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Revista Espanola de Salud Publica May 2020Vaccination has been one of the most effective preventive measures to reduce the number of diseases that affect humans. The primary objective of this study is to...
OBJECTIVE
Vaccination has been one of the most effective preventive measures to reduce the number of diseases that affect humans. The primary objective of this study is to describe the informative treatment of polio in the written press at a time when it was of great importance.
METHODS
From the digital newspaper archive of the ABC and La Vanguardia newspapers, all the information in which the concept "polio", published during the period between 1960 and 1975 was selected.
RESULTS
In total there have been 961 units of analysis, 557 for the ABC newspaper and 404, for La Vanguardia. The year of greatest publication was the year 1963, coinciding with the authorization for the use of the Sabin vaccine. The need to intensify vaccination campaigns is highlighted as the number of annual cases continued to increase.
CONCLUSIONS
There are no significant differences in the coverage of the newspaper ABC and La Vanguardia, following a pattern of publication very similar between them, where the Sabin vaccine appears as one of the most important scientific advances, thanks to which they allowed to protect children against to this dreaded disease, thus avoiding a major epidemic.
Topics: History, 20th Century; Humans; Immunization Programs; Poliomyelitis; Poliovirus Vaccines; Spain
PubMed: 32435052
DOI: No ID Found -
International Journal of Infectious... Jun 2022
Topics: Disease Eradication; Humans; Immunization Programs; Malawi; Poliomyelitis
PubMed: 35257902
DOI: 10.1016/j.ijid.2022.03.004 -
Vaccine Sep 2022To meet the demand for effective and affordable inactivated polio vaccines (IPVs), a reduced dose, aluminium hydroxide (Al(OH))-adjuvanted IPV vaccine was developed... (Clinical Trial)
Clinical Trial
Persistence of protective anti-poliovirus antibody levels in 4-year-old children previously primed with Picovax®, a trivalent, aluminium-adjuvanted reduced dose inactivated polio vaccine.
BACKGROUND
To meet the demand for effective and affordable inactivated polio vaccines (IPVs), a reduced dose, aluminium hydroxide (Al(OH))-adjuvanted IPV vaccine was developed (IPV-Al, Picovax®) and evaluated in clinical trials. The present trial is an extension of two previous trials (a primary and a booster trial). The aim was to evaluate the persistence of seroprotective antibodies (poliovirus type-specific antibody titre ≥ 8) in 4-year-old children who previously received IPV-Al as primary and booster vaccine doses and to determine the potential booster response and safety profile of an additional dose of IPV-Al.
METHODS
Children participating in the two previous trials were invited to receive one additional dose of IPV-Al at 4 years of age (2.5 years after the booster dose) and to have their blood samples collected to measure the pre- and post-vaccination antibody titres. Systemic adverse events (AEs) and local reactogenicity were recorded.
RESULTS
At study entry, the seroprotection rates were 89.2%, 100% and 91.1% against poliovirus type 1, 2 and 3, respectively. The additional vaccination with IPV-Al boosted the level of poliovirus type 1, 2 and 3 antibodies to above the seroprotection threshold for all but one subject, i.e., 99.4% for type 1 and 100% for types 2 and 3. The additional dose induced a robust booster response of a 26.3-, 13.9- and 30.9-fold increase in titre for poliovirus types 1, 2 and 3, respectively. The vaccine was well tolerated, with only mild and transient AEs reported.
CONCLUSIONS
The present trial demonstrated that the primary vaccination with an aluminium-adjuvanted reduced dose IPV induced a persistent immune memory as evidenced by the robust anamnestic response when the subjects were re-exposed to the antigen 2.5 years after the last dose. Thus, the IPV-Al is an efficient and safe addition to increase the availability of inactivated polio vaccines globally. (ClinicalTrials.gov reg no. NCT04448132).
Topics: Adjuvants, Immunologic; Aluminum; Antibodies, Viral; Child, Preschool; Humans; Immunization, Secondary; Infant; Poliomyelitis; Poliovirus; Poliovirus Vaccine, Inactivated
PubMed: 36064670
DOI: 10.1016/j.vaccine.2022.06.084 -
JPMA. the Journal of the Pakistan... Apr 2023
Topics: Humans; Afghanistan; Poliomyelitis; Poliovirus; Immunization Programs; Disease Eradication; Pakistan
PubMed: 37052028
DOI: 10.47391/JPMA.7499 -
Vaccine Nov 2021The global polio eradication initiative has made giant stride by achieving a 99% reduction in Wild poliovirus (WPV) cases, with Nigeria on the verge of being declared...
BACKGROUND
The global polio eradication initiative has made giant stride by achieving a 99% reduction in Wild poliovirus (WPV) cases, with Nigeria on the verge of being declared polio-free following over 36 months without a WPV. The initiative has provided multiple resources, assets and lessons learnt that could be transitioned to other public health challenges, including improving the quality and vaccination coverage of measles campaigns in order to reduce the incidences of measles in Nigeria. We documented the polio legacy and assets used to support the national measles campaign in 2017/2018.
