Emerging Infectious Diseases
[Volume 5 No.4 / July - August 1999]


Dispatches

The First Major Outbreak of Dengue Hemorrhagic Fever in Delhi, India

L. Dar, S. Broor, S. Sengupta, I. Xess, and P. Seth
All India Institute of Medical Sciences, Ansari Nagar, New Delhi, India

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         An outbreak of dengue hemorrhagic fever/dengue shock syndrome (DHS/DSS) occurred in
1996 in India in and near Delhi. The cause was confirmed as dengue virus type 2, by virus
cultivation and indirect immunofluorescence with type-specific monoclonal antibodies. This is
the largest such outbreak reported  from India, indicating a serious resurgence of dengue virus
infection.

An outbreak of dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS) occurred in
Delhi, India, and its adjoining areas, from August through November 1996. We confirmed the
etiologic agent of this outbreak as dengue virus type 2 by virus cultivation and indirect
immunofluorescence with type-specific monoclonal antibodies. This is the largest
culture-confirmed outbreak of DHF/DSS in India and indicates a serious resurgence of dengue
virus infection in this country.

Dengue fever occurs worldwide, in nearly all tropical and subtropical countries (1). Dengue virus
was first isolated in India in 1945 (2). All four virus types circulate and cause epidemics, but
only occasional cases of DHF/DSS have been reported in India (3).

Delhi, situated in the northern part of India, had outbreaks of dengue virus infection due to
different dengue virus types in 1967, 1970, 1982, and 1988, but no culture-confirmed cases of
DHF/DSS were reported during these epidemics (4-7). Some cases of DHF were seen for the first
time in 1988 (7). These were confirmed only serologically, by the hemagglutination inhibition
test.

Delhi had its largest outbreak of DHF/DSS in 1996. The outbreak started the last week of August
and continued until the end of November, peaking in mid-October (8,9). A total of 8,900 cases
were reported, with a death rate of 4.2% (9). We report results of virologic testing of samples
received at the All India Institute of Medical Sciences from patients with suspected dengue fever
or denguelike illness from Delhi and its adjoining areas, along with a profile of the
culture-confirmed cases.

Virus isolation was carried out on 149 samples received on ice from patients with acute illness.
Serum was separated aseptically and stored at -70o C. The standard method of virus cultivation,
which used the C6/36 clone of Aedes albopictus cell line, was followed with some modifications
(10).

On days 5 and 10, cells were tested by indirect immunofluorescence assay (IFA) by using
monoclonal antibodies to dengue virus types 1-4. If IFA was negative for dengue viruses on first
passage, a second passage was made, and cells were again harvested on days 5 and 10 for IFA.
All four dengue virus types (from the National Institute of Virology, Pune, India) were included
as positive controls, and uninfected C6/36 cells were kept as negative controls.

Dengue viruses were isolated in C6/36 cells from 27 (18.1%) of 149 samples processed for virus
isolation. Of the 27 isolates, 26 were identified as dengue virus type 2 and one as dengue virus
type 1. Sixteen of the 27 isolates were from patients with DHF/DSS, while 11 were isolated from
patients with uncomplicated dengue fever. Of the 27 culture-positive patients, 11 (40.7%) were
in the 5- to 12-year age group (Table). However, the isolates were nearly equally distributed
among children (<12 years) and adults. The ratio of male to female in these 27 cases was 12:15.
The median duration of fever at the time of viral isolation was 4 days, on the basis of 24
culture-positive cases for which the duration of fever was available. After 5 days of fever, virus
isolation was possible only from one patient. The median duration of viremia in dengue type 2
infection was also found to be 4 days in a detailed study on dengue viremia from Jakarta,
Indonesia (11). Testing for immunoglobulin (Ig) M antibodies to dengue virus was performed on
270 serum samples by MAC-ELISA according to a standard protocol (12). Of 270 sera tested for
antibodies to dengue virus by MAC-ELISA, 140 (51.9%) showed anti-dengue IgM antibodies.
All samples from patients with a duration of fever > 5 days were tested for anti-dengue IgM
antibodies. In some samples, antibodies could be detected as early as the fifth day of fever. Three
of the culture-positive acute-phase samples were also positive by MAC-ELISA.

