Geospatial Health 5(2), 2011, pp. 205-215 Incidence of visceral leishmaniasis in the Vaishali district of Bihar, India: spatial patterns and role of inland water bodies Gouri Sankar Bhunia1, Shreekant Kesari1, Nandini Chatterjee2, Dilip Kumar Pal3, Vijay Kumar1, Alok Ranjan1, Pradeep Das1 1Department of Vector Biology and Control, Rajendra Memorial Research Institute of Medical Sciences (ICMR), Agamkuan, Patna, Bihar, India; 2Department of Geography, Presidency College, Kolkata, West Bengal, India; 3Department of Surveying and Land Studies, PNG University of Technology, Lae, Papua New Guinea Abstract. The role of the distribution of inland water bodies with respect to the transmission of visceral leishmaniasis (VL) and its dominant vector, Phlebotomous argentipes, has been studied at the regional scale in Bihar, eastern India. The Landsat TM sensor multispectral scanning radiometer, with a spatial resolution of 30 m in the visible, reflective-infrared and short- wave-infrared (SWIR) bands, was used to identify water bodies using the normalized differential pond index (NDPI) calcu- lated as follows: (Green – SWIR I)/(Green + SWIR I). Nearest neighbour and grid square statistics were used to delineate spatial patterns and distribution of the sandfly vector and the disease it transmits. The female P. argentipes sandfly was found to be associated with the distance from open water and particularly abundant near non-perennial river banks (68.4%; P <0.001), while its association with rivers was focused further away from the water source (χ2 = 26.3; P <0.001). The results also reveal that the distribution of VL is clustered around non-perennial riverbanks, while the pattern is slightly random around the perennial river banks. The grid square technique illustrate that the spatial distribution of the disease has a much stronger correlation with lower density of open waters surfaces as well as with sandfly densities (χ2 = 26.0; P <0.001). The results of our study suggest that inland water presence poses a risk for VL by offering suitable breeding sites for P. argen- tipes, a fact that should be taken into account when attempting to control disease transmission. Keywords: visceral leishmaniasis, inland water body, normalized differential pond index, India. Introduction ern and northern India, i.e. Bihar, Jharkhand, Uttar Pradesh and West Bengal. Of these, Bihar alone Visceral leishmaniasis (VL), also known as kala-azar, accounts for 90% of all Indian cases (Bora, 1999). is an important parasitic disease in India where it affects The P. argentipes vector is closely associated with large numbers of people. The disease is caused by the environmental variables (Basimike and Mutinga, protozoon parasite Leishmania donovani, which is 1997; Feliciangeli, 2004; Kishore et al., 2006; Sharma transmitted to humans through the bite of the female and Singh, 2008; Guernaoui and Boumezzough, 2009) sandfly Phlebotomous argentipes, the established vector and certain weather parameters (Ghosh et al., 1999; in India (Swaminath et al., 1942; Dinesh et al., 2000). Bhunia et al., 2010). Changed environmental parame- About 12 million people worldwide are believed to be ters, brought about by construction and development infected with the parasite, and 1-2 million new cases are or natural, ecological disturbances, influence its distri- registered each year, whereas 350 million people are at bution. In spite of considerable advances in our under- risk (http:// www.who.int/leishmaniasis/en/) (Reddy et standing of sandfly biology and disease transmission al., 2007). According to the national vector borne dis- patterns (Comer and Tesh, 1991; Ashford, 2001), con- ease control programme in India (http://planningcom- trol is still not effective. Since the sandfly breeding- mission.nic.in/plans/annualplan/) close to 165 million sites have never been satisfactorily investigated, con- people are at risk for the disease in four states of east- trol measures that act specifically against the imma- ture stages of the vector are not a feasible approach on their own (Hanson, 1961; Alexander and Maroli, Corresponding author: Pradeep Das 2003; Feliciangeli, 2004). Department of Vector Biology and Control Geographical information system (GIS) is a powerful Rajendra Memorial Research Institute of Medical Sciences (ICMR) tool facilitating our understanding of the prevalence of Agamkuan, Patna 800007, Bihar, India Tel. +91 0612 263 5570; Fax +91 0612 263 4379 disease and the distribution of risk factors in the spatial E-mail: [email protected] domain. The concurrent use of GIS and statistical tech- 206 G.S. Bhunia et al. - Geospatial Health 5(2), 2011, pp. 205-215 niques assist the determination of risk factors and the relict palaeo channels transformed into meander belts, delimitation of risk areas, thus contributing to opti- ox-bow lakes and cut-off loops, which are subject to fre- mization of resources and better strategies for control- quent avulsions and flooding. The ground throughout ling the disease (Beck et al., 1997, 2000; Bavia et al., the region consists of entisols (recently formed