【 摘 要 】

Background

Lymphatic filariasis (LF) is one of the neglected tropical diseases targeted for global elimination by 2020 and to guide elimination efforts countries have, in recent years, conducted extensive mapping surveys. Documenting the past and present distribution of LF and its environmental limits is important for a number of reasons. Here, we present an initiative to develop a global atlas of LF and present a new global map of the limits of LF transmission.

Methods

We undertook a systematic search and assembly of prevalence data worldwide and used a suite of environmental and climatic data and boosted regression trees (BRT) modelling to map the transmission limits of LF.

Results

Data were identified for 66 of the 72 countries currently endemic and for a further 17 countries where LF is no longer endemic. Our map highlights a restricted and highly heterogeneous distribution in sub-Saharan Africa, with transmission more widespread in West Africa compared to east, central and southern Africa where pockets of transmission occur. Contemporary transmission occurs across much of south and South-east Asia and the Pacific. Interestingly, the risk map reflects environmental conditions suitable for LF transmission across Central and South America, including the southern States of America, although active transmission is only known in a few isolated foci. In countries that have eliminated LF, our predictions of environmental suitability are consistent with historical distribution.

Conclusions

The global distribution of LF is highly heterogeneous and geographically targeted and sustained control will be required to achieve elimination. This first global map can help evaluate the progress of interventions and guide surveillance activities.

【 授权许可】

   
2014 Cano et al.; licensee BioMed Central Ltd.

【 预 览 】

附件列表

Files	Size	Format	View
20150405114635911.pdf	2495KB	PDF	download
Figure 10.	93KB	Image	download
Figure 9.	76KB	Image	download
Figure 8.	63KB	Image	download
Figure 7.	100KB	Image	download
Figure 6.	33KB	Image	download
Figure 5.	124KB	Image	download
Figure 4.	46KB	Image	download
Figure 3.	120KB	Image	download
Figure 2.	121KB	Image	download
Figure 1.	35KB	Image	download

【 图 表 】

Figure 1.

Figure 2.

Figure 3.

Figure 4.

Figure 5.

Figure 6.

Figure 7.

Figure 8.

Figure 9.

Figure 10.

