Diarrhoea Clinical Trial
Official title:
An Observational Study to Evaluate Causes of Rotavirus Vaccine Failure in Zambian Children in the Context of Routine Immunization Services
Zambia recently introduced routine infant immunization against rotavirus - the most important
cause of severe gastroenteritis and diarrhoea mortality in children. Although vaccines like
Rotarix are a cost effective tool against infectious diseases, live oral vaccines can be less
immunogenic and efficacious in developing world settings as compared with industrialized
countries. Reasons behind this phenomenon are not well understood, but may relate to
continued maternal antigen exposure and high level maternal immunity that is passed to the
foetus/newborn transplacentally and/or through breast milk.
Therefore, three arising hypotheses include: (i) high-level rotavirus-specific maternal
immunity (in the form of anti-rotavirus breast-milk immunoglobulin A (IgA) and transplacental
serum IgG) is a major contributor to failed seroconversion following infant vaccination. (ii)
Malnutrition negatively impacts infant immunity and increases the risk of post-vaccination
rotavirus gastroenteritis. (iii) Introduction of rotavirus vaccine will alter the molecular
epidemiology of circulating rotavirus strains detected in vaccinated children presenting with
severe diarrhea.
To address these hypotheses, the proposed study will recruit a prospective cohort of 420
mother-infant pairs. These will be enrolled at the time of vaccination and followed for up to
four years. Baseline immunological status will be ascertained and seroconversion rates
determined a month after full immunization. Incident rotavirus gastroenteritis will be
monitored in the vaccinated infants whenever episodes of diarrhoea occur; through this
surveillance, the sero-strains of rotaviruses causing disease will be tracked over the four
year period. Contributions of HIV infection both in mothers and infants, vitamin A and zinc
deficiency, weight for age Z-scores as well as mid upper arm circumference will also be
assessed. Knowledge gained from this study will inform future interventional trials on
strategies to improve rotavirus vaccine effectiveness in the developing world.
The study will be conducted at Kamwala health facility in Lusaka where the Maternal Child
Health (MCH) and antiretroviral therapy (ART) clinics as well as the Centre for Infectious
Disease Research Zambia (CIDRZ) Kamwala Research Unit are co-located. Kamwala has a catchment
population of over 10,000 with approximately 30 new infants presenting to MCH each month with
6-14 week (DPT-HiB-Hep) immunisation rates above 95%. Mother-infant pairs will be approached
during the initial visit to MCH by the study clinic assistant or peer counsellor with
information about this study in the local language of choice. Those generally interested will
be invited to the research clinic which is close by, for more detailed information during
which motivated mothers will be recruited and taken through the written informed consent
process by the study nurse. For illiterate participants, an independent, literate individual
will witness and validate the informed consent process. A specific log will be maintained to
show information on dates and numbers of those invited to the study, reasons for refusal
documented.
A senior research nurse, study nurse, and clinical research assistant will be responsible for
informed consent and enrolment procedures under the supervision of the investigator. A
paediatrician will be available for hands-on consultation when needed.
Cohort Follow-up. Enrolled mothers will be asked to complete demographic and behavioural
questionnaires, a participant locator form, and undergo phlebotomy and mechanical expression
of breast-milk at the enrolment visit for determination of anti-rotavirus IgG and IgA (in
serum and breast-milk). Infants will have a baseline anti-rotavirus IgA and IgG antibodies
determined to ascertain baseline exposure to wild-type and transplacental immunoglobulin
followed by a second serum IgA determination one month following completion of rotavirus
vaccination (at approximately 14-20 weeks).
Infants will then be followed quarterly in-clinic for the remainder of the study and will
also make interim clinic visits if the child has diarrhoea. At each visit, the child will be
weighed, height measured, and anthropometrics taken, including skin fold for subcutaneous
body fat and mid upper arm circumference. During any symptomatic interim visits, assessments
will be made of disease severity (by Vesikari scale) and a sample of stool will be collected
for determination of rotavirus antigen and genotype if rotavirus positive. The patient will
also be sent home with a diarrhoea diary to be completed over the following two weeks.
