Socially-integrated transdisciplinary HIV prevention.

Current ideas about HIV prevention include a mixture of primarily biomedical interventions, socio-mechanical interventions such as sterile syringe and condom distribution, and behavioral interventions. This article presents a framework for socially-integrated transdisciplinary HIV prevention that may improve current prevention efforts. It first describes one socially-integrated transdisciplinary intervention project, the Transmission Reduction Intervention Project. We focus on how social aspects of the intervention integrate its component parts across disciplines and processes at different levels of analysis. We then present socially-integrated perspectives about how to improve combination antiretroviral treatment (cART) processes at the population level in order to solve the problems of the treatment cascade and make "treatment as prevention" more effective. Finally, we discuss some remaining problems and issues in such a social transdisciplinary intervention in the hope that other researchers and public health agents will develop additional socially-integrated interventions for HIV and other diseases.

Diphtheria and tetanus seroepidemiology among children in Ukraine, 2017.

BACKGROUND: The drastic decline of Ukraine's immunization coverage since 2009 led to concerns about potential resurgence diphtheria and tetanus, along with other vaccine-preventable diseases. METHODS: To assess population immunity against diphtheria and tetanus, we tested specimens from the serosurvey conducted in 2017 among children born in 2006-2015, the birth cohorts targeted by the nationwide outbreak response immunization following a circulating vaccine-derived poliovirus type 1 outbreak in Zakarpattya province in 2015. We surveyed four regions of Ukraine, using cluster sampling in Zakarpattya, Sumy, and Odessa provinces and simple random sampling in Kyiv City. We tested serum specimens for IgG antibodies against diphtheria and tetanus, using microbead assays (MBA). We estimated seroprevalence and calculated 95% confidence intervals. We also obtained information on the immunization status of surveyed children. RESULTS: Seroprevalence of ≥0.1 IU/mL diphtheria antibodies was <80% in all survey sites (50.0%-79.2%). Seroprevalence of ≥0.1 IU/mL tetanus antibodies was ≥80% in Sumy, Kyiv City, and Odessa (80.2%-89.1%) and 61.6% in Zakarpattya. Across the sites, the proportion of children vaccinated age-appropriately with diphtheria-tetanus-containing vaccines (DTCV) was 28.5%-57.4% among children born in 2006-2010 and 34.1%-54.3% among children born in 2011-2015. The proportion of recipients of <3 DTCV doses increased from 7.1%-16.7% among children born in 2006-2010 to 19.8%-38.6% among children born in 2011-2015, as did the proportion of recipients of zero DTCV doses (2.6%-8.8% versus 8.0%-14.0%, respectively). CONCLUSIONS: Protection against diphtheria among children born in 2006-2015 was suboptimal (<80%), particularly in Zakarpattya. Protection against tetanus was adequate (≥80%) except in Zakarpattya. Diphtheria-tetanus immunization status was suboptimal across all sites. Catch-up vaccination of unvaccinated/under-vaccinated children and other efforts to increase immunization coverage would close these immunity gaps and prevent the resurgence of diphtheria and tetanus in Ukraine, particularly in Zakarpattya.

Seroprevalence of hepatitis B virus infection markers among children in Ukraine, 2017.

BACKGROUND: Before hepatitis B vaccine (HepB) introduction, level of endemicity of hepatitis B virus (HBV) in Ukraine was estimated as intermediate but the prevalence of HBV infection markers has not been measured in population-based serosurveys. Coverage with 3 doses of HepB, introduced in 2002, was 92%-98% during 2004-2007 but declined to 21%-48% during 2010-2016. To obtain data on HBV prevalence among children born after HepB introduction, we tested specimens from a serosurvey conducted in Ukraine in 2017, following circulating vaccine-derived poliovirus outbreak in 2015, among birth cohorts eligible for polio immunization response. METHODS: The serosurvey was conducted in Zakarpattya, Sumy, and Odessa provinces, and Kyiv City, targeting 2006-2015 birth cohorts. One-stage cluster sampling in the provinces and stratified simple random sampling in Kyiv were used for participant selection. All participants were tested for antibodies against HBV core antigen (anti-HBc). Anti-HBc-positive children were tested for HBV surface antigen (HBsAg). We also obtained information on HepB vaccination status for all children. RESULTS: Of 4,596 children tested, 81 (1.8%) were anti-HBc-positive and eight (0.2%) were HBsAg-positive. HBsAg prevalence was 0.7% (95% confidence interval, 0.3%-1.4%) in Zakarpattya, 0.1% (0.0%-0.4%) in Sumy, 0% (0.0%-03%) in Odessa, and 0.1% (0.0%-0.8%) in Kyiv. Across survey sites, the proportion of recipients of ≥ 3 HepB doses was 53%-80% in the 2006-2009 cohort and 28%-59% in the 2010-2015 cohort. CONCLUSION: HBV prevalence among children in surveyed regions of Ukraine in 2017 was low, including in Zakarpattya-the only site above the 0.5% European Regional target for HBsAg seroprevalence. However, HepB vaccination was suboptimal, particularly among children born after 2009, resulting in large numbers of unvaccinated or incompletely vaccinated children at risk of future HBV infection. HepB coverage should be increased to further reduce HBV transmission among children in Ukraine and achieve regional and global hepatitis B control/elimination targets.

Responding to a cVDPV1 outbreak in Ukraine: Implications, challenges and opportunities.

BACKGROUND: The European Region, certified polio-free in 2002, remains at risk of wild poliovirus reintroduction and emergence of circulating vaccine-derived polioviruses (cVDPV) until global polio eradication is achieved, as demonstrated by the cVDPV1 outbreak in Ukraine in 2015. METHODS: We reviewed epidemiologic, clinical and virology data on cVDPV cases, surveillance and immunization coverage data, and reports of outbreak-related surveys, country missions, and expert group meetings. RESULTS: In Ukraine, 3-dose polio vaccine coverage declined from 91% in 2008 to 15% by mid-2015. In summer, 2015, two unrelated children from Zakarpattya province were paralyzed by a highly divergent cVDPV1. The isolates were 20 and 26 nucleotide divergent from prototype Sabin strain (with 18 identical mutations) consistent with their common origin and ∼2-year evolution. Outbreak response recommendations developed with international partner support included conducting three nationwide supplementary immunization activities (SIAs) with tOPV, strengthening surveillance and implementing communication interventions. SIAs were conducted during October 2015-February 2016 (officially reported coverage, round 1-64.4%, round 2-71.7%, and round 3-80.7%). Substantial challenges to outbreak response included lack of high-level support, resistance to OPV use, low perceived risk of polio, widespread vaccine hesitancy, anti-vaccine media environment, economic crisis and military conflict. Communication activities improved caregiver awareness of polio and confidence in vaccination. Surveillance was enhanced but did not consistently meet applicable performance standards. Post-outbreak assessments concluded that cVDPV1 transmission in Ukraine has likely stopped following the response, but significant gaps in population immunity and surveillance remained. CONCLUSIONS: Chronic under-vaccination in Ukraine resulted in the accumulation of children susceptible to polioviruses and created favorable conditions for VDPV1 emergence and circulation, leading to the outbreak. Until programmatic gaps in immunization and surveillance are addressed, Ukraine will remain at high-risk for VDPV emergence and circulation, as well as at risk for other vaccine-preventable diseases.