminated area in Shahrasti:
Shahrasti thana with a population of around 200,000 is located about 40 kilometers from
Matlab, and is well connected with Comilla, Chandpur and Dhaka by road. According to BAMWSP
(Bangladesh Arsenic Mitigation Water Supply Project), subsoil water in Shahrasti Thana is
heavily contaminated with arsenic; about 99% of the tube wells are reported to have been
contaminated (50 microgram/L). BAMWSP and DGHS have already identified 3000 patients with
skin lesions consistent with arsenic toxicity, and represent the area with the second highest
number of arsenic-induced skin lesions in Bangladesh. In collaboration with ICDDR,B, the
University Chicago and Columbia University are jointly conducting a large longitudinal
surveillance and clinical trial on patients with arsenic induced skin lesion. The aim of this
large study is to reduce skin cancer by evaluating clinical as well biochemical markers. We
plan to study responses of children in these sites to Dukoral using the infrastructure and
facilities from the ongoing studies . The immunogenicity studies will be carried out as
described earlier. We plan to immunize 102 children aged 2-5 years with two doses of Dukoral
at an interval of 14 days. Equal numbers of children will be studied in an area known to have
low levels of arsenic, in Mirpur field site in Dhaka city . This will be the first study to
compare immune responses to a mucosal vaccine in an arsenic prone and arsenic low area.
Informed consent and selection of study subjects for vaccine studies:
Voluntary written informed consent will be obtained from the parent/guardians for
participation of children including their vaccination and sampling of blood and stool for
various assays (Appendices). Healthy children (1 - 5 years) and adults (18-45 years) both
males and females living in the Mirpur field site, who are not currently enrolled in any
other research study, whether conducted by ICDDR,B or other organization, will be screened
and enrolled subject to meeting the eligibility criteria. Similar procedures will be followed
for part of the Dukoral study that will be conducted in Shahrasti.
We have previously experienced that at least 60% of the families do agree to participation of
their children in research studies. The prospective participants of this study will be
carefully examined and assessed by a physician before enrollment. A detailed history of their
previous immunizations will be obtained, and their nutritional status and recent illness (as
outlined below) that could compromise the immune system and family background etc. will be
considered before study enrollment. The participants should be free from any chronic disease
or any recent illness that may compromise the immune system including arsenic related skin
lesions in children in Shahrasti where only Dukoral vaccine would be evaluated.
Children will also be excluded if they have: (i) history of chronic gastrointestinal
disorder; (ii) diarrheal illness in the past 2 weeks (diarrhea defined as passage of 3 or
more abnormally loose or watery stool in a 24 hour period; (iii) any febrile illness in the
preceding week; (iv) other chronic illness; (v) history of receiving antibiotic treatment
within the last 7 day; and (vi) severe protein energy malnutrition (PEM). The nutritional
status of the children will be assessed using anthropometric measurements (weight-for-age,
and weight-for-length/height); children below -2SD for weight for height/length of the NCHS
median will not be enrolled. Similarly, children who have received zinc in the past two
months will also not be recruited.
Baseline laboratory assessments:
Stool: Microscopic examination, and culture for isolation and identification of enteric
pathogens including ETEC. V. cholerae and S.Typhi will be carried out for four days prior to
vaccination. Children who have any of these pathogens isolated from their stool specimen will
not be vaccinated since they will confound evaluation of the response to the vaccine. When
immunization for the second dose of the vaccine will be carried out (14 days after the first
dose) children who have fever or diarrhea will be excluded from the study.
For arsenic related studies, urine will be collected and stored for assessment of levels of
arsenic. This will be carried out in the Biochemistry and Nutrition Unit of ICDDR,B using
standard procedures.
Vaccine, administration and allocation:
Dukoral. The cholera vaccine, Dukoral is produced by the Swedish Bacteriological Laboratories
(SBL Vaccin AB Stockholm, Sweden). This inactivated, oral cholera vaccine consists of killed
bacteria prepared from individual strains of O1 ElTor and classical V. cholerae that include
both LPS and protein antigens, and also contains recombinant B subunit of cholera toxin
(rCTB). One dose of vaccine contains 1.25 x 1011 killed whole cells plus 1 mg of rCTB.
Immediately before use, individual doses of the liquid form of the vaccine will be mixed with
the reconstituted bicarbonate buffer. For children, the vaccine will be suspended in 20 ml
(total 4 teaspoon) of bicarbonate-citric acid buffer [the buffer is prepared by adding 100 ml
water to a sachet of bicarbonate buffer (2 g bicarbonate; 750 mg of citric acid; Recip AB,
Stockholm). For adults, Dukoral will be reconstituted in 100 ml of the buffer.
