Safety and immunogenicity of two Haemophilus influenzae type b conjugate vaccines

Objectives. Haemophilus influenzae type b (Hib) infection remains a major public health problem inthe developing world. We evaluated the safety and immunogenicity of a new PRP-CRM197 conjugate Hib vaccine (Vaxem Hib, Chiron Vacdnes), compared with theHibTITER vaccine (WyethLederle Vaccines), following the World Health Organisation (WHO)'s accelerated schedule which allows 4-week intervals between doses.Study design. A phase II, observer-blind, multicentre, randomised, controlled, non-inferiority study.Methods. In total, 331 babies were immunised with either Vaxem Hib (N = 167) or HibTITER (N = 164) vaccine at 6, 10 and 14 weeks of age, in parallel with oral polio, diphtheriatetanus- pertussis and hepatitis B vaccines. Postimmunisation reactions were recorded after each immunisation and arfollow-up visits. Anti-polyribosylribitol phosphate (PRP) antibodies were measured using enzyme-linked immunosorbent assays (ELISAs) before and 1 month after the third immunisation. Results. Overall, there was no significant difference in the anti-PRP levels between the two groups .. One month after the third immunisation, 76% of vacdnees in the Vaxem Hib group and 70% in the HibTITER group hadanti-PRP antibody mres i:: 1.0 vg/ tnl, while 96% of the Vaxem l-Iib group and.90% of the HibTITER gn;mp d.e!l}onstrated a),lt1- PRP antibody titres;:: 0.15 vg/ml. The geometric me<t:ntitre at day 90 was 3.77 pg/ml for the VaxemHib and 3.0 Jlg/Inl for the HibTITER groups. Although the Vaxem Hib vaccine produced more redness (6% versus 1 %; p = 0.006) and swelling (5% versus 1%, p = 0.037), overall it was well tolerated compared with the B:ibTITER vaccine. There wa~ no significant difference in vaccine-relateq elevated temperature (;:: 38°(:) between the two groups (p = 0. 11), Conclusion. Both vaccines showed comparable safety llJ:\d immunogenicity profiles when administered to SouthAfrican babies at 6, 10 and 14weeks of age

Challenges and opportunities in setting up a phase III vaccine clinical trial in resource limited settings: Experience from Nepal

Clinical trials are complicated, time-consuming and costly. From the initial screening, informed consent and recruitment of the participants’ to study completion, the sponsor must undertake a wide array of complex and closely monitored operations, complying with international standards for human subject research and local requirements. Conducting these studies in an underdeveloped country, with limited resources, infrastructure, and experience with regulated clinical trials adds to this complexity. The initial site selection, set up and preparatory activities for the clinical trial are crucial to minimizing the risks to both participants and to successful completion during the subsequent study execution. In this paper, we describe the experience and lessons learned of building clinical trial site capacity in terms of infrastructure and human resource development for a Phase III vaccine clinical trial. We believe that sharing the experience of setting up a clinical trial in a resource-limited country will enable other entities contemplating clinical research in these countries, to prepare and plan ahead, to minimize the impact of barriers, and to contribute to bringing more studies to the countries where people live with the burden of vaccine-preventable, poverty-associated diseases

Human rotavirus vaccine <it>Rotarix</it>™ provides protection against diverse circulating rotavirus strains in African infants: a randomized controlled trial

<p>Abstract</p> <p>Background</p> <p>Rotaviruses are the most important cause of severe acute gastroenteritis worldwide in children <5 years of age. The human, G1P[8] rotavirus vaccine <it>Rotarix</it>™ significantly reduced severe rotavirus gastroenteritis episodes in a Phase III clinical trial conducted in infants in South Africa and Malawi. This paper examines rotavirus vaccine efficacy in preventing severe rotavirus gastroenteritis, during infancy, caused by the various G and P rotavirus types encountered during the first rotavirus-season.</p> <p>Methods</p> <p>Healthy infants aged 5–10 weeks were enrolled and randomized into three groups to receive either two (10 and 14 weeks) or three doses of <it>Rotarix</it>™ (together forming the pooled <it>Rotarix™</it> group) or three doses of placebo at a 6,10,14-week schedule. Weekly home visits were conducted to identify gastroenteritis episodes. Rotaviruses were detected by ELISA and genotyped by RT-PCR and nucleotide sequencing. The percentage of infants with severe rotavirus gastroenteritis caused by the circulating G and P types from 2 weeks post-last dose until one year of age and the corresponding vaccine efficacy was calculated with 95% CI.</p> <p>Results</p> <p>Overall, 4939 infants were vaccinated and 4417 (pooled <it>Rotarix™</it> = 2974; placebo = 1443) were included in the per protocol efficacy cohort. G1 wild-type was detected in 23 (1.6%) severe rotavirus gastroenteritis episodes from the placebo group. This was followed in order of detection by G12 (15 [1%] in placebo) and G8 types (15 [1%] in placebo). Vaccine efficacy against G1 wild-type, G12 and G8 types were 64.1% (95% CI: 29.9%; 82%), 51.5% (95% CI:-6.5%; 77.9%) and 64.4% (95% CI: 17.1%; 85.2%), respectively. Genotype P[8] was the predominant circulating P type and was detected in 38 (2.6%) severe rotavirus gastroenteritis cases in placebo group. The remaining circulating P types comprised of P[4] (20 [1.4%] in placebo) and P[6] (13 [0.9%] in placebo). Vaccine efficacy against P[8] was 59.1% (95% CI: 32.8%; 75.3%), P[4] was 70.9% (95% CI: 37.5%; 87.0%) and P[6] was 55.2% (95% CI: -6.5%; 81.3%)</p> <p>Conclusions</p> <p><it>Rotarix</it>™ vaccine demonstrated efficacy against severe gastroenteritis caused by diverse circulating rotavirus types. These data add to a growing body of evidence supporting heterotypic protection provided by <it>Rotarix™</it>.</p> <p>Trial registration number</p> <p>NCT00241644</p