【 参考文献 】

• [1]Taylor MJ, Hoerauf A, Bockarie M: Lymphatic filariasis and onchocerciasis. Lancet 2010, 376:1175-1185.
• [2]Meeting of the International Task Force for Disease Eradication, January 2014 Wkly Epidemiol Rec 2014, 89:153-160.
• [3]Kanjanopas K, Choochote W, Jitpakdi A, Suvannadabba S, Loymak S, Chungpivat S, Nithiuthai S: Brugia malayi in a naturally infected cat from Narathiwat Province, southern Thailand. Southeast Asian J Trop Med Public Health 2001, 32:585-587.
• [4]Lek-Uthai U, Tomoen W: Susceptibility of Mansonia uniformis to Brugia malayi microfilariae from infected domestic cat. Southeast Asian J Trop Med Public Health 2005, 36:434-441.
• [5]Ottesen EA, Duke BO, Karam M, Behbehani K: Strategies and tools for the control/elimination of lymphatic filariasis. Bull World Health Organ 1997, 75:491-503.
• [6]Preventive Chemotherapy in Human Helminthiasis. World Health Organization, Geneva; 2006.
• [7]Bockarie MJ, Molyneux DH: The end of lymphatic filariasis? BMJ 2009, 338:b1686.
• [8]WHO position statement on integrated vector management to control malaria and lymphatic filariasis Wkly Epidemiol Rec 2011, 86:121-127.
• [9]Webber RH, Webber RH: Eradication of Wuchereria bancrofti infection through vector control. Trans R Soc Trop Med Hyg 1979, 73:722-724.
• [10]Ramzy RM, El Setouhy M, Helmy H, Ahmed ES, Abd Elaziz KM, Farid HA, Shannon WD, Weil GJ: Effect of yearly mass drug administration with diethylcarbamazine and albendazole on bancroftian filariasis in Egypt: a comprehensive assessment. Lancet 2006, 367:992-999.
• [11]Tada I: Lymphatic filariasis and its control in Japan -the background of success. Trop Med Health 2011, 39:15-20.
• [12]De-Jian S, Xu-Li D, Ji-Hui D: The history of the elimination of lymphatic filariasis in China. Infect Dis Poverty 2013, 2:30.
• [13]Sodahlon YK, Dorkenoo AM, Morgah K, Nabiliou K, Agbo K, Miller R, Datagni M, Seim A, Mathieu E: A success story: Togo is moving toward becoming the first Sub-Saharan African nation to eliminate lymphatic filariasis through mass drug administration and countrywide morbidity alleviation. PLoS Negl Trop Dis 2013, 7:e2080.
• [14]Hawking F: The distribution of Bancroftian filariasis in Africa. Bull World Health Organ 1957, 16:581-592.
• [15]Hawking F, Denham DA: The distribution of human filariasis throughout the world. Part I. the Pacific Region, including New Guinea. Trop Dis Bull 1976, 73:347-373.
• [16]Hawking F, Hawking F: The distribution of human filariasis throughout the world. Part II. Asia. Trop Dis Bull 1976, 73:967-1016.
• [17]Sasa M: Human Filariasis. A Global Survey of Epidemiology and Control. University Park Press, Baltimore; 1976.
• [18]Hawking F: The distribution of human filariasis throughout the world. Part III. Africa. Trop Dis Bull 1977, 74:649-679.
• [19]Hawking F: The distribution of human filariasis throughout the world part IV. America. Trop Dis Bull 1979, 76:693-710.
• [20]Kimura E, Rim HJ, Dejian S, Weerasooriya M: Filariasis in Asia and Western Pacific Islands. FAP Journal Ltd, Japan; 2005.
• [21]Brygoo ER: La filariose humain a Madagascar. Arch Inst Pasteur Madagascar 1958, 26:23-39.
• [22]OCCGE: Rapport final de la neuviem conference technique de I¿OCCGE, 21-25 April 1969. Bobo-Dioulasso, Burkina Faso. 1969.
• [23]Brengues J, Bouchité B, Nelson G, Ouedraogo C, Gbaguidi P, Dyemkouma A, Ochoumare J: La filariose de Bancroft en Afrique de l¿Ouest. ORSTOM, Paris; 1975.
• [24]Kuhlow F, Zielke E: Distribution and prevalence of Wuchereria bancrofti in various parts of Liberia. Tropenmed Parasitol 1976, 27:93-100.
• [25]Ou ZY, Luo JM, Luo XC: The filariasis situation in Guangdong Province, China. Southeast Asian J Trop Med Public Health 1991, 22:477-488.
• [26]Apiwathnasorn C, Kanjanopas K, Thammapalo S, Loymak S, Samung Y, Prummongkol S, Molyneux D: Application of GIS to the characterization of filariasis transmission in Narathiwat Province. Southeast Asian J Trop Med Public Health 2003, 34(Suppl2):61-66.
• [27]Michael E, Bundy DA, Grenfell BT: Re-assessing the global prevalence and distribution of lymphatic filariasis. Parasitology 1996, 112(Pt 4):409-428.
