Introduction
Infectious diseases remain a major contributor to the global, regional and national burden of mortality and disabilities [Reference Roth1, Reference James2]. Viral diseases are gaining importance due to the emergence of new pathogens, improved surveillance and diagnostic capacity, rapid transmission and limited therapeutic measures available. Viral outbreaks are of particular public health concern as they tend to be unpredictable in occurrence and of unknown origin; and warrant immediate effective control measures to avoid high morbidity and mortality.
A disease outbreak is defined as the occurrence of clusters of epidemiological connected cases, which often requires extra human and financial resources and may also rely on additional partners, agencies and other sectors [Reference Houlihan and Whitworth3, 4].
Reports from the past two decades have shown a significantly increasing frequency and burden of viral disease outbreaks globally [Reference Lopez5, 6]. The weekly Integrated Disease Surveillance Programme (IDSP) Outbreak Surveillance which documents and reports any disease outbreak in India revealed a steep increase in the frequency and variety of outbreaks across India. The absolute number of reported outbreaks increased from 553 in 2007 to 1714 in 2017 [7]. Similarly, an increase has also been reported from eastern India as well as the state of Odisha [Reference Mourya8–Reference Nayak11].
Response to such viral outbreaks needs a comprehensive and interdisciplinary team approach. Health system mechanisms and preparedness for detection, confirmation and control of such events are of paramount importance. To strengthen these efforts, the Department of Health Research, Ministry of Health, Government of India, has set up a network of Viral Research and Diagnostic Laboratories (VRDL) across India that have been working for the diagnosis of different viruses from suspected human cases. In Odisha, VRDL has been working towards viral diagnosis since 2010 and investigations have been standardised for more than 50 different viruses which include serological tests, molecular investigations (conventional PCR and real-time PCR), sequencing and culture.
Knowledge of the frequency, distribution, aetiologies and determinants of outbreaks would be a useful tool for preparedness and planning appropriate intervention measures to control the same. While there are existing case reports and analyses of individual outbreaks in the country and state, there are no comprehensive research studies on multiple suspected outbreaks investigated using a standardised method. With this background, the present study was undertaken to understand the aetiology, frequency and distribution of viral disease outbreaks in the state of Odisha between 2010 and 2019.
Methodology
This prospective study was conducted at the VRDL located at Indian Council of Medical Research's Regional Medical Research Centre at Bhubaneswar, Odisha (ICMR-RMRC). The study was carried out in the state of Odisha in eastern India with a population of 46 million people, economic indices below the national average, and a large indigenous or tribal population (22%) [12,13]. The study period was between September 2010 and September 2019. Study participants were all cases of specific suspected viral syndromes reported across the state that were classified to be outbreaks and investigated by the study team.
Outbreak investigation methods: The Regional VRDL conducts sporadic sample testing as well as outbreak investigations in the state of Odisha and parts of neighbouring states. VRDL has a standing Rapid Response Team (RRT) comprising of a roster of epidemiologists, entomologists, microbiologists, clinicians, lab technicians and support staff. Following the information on suspected outbreaks of infectious diseases through an established network with the state health department, IDSP and/or media reports, outbreak response and investigations were carried out by the RRT. Investigations of the outbreaks were done following a standard 10-step protocol developed by ICMR-National Institute of Epidemiology (NIE) for field epidemiology [14]. Suitable samples were collected for laboratory confirmation and transported following international guidelines adopted by the IDSP [15]. Laboratory investigations for the samples were carried out using syndromic diagnostic algorithms for five syndromes developed by the ICMR-National Institute of Virology (NIV), India, as given below:
Data management and reporting: The clinical information and patient identifiers were collected from the suspected cases in the specified Clinical Recruitment Format (CRF) and were entered online through an online portal maintained by NIE. The laboratory investigation reports were shared with the state health department at the local and state level through telephone, e-mail, fax and postal media as soon as possible for public health action. Control measures for the outbreaks were suggested to the state health department according to IDSP guidelines and their implementation monitored.
Data analysis: Data were downloaded from the online portal in excel format and analysed for deriving descriptive statistical measures using SPSS ver. 23. Tables and some of the graphs were generated using modules of R-software package for statistical analysis. Geospatial analyses were done using the QGIS (ver.3.4) software.