surface 2001; Thompson et al., 2002). Remote sensing has soils in unconsolidated parent material) and inceptisols been used as an adjunct in various epidemiologic stud- (soils devoid of clay or organic matter). These soils are ies (Hay et al., 1996) but has so far not been fully well supplied with lime and characterised by pH of 7-8 utilised with respect to kala-azar. Nevertheless, eco- and low base-exchange capacity. logical indicators have been exposed by this approach The climate is humid and tropical with an estimated (Victora et al., 1997; Beck et al., 2000; Coasta et al., average annual rainfall of 1,200-1,400 mm. The mean 2003; Sudhakar et al., 2006), revealing the role of minimum temperature is 26.5 °C in the summer, environmental markers such as vegetation vigor, soil 18.8 °C in the rainy season, and 9.4 °C during the characteristics and humidity, among other factors, winter with corresponding maximum temperatures of (Kadaro et al., 1993; Thomson et al., 1999; Elnaiem et 36.3 °C, 33.5 °C and 21.7 °C, respectively (Indian al., 2002; Singh et al., 2008). As suggested by Andrade Meteorological Department, Patna, Bihar, India). Filho et al. (2001), the sandfly’s ability of rapid adap- tion to manmade environments may contribute to Clinical data increased transmission of the disease. As vector-relat- ed changes are reinforced by the progressive deteriora- The data used in the study were collected from two tion of the natural sandfly habitats in northern India, public health centres (PHCs), one for each study area. the role of the environment in Leishmania transmis- The kala-azar incidence rate is approximately 0.5 per sion there warrants further study. 1,000 people in 2007, resulting in 335 cases for Inland water bodies are widespread in India’s Hajipur and 381 for Lalganj (District Malaria Office, north-east and the provision of humidity from them Bihar State Health Society). The diagnosis was based may facilitate sandfly breeding. The plains and banks on the presence of Leishmania parasites in spleen/bone along the Ganges River are not only strongly associat- marrow aspirations according to tests using rk39 kits ed with high numbers of kala-azar cases, but these (Boelaert et al., 2000; Srivastava et al., 2011) provid- areas are also characterised by permanent, as well as ed by the national vector borne disease control pro- non-permanent, water bodies. To our knowledge, no gramme, Government of India. study has focused on the potential role of natural water bodies, such as ponds and rivers, for P. argen- Sandfly collection and identification tipes breeding. In order to delineate the potential hydrological relationship between the vector and kala- All sandflies were collected in 320 US Centers for azar transmission, the associations between inland Disease Control (CDC) light traps (Emami and Yazdi, water bodies, sandfly prevalence and Leishmania 2008; Dinesh et al., 2009), placed in 75 villages in infections were investigated. both study areas biweekly between April and October, 2008. The traps were placed at different distances Materials and methods from the rivers in randomly selected sites (living rooms and/or cattle sheds) after sunset (18:00 hours) and col- The study sites lected before sunrise at 06:00 hours). The captured sandflies, stored until examined in 70% ethanol in test Hajipur (22.669 km2) and Lalganj (13.722 km2), two tubes labeled with area, village and the number of highly VL-affected areas in the Vaishali district of Bihar, sandflies caught, were calculated as the number of with populations of 203,729 and 349,694, respectively specimens per trap per night per house. The specimens (2001 census), were selected for the study (Fig. 1). These were mounted on micro slides with Canada balsam sub-districts, located next to each other on the flood- according to Remaudière (1992) and examined by plains of the Ganges River to the south and its tributary stereo-microscopy, identifying species and sex by gen- Gandak to the west, are confined within latitudes ital morphology as described by Lewis (1978). 25º39'00.18'' and 25º56'16.32'' north and longitudes Since P. argentipes is the recognised vector in India 85º06'02.54'' and 85º20'17.61'' east. The land is criss- and the river banks are the preferential human settle- crossed by perennial, as well as seasonally flowing, ment areas, we focused on this species and the peren- watercourses and contains ancient levees (“chaurs”), i.e. nial and non-perennial rivers. G.S. Bhunia et al. - Geospatial Health 5(2), 2011, pp. 205-215 207 Fig. 1. The study areas related to the general geography of the Indian subcontinent. Remotely sensed data and image processing The threshold values (which vary in different regions, different temporal regimes, and also for dif- A 30 m-resolution image (P/R: 141/042, DoP: ferent images) were chosen from the histogram of the 30/10/2006) originated by the Landsat-5 Thematic NDPI image and the resulting map compared with Mapper (TM) (http://landsat.gsfc.nasa.gov/about/ actual locations in the study area.
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