• [28]Hassan AN, Dister S, Beck L: Spatial analysis of lymphatic filariasis distribution in the Nile Delta in relation to some environmental variables using geographic information system technology. J Egypt Soc Parasitol 1998, 28:119-131.
• [29]Gyapong JO, Remme JH: The use of grid sampling methodology for rapid assessment of the distribution of bancroftian filariasis. Trans R Soc Trop Med Hyg 2001, 95:681-686.
• [30]Gyapong JO, Kyelem D, Kleinschmidt I, Agbo K, Ahouandogbo F, Gaba J, Owusu-Banahene G, Sanou S, Sodahlon YK, Biswas G, Kale OO, Molyneux DH, Roungou JB, Thomson MC, Remme J: The use of spatial analysis in mapping the distribution of bancroftian filariasis in four West African countries. Ann Trop Med Parasitol 2002, 96:695-705.
• [31]Mukoko DA, Pedersen EM, Masese NN, Estambale BB, Ouma JH: Bancroftian filariasis in 12 villages in Kwale district, Coast province, Kenya - variation in clinical and parasitological patterns. Ann Trop Med Parasitol 2004, 98:801-815.
• [32]Boyd A, Won KY, McClintock SK, Donovan CV, Laney SJ, Williams SA, Pilotte N, Streit TG, de Rochars MV B, Lammie PJ: A community-based study of factors associated with continuing transmission of lymphatic filariasis in Leogane, Haiti. PLoS Negl Trop Dis 2010, 4:e640.
• [33]Weil GJ, Lammie PJ, Weiss N: The ICT filariasis test: a rapid-format antigen test for diagnosis of bancroftian filariasis. Parasitol Today 1997, 13:401-404.
• [34]Bhumiratana A, Koyadun S, Suvannadabba S, Karnjanopas K, Rojanapremsuk J, Buddhirakkul P, Tantiwattanasup W: Field trial of the ICT filariasis for diagnosis of Wuchereria bancrofti infections in an endemic population of Thailand. Southeast Asian J Trop Med Public Health 1999, 30:562-568.
• [35]Phantana S, Sensathein S, Songtrus J, Klagrathoke S, Phongnin K: ICT filariasis test: a new screening test for Bancroftian filariasis. Southeast Asian J Trop Med Public Health 1999, 30:47-51.
• [36]Rahmah N, Taniawati S, Shenoy RK, Lim BH, Kumaraswami V, Anuar AK, Hakim SL, Hayati MI, Chan BT, Suharni M, Ramachandran CP: Specificity and sensitivity of a rapid dipstick test (Brugia Rapid) in the detection of Brugia malayi infection. Trans R Soc Trop Med Hyg 2001, 95:601-604.
• [37]Supali T, Rahmah N, Djuardi Y, Sartono E, Rückert P, Fischer P: Detection of filaria-specific IgG4 antibodies using Brugia Rapid test in individuals from an area highly endemic for Brugia timori. Acta Trop 2004, 90:255-261.
• [38]Melrose W, Rahmah N: Use of Brugia Rapid dipstick and ICT test to map distribution of lymphatic filariasis in the Democratic Republic of Timor-Leste. Southeast Asian J Trop Med Public Health 2006, 37:22-25.
• [39]Sustaining the drive to overcome the global impact of neglected tropical diseases: second WHO report on neglected diseases. World Health Organization, Geneva; 2013.
• [40]Sherchand JB, Obsomer V, Thakur GD, Hommel M: Mapping of lymphatic filariasis in Nepal. Filaria J 2003, 2:7.
• [41]de Rochars MV B, Milord MD, St Jean Y, Desormeaux AM, Dorvil JJ, Lafontant JG, Addiss DG, Streit TG: Geographic distribution of lymphatic filariasis in Haiti. Am J Trop Med Hyg 2004, 71:598-601.
• [42]Ngwira BM, Tambala P, Perez AM, Bowie C, Molyneux DH: The geographical distribution of lymphatic filariasis infection in Malawi. Filaria J 2007, 6:12.
• [43]Koroma JB, Bangura MM, Hodges MH, Bah MS, Zhang Y, Bockarie MJ: Lymphatic filariasis mapping by immunochromatographic test cards and baseline microfilaria survey prior to mass drug administration in Sierra Leone. Parasit Vectors 2012, 5:10.
• [44]Okorie PN, Ademowo GO, Saka Y, Davies E, Okoronkwo C, Bockarie MJ, Molyneux DH, Kelly-Hope LA: Lymphatic filariasis in Nigeria; Micro-stratification Overlap Mapping (MOM) as a prerequisite for cost-effective resource utilization in control and surveillance. PLoS Negl Trop Dis 2013, 7:e2416.
