View clinical trials related to Whooping Cough.
Filter by:This study is being conducted to assess impact of maternal immunisation against pertussis in infants ≤12 months of age before and after introduction of pertussis maternal immunisation in Bogota, Colombia from January 2005-December 2014.
The purpose of this protocol is to generate a set of data that will be analysed by integrated systems biology approach, for validation in subsequent clinical trials or in animal models. 240 healthy participants (18-45y) will be enrolled, 200 will be administered a dose of Boostrix on Day 0, 20 will receive a placebo on Day 0.
The trial includes groups receiving various combinations of meningitis C and pertussis containing vaccines, to be administered concomitantly in adolescents due their school leaving booster vaccinations (as per UK routine immunisation schedule at 13-17 years of age). Immunogenicity and reactogenicity will be assessed.
Aim To assess the possible food allergy-preventive benefit of using whole cell pertussis(wP) vaccination compared with acelluar pertussis vaccine(aP) for whooping cough vaccination in childhood. Background Whooping cough, caused by the bacteria, Bordetella pertussis, represents a significant public health burden in Australia and around the world. Acellular pertussis vaccination (aP) replaced whole cell vaccination against pertussis (wP) in the late 1990s. This replacement coincides temporally in an observed rapid rise in the occurrence of severe food allergy responses. Previous research has suggested that acellular pertussis vaccination results in the development of immunity that may predispose children to allergic responses. A retrospective case-controlled trial design, targeting cases of previously diagnosed allergy, and comparing case vaccination history to that of the whole population, is a powerful means of assessing the association between immunisation and allergy. Participant Groups 1000 allergy cases, 10,000 controls Project Design This is a retrospective individually-matched case-control study of Australian children born during the period of transition from use of wP vaccines to aP vaccines (year of birth 1997-1999 inclusive) and who are registered on the Australian Children Immunisation Register. Cases will be drawn from allergy clinics associated with tertiary teaching hospitals around Australia. Methods Cases: will be retrospectively identified from patient lists from allergy clinics around Australia, born during the period of pertussis vaccine changeover, and be confirmed to have IgE-mediated food allergy on the basis of 1) a documented history of consistent clinical symptoms following ingestion of an implicated food, and 2) evidence of sensitisation to that food via laboratory testing. Controls: Controls will be sampled from a de-identified database of children born during the transition from wP to aP vaccination appearing on the ACIR. Cases and controls will be matched by date of birth (+/-7 days), jurisdiction and socioeconomic decile. Expected outcomes: Following the study, investigators will be able determine if there is an association between the type of vaccination received and development of IgE mediated food allergy. If whole cell vaccination is found to have a protective association against the development of allergy, this will have profound impact on health policy in Australia and around the world.
Pertussis, diphtheria and tetanus are seriously infectious diseases in children. Since using of the adsorption diphtheria-tetanus-whole-cell pertussis (DTwP), it greatly reduced incidence of the three kinds of diseases. But the thallus of pertussis in the vaccine may cause more side reactions after vaccination. Since 2000, the basic immunization DTwP vaccine has been replaced by adsorption tetanus-diphtheria-acellular pertussis vaccine in American. In 1995, DTaP was successfully developed in China, and have been used in EPI at present. Because of effective immunity and little side reaction, DTaP has been widely recognized and accepted by the parents.
The objective of this study is to assess the immunogenicity and safety of the DTaP-IPV combination vaccine compared with those of separate DTaP and IPV vaccines administered to healthy infants at 2, 4, and 6 months of age.
This study evaluates the safety and immunogenicity of a higher dose formulation of a new live attenuated vaccine, BPZE1, intended to prevent Bordetella pertussis nasopharyngeal colonization and pertussis disease, and investigates whether higher doses of BPZE1 induce the live vaccine to colonize subjects' nasopharynx. The study is a Phase Ib (high dose), single centre, dose-escalating, placebo-controlled study of the live attenuated B. pertussis strain BPZE1 given as a single intranasal dose to healthy adult volunteer.
The purpose of this study is to describe the immunogenicity and safety of Sanofi Pasteur's DTaP-IPV-Hep B-PRP-T fully liquid combined hexavalent vaccine (Hexaxim®) administered at 2, 3, and 4 months of age and at 16 to 17 months of age in infants and toddlers who received a dose of Hep B vaccine at birth or within 1 week after birth. Primary Objective: - To describe the safety profile after each and all doses of Sanofi-Pasteur's DTaP-IPV-Hep B-PRP-T combined vaccine in Vietnamese infants and toddlers. Secondary Objective: - To demonstrate the non-inferiority of the immune response to all antigens induced by the study vaccine in Vietnamese infants one month after the third dose in a 3-dose primary series with the immune response to all antigens induced by the same study vaccine outside Vietnam. - To evaluate the immunogenicity of the study vaccine one month after the 3-dose primary series. - To describe the persistence of all antibodies before receipt of the booster vaccination. - To evaluate the immunogenicity of the study vaccine one month after the booster.
The purpose of this study is to evaluate the immunogenicity and safety of GSK Biologicals' Infanrix hexa, given in the primary vaccination schedule to infants born to pregnant women who participated in study 116945 [DTPA (BOOSTRIX)-047]. This study will help us evaluate if the presence of transplacentally transferred maternal antibodies interfere with the immune response to primary vaccination with Infanrix hexa and a co-administered pneumococcal conjugate vaccine given as a part of this study in infants.
Young infants are most vulnerable to severe disease and even death when infected with Bordetella pertussis. The current vaccines and vaccination programs do not guarantee protection of neonates from this disease. Maternal acquired pertussis-specific antibodies show low concentrations with short persistence in newborns creating a susceptibility gap for infection between birth and the first vaccinations. A possible strategy to protect infants from birth is pertussis vaccination during pregnancy, which will increase the amount of passively transferred maternal antibodies. However, little is known regarding the effect of high titers of maternal antibodies on the infants immune responses to different pertussis vaccines (whole cell versus acellular). Humoral immune responses will be assessed in infants receiving whole cell versus infants receiving acellular pertussis vaccines. Functionality of the antibodies will also be analyzed.