International Journal of Infectious Diseases (Dec 2020)

Disease surveillance during a large religious mass gathering in India: The Prayagraj Kumbh 2019 experience

  • Vikasendu Aggrawal,
  • Tanzin Dikid,
  • S.K. Jain,
  • Ashu Pandey,
  • Pradeep Khasnobis,
  • Sushma Choudhary,
  • Ramesh Chandra,
  • Amol Patil,
  • Kiran Kumar Maramraj,
  • Ashok Talyan,
  • Akhileshwar Singh,
  • Binoy S. Babu,
  • Akshay Kumar,
  • Davendra Kumar,
  • P.M. Raveesh,
  • Jayanti Singh,
  • Rakesh Kumar,
  • S.S. Qadri,
  • Preeti Madan,
  • Vaishali Vardan,
  • Kevisetue Anthony Dzeyie,
  • Ginisha Gupta,
  • Abhishek Mishra,
  • T.P. Vaisakh,
  • Purvi Patel,
  • Azar Jainul,
  • Suneet Kaur,
  • Anubhav Shrivastava,
  • Meera Dhuria,
  • Ritu Chauhan,
  • S.K. Singh

Journal volume & issue
Vol. 101
pp. 167 – 173

Abstract

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Background: Mass gathering (MG) events are associated with public health risks. During the period January 14 to March 4, 2019, Kumbh Mela in Prayagraj, India was attended by an estimated 120 million visitors. An onsite disease surveillance was established to identify and respond to disease outbreaks. Methods: A health coordination committee was established for planning. Disease surveillance was prioritized and risk assessment was done to identify diseases/conditions based on epidemic potential, severity of illness, and reporting requirement under the International Health Regulations (IHR) of 2005. A daily indicator and event-based disease surveillance was planned. The indicator-based surveillance (IBS) manually and electronically recorded data from patient hospital visits and collected MG area water testing data to assess trends. The event-based surveillance (EBS) helped identify outbreak signals based on pre-identified event triggers from the media, private health facilities, and the food safety department. Epidemic intelligence was used to analyse the data and events to detect signals, verify alerts, and initiate the response. Results: At Kumbh Mela, disease surveillance was established for 22 acute diseases/syndromes. Sixty-five health facilities reported 156 154 illnesses (21% of a total 738 526 hospital encounters). Among the reported illnesses, 95% (n = 148 834) were communicable diseases such as acute respiratory illness (n = 52 504, 5%), acute fever (n = 41 957, 28%), and skin infections (n = 27 094, 18%). The remaining 5% (n = 7300) were non-communicable diseases (injuries n = 6601, 90%; hypothermia n = 224, 3%; burns n = 210, 3%). Water samples tested inadequate for residual chlorine in 20% of samples (102/521). The incident command centre generated 12 early warning signals from IBS and EBS: acute diarrheal disease (n = 8, 66%), vector-borne disease (n = 2, 16%), vaccine-preventable disease (n = 1, 8%), and thermal event (n = 1, 8%). There were two outbreaks (acute gastroenteritis and chickenpox) that were investigated and controlled. Conclusions: This onsite disease surveillance imparted a public health legacy by successfully implementing an epidemic intelligence enabled system for early disease detection and response to monitor public health risks. Acute respiratory illnesses emerged as a leading cause of morbidity among visitors. Future MG events should include disease surveillance as part of planning and augment capacity for acute respiratory illness diagnosis and management.

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