Ethical concerns: Approval was obtained from the Institutional Human Ethical Committee of ICMR RMRC, Bhubaneswar, for the study. Data confidentiality was ensured and only aggregated patient data are being presented in the analyses. Informed consent was obtained from the participants, following the ICMR National Ethical Guidelines for biomedical research involving human subjects [Reference Mathur and Swaminathan16].
Results
A total of 191 suspected viral outbreaks were investigated by the team from VRDL during September 2010 and September 2019. These outbreaks were reported from all 30 districts of Odisha. A total of 5486 persons were included in these investigations, among them 2770 (50.5%) were females and 2716 (49.5%) were males. The mean age of the study participants was 26.7 years (s.d. = 18.3 years) and majority of the participants were adults between 18 and 60 years of age (2890; 52.7%) followed by children between 5 and 13 years (1204; 21.9%) and children under the age of 5 years (578; 10.5%). The study also included 21 infants, 537 adolescents (13–18 years) and 256 elderly aged over 60 years.
The annual number of suspected cases ranged from 185 to 1002. The most commonly suspected outbreaks were of viral hepatitis (55 outbreaks; 1223 cases), followed by dengue (45 outbreaks; 1185 cases), chickenpox (30 outbreaks; 421 cases), viral encephalitis (27 outbreaks; 930 cases), measles (23 outbreaks; 464 cases), chikungunya (10 outbreaks; 593 cases) and rubella (1 outbreak; 60). The temporal time trends of these outbreaks are given in Figure 1.
The outbreaks were reported throughout the year but maximum cases were reported in the month of July followed by September (Figure 2).
The mean age of the suspected cases for dengue was 30.3 years (95% CI 29.5–31.1 years), chikungunya was 41.1 years (95% CI 39.6–42.6 years), chickenpox was 18.8 years (95% CI 17.3–20.3 years), measles was 10.9 years (95% CI 9.9–11.8 years), rubella was 17.7 years (95% CI 15.4–20.1 years), viral encephalitis was 14.8 years (95% CI 13.8–15.8 years), viral hepatitis was 27.2 years (95% CI 26.3–28.1 years).
The most common sample collected was blood/serum (98.5%), but samples such as throat swabs, cerebrospinal fluid (CSF), urine, stool, vesicular fluid/swabs were also collected depending on the suspected disease outbreak. The results of these tests are summarised below in Tables 1 and 2.
Legend: HB/C/E/AV, JE, IgM, ELISA, PCR, RTPCR, RDK, DNAPCR, RNAPCR.
Dengue and hepatitis-E virus were diagnosed significantly more among males and chikungunya was more in females. Results for the other conditions did not demonstrate any statistically significant difference between the genders. The details are provided in Table 3.
Majority of the cases reported as well as confirmed of measles, viral encephalitis, chickenpox and rubella were among children and the majority of viral hepatitis, dengue and chikungunya cases were among adults. The age distribution of the confirmed cases is given in Table 4.
There were regional variations in the types of outbreaks. Most of the outbreaks were limited to the coastal plains of the state. Viral hepatitis outbreaks were distributed in both coastal and western parts of the state. The geographical distribution of each of the outbreaks is shown in Figure 3.
Context of specific diseases in the region
Dengue
Dengue is the second most common type of outbreak in Odisha, reported from almost all the districts. Odisha has reported 45 dengue outbreaks; involving 1185 cases and the number of cases has been rising steadily. The peak number of cases and outbreaks were found in the year 2013–14. Dengue outbreaks also show seasonal trends with maximum positive cases reported in the month of July to October. The mean age of the suspected cases for dengue was 30.3 years (95% CI 29.5–31.1). It was also found that males were more commonly affected than females. Dengue was confirmed by testing for ELISA NS1 and IgM antibody. Serotyping was done through RTPCR by amplifying and dengue serotype 2 was the most common serotype found during 2010–2011. Thereafter, all four serotypes 1, 2, 3, 4 were detected during 2012–2017.
Chikungunya
Most of the chikungunya outbreaks occurred in the year 2006 and since then no chikungunya outbreak has occurred till 2019. The common age group affected is 19–60 years (72.7%) with a female preponderance (62.8% of positive cases).