Following identification of an child with severe gastroenteritis, an age-matched control from
within the cohort (without recent gastroenteritis) will be brought in for measurement of
Vitamin A and serum zinc levels. Children with gastroenteritis will be treated according to
national guidelines (per World Health Organization (WHO) Integrated Management of Childhood
Illness). If referral is required, the child will be referred to outpatient clinic, or in
serious cases the University Teaching Hospital.
Study Procedures. Same as above.
Laboratory Methods.
1. Detection of Rotavirus-specific IgA and IgG will occur by ELISA. Detection of
rotavirus-specific IgA and IgG will occur by ELISA. Briefly, the procedure is as
follows. Microplate wells (e.g., Nunc Immuno I) are incubated with purified viral
antigen preparations, then washed with phosphate buffered saline with Tween detergent
(PBS-T). Serum and breast-milk samples are diluted serially (in PBS-T containing 1%
bovine serum albumin) and incubated in the coated microplates for 2 hours at 37oC then
overnight at 4oC. Microplates are then washed and peroxidase-conjugated anti-human IgA
or IgG goat antibodies (Sigma Immunochemicals) is added. The reaction is then terminated
with H2SO4, and optical density is measured by EIA plate reader. All samples are assayed
in duplicate against each viral antigen and against a control antigen. A test well was
considered positive by its optical density at 450 nm, e.g., if it is greater than or
equal to two times that of its own control. Specificity is controlled by including wells
containing control antigen incubated in the absence of the sample, and sensitivity is
checked by including wells containing viral antigen incubated in the presence of samples
known to contain high titre of a particular rotavirus-specific immunoglobulin class.
2. Detection of Rotavirus Antigen will occur by Rotaclone ELISA. Stool samples will be
tested for rotavirus by ELISA (Rotaclone®, Meridian Biosciences) according to
manufacturer's specifications. Briefly, sample will be brought to room temperature and
diluted with buffered saline with 0.02% thimerosol. Diluted sample and enzyme conjugate
are then incubated with a monoclonal antibody to the VP6 protein within the Rotaclone
microplate. Substrate buffers containing urea peroxide and tetramethylbenzidine are then
added, and the reaction is terminated with H2SO4. Spectrophotometric determination of
result is then made by measuring absorbance at 450 nm against an air blank. Specimens
with absorbance units (A450) greater than 0.150 are considered positive. Those with
absorbance equal to or below 0.150 are considered negative.
3 Determination of Rotavirus VP7 Genotype. Viral RNA is extracted from a 10% suspension of
rotavirus antigen-positive faecal material in PBS (pH 7.0) using TRIzolTM Reagent (GIBCO Life
Technologies) according to the manufacturer's protocol. Viral RNA is then taken through
RT-PCR as described earlier.
Extracted viral RNA is then taken through nested PCR utilizing primers which are
complimentary to the 3' ends of both viral RNA strands within gene segment 9, which encodes
viral protein 7 (VP7). These primers are used for first strand synthesis. Primer RVG9 and six
serotype-specific primers (aBT1, aCT2, aET3, aDT4, aAT8, and aFT9) which are located in six
variable regions on the gene 9 and correspond to G-serotypes 1, 2, 3, 4, 8 and 9, are used in
second amplification. Briefly, 5 µl of RNA with 25 pmol of each primer Beg9 and End9 is
denatured for 5 min at 97°C and cooled on ice. Thereafter, 8 µl of RT reaction mixture
containing 1.5 µl of 10X PCR buffer (500 mM KCl, 100 mM Tris-HCl (pH 8.3), 2 µl of 25 mM
MgCl2, 2 µl of 2.5 mM of each dATP, dCTP, dGTP and dTTP, 10 U AMV reverse transcriptase
(Promega) and 20 U Rnasin ribonuclease inhibitor (Promega), is added to the sample-primer
mixture and incubated at 42°C for 60 min. PCR buffer mixture (35 µl), containing 3.5 µl of
10X PCR buffer, 2 µl of 2.5 mM peach dATP, dCTP, dGTP and dTTP, 2.5 U AmpliTaq DNA polymerase
(Perkin Elmer) and 27 µl of water are added to RT reaction. The reaction mixture is denatured
at 94°C for 3 min, followed by 30 cycles (1 min at 94°C, 2 min at 42°C, 3 min at 72°C) and a
final extension of 5 min at 72°C.
