G.R. Sethi,
Sangeeta Sharma*
S. Sudha
R.K. Rishi*
From the Department of Pediatrics, Maulana Azad Medical College and Lok Nayak Hospital, New Delhi 110 002, India and Department oj Neuropsychopharmacology, Institute of Human Behaviour and Allied Sciences, Shahdara, Delhi 1l0095,lndia.
Reprint requests: Prof. G.R. Sethi, Department of Pediatrics, Maulana Azad Medical College and Lok Nayak Hospital, New Delhi 110002, India.
Manuscript received: August 4, 1998; Initial review completed: September 24, 1998; Revision accepted: January 8, 1999.
Hepatitis B virus (HBV) infection is a world-wide major health problem(1). Patients with thalassemia major who receive blood transfusions regularly to maintain optimal hemoglobin (Hb) level frequently suffer from the hepatitis infection. Screening of blood for HBsAg reduces the risk of transmission, but cannot eliminate it entirely, because of win- dow period and low titer HBV infections, with
HBV variants(2). Therefore, it is necessary to vaccinate all thalassemia major patients for hepatitis B infection as soon as they are diagnosed.
The plasma derived vaccine for hepatitis B became commercially available
in 1982 but its availability was limited. The new genera tion of hepatitis B vaccine (recombinant rDNA yeast derived) can be produced in greater qunatities at a comparable cost. Re- combinant HBV vaccine given in infancy is highly immunogenic. Most infants develop antibody titre well above 10 mlU/ml, the level associated with seroprotection(3,4).
Recombinant rDNA Hepatitis B vaccine derived from Pichia pastoris yeast has been recently introduced in India. Pichia pastoris yeast express heterologous genes, which overcome some of the disadvantages of the S. cerevisiae system. Since immune response is imperfect in children with thalassemia, the present study was designed to assess the immunogenicity of three doses of recombinant Hepatitis B vaccine in high-risk hypertransfused children with thalassemia.
Subjects and Methods
The present prospective study Was conducted in children of either sex below the age of 12 years at LN hospital, New Delhi. Written
informed consent from parents or guardians of the children was obtained
prior to inclusion in the study. All children below 12 years of age attending clinics and high-risk thalassemic children were screened for HBsAg and HBeAg.
Serum tests for hepatitis B surface antigen, antibody to hepatitis B surface antigen (anti. HBs) and antibody to hepatitis B
core antigen were measured by semiquantitative method using ELISA kit (MELOTEK, Spain) on entry into the study. Children with immunodeficiency disorder or history of allergy to any drug or receiving immunosuppresive therapy were not considered for this study. Children. with any severe hepatic, renal, cardiac or respiratory diseases were also not eligible.
Enrolled children received three doses of recombinant Hepatitis B vaccine (Enivac HB@, Batch No. 42915, Manufacturing Date
18/08/1994, samples registered as
Heberbiovac HB) at interval of 0,
1
and 6
months. Children below 10 years were given 10 J/g while older children received the adult dose (20 J/g). All doses were given intramuscularly in the anterolateral thigh or deltoid muscle. Blood
specimens were drawn before administering hepatitis B vaccine and then
at 1 month. The third sample was collected between 3 to 4 months and fourth sample was drawn at 6 months. The blood was immediately separated and the serum was frozen at -200 to -700 C. Seroprotection was defined when a titre of anti-HBs was above 10
mIU/ mI. The lower limit of detection of the assay was 0.1 mIU/ml.
After each dose, study subjects were ob- served for 30 minutes and reactions during next 3 days were ascertained by parental reporting. Parents were instructed to record the child's temperature, use of antipyretics, irritability, drowsiness, crying for longer than 3 hours, decreased appetite, vomiting, vaccine site redness, swelling or tenderness or any other problem.
Results
A total of 58 (25 females and 33 male) children were enrolled in the study. Of these, 30 children were suffering from thalassemia major and had a history of receiving repeated blood transfusions. Out of 30 thalassemia major patients, 7 appeared reactive on ELISA and one healthy subject were positive for HBsAg and therefore, was excluded from the study. Fifty subjects (27 healthy, 23 thalassemic) thus received the first dose of recombinant Hepatitis B vaccine.
Of these, eight healthy subjects and 2 children with thalassemia were lost during follow up and, therefore were not considered for analysis. One healthy subject developed non hepatitis B jaundice due to which his second
dose was delayed and was therefore, not included for analysis. A total of 39 children (21 thalassemic, 18 healthy subjects) completed the study protocol.
Three healthy subjects and 10 thalassemic children above 10 years of age received 20f..Lg of hepatitis B vaccine. Nineteen (10 healthy, 9 thalassemic) children were between 5 to 10 years of age. Two subjects each in healthy and thalassemia group belonged to 2-5 years group. Three healthy subjects were below 2 years of age.
All children including the high risk subjects seroconverted before 6 months, i.e., be- fore the administration of third dose of recombinant Hepatitis B vaccine. The cumulative seroconversion rate with recombinant Hepatitis B vaccine in healthy and thalassemic children was 44% vs 48% at 1 month, 72% vs 71 % at 3 months and 100% in both groups at 6 months (Table 1). No serious adverse effects were reported with the administration of this recombinant Hepatitis B vaccine. Mild pain at the vaccine site occurred in 8 subjects. No other serious symptoms were reported.
Discussion
Thalassemic patients receive monthly packed red cells as a standard
transfusion regimen to maintain hemoglobin concentration above 10g/dl. Being the most transfused population with such blood products, thalassemic patients have been heavily contaminated in the past with transmitted viruses. The prevalence of HBV markers. differs among thalassemics patients from various countries, reflecting variations of prevalence of infection among donors. In a European study, between 1.2 and 6% of thalassemic
patients were positive for the hepatitis B surface antigen (HBsAg) varying with the country(5). In the present study, we observed a high prevalence (23.33%) of viral markers in thalassemic patients while only 3.7% of healthy children were positive for HBsAg.
The lack of small animal models of HBV infection has precluded the precise definition of antibody concentration required to prevent HBV infection. However, controlled clinical trials in adults have shown that HBsAg positive infections occur in persons with a poor response to vaccine (HBs
Immune response in thalassemia patients is usually imperfect. However, in the present study antibody production in healthy children and thalassemics at 1, 3 and 6 months was
TABLE I
Cumulative Seroconversion Ratesfor 1,2 and 3 Samples After Initiation of Vaccination.
|
Healthy subjects
|
Sample No. |
Thalassemics
|
Sample No. |
|
1 |
2 |
3 |
1 |
2 |
3 |
No. of sera tested |
18 |
10 |
5 |
21 |
11 |
6 |
No. of newly converted sera |
8 |
5 |
5 |
10 |
5 |
6 |
Cumulative % of seroconversion |
44 |
72 |
100 |
48 |
71 |
100 |
comparable to other reports in thalassemics(12) The recombinant rDNA Hepatitis B vaccine used in present study was efficacious and well tolerated vaccine in neonates, healthy children and high-risk thalassemic children. There were no serious side effects noted in the children vaccinated in the present study. Neither age nor thalassemia
inhibited the immune response which was excellent, despite the fact that the usual dose was administered. Although 100% seroconvesion rate was elicited by 180 days in all the children, Anti HBsAg
surveillance should be carried out to confirm immunity after 6-12 months and need for a booster dose of vaccine in-patients with a low titre.
Acknowledgements
We are grateful to Panacea Biotec Ltd., New Delhi for providing financial support as well as supply of the recombinant Hepatitis B vaccine.
|
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