Viral hepatitis
Viral hepatitis was found to be the most common type accounting for a total of 55 outbreaks involving 1223 cases in Odisha. These were caused by hepatitis A viruses (HAV) (30.1%) and hepatitis A viruses (HEV) (69.9%). Viral hepatitis most commonly affected the adult age group of 19–60 years with a significant association with gender and a male preponderance [Reference Seo17,Reference Ki, Son and Choi18]. The reasons for such male preponderance are not clearly understood.
Chickenpox
Around 30 chickenpox outbreaks occurred in Odisha involving 421 cases in which the history of varicella zoster virus (VZV) vaccination of the cases was absent or could not be assessed/documented. As the chickenpox vaccination is not covered in the universal immunisation programme, a section of the population remains susceptible to varicella zoster infection, more so during the outbreaks.
Viral encephalitis
Viral encephalitis can be caused by a number of viruses like herpes simplex virus (HSV), VZV, Epstein–Barr virus, enterovirus, HHV-6 and arboviruses. Most common aetiology for outbreaks of viral acute encephalitis in the state was found to be due to Japanese encephalitis followed by dengue, HSV and measles. Two cases of HEV infection also had encephalitis as a major symptom. There is variation in the causes of the viral encephalitis reported from various studies. Acute encephalopathy syndrome (AES) outbreaks were seen among the tribal population of southern and northern Odisha. A major vaccination drive for Japanese encephalitis virus (JEV) was undertaken by the National Vector Borne Disease Control Program (NVBDCP) in the year 2017 after which the cases of Japanese encephalitis has significantly decreased.
Measles and rubella
All the samples from an outbreak with a history of fever, macular rash with or without rhinorrhoea and diarrhoea were tested for measles as well as rubella. If found negative they were tested for dengue and scrub typhus as per the algorithm for diagnosing a case of fever with rash. About 23 outbreaks of measles involving 464 cases occurred in the state with only one outbreak of rubella involving around 60 cases from a single district. Majority of measles and rubella cases affected the children under 12 years of age. Measles vaccination drive was systemically implemented throughout India from 2010. The combination vaccination of measles and rubella was introduced in the universal immunisation programme from the year 2015. In the year 2018–2019, about 11 million children were vaccinated with the MR vaccine between the age group of 9 months to 15 years.
Discussion
The study summarises findings of 191 outbreak investigations spread across a decade in the eastern state of India and was based out on epidemiological investigations and laboratory diagnostics of the VRDL. The study found that the epidemiology of viral outbreaks is variable across regions of the state, with different target populations, seasonal trends and geospatial distributions. Outbreak investigation, as well as management, needs a coordinated network of public health and clinicians for screening of cases, investigation and management. Timely response to disease outbreaks prevents loss of life and wastage of resources.
Viral transmission involves complex systems that include interactions between humans, animals and the environment, and understanding the interactions between human, animal and environmental systems, and the processes within each of the systems, is critical for efficient prevention and minimisation of viral outbreaks.
An outbreak is defined as more cases of a disease than expected in a specific location over a specific period [Reference Houlihan and Whitworth3]. Worldwide, it is seen that the frequency of reported outbreaks of infectious diseases has increased manifold and the same trend is evident in India and the eastern state of Odisha [Reference Lopez5–Reference Nayak11].
The state of Odisha is working in close coordination with the outbreak response team of VRDL, unit of ICMR-RMRC, Bhubaneswar, consisting of clinicians, microbiologists, epidemiologists and laboratory technicians and working towards outbreak investigations since 2010 till date. This study focuses on 191 outbreaks caused by different viruses between September 2010 and September 2019. These viral outbreaks have occurred in all 30 districts of Odisha. There remain significant geo-climatic differences between regions of the state affected with outbreaks due to different viral diseases.
A total of 5486 suspected cases were included in these investigations, among them around half were male. The mean age of the study participants was 26.7 years (s.d. = 18.3 years) and majority of the participants were adults between 18 and 60 years of age (2890; 52.7%) followed by children between 5 and 13 years (1204; 21.9%).