METHODS
We documented the integration of the measles campaign coordination with the Polio Emergency Operation Centre (EOC) at national and state levels for planning and implementing the measles SIA. Specific polio strategies and assets, such as the EOC incident command framework and facilities, human resource surge capacity, polio GIS resource These strategies were adapted and adopted for the MVC implementation overcome challenges and improve vaccination coverage. We evaluated the performance through a set process and outcome indicators.
RESULTS
All the 36 states and Federal Capital Territory used the structure and resources in Nigeria and provided counterpart financing for the MVC 2017/ 2018. The 11 polio high-risk states deployed the use of GIS for microplanning process, while daily call-in data were tracked in 99.7% of the LGAs and 70,846 reports were submitted real-time by supervisors using Open data kit (ODK). The national coverage achieved was 87.5% by the post-campaign survey with 65% of states reporting higher coverage in 2018 compared to 2015.
CONCLUSION
Polio eradication assets and lessons learned can be applied to measles elimination efforts as the eradication and elimination efforts have similar strategies and programme implementation infrastructure needs. Leveraging these strategies and resources to support MVC planning and implementation resulted in more realistic planning, improved accountability and availability of human and fiscal resources. This approach may have resulted in better MVC outcomes and contributed to Nigeria's efforts in measles control and elimination.
Topics: Disease Eradication; Follow-Up Studies; Humans; Immunization Programs; Measles; Nigeria; Poliomyelitis
PubMed: 33962837
DOI: 10.1016/j.vaccine.2021.04.040 -
MMWR. Morbidity and Mortality Weekly... Oct 2014In 1988, the World Health Assembly resolved to interrupt wild poliovirus (WPV) transmission worldwide. By 2006, the annual number of WPV cases had decreased by more than...
In 1988, the World Health Assembly resolved to interrupt wild poliovirus (WPV) transmission worldwide. By 2006, the annual number of WPV cases had decreased by more than 99%, and only four remaining countries had never interrupted WPV transmission: Afghanistan, India, Nigeria, and Pakistan. The last confirmed WPV case in India occurred in January 2011, leading the World Health Organization (WHO) South-East Asia Regional Commission for the Certification of Polio Eradication (SEA-RCC) in March 2014 to declare the 11-country South-East Asia Region (SEAR), which includes India, to be free from circulating indigenous WPV. SEAR became the fourth region among WHO's six regions to be certified as having interrupted all indigenous WPV circulation; the Region of the Americas was declared polio-free in 1994, the Western Pacific Region in 2000, and the European Region in 2002. Approximately 80% of the world's population now lives in countries of WHO regions that have been certified polio-free. This report summarizes steps taken to certify polio eradication in SEAR and outlines eradication activities and lessons learned in India, the largest member state in the region and the one for which eradication was the most difficult.
Topics: Adolescent; Asia, Southeastern; Child; Child, Preschool; Disease Eradication; Humans; India; Infant; Poliomyelitis; Poliovirus Vaccine, Oral; Population Surveillance; World Health Organization
PubMed: 25340910
DOI: No ID Found -
Applied and Environmental Microbiology Jul 2020The Polio Endgame Strategy 2019-2023 has been developed. However, more effective and efficient surveillance activities should be conducted with the preparedness of...
The Polio Endgame Strategy 2019-2023 has been developed. However, more effective and efficient surveillance activities should be conducted with the preparedness of emergence for vaccine-derived poliovirus (VDPV) or wild poliovirus (WPV). We reviewed the impact of the case-based acute flaccid paralysis (AFP) surveillance (1991 to 2018) and environmental surveillance (2011 to 2018) in polio eradication in Shandong province of China. Clinical characteristics of AFP cases and enterovirus (EV) investigation of research samples were assessed. During the period, 10,224 AFP cases were investigated, and 352 sewage samples were collected. The nonpolio AFP rate sustained at over 2.0/100,000 since 1997. Of 10,224 cases, males and young children experienced a higher risk of severe diseases, and 68.5% suffered lower limb paralysis. We collected 1,707 EVs from AFP cases, including 763 polioviruses and 944 nonpolio enteroviruses (NPEVs). No WPV was isolated since 1992. The AFP surveillance showed high sensitivity in detecting 143 vaccine-associated paralytic poliomyelitis (VAPP) cases and 6 VDPVs. For environmental surveillance, 217 (61.6%) samples were positive for poliovirus, and altogether, 838 polioviruses and 2,988 NPEVs were isolated. No WPV was isolated in environmental surveillance, although one VDPV2 was identified. Phylogenetic analysis revealed environmental surveillance had the capacity to detect a large scope of NPEVs. The case-based AFP surveillance will be indispensable for detecting VAPP cases and VDPV circulation in countries using oral polio vaccine. Environmental surveillance is advantageous in identifying EV circulation and responding to ongoing circulating VDPV outbreaks and should be expanded to complement the AFP surveillance. Interrupting wild poliovirus transmission and stopping circulating vaccine-derived poliovirus (cVDPV) outbreaks have been proposed as two global goals by the World Health Organization in the Global Polio Eradication Initiative (GPEI). This analysis, based on the 28-year acute flaccid paralysis (AFP) surveillance and 8-year environmental surveillance, provides continued high-quality surveillance performance in achieving the GPEI and detecting the circulation of enterovirus. Given the ongoing cVDPV outbreaks in the world, we present the surveillance capacity of environmental surveillance in capturing enterovirus circulation. The final poliovirus (especially VDPV) elimination has become increasingly complex, and the case-based AFP surveillance alone will lead to difficulties in early detecting dynamics of poliovirus transmission and monitoring the extent of environmental circulation. This study goes beyond previous work to provide a detailed comprehensive evaluation of the enterovirus surveillance and can be used to formulate a set of implementation plan and performance indicators for environmental surveillance.
