Vaccines to children protective effect and adverse events : a systematic review : summary and conclusions of the SBU report
There is no indication of clinically significant differences in the frequency of redness, swelling or fever after administration of vaccines that contain different combinations of the following vaccines: diphtheria (D), tetanus (T), pertussis (Pa), polio (IPV), hepatitis B (HBV) and Haemophilus infl...
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| Format: | eBook |
| Language: | English |
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Stockholm
Swedish Council on Health Technology Assessment (SBU)
2009, 2009
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| Series: | SBU yellow report
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| Online Access: | |
| Collection: | National Center for Biotechnology Information - Collection details see MPG.ReNa |
| Summary: | There is no indication of clinically significant differences in the frequency of redness, swelling or fever after administration of vaccines that contain different combinations of the following vaccines: diphtheria (D), tetanus (T), pertussis (Pa), polio (IPV), hepatitis B (HBV) and Haemophilus influenzae type b (Hib) (hexavalent vaccine; DTPa-IPV-HBV/Hib, pentavalent vaccine; DTPa-IPV/Hib, tetravalent vaccine; DTPa-IPV or trivalent vaccine; DTPa) (moderately strong scientific evidence). No evidence is available suggesting a greater frequency of hypotonic hyporesponsive episode or persistent inconsolable crying after administration of combination hexavalent, pentavalent or tetravalent vaccine than trivalent vaccine (DTPa) (limited scientific evidence). Immunisation with Pertussis Vaccine1. Immunisation with pertussis vaccine protects children against pertussis (strong scientific evidence). The protective effect lasts at least 5 years after three or four doses of acellular pertussis vaccine (limited scientific evidence). Routine immunisation programmes that include acellular pertussis vaccine reduce the need of hospitalisation due to pertussis among vaccinated children younger than 2 years of age (limited scientific evidence). There is no evidence of a higher frequency of or deaths from serious bacterial infections after immunisation with acellular pertussis vaccine (strong scientific evidence). The scientific literature provides no substantial indication of a causal relationship between acellular pertussis vaccine and the few serious adverse events described in case reports or in national adverse event reports. Health economic models show that immunisation against pertussis is socioeconomically warranted. More than 90% of immunised children develop protective antibody levels after the first dose (strong scientific evidence). Serious hypersensitivity reactions have been reported following hepatitis B immunisation, but very rarely. There is insufficient scientific evidence to rule out or confirm an association between hepatitis B immunisation and multiple sclerosis (MS). Available data taken together suggest that there is no such correlation. The literature provides no substantial indication of a causal relationship between hepatitis B vaccine and other serious adverse events described in case reports: death, neurological disease other than MS, arthritis and chronic fatigue syndrome. Health economic models indicate hepatitis B vaccine to be cost-effective from a healthcare perspective. Immunisation Against Tuberculosis1. Bacille Calmette-Guerin (BCG) vaccine administered during the neonatal period or shortly thereafter protects children against tuberculosis at least until 5 years of age. Few medical interventions have had as great an impact on global health as immunisation of children. Extensive immunisation programmes have eradicated smallpox completely and eliminated polio in all but a handful of countries. Thus, the benefits of immunisation are indisputable. But it is important to critically examine an intervention that is recommended for all infants. Routine immunisation must provide reasonable protection against potentially serious diseases, while the risk of serious adverse events must be low. Experience shows that immunisation coverage tends to decline if there is widespread concern about adverse events. Therefore, a solid body of knowledge is needed. Thus, SBU has been requested to review the published scientific literature regarding some vaccines included in the immunisation programme for children in Sweden. Conclusions The present scientific review and the experience from many years of the routine immunisation programme have shown that:1. However, the cost-benefit ratio varies substantially according to assumptions on incidence of pertussis, vaccine efficacy and percentage of immunised children. Immunisation with Measles-Mumps-Rubella Vaccine1. Combination measles-mumps-rubella (MMR) vaccines currently in use provides protection against all three diseases and their complications (limited scientific evidence).2. MMR vaccine increases the risk of febrile seizures during the first two weeks after immunisation, when fever commonly occurs, but does not increase the risk of later epilepsy (limited scientific evidence). MMR vaccine does not cause type 1 diabetes or serious infections requiring hospitalisation (limited scientific evidence). MMR vaccine does not cause autism or autism spectrum disorder (limited scientific evidence). Immunisation with Hepatitis B Vaccine1. Immunisation with hepatitis B vaccine protects children against hepatitis B (strong scientific evidence). Protection against all forms of tuberculosis is approximately 75% (moderately strong scientific evidence). Efficacy against disseminated (miliary) tuberculosis and tuberculous meningitis is higher around 75 to 85% (moderately strong scientific evidence). Fatal disseminated BCG infection occurs after BCG immunisation, but very rarely (strong scientific evidence). The risk is approximately 1 case per 100,000 immunised infants. The condition is mainly contracted by children with a rare genetic immunodeficiency disease that also increases the risk for other diseases. To further reduce the risk of this serious but rare adverse event, BCG immunisation in Sweden is deferred till 6 months of age, allowing time to identify infants with this rare immunodeficiency disease and exclude them from BCG immunisation. Adverse Events Following Combination Vaccines1. The benefits of immunisation far outweigh the risks of adverse events.2. Immunisation has virtually eliminated the morbidity and mortality of many diseases previously common among both children and adults. Immunisation with Haemophilus influenzae type b Vaccine1. Immunisation with Haemophilus influenzae type b (Hib) vaccine effectively protects against Hib infections, which can be serious (strong scientific evidence). The protective effect lasts at least three years. Immunisation against Hib reduces carriage of Hib in the pharynx of children (limited scientific evidence). Routine immunisation of infants also reduces the frequency of serious Hib infections in unvaccinated individuals, so called herd immunity (limited scientific evidence). There is no data suggesting a causal relationship between Hib conjugate vaccines and serious adverse events such as death, sudden infant death syndrome, seizures, type 1 diabetes mellitus and Guillain-Barre syndrome, a neurological disease. The overall literature provides no substantial indication of a causal relationship between immunisation and the very occasional serious adverse events, including death, described in case reports or national adverse event reports (insufficient scientific evidence) |
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| Item Description: | English summary of the complete report in Swedish: Vacciner till barn : skyddseffekt och biverkningar. 2009 |
| Physical Description: | 1 PDF file (36 pages) illustrations |
| ISBN: | 9789185413287 |