Our findings show that the most commonly suspected (and confirmed) aetiologies of the outbreaks were viral hepatitis, followed by dengue. According to IDSP data, in Odisha, a majority of outbreaks during the same period were due to diarrhoeal diseases followed by food poisoning and measles [19]. The current study, while focusing on viral outbreaks alone, captured data from the IDSP reporting structure as well as other sources of information on outbreaks. Hence, it was more comprehensive in efforts to capture suspected outbreaks.
Viral hepatitis was found to be the most common type of outbreak, and HEV and HAV together accounted for all the cases. Majority of the studies in India have shown that outbreaks due to viral hepatitis are caused by HAV (12.6%) and HEV (16.1%) out of the total viral hepatitis cases reported [Reference Murhekar20]. We found viral hepatitis to be most commonly affecting the adult age group of 19–60 years. However, according to a systematic review of studies from Africa, the most common age group affected was children and adolescents [Reference Patterson21]. This review was, however, in an endemic region and used sero-surveillance data. There is evidence of changing epidemiological characteristics of HAV infection with a decrease in incidence and endemicity of infection [Reference Wang22]. There was a male preponderance for hepatitis in our study. Separate studies from Korea have shown both lack of significant association with gender and male preponderance [Reference Seo17,Reference Ki, Son and Choi18]. The reason for such male preponderance is not clearly understood.
Dengue was the second most common type of outbreak involving 1185 cases. This is also seen in previous studies and reports which show an alarming increase of dengue-positive cases from the state [Reference Swain23]. Outbreaks of dengue in the region are seen more frequently in the post-monsoon phase [Reference Swain23,Reference Padhi24]. The increase in water logging and the increase in vector index post monsoon may be attributed to this increase. The mean age of the suspected cases for dengue was 30.3 years. According to studies in Odisha, the most common age group affected by dengue infection is 11–20 years[Reference Padhi24]. Other studies in India have reported that the mean age group for dengue infection is 22 years. In a few of these studies, the mean age group was found to be less than 15 years [Reference Ganeshkumar25]. There seems to be a difference in the age distribution pattern between routinely reported sero-surveillance and outbreaks. It was also found that males were more commonly affected than females. In a study done in north India, it was seen that more males are dengue-positive than females and the ratio of male:female to dengue infection to be 1.67 [Reference Savargaonkar26]. The sex predilection may be due to the type of diurnal activity of the males and the difference in exposure to the adult mosquito population [Reference Savargaonkar26].
Chickenpox, also known as varicella zoster infection, is caused by VZV of the herpes group of viruses. The population of India acquires antibodies due to infection in early childhood or by vaccination. Around 30 chickenpox outbreaks occurred in Odisha involving 421 cases were reported. Similar chickenpox outbreaks have been reported in rural belts of north, parts of west and other parts of India [Reference Singh27–Reference Deoshatwar, Bondre and Tandale29]. The most common age group affected was 6–12 years. Other studies assessing similar outbreaks have reported the most common age group affected by chickenpox to be less than 5 years (10.3%) followed by 6–10 years (12.3%) [Reference Vaidya30]. Studies from India and south-east Asia have found an increasing trend in sero-prevalence with age, where16% of children aged less than 5 years, 54% of those aged between 5–14 years and 72% of those aged 15–25 years had been infected [Reference Lee31].
Dengue and chikungunya have the same vector and the geo-climatic predispositions for transmission of disease. However, the number of outbreaks of chikungunya (10 outbreaks) that occurred in the state is far less than dengue (45 outbreaks) during 2010–19. Adults between 19 and 60 years were more commonly affected and a female preponderance was found. A similar study on outbreaks of chikungunya in south India showed that the most commonly affected age group was 5–15 years followed by 15–44 years and chikungunya was also found to be positive in more number of females (14.8%) than in males (9.9%) [Reference Kaur32]. It was also seen that most of the outbreaks occurred in the year 2006 and since then less number of chikungunya outbreaks have occurred throughout India [Reference Yergolkar33]. The female dominance for chikungunya cannot be explained and more analytical studies may be required to find out the reasons.