Topics: China; Enterovirus; Environmental Monitoring; Humans; Paralysis; Poliomyelitis; Poliovirus; Population Surveillance
PubMed: 32444474
DOI: 10.1128/AEM.00702-20 -
Scientific Reports Dec 2017Understanding the determinants of polio transmission and its large-scale epidemiology remains a public health priority. Despite a 99% reduction in annual wild poliovirus... (Comparative Study)
Comparative Study
Understanding the determinants of polio transmission and its large-scale epidemiology remains a public health priority. Despite a 99% reduction in annual wild poliovirus (WPV) cases since 1988, tackling the last 1% has proven difficult. We identified key covariates of geographical variation in polio transmission patterns by relating country-specific annual disease incidence to demographic, socio-economic and environmental factors. We assessed the relative contributions of these variables to the performance of computer-generated models for predicting polio transmission. We also examined the effect of spatial coupling on the polio extinction frequency in islands relative to larger land masses. Access to sanitation, population density, forest cover and routine vaccination coverage were the strongest predictors of polio incidence, however their relative effect sizes were inconsistent geographically. The effect of climate variables on polio incidence was negligible, indicating that a climate effect is not identifiable at the annual scale, suggesting a role for climate in shaping the transmission seasonality rather than intensity. We found polio fadeout frequency to depend on both population size and demography, which should therefore be considered in policies aimed at extinction. Our comparative epidemiological approach highlights the heterogeneity among polio transmission determinants. Recognition of this variation is important for the maintenance of population immunity in a post-polio era.
Topics: Climate; Disease Outbreaks; Global Health; Humans; Incidence; Mass Vaccination; Poliomyelitis; Poliovirus; Poliovirus Vaccines; Population Density; Risk Factors; Socioeconomic Factors; World Health Organization
PubMed: 29234135
DOI: 10.1038/s41598-017-17749-5 -
MMWR. Morbidity and Mortality Weekly... May 2022In 1988, the World Health Assembly established the Global Polio Eradication Initiative (GPEI). Since then, wild poliovirus (WPV) cases have decreased approximately...
In 1988, the World Health Assembly established the Global Polio Eradication Initiative (GPEI). Since then, wild poliovirus (WPV) cases have decreased approximately 99.99%, and WPV types 2 and 3 have been declared eradicated. Only Afghanistan and Pakistan have never interrupted WPV type 1 (WPV1) transmission. This report describes global progress toward polio eradication during January 1, 2020-April 30, 2022, and updates previous reports (1,2). This activity was reviewed by CDC and was conducted consistent with applicable federal law and CDC policy.* Five WPV1 cases were reported from Afghanistan and Pakistan in 2021, compared with 140 in 2020. In 2022 (as of May 5), three WPV1 cases had been reported: one from Afghanistan and two from Pakistan. WPV1 genetically linked to virus circulating in Pakistan was identified in Malawi in a child with paralysis onset in November 2021. Circulating vaccine-derived polioviruses (cVDPVs), with neurovirulence and transmissibility similar to that of WPV, emerge in populations with low immunity following prolonged circulation of Sabin strain oral poliovirus vaccine (OPV) (3). During January 2020-April 30, 2022, a total of 1,856 paralytic cVDPV cases were reported globally: 1,113 in 2020 and 688 in 2021, including cases in Afghanistan and Pakistan. In 2022 (as of May 5), 55 cVDPV cases had been reported. Intensified programmatic actions leading to more effective outbreak responses are needed to stop cVDPV transmission. The 2022-2026 GPEI Strategic Plan objective of ending WPV1 transmission by the end of 2023 is attainable (4). However, the risk for children being paralyzed by polio remains until all polioviruses, including WPV and cVDPV, are eradicated.
Topics: Child; Disease Eradication; Humans; Immunization Programs; Poliomyelitis; Poliovirus; Poliovirus Vaccine, Oral; Population Surveillance
PubMed: 35552352
DOI: 10.15585/mmwr.mm7119a2 -
Human Vaccines & Immunotherapeutics 2018
Topics: Cytomegalovirus Infections; Drug Development; History, 20th Century; History, 21st Century; Humans; Male; Poliomyelitis; Rubella; Viral Vaccines; Virology; Viruses
PubMed: 29873583
DOI: 10.1080/21645515.2018.1480199