First-round PCR products (2 µl) are transferred to 48 µl of second PCR reaction mixture,
containing 5 µl of 10X PCR buffer, 25 pmol each primers aBT1, aCT2, aET3, aDT4, aAT8, aFT9
and RVG9, 0.2 mM each dATP, dGTP, dCTP and dTTP, 2mM MgCl2, 2.5 U of Taq polymerase.
Second-round cycling conditions are identical to first round, except that only 25 cycles are
run. The PCR products are analyzed by gel electrophoresis to identify expected lengths of
amplified VP7, allowing determination of genotype. Other primer sets, PCR conditions and/or
sequencing is used to distinguish genotype when/if the initial primers fail.
4 Determination of VP4 Genotype. The strategy for PCR typing of gene 4 is identical, in
principle, to that used for VP7.64 First strand synthesis (reverse transcription) takes
advantage of highly conserved areas of VP4 utilizing primers Con2 and Con3 (Box 3), which are
complimentary to the 3' ends of both viral RNA strands within gene segment 4. 1 to 5 µL of
viral RNA is added to 0.5 ml microcentrifuge tubes containing 3.5 µl of dimethylsulfoxide
(Sigma) in a final volume of 8.5 µl, and the samples are mixed and denatured at 97°C for 5
min. The samples are then cooled on ice for 5 min and collected by brief centrifugation. 13.5
µL of H20, 16 µL of deoxynucleoside triphosphates (1.25 mM each dATP, dGTP, dCTP, and dTTP),
5 µL 1OX buffer (100 mM Tris-hydrochloride [pH 8.3], 500 mM KCl) (Perkin-Elmer Cetus), 3.5 µL
of 25 mM MgCl2, 2 µl of primer (containing 25 µM of each primer, Con 2 and Con 3), and 9 U
reverse transcriptase is then added to each denatured dsRNA sample tube (to give a final
reaction volume of 49 µ1) and incubated at 42oC for 60 minutes.
Following addition of 1 µL (1.9U) of Taq polymerase and 100 µL mineral oil, first-round PCR
is carried out for 30 cycles (1 min 94oC, 2 min at 50oC, and 2 min at 72oC. A cooling cycle
is used to bring the samples to 17OC at the completion of the experiment. The second-round
typing reaction if performed using 0.5 to 5 µL of the first-round product (5 µL if no visible
product; 0.5 µL if visible product) is mixed with 45 µL reaction mixture in a final volume of
50 µL. If less than 5 µL of first round product is added, the remaining volume, to complete
50 µL, is 10mM TrisHCl (pH 8.3)-2.5mM MgCl¬2. The reaction mixture is 19.5 µL water, 16 µL
dNTPs, 5 µL 10X Buffer II, 3 µL 25 mM MgCl2, 1 µL of the primer cocktail (containing 20 µM
each of Con3, 1T-1, 2T-1, 3T-1, and 4T-1), and 0.5 µL (2.5U) Taq. The samples are overlaid
with mineral oil and taken through 25 rounds of PCR (same cycles as first round). The samples
are then analyzed by gel electrophoresis and product size enables determination of VP4
genotype. Other primer sets and/or sequencing is used to distinguish genotype when/if the
initial primers fail.
5 Determination of Vitamin A and Zinc levels: Serum samples will be evaluated for Vitamin A
level by ELISA (e.g., Human Vitamin A, EIAAB) according to the manufacturer's instructions.
Briefly, the microtitre plate provided in this kit has been pre-coated with an antibody
specific to Vitamin A. Standards or samples are then added to the appropriate microtitre
plate wells with a biotin-conjugated polyclonal antibody preparation specific for VA and
Avidin conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and
incubated. Then a tetramethylbenzidine substrate solution is added to each well. Only those
wells that contain Vitamin A, biotin-conjugated antibody and enzyme-conjugated Avidin will
exhibit a change in colour. The enzyme-substrate reaction is terminated by the addition of a
H2SO4 and the color change is measured spectrophotometrically at a wavelength of 450 nm. The
concentration of VA in the samples is then determined by comparing the O.D. of the samples to
the standard curve.
Zinc levels will be measured from blood using assays such as Lampugnani's simple colorimetric
method which uses a spectrophotometric method with chromogen 4-(2-pyridylazo) resorcinol
sodium salt to measure serum zinc concentrations.
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