• [45]Shiferaw W, Kebede T, Graves PM, Golasa L, Gebre T, Mosher AW, Tadesse A, Sime H, Lambiyo T, Panicker KN, Richards FO, Hailu A: Lymphatic filariasis in western Ethiopia with special emphasis on prevalence of Wuchereria bancrofti antigenaemia in and around onchocerciasis endemic areas. Trans R Soc Trop Med Hyg 2012, 106:117-127.
• [46]Wijegunawardana NDD, Gunawardene YINS, Manamperi A, Senarathne H, Abeyewickreme W: Geographic information system (GIS) mapping of lymphatic filariasis endemic areas of Gampaha District, Sri Lanka based on epidemiological and entomological screening. Southeast Asian J Trop Med Public Health 2012, 43:557-566.
• [47]Southgate BA: Intensity and efficiency of transmission and the development of microfilaraemia and disease: their relationship in lymphatic filariasis. J Tropical Med Hygiene 1992, 95:1-12.
• [48]Brooker S, Michael E: The potential of geographical information systems and remote sensing in the epidemiology and control of human helminth infections. Adv Parasitol 2000, 47:245-288.
• [49]Lindsay SW, Thomas CJ: Mapping and estimating the population at risk from lymphatic filariasis in Africa. Trans R Soc Trop Med Hyg 2000, 94:37-45.
• [50]Slater H, Michael E: Predicting the current and future potential distributions of lymphatic filariasis in Africa using maximum entropy ecological niche modelling. PLoS One 2012, 7:e32202.
• [51]Slater H, Michael E: Mapping, Bayesian geostatistical analysis and spatial prediction of lymphatic filariasis prevalence in Africa. PLoS One 2013, 8:e71574.
• [52]Stanton MC, Molyneux DH, Kyelem D, Bougma RW, Koudou BG, Kelly-Hope LA: Baseline drivers of lymphatic filariasis in Burkina Faso. Geospat Health 2013, 8:159-173.
• [53]Hassan AN: Bancroftian filariasis: spatial patterns, environmental correlates and landscape predictors of disease risk. J Egypt Soc Parasitol 2004, 34:501-513.
• [54]Sabesan S, Raju HK, Srividya A, Das PK: Delimitation of lymphatic filariasis transmission risk areas: a geo-environmental approach. Filaria J 2006, 5:12.
• [55]Michael E, Malecela-Lazaro MN, Simonsen PE, Pedersen EM, Barker G, Kumar A, Kazura JW: Mathematical modelling and the control of lymphatic filariasis. Lancet Infect Dis 2004, 4:223-234.
• [56]Garrett-Jones C: Prognosis for interruption of malaria transmission through assessment of the mosquito¿s vectorial capacity. Nature 1964, 204:1173-1175.
• [57]Duerr HP, Dietz K, Eichner M: Determinants of the eradicability of filarial infections: a conceptual approach. Trends Parasitol 2005, 21:88-96.
• [58]Poncon N, Tran A, Toty C, Luty AJ, Fontenille D: A quantitative risk assessment approach for mosquito-borne diseases: malaria re-emergence in southern France. Malar J 2008, 7:147.
• [59]Gambhir M, Michael E: Complex ecological dynamics and eradicability of the vector borne macroparasitic disease, lymphatic filariasis. PLoS One 2008, 3:e2874.
• [60]Brooker S, Hotez PJ, Bundy DA: The global atlas of helminth infection: mapping the way forward in neglected tropical disease control. PLoS Negl Trop Dis 2010, 4:e779.
• [61]Michael E, Malecela MN, Zervos M, Kazura JW: Global eradication of lymphatic filariasis: the value of chronic disease control in parasite elimination programmes. PLoS One 2008, 3:e2936.
• [62]Eberhard ML, Lammie PJ: Laboratory diagnosis of filariasis. Clin Lab Med 1991, 11:977-1010.
• [63]Research on Rapid Geographical Assessment of Bancroftian Filariasis. World Health Organization, Geneva; 1998.
• [64]Srividya A, Lall R, Ramaiah KD, Ramu K, Hoti SL, Pani SP, Das PK: Development of rapid assessment procedures for the delimitation of lymphatic filariasis-endemic areas. Trop Med Int Health 2000, 5:64-71.
• [65]Chu BK, Deming M, Biritwum NK, Bougma WR, Dorkenoo AM, El-Setouhy M, Fischer PU, Gass K, Gonzalez de Pena M, Mercado-Hernandez L, Kyelem D, Lammie PJ, Flueckiger RM, Mwingira UJ, Noordin R, Offei Owusu I, Ottesen EA, Pavluck A, Pilotte N, Rao RU, Samarasekera D, Schmaedick MA, Settinayake S, Simonsen PE, Supali T, Taleo F, Torres M, Weil GJ, Won KY: Transmission assessment surveys (TAS) to define endpoints for lymphatic filariasis mass drug administration: a multicenter evaluation. PLoS Negl Trop Dis 2013, 7:e2584.
