Progress Toward Poliomyelitis Eradication — Nigeria, January 2018–May 2019
Weekly / July 26, 2019 / 68(29);642–646
Usman S. Adamu, MBBS1; W. Roodly Archer, PhD2; Fiona Braka, MBBS3; Eunice Damisa, MPH1; Anisur Siddique, MD4; Shazad Baig, MBBS5; Jeffrey Higgins, MS6; Gerald Etapelong Sume, MD3; Richard Banda, MBChB3; Charles Kipkoech Korir, MPH3; Ndadilnasiya Waziri, DVM7; Saheed Gidado, MD7; Philip Bammeke, MS7; Aboyowa Edukugo, DVM7; Gatei wa Nganda, DVM2; Joseph C. Forbi, PhD2; Cara C. Burns, PhD8; Hongmei Liu, MS8; Jaume Jorba, PhD8; Adeyelu Asekun, MBA, MHCAD9; Richard Franka, DVM, PhD2; Steven G.F. Wassilak, MD2; Omotayo Bolu, MBBS9 (View author affiliations)View suggested citation
What is already known about this topic?
The latest wild poliovirus (WPV) case in Nigeria occurred in August 2016 and was reported in September 2016, in Borno State.
What is added by this report?
The number of children living in insurgent-held areas in Borno who have not had access to poliovirus vaccines was reduced by 87% during December 2016–May 2017. Trained community members living in insurgent-held areas have reported suspected polio cases with no WPV identified on virologic testing, which suggests that WPV transmission might have been interrupted in Nigeria. However, outbreaks caused by type 2 circulating vaccine-derived poliovirus (cVDPV2) are spreading internationally.
What are the implications for public health practice?
Improved polio mass campaign quality is required to achieve interruption of all cVDPV2 transmission in Nigeria.
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The number of wild poliovirus (WPV) cases in Nigeria decreased from 1,122 in 2006 to six WPV type 1 (WPV1) in 2014 (1). During August 2014–July 2016, no WPV cases were detected; during August–September 2016, four cases were reported in Borno State. An insurgency in northeastern Nigeria had resulted in 468,800 children aged <5 years deprived of health services in Borno by 2016. Military activities in mid-2016 freed isolated families to travel to camps, where the four WPV1 cases were detected. Oral poliovirus vaccine (OPV) campaigns were intensified during August 2016–December 2017; since October 2016, no WPV has been detected (2). Vaccination activities in insurgent-held areas are conducted by security forces; however, 60,000 unvaccinated children remain in unreached settlements. Since 2018, circulating vaccine-derived poliovirus type 2 (cVDPV2) has emerged and spread from Nigeria to Niger and Cameroon; outbreak responses to date have not interrupted transmission. This report describes progress in Nigeria polio eradication activities during January 2018–May 2019 and updates the previous report (2). Interruption of cVDPV2 transmission in Nigeria will need increased efforts to improve campaign quality and include insurgent-held areas. Progress in surveillance and immunization activities will continue to be reviewed, potentially allowing certification of interruption of WPV transmission in Africa in 2020.
A violent insurgency that arose in 2009 and was followed by insurgents seizing territory beginning in 2012 in Borno, Adamawa, and Yobe states (and bordering areas of Cameroon, Chad, and Niger) led to the internal displacement of 1.8 million persons (3). By 2016, this conflict created a humanitarian crisis in which an estimated 468,800 children aged <5 years resided in insurgent-held areas in Borno with no health services, including vaccination and surveillance activities (2). Since December 2016, movement of populations within and out of Borno insurgent-held areas has continued with increasing numbers of persons now living in areas outside insurgents’ control; however, many settlements remain inaccessible (Figure).
National coverage levels for the third dose of poliovirus vaccine (Pol3) delivered through routine immunization services by age 12 months have been <60% since 2002,* with lower rates in northern states. A 2016 survey indicated that Pol3 coverage nationally was 33% and <25% in seven of 13 northern states (4).
Acute flaccid paralysis surveillance. The quality of polio surveillance is assessed by nonpolio AFP (NPAFP) rates and stool collection adequacy.† Targets for Nigeria are an NPAFP rate of three or more cases per 100,000 population aged <15 years per year and stool collection adequacy ≥80% of AFP cases. In 2018, the national NPAFP rate was 9.6, and stool adequacy was 95%. As of May 31, 2019, the annualized national 2019 NPAFP rate was 8.0, and stool adequacy was 95%. In Borno, in 2018, the NPAFP rate was 24.5 with 85% stool adequacy; the annualized 2019 NPAFP rate is 19.6 and stool adequacy is 87%.
