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Letter
Emerging Leptospirosis, North
India
Suggested citation for this article: Chaudhry
R, Premlatha MM, Mohanty S, Dhawan B, Singh KK, Dey AB. Emerging leptospirosis,
North India. Emerg Infect Dis [serial online] 2002 Dec [date cited];8.
Available from: URL: http://www.cdc.gov/ncidod/EID/vol8no12/02-0052.htm
To the Editor: We read with interest the article, The Changing
Epidemiology of Leptospirosis in Israel, published in volume 7, no. 6
(1). Leptospirosis, a septicemic zoonosis with multisystemic
involvement, is caused by the pathogenic strains of Leptospira interrogans.
Rural farm workers are at high risk for leptospirosis, and it can be a
significant public health problem when water and food safety are not ensured.
Several epidemics of leptospirosis have occurred on Andaman and Nicobar
islands and in southern and western parts of India during the past century
(2). The organism has been detected in farm animals in
many parts of the country (3); however, human infections
have been more or less localized. In 1998, researchers warned that, unless
adequate public health measures were initiated, large leptospirosis epidemics
were possible in areas where the disease had not been previously reported
(4). In addition, they recommended improving clinical
diagnosis and conducting systematic epidemiologic studies for control
of the disease (4).
The true incidence of human leptospirosis in northern India is not known
either because of a lack of awareness on the part of the treating physicians
or the lack of diagnostic techniques. In 1966, human leptospirosis was
reported in Delhi, a state in northern India (5). In
a 1966 study (5), sera from persons with pyrexia and
jaundice were tested by the agglutination lysis test for leptospiral antibodies.
Of 93 serum specimens from persons with pyrexia cases, 3 were positive
(1 with L. icterohemorrhagica and two with L. canicola);
of 43 serum specimens from persons with jaundice, 3 were positive (2 with
L. icterohemorrhagica and 1 with L. icterohemorrhagica and
L. pomona). No other study on leptospirosis has been done in the
region, and no data are available concerning the problem.
To assess the current status of transmission in Delhi and its adjoining
areas, we conducted a systematic study for the diagnosis of leptospirosis
in our hospital from April 2000 to March 2001; case definition criteria
suggested in a previous study (4) were used. A case was
defined as a person with fever, headache, and myalgia and more than two
of the following symptoms: jaundice, oliguria, respiratory symptoms (cough,
hemoptysis, and breathlessness), hemorrhagic manifestations (hematemesis,
bleeding gums, and subconjunctival hemorrhage), and signs of meningeal
irritation and convulsion. Seventy-five patients (44 male patients; 3–73
years of age) satisfied the inclusion criteria. In addition to clinical
evaluation and assessment for other diseases, leptospirosis was investigated
by the following laboratory methods: isolation of Leptospira interrogans,
direct visualization of the organism under dark-field microscopy, and
enzyme-linked immunosorbent assay (ELISA) for Leptospira immunoglobulin
(Ig) M antibody (Serion Immunodiagnostica GmbH, Würzburg, Germany). Per
manufacturer’s specifications, the sensitivity, specificity, positive
predictive value, and negative predictive value of this kit are 96%, 97%,
90%, and 99%, respectively). All blood samples were sent to the Leptospira
referral laboratory at the Indian Veterinary Research Institute, Izzatnagar,
for microscopic agglutination test (MAT). Eight serovars of L. interrogans
(australis, autumnalis, pomona, sejroe, tarassovi, icterohaemorrhagica,
hebdomadis, and patoc) were tested, and a agglutination titer
of more than 1:100 was considered positive. All patients were treated
empirically with broad-spectrum antibiotics as well as specific drugs
according to the results of investigations.
Thirty-two patients (42.6%) had a positive ELISA test for Leptospira
IgM antibody. The results of MAT were positive in 21 (65.6%) of the 32
ELISA-positive serum samples. Serum specimens from 11 patients reacted
with a single serovar, and specimens from 10 patients reacted with more
than one serovar. Among the pathogenic species, Leptospira antibodies
were detectable by MAT predominantly against L. sejroe (7 of 21),
followed by L. icterohaemorrhagica (6 of 21), L. hebdomadis
(4 of 21), and L. tarassovi (4 of 21). Leptospira antibodies
were also detectable against L. autumnalis (3 of 21), L. australis
(2 of 21), and L. pomona (1 of 21). Against L. patoc, MAT
could detect antibodies in six samples. The organism could not be isolated
in culture or visualized under dark-field microscopy in any of the specimens.
Of the 43 case-patients with ELISA-negative specimens, alternative diagnoses
were established for 40 on the basis of various laboratory investigations.
In five of the patients with ELISA-positive specimens, coinfection with
other pathogens was detected, including Salmonella typhi (one case)
by a positive Widal test, hepatitis C virus by positive ELISA (two cases),
and Plasmodium falciparum (two cases) by a positive smear. Five
patients, including three who were ELISA positive for Leptospira,
died. The highest number of ELISA-positive serum samples (21 of 32) were
obtained in August and September 2000, suggesting an epidemic.