• [66]King JD, Eigege A, Umaru J, Jip N, Miri E, Jiya J, Alphonsus KM, Sambo Y, Graves P, Richards F Jr: Evidence for stopping mass drug administration for lymphatic filariasis in some, but not all local government areas of plateau and nasarawa States, Nigeria. Am J Trop Med Hyg 2012, 87:272-280.
• [67]Report on the mid-Term Assessment of Microfilaraemia Reduction in Sentinel Sites of 13 Countries of the Global Programme to Eliminate Lymphatic Filariasis Weekly Epidemiological Record 79th edition. 2004, 357-368. 357-368
• [68]Msyamboza K, Ngwira B, Banda R, Mkwanda S, Brabin B: Sentinel surveillance of lymphatic filariasis, schistosomiasis soil transmitted helminths and malaria in rural southern Malawi. Malawi Med J 2010, 22:12-14.
• [69]Solomon AW, Engels D, Bailey RL, Blake IM, Brooker S, Chen JX, Chen JH, Churcher TS, Drakeley CJ, Edwards T, Fenwick A, French M, Gabrielli AF, Grassl NC, Harding-Esch EM, Holland MJ, Koukounari A, Lammie PJ, Leslie J, Mabey DC, Rhajaoui M, Secor WE, Stothard JR, Wei H, Willingham AL, Zhou XN, Peeling RW: A diagnostics platform for the integrated mapping, monitoring, and surveillance of neglected tropical diseases: rationale and target product profiles. PLoS Negl Trop Dis 2012, 6:e1746.
• [70]Stoll NR: This wormy world. J Parasitol 1947, 33:1-18.
• [71]Guerra CA, Hay SI, Lucioparedes LS, Gikandi PW, Tatem AJ, Noor AM, Snow RW: Assembling a global database of malaria parasite prevalence for the Malaria Atlas Project. Malar J 2007, 6:17.
• [72]Hay SI, Guerra CA, Gething PW, Patil AP, Tatem AJ, Noor AM, Kabaria CW, Manh BH, Elyazar IR, Brooker S, Smith DL, Moyeed RA, Snow RW: A world malaria map: plasmodium falciparum endemicity in 2007. PLoS Med 2009, 6:e1000048.
• [73]Brooker S, Rowlands M, Haller L, Savioli L, Bundy DA: Towards an atlas of human helminth infection in sub-Saharan Africa: the use of geographical information systems (GIS). Parasitol Today 2000, 16:303-307.
• [74]Brooker S, Kabatereine NB, Smith JL, Mupfasoni D, Mwanje MT, Ndayishimiye O, Lwambo NJ, Mbotha D, Karanja P, Mwandawiro C, Muchiri E, Clements AC, Bundy DA, Snow RW: An updated atlas of human helminth infections: the example of East Africa. Int J Health Geogr 2009, 8:42.
• [75]Hurlimann E, Schur N, Boutsika K, Stensgaard AS, Laserna de Himpsl M, Ziegelbauer K, Laizer N, Camenzind L, Di Pasquale A, Ekpo UF, Simoonga C, Mushinge G, Saarnak CF, Utzinger J, Kristensen TK, Vounatsou P: Toward an open-access global database for mapping, control, and surveillance of neglected tropical diseases. PLoS Negl Trop Dis 2011, 5:e1404.
• [76][http://www.unsalb.org/] webcite The Second Administrative Level Boundaries data set project. []
• [77][http://www.gadm.org/] webcite GADM database of Global Administrative Areas. []
• [78][http://www.bing.com/maps/] webcite Bing Maps. []
• [79][http://earth-info.nga.mil/gns/html/index.html] webcite NGA-GEOnet Names Server (Country Files). []
• [80][http://isodp.hof-university.de/fuzzyg/query/] webcite Fuzzy Gazetteer. []
• [81][http://www.openstreetmap.org/] webcite Open Street Map. []
• [82]Lindsay SW, Denham DA, McGreevy PB: The effect of humidity on the transmission of Brugia pahangi infective larvae to mammalian hosts by Aedes aegypti. Trans R Soc Trop Med Hyg 1984, 78:19-22.
• [83]Samarawickrema WA, Spears GF, Sone F, Ichimori K, Cummings RF: Filariasis transmission in Samoa. II. Some factors related to the development of microfilariae in the intermediate host. Ann Trop Med Parasitol 1985, 79:101-107.
• [84]Lardeux F, Cheffort J: Temperature thresholds and statistical modelling of larval Wuchereria bancrofti (Filariidea:Onchocercidae) developmental rates. Parasitology 1997, 114(Pt 2):123-134.
• [85]Lardeux F, Cheffort J: Ambient temperature effects on the extrinsic incubation period of Wuchereria bancrofti in Aedes polynesiensis: implications for filariasis transmission dynamics and distribution in French Polynesia. Med Vet Entomol 2001, 15:167-176.