Vivotif: Live, attenuated oral typhoid vaccine, Vivotif, contains 2-6x109 CFU (colony-forming
units) of S. Typhi Ty21a strain (1,2). The Berna Biotech Ltd, Berne, Switzerland,
manufactures this vaccine. The enteric-coated, typhoid vaccines are packaged as sets of
3-capsules. The vaccine capsule is swallowed with drinking water and administered on
alternate days i.e. days 1, 3 and 5. For immunization of children under 5 years of age, we
plan to administer the vaccine in bicarbonate buffer as is the procedure in for children in
travelers clinics (Sweden and USA). For this purpose the capsule is opened up and the
contents suspended in 20 ml of bicarbonate buffer and then taken orally.
Overall sample size calculations:
The sample size has been estimated for different interventions, using a one-sided hypothesis
with 95% confidence, a minimum detectable mean difference (DMD) of 50% improvement over the
baseline, adjusted for around 15% dropouts.
In earlier Dukoral cholera vaccine studies in Bangladesh, 56% of the recipient children aged
6 months to 2 years responded with vibriocidal antibodies ; For the Vivotif vaccine data from
vaccines aged >6 years documented 67% seroconversion. The sample sizes for different
components of the study have been calculated based on the assumption that 50% of children
will respond to Vivotif. Based on the results obtained with zinc supplementation on the
immune response to Dukoral, that observed increase in the rates with supplementation from 56%
to 79% , and assuming a 30% increase in responses to Vivotif (with around 15 attrition rates)
the sample size will be 75 in each group (with and without zinc).
Prevalence of major enteric parasites in children 2-5 years of age in urban Dhaka is around
78%. To see the effects of anti-parasitic drug therapy prior to cholera and typhoid
vaccination, we will enroll 102 children in each group in Dukoral (n=102x2=204) and and
another 102 children in each group for Vivotif vaccine (102 x 2 = 204). For each vaccine, one
group will be treated while another will not be. Thus we plan to study a total of 408
children to determine effect of anti-parasitic drugs on the immune responses to oral cholera
and typhoid vaccines.
To determine the effect of arsenic on the immune response to Dukoral, we assume that the
immunogenicity of the vaccine among children in the arsenic non-contaminated area will be 55%
and in the contaminated area it will be reduced to 35%. To detect this difference with 95%
confidence and 90% power, we estimated a sample size of 138 in each of the two study areas.
With around 10% loss to follow up the required sample size will be 154. Thus, a total of 308
(154 x 2 = 308) children, aged 2-5 years, will be enrolled.
To determine the acute and memory B and T cell responses to oral cholera vaccine, studies
will be conducted in adults (18-45 years) and children of different age groups (1 -5 years).
For this part of the study, 25 adults, 25 toddlers (2-5 years old), and 25 under-two children
will be vaccinated. For responses to Vivotif, we will only study adults (n=25) and toddlers
(n-25).
The participants will be studied and followed up for the T and B cell responses prior to
immunization, and during early post-immunization period (post- 7 days), and on 30 days, and
6, 12 and 24 months following the last dose.
Administration of associated interventions
Effect of zinc on the immune responses to Vivotif We would like to study the effect of zinc
on the immunogenicity of oral typhoid vaccine and cholera vaccine by supplementing children
with daily zinc sulfate (20 mg/day) for two weeks prior to immunization and until the last
follow-up for sample collection (n=150).
Effect of anti-parasitic drugs on the immune responses to Vivotif and Dukoral A total 408
children will be enrolled to see the effects of anti parasitic therapy prior to cholera and
typhoid vaccination, equal cholera and typhoid. For this purpose children will be given
albendazole (400 mg) and secnidazole (500 mg) one week prior to immunization .
Study the effect of arsenic on the immune response to Dukoral This study will be conducted on
children (2-5 years) in arsenic contaminated area (Shahrasti) and arsenic free area (Mirpur).
For this purpose, a total of 308 children (154 from each site) will be enrolled and
vaccinated with Dukoral. This study will for the first time compare immune responses to a
mucosal vaccine in an arsenic prone and arsenic low area. Urine will be collected from all
participants, prior to immunization for determining arsenic levels.
Determine the acute and memory B and T cell responses to oral cholera and typhoid vaccine in
children and adults:
A total of 150 subjects will be vaccinated and followed up for T and B cell responses over a
period during the early post-immunization period (7 days post-), 30 days, 6, 12 and 24 months
later.
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