The destruction of health facilities after the insurgency disrupted health facility–based surveillance in Borno. Community informants help identify AFP cases in insurgent-held areas in Borno, particularly since February 2018. As of May 31, 2019, a total of 1,018 community informants in Borno reported 220 verified AFP cases during 2018–2019. Stool specimens are obtained when patients with AFP and their families temporarily leave insurgent-held areas for evaluation in safe areas; in 2018, stool adequacy for these AFP cases was 61% and in 2019, 79% to date.
Environmental surveillance. To supplement AFP surveillance, sewage samples are tested for polioviruses (5). During January 2018–May 2019, 25 (68%) of Nigeria’s 37 states had at least one environmental surveillance site for a total of 113 functional sites; no WPV and 85 cVDPV2 isolates were detected through environmental surveillance.
Since 1988, widespread use of trivalent OPV (tOPV, containing Sabin serotypes 1, 2, and 3) reduced the number of polio cases >99% globally. WPV type 2 was declared globally eradicated in 2015 (6,7). In low-immunization settings, transmission of attenuated Sabin poliovirus contained in OPV can result in genetic reversion to VDPVs that can cause paralysis. When community transmission occurs, VDPVs are categorized as circulating (cVDPVs) (8). During 2006–2015, >94% of confirmed cVDPVs worldwide were cVDPV2 (8). To decrease the risk for cVDPV2, a globally synchronized switch from tOPV to bivalent OPV (bOPV, containing serotypes 1 and 3) occurred in April 2016 (8). Injectable inactivated poliovirus vaccine (IPV, containing serotypes 1, 2, and 3) was introduced into all OPV-using countries to provide individual protection from type 2 poliovirus paralysis (9). Both vaccines confer individual protection; however, IPV does not decrease fecal poliovirus shedding among children with infection, whereas OPV induces intestinal immunity and prevents shedding. Monovalent OPV type 2 (mOPV2) vaccine is available for cVDPV2 outbreak response (10). Since January 2018 (as of June 25, 2019), two independent cVDPV2 outbreaks have occurred (Table 1).
Emergence in Jigawa State. Eight cVDPV2-positive sewage samples collected during January 10–October 17, 2018, in Jigawa were genetically linked to four cVDPV2 cases with paralysis onset during April 15–October 13, 2018. This outbreak has spread to 11 other states, totaling 41 cVDPV2 cases and 71 sewage isolates. Genetically related poliovirus was also isolated from 11 AFP patients in Niger Republic, with onset July 18, 2018–April 3, 2109, and from one sewage sample collected April 4, 2019, in Cameroon.
Emergence in Sokoto State. A VDPV2 isolate was identified in a sewage sample collected January 30, 2018, in Sokoto; subsequent samples from three sites in 2018 yielded genetically related cVDPV2s. Genetically related cVDPV2 was isolated from an AFP patient in Niger State, with onset March 18, 2019.
In 2018, two national supplementary immunization activities (SIAs) with bOPV,§ one subnational SIA with bOPV in five states, two subnational SIAs in seven states using bOPV and fractional IPV, and three subnational SIAs in two states using bOPV and fractional IPV were conducted. One subnational SIA using bOPV has been conducted in seven states to date in 2019. Two subnational SIAs were conducted in two states using bOPV and fractional IPV. Gombe was the only state with three subnational SIAs to date in 2019 (Table 2).
Since December 2016, little change has occurred in the areas not accessible by standard house-to-house SIA teams in Borno. Two novel approaches for immunizing children in insurgent-held areas in Borno were implemented (2). Reaching Every Settlement utilizes security escorts to enable vaccinators to reach children in some settlements in insurgent-held areas, and Reaching Inaccessible Children enables vaccination of children by trained military personnel in settlements only accessible by these personnel (2). Satellite imagery is used to estimate population sizes in settlements and vaccination team movements are tracked using geographic information systems, providing data on geographic reach by these immunization approaches (Figure). Since January 2018, approximately 140,000 children in insurgent-held settlements were vaccinated during 13 Reaching Every Settlement rounds with bOPV and approximately 85,000 children aged <5 years were vaccinated with mOPV2 in response to cVDPV2 outbreaks. During five Reaching Inaccessible Children rounds, 71,370 children were vaccinated with bOPV. As of May 2018, among approximately 104,330 children aged <5 years remaining in insurgent-held areas, 43,840 (42.0%) have received at least 1 bOPV dose. Most unreached children reside in settlements scattered over a wide geographic area. Overall, among children aged <5 years in insurgent-held settlements that have been reached, 79.8% and 26.2% have been offered ≥3 doses of bOPV by Reaching Every Settlement or Reaching Inaccessible Children rounds, respectively.