• [86]de Souza D, Kelly-Hope L, Lawson B, Wilson M, Boakye D: Environmental factors associated with the distribution of Anopheles gambiae s.s in Ghana; an important vector of lymphatic filariasis and malaria. PLoS One 2010, 5:e9927.
• [87][http://www.worldclim.org/] webcite Global Climate data. []
• [88][http://www.cgiar-csi.org/] webcite Consortium for Spatial Information. []
• [89][http://iridl.ldeo.columbia.edu/] webcite IRI/LDEO Climate Library. []
• [90][http://due.esrin.esa.int/globcover/] webcite Global Land Cover Map. []
• [91][http://sedac.ciesin.columbia.edu/data/collection/gpw-v3] webcite Gridded Population of the World (GPW), v3. []
• [92]Pullan RL, Brooker SJ: The global limits and population at risk of soil-transmitted helminth infections in 2010. Parasit Vectors 2012, 5:81.
• [93][http://bioval.jrc.ec.europa.eu/products/gam/index.htm] webcite Travel Time to Major Cities: A Global map of Accessibility.]
• [94]Elith JH, Graham CP, Anderson R, Dudík M, Ferrier S, Guisan AJ, Hijmans R, Huettmann FR, Leathwick J, Lehmann A, Li J, Lohmann LG, Loiselle BA, Manion G, Moritz C, Nakamura M, Nakazawa Y, Overton JMC, Townsend Peterson AT, Phillips SJ, Richardson K, Scachetti-Pereira R, Schapire RE, Soberón J, Williams S, Wisz MS, Zimmermann NE: Novel methods improve prediction of species¿ distributions from occurrence data. Ecography 2006, 29:129-151.
• [95]Bhatt S, Gething PW, Brady OJ, Messina JP, Farlow AW, Moyes CL, Drake JM, Brownstein JS, Hoen AG, Sankoh O, Myers MF, George DB, Jaenisch T, Wint GR, Simmons CP, Scott TW, Farrar JJ, Hay SI: The global distribution and burden of dengue. Nature 2013, 496:504-507.
• [96]Sinka ME, Bangs MJ, Manguin S, Rubio-Palis Y, Chareonviriyaphap T, Coetzee M, Mbogo CM, Hemingway J, Patil AP, Temperley WH, Gething PW, Kabaria CW, Burkot TR, Harbach RE, Hay SI: A global map of dominant malaria vectors. Parasit Vectors 2012, 5:69.
• [97]De¿ath G: Boosted trees for ecological modeling and predictions. Ecology 2007, 88:243-251.
• [98]Elith J, Leathwick JR, Hastie T: A working guide to boosted regression trees. J Anim Ecol 2008, 77:802-813.
• [99]Addiss D, Chuke S: Lymphatic Filariasis in the Americas: An Epidemiologic History. Centers for Disease Control and Prevention 2002.
• [100]Organization WH: Global Programme to Eliminate Lymphatic Filariasis. Annual Report on Lymphtic Filariasis 2005. 2003.
• [101]Ninth Workshop for Pacific Lymphatic Filariasis Programme Managers WHO Meeting report, (WP)MVP/PIC/CPC/12/001-E 2007. vol. RS/2007/GE/20(FIJ)
• [102]Iyengar MO: Filariasis in Thailand. Bull World Health Organ 1953, 9:731-766.
• [103]Rebollo MP, Bockarie MJ: Toward the elimination of lymphatic filariasis by 2020: treatment update and impact assessment for the endgame. Expert Rev Anti-Infect Ther 2013, 11:723-731.
• [104]Sabesan S, Raju HK, Subramanian S, Srivastava PK, Jambulingam P: Lymphatic filariasis transmission risk map of india. Based on a geo-environmental risk model. Vector Borne Zoonotic Dis 2013, 13:657-665.
• [105]Upadhyayula SM, Mutheneni SR, Kumaraswamy S, Kadiri MR, Pabbisetty SK, Yellepeddi VS: Filaria monitoring visualization system: a geographical information system-based application to manage lymphatic filariasis in Andhra Pradesh, India. Vector Borne Zoonotic Dis 2012, 12:418-427.
• [106]Rao SS, Iyengar MOT: Studies on the influence of season on the development of Filaria bancrofti in Culex fatigans. Indian J Med Res 1930, 17:759-781.
• [107]Boreham PFL, Marks EN: Human filariasis in Australia: introduction, investigation and elimination. Proc R Soc Qld 1986, 97:23-52.
• [108]Obiamiwe BA: The influence of the gene sb in Culex pipiens on the development of sub-periodic Brugia malayi and Wuchereria bancrofti. Ann Trop Med Parasitol 1977, 71:487-490.
• [109]Pothikasikorn J, Bangs MJ, Boonplueang R, Chareonviriyaphap T: Susceptibility of various mosquitoes of Thailand to nocturnal subperiodic Wuchereria bancrofti. J Vector Ecol 2008, 33:313-320.
• [110]Saeung A, Hempolchom C, Baimai V, Thongsahuan S, Taai K, Jariyapan N, Chaithong U, Choochote W: Susceptibility of eight species members in the Anopheles hyrcanus group to nocturnally subperiodic Brugia malayi. Parasit Vectors 2013, 6:5.
