PROSIDING SEMINAR NASIONAL SAINS

Background: Polio immunization program using oral polio virus vaccine (OPV) succeed in stopping more than 99% of the poliovirus circulation in the world . Despite the advantages, OPV has a negative impact as source of vaccine derived poliovirus (VDVP) which cause paralysis. VDPV circulates in the environment and cause the outbreak after eradication. The poliovirus circulation in the environment should be monitored through surveillance from  wastewater containing human feces both from wastewater treatment plants (WWTP) or open canal. The wastewater samples are examined using the WHO guidelines.

Methods: Literature review using electronic database in google scholar with keywords "Environmental surveillance and VDVP outbreak" that published in 2010-2020. The aim of this study is to identify type of VDPV circulated globally, countries with VDPV and strategy to detect VDPV in environment.

Result:. Until 2019-2020, VDPV type 2 frequently occurred than type 1 and 3. There are 26 countries found VDPV globally. Location, method of sample collection, sample management and laboratory capacity have very important role for successfulness of environmental surveillance to detect VDPV.

Conclusion: Poliovirus circulation including VDPV can be monitored through Polio environmental surveillance.

Key words: polio environmental Surveillance, vaccine derived poliovirus, polio outbreak

Jaume Jorba, PhD, Ousmane M. Diop, PhD, Jane Iber, MSc,dkk, (2018), Update on Vaccine-Derived Polioviruses — Worldwide, January 2017–June 2018, MMWR, Vol. 67, No. 42.

Jaume Jorba, PhD, Ousmane M. Diop, PhD, Jane Iber, MSc, dkk, (2019), Update on Vaccine-Derived Poliovirus Outbreaks —Worldwide, January 2018–June 2019, MMWR, Vol. 68, No. 45.

Mary M. Alleman, PhD, Jaume Jorba, PhD, Sharon A. Greene, PhD, dkk, (2020), Update on Vaccine-Derived Poliovirus Outbreaks — Worldwide, July 2019–February 2020, MMWR, Vol. 69, No. 16.

Conception F Estivariz, Margaret A. Watkins, Darmawali Handokoe, dkk, (2008), A large VDPV Outbreak on Madura Island Indonesia. Journal Infectious Diseases; 197:347–54

WHO, (2019), Circulating vaccine-derived poliovirus type 1 – Indonesia Disease outbreak news, diunduh di https://www.who.int/csr/don/27-february-2019-polio-indonesia/en/ pada 12 Mei 2020.

Chukwuma Mbaeyi, DDS, Zubair Mufti Wadood, MD, Thomas Moran, Mjourn, dkk, (2018), Strategic Response to an Outbreak of Circulating Vaccine-Derived Poliovirus Type 2 — Syria, 2017–2018, MMWR , Vol. 67 , No. 24.

WHO, (2018), a summary of WHO global poliomyelitis surveillance guidance. Diunduh di: http://polioeradication.org/tools-and-library/resources-for-polio-eradicators/gpei-tools-protocols-and-guidelines/, pada 12 Mei 2020.

Shulman LM, Martin J, Sofer D, dkk, (2015), Genetic analysis and characterization of wild poliovirus type 1 during sustained transmission in a population with >95% vaccine coverage, Israel 2013. Clin Infect Dis; 60:1057–6.

WHO, (2003), Guidelines for environmental surveillance of poliovirus circulation.

José E. Hagan, MD, Steven G.F. Wassilak, MD, Allen S. Craig, dkk, (2015). Progress Toward Polio Eradication — Worldwide, 2014–2015, Morbidity and Mortality Weekly Report. ; 64 (19).

Lodder WJ, Buisman AM, Rutjes SA, Heijne JC, Teunis PF, de Roda Husman AM, (2012), Feasibility of quantitative environmental surveillance in poliovirus eradication strategies. Appl Environ Microbiol. 78(11): 3800–5. doi:10.1128/AEM.07972-11.

GPEI, 2019, Nigeria Three Years Free from Wild Poliovirus, A milestone in an ongoing journey to achieve global polio eradication. Di unduh di http://polioeradication.org/news-post/nigeria-three-years-free-from-wild-poliovirus/ pada 13 Mei 2020.

Soile Blomqvist, Laila El Bassioni, Eman M. El Maamoon Nasr, dkk, (2012), Detection of Imported Wild Polioviruses and of Vaccine-Derived Polioviruses by Environmental Surveillance in Egypt, Applied and Environmental Microbiology p. 5406 –5409, Volume 78 Number 15.