Epidemiologic investigation of leptospirosis is often hampered by the
difficulty of making a definitive microbiologic diagnosis. Isolation of
leptospira from clinical samples provides a definitive diagnosis; however,
the value of culture is limited because samples have to be collected before
the administration of antibiotics, and culturing requires prolonged incubation.
Demonstration of typical motility of leptospira under dark-ground illumination
in clinical samples, though helpful in early diagnosis, has low sensitivity
and depends on the technician’s opinion. Measurement of IgM antibodies
against Leptospira by ELISA has emerged as a reliable diagnostic
test with good specificity and sensitivity (6). The probability
of achieving a positive serologic test increases with the duration of
disease, and good correlation between results of MAT and ELISA has been
reported by Cumberland et al. (7). MAT has emerged as
a dependable diagnostic tool for leptospirosis (next to isolation) by
providing serovar specific diagnosis. However, a large number of serovars
of L. interrogans exist, and maintaining large numbers of organisms
for MAT is difficult for most laboratories. Moreover, MAT may fail to
detect antibodies when specific serovars are not used. In this study,
the ELISA-positive samples, for which MAT results were negative, may have
been caused by infection with serovars other than those used in this study.
Because of the problems with methods, leptospirosis is grossly underdiagnosed.
Leptospira organisms require humid weather for their survival.
Rodents and domestic animals (i.e., cattle and dogs) harbor leptospires
and shed the bacteria in urine; they may disseminate the organism to rain
water and drinking water sources. Humans frequently come in contact with
contaminated water during floods; the number of cases is higher during
and after heavy rainfalls. We found that the peak incidence of the disease
was during August and September, the monsoon season, which may explain
the high incidence of seropositivity during this period. Though the organism
has been detected in farm animals in northern India, human leptospirosis
has not been considered a major public health problem, probably because
transmission is low in arid weather conditions. As a result of 13 consecutive
monsoons of above-average strength in India, changes in the environment
may be promoting the transmission of this organism. Recently, two other
regions in northern India, Chandigarh (8) and Varanasi
(9), have reported a Leptospira seroprevalance
rate of 8.8% and 21.74%, respectively.
Our study supports the warning from other researchers regarding the threat
of leptospirosis in areas such as northern India. Preventive measures
should be initiated and rapid and definitive diagnostic tests must be
developed.
Rama Chaudhry*, M.M. Premlatha,* Srujana Mohanty,* Benu Dhawan,* Kumar
Kirti Singh,* and A.B Dey*
*All India Institute of Medical Sciences, New Delhi, India
References
- Kariv R, Klempfner R, Barnea A, Sidi Y, Schwartz E.
The
changing epidemiology of leptospirosis in Israel. Emerg Infect Dis
2001;7:990–2.
- Sehgal SC. Leptospirosis
in the horizon. Natl Med J India 2000;13:228–30.
- Ratnam S. Leptospirosis: an Indian perspective. Indian Journal of
Medical Microbiology 1994;12:228–39.
- Singhal RL, Sood OP, editors. Leptospirosis. Proceedings of the Third
Round Table Conference; 1998 Feb 23; New Delhi, India. Gugaon, India:
Ranbaxy Science Foundation; 1998.
- Joseph KM, Kalra SL. Leptospirosis
in India. Indian J Med Res 1966;54:611–4.
- Winslow WE, Merry DJ, Pirc ML, Devine PL. Evaluation
of a commercial enzyme-linked immunosorbent assay for detection of immunoglobulin
M antibody in diagnosis of human leptospiral infection. J Clin Microbiol
1997;35:1938–42.
- Cumberland P, Everard CO, Levett PN. Assessment
of the efficacy of an IgM-ELISA and microscopic agglutination test (MAT)
in the diagnosis of acute leptospirosis. Am J Trop Med Hyg 1999;61:731–4.
- Pooja, Sharma M, Sud A, Sethi S. Serological evidence of leptospirosis
by IgM ELISA and IgM dipstick in patients of acute febrile illness.
In: XXVth National Congress of Indian Association of Medical Microbiologists;
2001 Nov 21–25; New Delhi, India. New Dehli, India: Organizing Committee
of the XXVth National Congress of the Indian Association of Medical
Microbiologists; 2001. p. 90.
- Kumar D, Tripathi K, Mohapatra TM. Detection of leptospirosis for
the first time in the eastern zone of northern India: a preliminary
report. In: XXVth National Congress of Indian Association of Medical
Microbiologists; 2001 Nov 21–25; New Delhi, India New Delhi,
India: Organizing Committee of the XXVth National Congress of the Indian
Association of Medical Microbiologists; 2001. p. 90.
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