• [111]Pedersen EM, Kilama WL, Swai AB, Kihamia CM, Rwiza H, Kisumku UM: Bancroftian filariasis on Pemba Island, Zanzibar, Tanzania: an update on the status in urban and semi-urban communities. Trop Med Int Health 1999, 4:295-301.
• [112]Maxwell CA, Curtis CF, Haji H, Kisumku S, Thalib AI, Yahya SA: Control of Bancroftian filariasis by integrating therapy with vector control using polystyrene beads in wet pit latrines. Trans R Soc Trop Med Hyg 1990, 84:709-714.
• [113]Knight KL, Stone A: A Catalog of the Mosquitoes of the World (Diptera: Culicidae). Langham, Maryland; 1977.
• [114]Subra R, Mouchet J: Culex pipens fatigans Wiedemann in West Africa and its possible role in the transmission of Bancroft¿s filariasis. WHO Mimeograph Document 1967.
• [115]Zielke E, Kuhlow F: On the inheritance of susceptibility for infection with Wuchereria bancrofti in Culex pipiens fatigans. Tropenmed Parasitol 1977, 28:68-78.
• [116]Jayasekera N, Curtis CF, Zielke E, Kuhlow F, Jansen CG, Chelliah RV: The susceptibility of Liberian Culex quinquefasciatus to Wuchereria bancrofti in Sri Lanka. Tropenmed Parasitol 1980, 31:507-511.
• [117]Udonsi JK: Bancroftian filariasis in the Igwun Basin, Nigeria. An epidemiological, parasitological, and clinical study in relation to the transmission dynamics. Acta Trop 1988, 45:171-179.
• [118]Anosike JC, Onwuliri CO: Experimental Wuchereria bancrofti infection of Culex quinquefasciatus and Aedes aegypti. Angew Parasitol 1992, 33:139-142.
• [119]Anosike JC, Nwoke BE, Ajayi EG, Onwuliri CO, Okoro OU, Oku EE, Asor JE, Amajuoyi OU, Ikpeama CA, Ogbusu FI, Meribe CO: Lymphatic filariasis among the Ezza people of Ebonyi State, Eastern Nigeria. Ann Agric Environ Med 2005, 12:181-186.
• [120]Ughasi J, Bekard HE, Coulibaly M, Adabie-Gomez D, Gyapong J, Appawu M, Wilson MD, Boakye DA: Mansonia africana and Mansonia uniformis are vectors in the transmission of Wuchereria bancrofti lymphatic filariasis in Ghana. Parasit Vectors 2012, 5:89.
• [121]Joe LK, Chow CY, Winoto RM, Rusad S, Rusad M: [Filariasis in Djakarta, Indonesia]. Am J Trop Med Hyg 1958, 7:280-284.
• [122]Surendran K, Pani SP, Soudarssanane MB, Srinivasa DK, Bordolai PC, Subramanian S: Natural history, trend of prevalence and spectrum of manifestations of Bancroftian filarial disease in Pondicherry (South India). Acta Trop 1996, 61:9-18.
• [123]Arunachalam N, Mariappan T, Vijayakumar KN, Sabesan S, Panicker KN: Mattancherry urban agglomeration, a diminishing focus of lymphatic filariasis in Kerala. J Commun Dis 1996, 28:168-170.
• [124]Jr TJD, Bhattacharya NC: Clinical manifestations of Bancroftian filariasis in a suburb of Calcutta, India. Am J Trop Med Hyg 1976, 25:64-73.
• [125]Oemijati S, Desowitz RS, Partono F, Pant CP, Mechfudin H, Sajidiman H: Studies on filariasis in the Pacific. 4. The application of the membrane filter concentration technique to a survey of Wuchereria bancrofti filariasis in Kepu district, Jakarta, Indonesia. Southeast Asian J Trop Med Public Health 1975, 6:186-189.
• [126]Oemijati S: Current status of filariasis in Indonesia. Southeast Asian J Trop Med Public Health 1993, 24(Suppl 2):2-4.
• [127]Bonfim C, Lessa F, Oliveira C, Evangelista MJ, do Espirito Santo M, Meireles E, Pereira JC, Medeiros Z: [The occurrence and distribution of lymphatic filariasis in Greater Metropolitan Recife: the case of an endemic area in Jaboatao dos Guararapes, Pernambuco, Brazil]. Cad Saude Publica 2003, 19:1497-1505.
• [128]Braga C, Dourado I, Ximenes R, Miranda J, Alexander N: Bancroftian filariasis in an endemic area of Brazil: differences between genders during puberty. Rev Soc Bras Med Trop 2005, 38:224-228.
• [129]Terranella A, Eigiege A, Gontor I, Dagwa P, Damishi S, Miri E, Blackburn B, McFarland D, Zingeser J, Jinadu MY, Richards FO: Urban lymphatic filariasis in central Nigeria. Ann Trop Med Parasitol 2006, 100:163-172.
• [130]Gbakima AA, Appawu MA, Dadzie S, Karikari C, Sackey SO, Baffoe-Wilmot A, Gyapong J, Scott AL: Lymphatic filariasis in Ghana: establishing the potential for an urban cycle of transmission. Trop Med Int Health 2005, 10:387-392.
