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Volume 23, Number 1—January 2017
Letter

Scrub Typhus Leading to Acute Encephalitis Syndrome, Assam, India

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Abstract

To determine the contribution of Orientia tsutsugamushi, the agent of scrub typhus, as a cause of acute encephalitis syndrome (AES) in Assam, India, we conducted a retrospective study of hospital patients with symptoms of AES during 2013–2015. Our findings suggest that O. tsutsugamushi infection leads to AES and the resulting illness and death.

Scrub typhus is a miteborne bacterial disease caused by Orientia tsutsugamushi. Clinical features generally include fever, headache, and myalgia, with or without eschar/rash (1). In India context, scrub typhus was first reported in Assam during World War II (1944–1945) across the India–Myanmar border (2). The northeastern region of India then experienced decades without the disease until it reemerged in 2010 (3). Assam, a northeastern state in India, is recognized as an endemic zone for acute encephalitis syndrome (AES), especially that caused by Japanese encephalitis virus (JEV). However, the etiology of >50% of the AES cases in Assam remains unrecognized (4). In this study, we aimed to determine the contribution of scrub typhus to AES in this region.

We conducted a retrospective study of patients exhibiting symptoms of AES who were admitted during 2013–2015 to Assam Medical College and Hospital, Dibrugarh (a government-funded tertiary care hospital that provides health care for 8 adjoining districts). Serum samples underwent serologic testing with InBios ST Detect IgM ELISA kit (InBios International, Seattle, WA, USA). An optical density of >0.5 was considered positive (5). We extracted DNA from the blood samples by using the QIAamp DNA blood mini kit (QIAGEN, Hilden, Germany) and performed nested PCR for amplification of a 56-kDa gene of Orientia, targeting a 483-bp fragment (6). We compared the sequences obtained with reference strains of Orientia.

Figure

Thumbnail of Dendrogram representing Orientia tsutsugamushi sequences (black triangles) from patients with acute encephalitis syndrome, Assam, India, 2013–2015. The phylogenetic tree was constructed on a 56-kDa outer membrane protein gene of O. tsutsugamushi. The evolutionary history was inferred by using the maximum-likelihood method based on the Tamura 3-parameter model. Our sequences are found within the brackets.  Bold indicates the KARP genotype.

Figure. Dendrogram representing Orientia tsutsugamushi sequences (black triangles) from patients with acute encephalitis syndrome, Assam, India, 2013–2015. The phylogenetic tree was constructed on a 56-kDa outer membrane protein gene of O. tsutsugamushi....

We enrolled 511 AES case-patients after disease onset (mean 6.23 days; range 1–14 days); 104 (20.3%) had IgM against O. tsutsugamushi (suggestive of recent infection) (7). Of these 104 patients, 58 (55.7%) were male and 46 (44.2%) were female. Ages ranged from 3 to 80 years (median 25 years). The main clinical features of the 104 IgM-positive case-patients were fever (100%), altered sensorium (100%), headache (67.3%), unconsciousness (55.7%), nausea (40.3%), and neck rigidity (0.9%). None had any record of eschar. Leptospirosis, dengue, and malaria were ruled out for all 104 case-patients. Only 13 (12.5%) of the IgM-positive case-patients were positive for JEV IgM. Orientia DNA was detected in 9 (8.6%) of the samples that had IgM against O. tsutsugamushi. Percentage similarity of the nucleotide sequences (GenBank accession nos. KU163359, KU163361, KU163362, KU163366, KU163369, KU163370, KU163372, KU163373, and KP067915) demonstrated resemblances with the Karp strain of Orientia ranging from 91.9% to 93.7% (Figure). We were able to follow-up 53 of the 104 IgM-positive case-patients and discovered that 26 (49%) died after discharge. These included 4 of the 9 PCR positive case-patients.

The high prevalence of illness and death resulting from scrub typhus in this study can be attributed to various reasons. First, because JEV is the predominant etiologic agent of AES in the northeastern region, especially in Assam, health providers generally do not suspect other etiologic factors, including scrub typhus. Moreover, the nonspecific clinical features of scrub typhus in these patients (i.e., absence of eschar/rash) led to diagnostic dilemmas. In addition, JEV infection, West Nile virus infection, and leptospirosis have been identified as key contributors to AES in the northeastern region (8,9). Treatable bacterial diseases such as leptospirosis and scrub typhus are grossly underestimated because of the low index of suspicion and limited diagnostic facilities, especially in developing countries such as India. Proportion of deaths due to untreated scrub typhus varies across different regions from 0% to 70% (10). Our study found a high case-fatality rate of 49%. The absence of distinguishable clinical features among AES-identifying etiologic factors makes differential diagnosis difficult, and thus the condition remains untreated. That clinicians are unaware of the presence of the disease remains a major hindrance to its recognition and successful treatment.