During January 2018–May 2019, Nigeria conducted multiple mOPV2 outbreak response SIAs in states affected by cVDPV2 and neighboring states (Table 2). The quality of outbreak response SIAs as assessed by post-campaign lot quality assurance sampling surveys has been variable; the national average for mOPV2 SIAs ranged from 64% to 90% of sampled local government areas reaching the target 90% threshold of estimated proportion of children vaccinated. A limited number of mOPV2 doses have been given in insurgent-held areas by Reaching Every Settlement during mid-2016–mid-2019; therefore, approximately 104,330 children aged <5 years have had no exposure to type 2 OPV.
During 2003–2014, Nigeria reported the majority of WPV cases in Africa and was the origin of most WPV importation outbreaks (1,6). Polio eradication activities were aggressively enhanced in 2012–2014. The last WPV type 3 isolated worldwide was in Nigeria in November 2012. The patient with the most recent WPV1 case in Nigeria had paralysis onset in August 2016 (2), even as previously silent areas in Borno have incrementally increased surveillance with community informants. Progress in decreasing the number of unvaccinated children in insurgent-held areas resulted from improved vaccination reach by novel approaches and net population migration from insurgent-held areas to accessible areas. Additional surveillance sensitivity assessments in Nigeria and other African countries are underway, potentially to allow certification of interruption of WPV transmission by the African Regional Certification Commission in 2020. However, active cVDPV2 transmission continuing into 2020 in Nigeria or eight other countries on the continent with active cVDPV2 outbreaks might complicate the certification process.
Nigeria experienced multiple cVDPV2 outbreaks during 2005–2015 as well as ongoing transmission after cVDPV2 importation in 2013 because of vulnerability to emergence and spread of cVDPV2 from the predominant use of mOPV1, mOPV3 and bOPV during 2005–2014 SIAs, coupled with chronically low routine tOPV coverage (6). In addition, tOPV SIAs before the tOPV-to-bOPV switch were not sufficiently effective in all areas.
Children remaining in insurgent-held areas of Borno have remained inaccessible to mOPV2 administration by standard house-to-house SIAs for the cVDPV2 outbreak response; administration of mOPV2 in those areas will require Reaching Every Settlement and Reaching Inaccessible Children. Although mOPV2 is the tool to stop cVDPV2 outbreaks, it also carries the risk of seeding new emergences of cVDPV2 in areas with low-quality SIAs. Increased efforts for appropriate planning and supervision of subsequent SIAs will be important in ensuring optimal response quality necessary to interrupt cVDPV2 transmission and emergence.
Aron Kassahun Aregay, Expanded Program on Immunization, World Health Organization, Nigeria Country Office; Jibrin Idris, Samuel Abbott, Melton Musa, Ba’aba Ahmed Ibrahim, Abdullahi Umar, Felix Enson Mbodi, Isa Ali Hassan, Moses Obeimen, Nigeria National Stop Transmission of Polio Program, Africa Field Epidemiology Network; Jane Iber, Division of Viral Diseases, National Center for Immunization and Respiratory Diseases, CDC; John Vertefeuille, Margherita Ghiselli, Oladayo Biya, Global Immunization Division, CDC; World Health Organization Global Polio Laboratory Network, Geneva, Switzerland, and Faisal Shuiab, Nigeria National Primary Health Care Development Agency, Expanded Program on Immunization.
Corresponding author: Omotayo Bolu, OBolu@cdc.gov, +234-809-023-6024.
1Polio Emergency Operations Center, National Primary Health Care Development Agency, Abuja, Nigeria; 2Global Immunization Division, Center for Global Health, CDC; 3Expanded Program on Immunization, World Health Organization Nigeria Country Office, Abuja, Nigeria; 4United Nations Children’s Fund Nigeria Country Office, Abuja, Nigeria; 5Bill and Melinda Gates Foundation, Abuja, Nigeria; 6Division of Emergency Operations, Center for Preparedness and Response, CDC; 7National Stop Transmission of Polio Program, Africa Field Epidemiology Network, Nigeria Office, Abuja, Nigeria; 8Division of Viral Diseases, National Center for Immunization and Respiratory Diseases, CDC; 9CDC Nigeria Country Office, Abuja, Nigeria.
All authors have completed and submitted the ICMJE form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.
† An annual non-polio AFP detection rate of ≥1 case per 100,000 population aged <15 years in countries in WHO regions certified as polio-free, or ≥2 in all other countries reflects the sensitivity of AFP surveillance. Stool adequacy refers to the collection of adequate stool specimens (i.e., two stool specimens collected >24 hours apart, within 14 days of paralysis onset, with arrival at the laboratory in good condition [cool and without leakage or desiccation]) from ≥80% of reported AFP patients and reflects the quality of case investigation. http://polioeradication.org/polio-today/polio-now/surveillance-indicators/external icon.