Analysis of the outbreaks of dengue virus infection in Delhi indicates a seasonal trend. All
outbreaks (including the one
reported here) occurred during the monsoon (rainy) season (August to November) and subsided
with the onset of winter.
Dengue virus types 1, 2, and 3 have been isolated during dengue fever outbreaks (without
DHF/DSS) in Delhi. Serologic studies have also shown that dengue infection has been endemic
in this region (13). During the 1996 outbreak of DHF/DSS, we were able to identify dengue virus
type 2 as the etiologic agent. This is the first culture-confirmed outbreak of DHF/DSS from
Delhi and its adjoining areas and the largest reported outbreak of DHF/DSS from India.

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Acknowledgments

      We thank Duane J. Gubler for supplying diagnostic reagents and protocols for our work and
the director, National
Institute of Virology, Pune, India, for providing known strains of all dengue virus types. We also
thank Milan Chakraborty
and Raj Kumar for excellent technical support.

      Dr. Dar is associate professor in the virology section of the Department of Microbiology at
the All India Institute
of Medical Sciences, New Delhi, India. His interests include diagnostic virology, viral
immunology, and tuberculosis.

      Address for correspondence: Shobha Broor, Department of Microbiology, All India Institute
of Medical Sciences, Ansari
Nagar, New Delhi-110 029, India; fax: 91-11-686-2663; e-mail:
broor@hotmail.com.

References

  1. Thongcharoen P, Jatanasen S. Dengue haemorrhagic fever and dengue shock
syndrome—introduction, historical and   epidemiological background. In: Thongcharoen P,
compiler. Monograph on dengue haemorrhagic fever. WHO, Regional Office   for South-East
Asia; 1993. p. 1-8.
  2. Sabin AB. Research on dengue during World War II. Am J Trop Med Hyg 1952;1:30-50.
  3. Rao CVRM. Dengue fever in India. Indian J Pediatr 1987;54:11-4.
  4. Balaya S, Paul SD, D'Lima LV, Pavri KM. Investigations on an outbreak of dengue in Delhi
in 1967. Indian J Med Res   1969;57:767-74.
  5. Diesh P, Pattanayak S, Singha P, Arora DD, Mathur PS, Ghosh TK, et al. An outbreak of
dengue fever in Delhi—1970. J   Commun Dis 1972;4:13-8.
  6. Rao CVRM, Bagchi SK, Pinto BD, Ilkal MA, Bharadwaj M, Shaikh BH, et al. The 1982
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     Indian J Med Res 1985;82:271-5.
  7. Kabra SK, Verma IC, Arora NK, Jain Y, Kalra V. Dengue haemorrhagic fever in children in
Delhi. Bull WHO 1992;70:105-8.
  8. Broor S, Dar L, Sengupta S, Chakraborty M, Wali JP, Biswas A, et al. Recent dengue
epidemic in Delhi, India. In:   Saluzzo JE, Dodet B, editors. Factors in the emergence of
arbovirus diseases. Paris: Elsevier; 1997. p. 123-7.
  9. Sharma PL, Sood OP, editors. Round table conference series—dengue outbreak in Delhi:
1996. Gurgaon, India: Ranbaxy   Science Foundation; 1996.
 10. Gubler DJ, Kuno G, Sather GE, Valez M, Oliver A. Mosquito cell and specific monoclonal
antibodies in surveillance for   dengue viruses. Am J Trop Med Hyg 1984;33:158-65.
 11. Gubler DJ, Suharyono W, Tan R, Abidin M, Sie A. Viraemia in patients with naturally
acquired dengue infection. Bull   WHO 1981;59:623-30.
 12. Monath TP, Nystrom RR, Bailey RE, Calisher CH, Muth DJ. Immunoglobulin M antibody
capture enzyme linked immunosorbent   assay for the diagnosis of St Louis encephalitis. J Clin
Microbiol 1984;20:784-90.
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investigations on arbovirus activity in   and around Delhi—a five year study. Indian J Med Res
1979;69:557-66.


 Table. Age distribution of patients with culture-
 positive dengue

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 Age (years) No. of cases

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 0-1                2

 >1-5               1

 >5-12            11

 >12-20             7

 >20-30             4

 >30                2

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Emerging Infectious Diseases
National Center for Infectious Diseases
Centers for Disease Control and Prevention
Atlanta, GA

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