In our study, the highest numbers of scrub typhus cases were recorded during July–September, the peak season for JEV transmission. The northeastern region has a subtropical climatic pattern, and the season (May–August) is also an appropriate period for sowing and harvesting crops. Agricultural lands cover 22% of the northeastern region, with ≈70% of the total population dependent on agriculture for their livelihood. Because our study was retrospective, the occupations of the patients with positive cases were unknown. However, the areas where the followed-up case-patients lived were primarily agrarian.

Our findings suggest that the bacterium that causes scrub typhus, O. tsutsugamushi, is a notable etiologic agent that contributes to the occurrence of AES and resulting illness and death. We believe that it is urgent that this neglected, treatable disease be considered when diagnosing those with AES, especially during July–September in AES-endemic regions. Recording of occupation details and ecologic background of the attending patients, especially from those in rural areas, could be a vital source for identifying those with suspected scrub typhus. Increasing awareness among clinicians could lead to prompt diagnosis and effective treatment of this almost-forgotten potential source of AES.

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Acknowledgments

We thank Hirok Jyoti Borchetia, Sazzad Bin Aminur Rahman, and Bulen Das for their excellent technical assistance in the laboratory.

This work was supported by the Indian Council of Medical Research, India (grant no. NER/19/2012-ECD-I). This study was approved by the institutional ethics committee of the Regional Medical Research Centre, Dibrugarh.

Dr. Khan is a scientist at the Regional Medical Research Centre, Northeast Region, Dibrugarh, Assam. His research interests include surveillance and molecular epidemiological studies of insect vector-borne diseases, in particular,. identifying disease hotspots and Georgraphic Information Systems mapping.

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Siraj A. KhanComments to Author , Trishna Bora, Basanta Laskar, Abdul M. Khan, and Prafulla Dutta
Author affiliations: Regional Medical Research Centre, NE Region, Indian Council of Medical Research, Dibrugarh, Assam, India (S.A. Khan, T. Bora, A.M. Khan, P. Dutta); Assam Medical College and Hospital, Dibrugarh, Assam, India (B. Laskar)

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References

  1. Rathi  N, Rathi  A. Rickettsial infections: Indian perspective. Indian Pediatr. 2010;47:15764. DOIPubMedGoogle Scholar
  2. Davis  GE, Austrian  RC, Bell  EJ. Observations on tsutsugamushi disease (scrub typhus) in Assam and Burma: the recovery of strains of Rickettsia orientalis. Am J Hyg. 1947;46:26886.PubMedGoogle Scholar
  3. Khan  SA, Dutta  P, Khan  AM, Topno  R, Borah  J, Chowdhury  P, et al. Re-emergence of scrub typhus in northeast India. Int J Infect Dis. 2012;16:e88990. DOIPubMedGoogle Scholar
  4. Rathore  SK, Dwibedi  B, Kar  SK, Dixit  S, Sabat  J, Panda  M. Viral aetiology and clinico-epidemiological features of acute encephalitis syndrome in eastern India. Epidemiol Infect. 2014;142:251421. DOIPubMedGoogle Scholar
  5. Rahi  M, Gupte  MD, Bhargava  A, Varghese  GM, Arora  R. DHR-ICMR Guidelines for diagnosis & management of Rickettsial diseases in India. Indian J Med Res. 2015;141:41722. DOIPubMedGoogle Scholar
  6. Yang  HH, Huang  IT, Lin  CH, Chen  TY, Chen  LK. New genotypes of Orientia tsutsugamushi isolated from humans in Eastern Taiwan. PLoS One. 2012;7:e46997. DOIPubMedGoogle Scholar
  7. Blacksell  SD, Tanganuchitcharnchai  A, Nawtaisong  P, Kantipong  P, Laongnualpanich  A, Day  NPJ, et al. Diagnostic accuracy of the InBios Scrub Typhus Detect enzyme-linked immunoassay for the detection of IgM antibodies in Northern Thailand. Clin Vaccine Immunol. 2015;23:14854. DOIPubMedGoogle Scholar
  8. Chowdhury  P, Khan  SA, Dutta  P, Topno  R, Mahanta  J. Characterization of West Nile virus (WNV) isolates from Assam, India: insights into the circulating WNV in northeastern India. Comp Immunol Microbiol Infect Dis. 2014;37:3947. DOIPubMedGoogle Scholar
  9. Khan  SA, Dutta  P, Borah  J, Chowdhury  P, Topno  R, Baishya  M, et al. Leptospirosis presenting as acute encephalitis syndrome (AES) in Assam, India. Asian Pac J Trop Dis.2012;2:151–3. DOIGoogle Scholar
  10. Taylor  AJ, Paris  DH, Newton  PN. A systematic review of mortality from untreated scrub typhus (Orientia tsutsugamushi). PLoS Negl Trop Dis. 2015;9:e0003971. DOIPubMedGoogle Scholar

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Cite This Article

DOI: 10.3201/eid2301.161038

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Siraj A. Khan, Regional Medical Research Centre, N.E. Region, Post Box-105, Dist- Dibrugarh, Assam, India

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Page created: December 16, 2016
Page updated: December 16, 2016
Page reviewed: December 16, 2016
The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.
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