§ SIAs are mass immunization campaigns conducted over several days to boost population immunity in areas with weak routine childhood immunization services and suboptimal coverage. The goal of SIAs is to reach every child aged <5 years with OPV, regardless of their vaccination status. http://polioeradication.org/who-we-are/strategic-plan-2013-2018/supplementary-immunization/external icon.
- Hamisu AW, Shuaib F, Johnson TM, et al. Profile of polio-compatible cases in Nigeria, 2006–2016. BMC Public Health 2018;18(Suppl 4):1308–14. CrossRefexternal icon PubMedexternal icon
- Bolu O, Nnadi C, Damisa E, et al. Progress toward poliomyelitis eradication—Nigeria, January–December 2017. MMWR Morb Mortal Wkly Rep 2018;67:253–6. CrossRefexternal icon PubMedexternal icon
- United Nations Office for the Coordination of Humanitarian Affairs. Nigeria: humanitarian dashboard. New York, NY: United Nations Office for the Coordination of Humanitarian Affairs; 2016. https://www.unocha.org/nigeriaexternal icon
- United Nations Children’s Fund. Nigeria: Multiple Indicator Cluster Survey 2016–17: national survey finding report. New York, NY: United Nations Children’s Fund; 2018. http://mics.unicef.org/external icon
- Johnson Muluh T, Hamisu AW, Craig K, et al. Contribution of environmental surveillance toward interruption of poliovirus transmission in Nigeria, 2012–2015. J Infect Dis 2016;213(Suppl 3):S131–5. CrossRefexternal icon PubMedexternal icon
- Wassilak S, Pate MA, Wannemuehler K, et al. Outbreak of type 2 vaccine-derived poliovirus in Nigeria: emergence and widespread circulation in an underimmunized population. J Infect Dis 2011;203:898–909. CrossRefexternal icon PubMedexternal icon
- Global Polio Eradication Initiative. Global eradication of wild poliovirus type 2 declared. Geneva, Switzerland: World Health Organization, Global Polio Eradication Initiative; 2015. http:// polioeradication.org/mediaroom/newsstories/Global-eradication-of-wild-poliovirus-type-2-declared/tabid/526/news/1289/Default.aspxexternal icon
- Hampton LM, Farrell M, Ramirez-Gonzalez A, et al. ; Immunization Systems Management Group of the Global Polio Eradication Initiative. Cessation of trivalent oral poliovirus vaccine and introduction of inactivated poliovirus vaccine—Worldwide, 2016. MMWR Morb Mortal Wkly Rep 2016;65:934–8. CrossRefexternal icon PubMedexternal icon
- Tevi-Benissan C, Okeibunor J, du Châtellier GM, et al. Introduction of inactivated poliovirus vaccine and trivalent oral polio vaccine/bivalent oral polio vaccine switch in the African region. J Infect Dis 2017;216(suppl_1):S66–75. CrossRefexternal icon PubMedexternal icon
- Global Polio Eradication Initiative. Standard operating procedures: responding to a poliovirus event or outbreak, version 3. Geneva, Switzerland: World Health Organization, Global Polio Eradication Initiative; 2019. http://polioeradication.org/wp-content/uploads/2016/07/sop-polio-outbreak-response-version-20193101.pdfpdf iconexternal icon
FIGURE. Inhabited settlements reached with bivalent oral poliovirus vaccine using standard house-to-house, Reaching Every Settlement,* and Reaching Inaccessible Children† approaches during August–December 2016 (A) and August 2016–May 2019 (B), by number of cumulative vaccination visits reaching children aged <5 years — Borno State, Nigeria, August 2016–May 2019§,¶
* Reaching Every Settlement is an approach in which security escorts enable vaccinators to reach children in insurgent-held areas.
† Reaching Inaccessible Children is an approach in which trained military personnel vaccinate children in settlements that only they can access.
§ During August–September 2016, 52.4% of the population resided in settlements reached by vaccination teams three or more times, 15.5% in settlements reached one to two times, and 32.1% in settlements that were not reached; during August 2016–May 2019, 88.3% of the population resided in settlements that were reached three or more times, 4.4% in settlements reached one to two times, and 7.3% in settlements that were not reached.
¶ The amount of uninhabited area increased during August 2016–May 2019 because of population migration from insurgent-held areas to accessible areas.
Suggested citation for this article: Adamu US, Archer WR, Braka F, et al. Progress Toward Poliomyelitis Eradication — Nigeria, January 2018–May 2019. MMWR Morb Mortal Wkly Rep 2019;68:642–646. DOI: http://dx.doi.org/10.15585/mmwr.mm6829a3external icon.
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