The most common aetiology for outbreaks of viral acute encephalitis in the state was found to be due to Japanese encephalitis followed by dengue, HSV and measles. There is variation in the causes of viral encephalitis reported from various studies. Studies of outbreaks in northern India have found that JEV was the cause in less than 10% cases of AES, and the majority cause remained unexplained [Reference Murhekar34]. Other studies have found that the most common aetiology found in viral encephalitis is HSV infection [Reference Venkatesan35]. Another study from a rural setting in India concluded that the most common aetiology for viral encephalitis was enteroviruses (11.2%) followed by flavivirus (5.2%), VZV (1.9%) and HSV 1 and 2 (0.6%) [Reference Joshi36]. Viral encephalitis is predominant in all the age groups from less than 12 years age group as well as of more than 18 years age group. The mean age group affected for viral encephalitis was found to be 40.2 years in a study conducted in central India [Reference Joshi36]. AES outbreaks were seen among the tribal population of southern and northern Odisha.
About 23 outbreaks of measles occurred in the state with only one outbreak of rubella. The majority of measles and rubella cases affected children under 12 years of age. In a study from western India, it was seen that among measles outbreaks reported in the state, 72.4% affected were in the age group of 0–12 years [Reference Vaidya37].
The outbreaks were reported throughout the year, but maximum cases were reported in July followed by September. The increase in case load is due to the burden of dengue cases which are incident during monsoon and post monsoon season. In the initial months of monsoon, the humidity is also high which promotes the breeding of mosquitoes. The increased density of vectors, i.e. Aedes egypti and Aedes albopictus, during these months in the region may be responsible for more number of cases [Reference Rao, Padhy and Das38].
Geospatial distribution of the outbreaks was not uniform across the state. While most of the outbreaks were more in coastal plains of the state, which are more densely populated, viral hepatitis outbreaks were distributed in both coastal and western parts of the state. Encephalitis outbreaks, however, were more concentrated in the mountainous tribal regions in the south and the north. Dengue outbreaks were similarly more in the urban areas of the state.
The study relies on the outbreak investigations carried out by the team of VRDL, and the team members involved in these investigations have not been constant due to obvious reasons of attrition of staff, changing responsibilities and long duration of data presented. However, we have tried to mitigate this limitation by regular capacity building of the involved staff and using a standard template for carrying out investigations and reporting the findings.
Conclusion
To our knowledge, this is the first ever study that attempts to provide a comprehensive picture of the state of viral disease outbreaks in the region by consolidating data from the last decade. Viral outbreaks are reported throughout the year, but the monsoon and post monsoon period witness more frequent and larger outbreaks, largely due to arboviral diseases or chances of food contamination. The study would help the state health department and program implementers in a great way in planning and implementing strategies for effective management and control of these outbreaks. Efforts may be more focused on the densely populated geographical pockets in the coastal region of the state as they report viral outbreaks more frequently. Efforts to improve JEV vaccine coverage and vigilance for AES outbreaks need to be maintained in the tribal-dominated southern and northern districts of the state. Further research needs to be carried out to explore the gender, population subgroups and geographical vulnerability for some of these viral diseases. With an increased incidence of viral zoonoses, there is an impetus to strengthen collaborations between public health, agricultural and environmental departments, which would require One Health approach for effectively to mitigating viral diseases.
Supplementary material
The supplementary material for this article can be found at https://doi.org/10.1017/S0950268820001594.
Acknowledgements
The authors are grateful to the departments of NVBDCP (National Vector Borne Disease Control Program) and IDSP (Integrated Disease Surveillance Project), Odisha, for their work. We are also thankful to ICMR-NIV (National Institute of Virology) for their operational and logistics support. We extend our thanks to all the VRDL staff for their support and contribution towards outbreak investigations and management. We also acknowledge the contribution of Dr D. Pandit who helped with the GIS Maps.
Financial support
The study uses data collected from the outbreaks investigated by the study team at VRDL, which is supported by the Department of Health Research, Ministry of Health and Family Welfare, Government of India.
Conflict of interest
None.
Ethical standards
Ethical approval for this study was taken from the ICMR-RMRC Bhubaneswar Human Institutional Ethical Committee.
Data
The datasets used and/or analysed during the current study are available on request to the corresponding author.
Consent for publication
Obtained.