Aarti Garg, Sirima Pattamadilok, Sunil Bahl, (2018), Successes and challenges of expansion of environmental poliovirus surveillance in the WHO South-East Asia Region, WHO South-East Asia Journal of Public Health | September 2018 | 7(2).

Duintjer Tebbens RJ, Zimmermann M, Pallansch MA, Thompson KM. (2017) Insights from a systematic search for information on designs, costs, and effectiveness of poliovirus environmental surveillance systems. Food Environ Virol. Available at: http://link.springer.com/10.1007/s12560-017-9314-4. Accessed 8 September 2017.].

Ticha Johnson Muluh, Abdullahi Walla Hamisu,Kehinde Craig,dkk, Contribution of Environmental Surveillance Toward Interruption of Poliovirus Transmission in Nigeria, 2012–2015, The Journal of Infectious Diseases® 2016;213(S3):S131–5.

Tori L. Cowger, Cara C. Burns, Salmaan Sharif, 2017, The role of supplementary environmental surveillance to complement acute flaccid paralysis surveillance for wild poliovirus in Pakistan – 2011–2013, PLOS ONE, https://doi.org/10.1371/journal.

Bambang Heriyanto, Nike Susanti, and Vivi Setiawaty. Characterization and Identification of Poliovirus from the Environment in Indonesia 2015. Bali Medical Journal .2018; 7(3) : 539-543.

Nike Susanti, Herna, Nelly Puspandari, dan Sinta Purnamawati, (2020) Progress and Challenges of Polio Environmental Surveillance in Indonesia, Proceedings of the 4th International Symposium on Health Research (ISHR 2019). https://doi.org/10.2991/ahsr.k.200215.038

Nicksy Gumede, Joseph Okeibunor, Ousmane Diop,dkk Progress on the Implementation of Environmental Surveillance in the African Region, 2011-2016, J Immunol Sci. 2018 August 2; Suppl(4): 24–30.

WHO, 2019, Papua New Guinea Polio Outbreak Response Report for 2018, diunduh di https://www.who.int/papuanewguinea/news/detail/25-03-2019-papua-new-guinea-polio-outbreak-response-report-for-2018-published, pada 15 Mei 2020

Graciela Matrajt, Brienna Naughton, Ananda S. Bandyopadhyay, and John Scott Meschke,(2018), A Review of the Most Commonly Used Methods for Sample Collection in Environmental Surveillance of Poliovirus, Clinical Infectious Diseases;67(S1):S90–7.

Nicolette A. Zhou, Christine S. Fagnant-Sperati, dkk (2019), Feasibility of the Bag-Mediated Filtration System for Environmental Surveillance of Poliovirus in Kenya, Food and Environmental Virology volume 12, pages35–47.

Nicolette A. Zhou, Christine S. Fagnant-Sperati, (2018) dkk, Evaluation of the bag-mediated filtration system as a novel tool for poliovirus environmental surveillance: Results from a comparative field study in Pakistan, PLOS ONE.

Mathias Bauri, MPH, MBA, Amanda L. Wilkinson, PhD, Berry Ropa, MPH, dkk, Circulating Vaccine-Derived Poliovirus Type 1 and Outbreak Response — Papua New Guinea, 2018, MMWR / February 8, 2019 / Vol. 68 / No. 5.

Steve J. KroissID, Maiwand Ahmadzai , Jamal Ahmed, dkk, (2018), Assessing the sensitivity of the polio environmental surveillance system, PLOS ONE, | https://doi.org/10.1371/journal.

T. Hovi, L. M. Shulman, H. Van Der Avoort, dkk, (2012), Role of environmental poliovirus surveillance in global polio eradication and beyond. Epidemiol. Infect, 140, 1–13.

Humayun Asghar, Ousmane M. Diop, Goitom Weldegebriel, dkk, (2014),Environmental Surveillance for Polioviruses in the Global Polio Eradication Initiative, The Journal of Infectious Diseases, Volume 210, Issue suppl_1, Pages S294–S303, https://doi.org/10.1093/infdis/jiu384.

Tomofumi Nakamura, Mitsuhiro Hamasaki, Hideaki Yoshitomi, dkk, (2015), Environmental Surveillance of Poliovirus in Sewage Water around the Introduction Period for Inactivated Polio Vaccine in Japan, Applied and Environmental Microbiology, Volume 81 Number 5.