• [131]Richard-Lenoble D, Kombila M, Carme B, Gilles JC, Delattre PY: [Prevalence of human filariasis with microfilaremia in Gabon]. Bull Soc Pathol Exot Filiales 1980, 73:192-199.
• [132]Casaca VM: [Contribution to the study of bancrofti filariasis in Angola. 1. Possibilities of its existence and probable distribution. 2. Bibliographic review and personal observations. An Inst Med Trop (Lisb) 1966, 23:127-132.
• [133]Reddy S, Dávalos LM: Geographical sampling bias and its implications for conservation priorities in Africa. J Biogeography 2003, 30:1719-1727.
• [134]Kadmon R, Farber O, Danin A: Effect of roadside bias on the accuracy of predictive maps produced by bioclimatic models. Ecol Appl 2004, 14:401-413.
• [135]Phillips SJ, Dudik M, Elith J, Graham CH, Lehmann A, Leathwick J, Ferrier S: Sample selection bias and presence-only distribution models: implications for background and pseudo-absence data. Ecol Appl 2009, 19:181-197.
• [136]Schneider MC, Aguilera XP, Barbosa da Silva J Jr, Ault SK, Najera P, Martinez J, Requejo R, Nicholls RS, Yadon Z, Silva JC, Leanes LF, Periago MR: Elimination of neglected diseases in Latin America and the Caribbean: a mapping of selected diseases. PLoS Negl Trop Dis 2011, 5:e964.
• [137]Laurence BR: The global dispersal of Bancroftian filariasis. Parasitol Today 1989, 5:260-264.
• [138]Rawlins SC, Lammie P, Tiwari T, Pons P, Chadee DD, Oostburg BF, Baboolal S: Lymphatic filariasis in the Caribbean region: the opportunity for its elimination and certification. Rev Panam Salud Publica 2000, 7:319-324.
• [139]Lymphatic Filariasis Elimination in the Americas: 12th Regional Program Managers Meeting. The Dominican Republic: Pan American Health Organization, Santo Domingo; 2014.
• [140]Raccurt CP, Lowrie RC Jr, Katz SP, Duverseau YT: Epidemiology of Wuchereria bancrofti in Leogane, Haiti. Trans R Soc Trop Med Hyg 1988, 82:721-725.
• [141]Lymphatic Filariasis Elimination in the Americas: First Regional Program Managers Meeting. The Dominican Republic: Pan American Health Organization, Santo Domingo; 2000.
• [142]Bonfim C, Netto MJ, Pedroza D, Portugal JL, Medeiros Z: A socioenvironmental composite index as a tool for identifying urban areas at risk of lymphatic filariasis. Trop Med Int Health 2009, 14:877-884.
• [143]Sabesan S, Palaniyandi M, Das PK, Michael E: Mapping of lymphatic filariasis in India. Ann Trop Med Parasitol 2000, 94:591-606.
• [144]Global programme to eliminate lymphatic filariasis Wkly Epidemiol Rec 2008, 83:333-348.
• [145]Kimura E, Itoh M: Filariasis in Japan some 25 years after its eradication. Trop Med Health 2011, 39:57-63.
• [146]Zhang XC, Huang SY, Deng ZH, Ou ZY, Wu WP, Luo XC, Chen XX, Zhang QM, Lin RX, Ruan CW, Wang JL, Cui HE: [Follow-up survey on the imported cases of lymphatic filariasis in Guangdong Province]. Zhongguo Ji Sheng Chong Xue Yu Ji Sheng Chong Bing Za Zhi 2008, 26:409-411.
• [147]Sudomo M, Chayabejara S, Duong S, Hernandez L, Wu WP, Bergquist R: Elimination of lymphatic filariasis in Southeast Asia. Adv Parasitol 2010, 72:205-233.
• [148]Nuchprayoon S, Sanprasert V, Porksakorn C, Nuchprayoon I: Prevalence of bancroftian filariasis on the Thai-Myanmar border. Asian Pac J Allergy Immunol 2003, 21:179-188.
• [149]Brady OJ, Gething PW, Bhatt S, Messina JP, Brownstein JS, Hoen AG, Moyes CL, Farlow AW, Scott TW, Hay SI: Refining the global spatial limits of dengue virus transmission by evidence-based consensus. PLoS Negl Trop Dis 2012, 6:e1760.
• [150]Knudsen AB, Slooff R: Vector-borne disease problems in rapid urbanization: new approaches to vector control. Bull World Health Organ 1992, 70:1-6.
• [151]Adeleke MA, Mafiana CF, Idowu AB, Adekunle MF, Sam-Wobo SO: Mosquito larval habitats and public health implications in Abeokuta, Ogun State, Nigeria. Tanzan J Health Res 2008, 10:103-107.
• [152]McCarthy JS, Lustigman S, Yang G-J, Barakat RM, García HH, Sripa B, Willingham AL, Prichard RK, Basáñez M-G: A research agenda for helminth diseases of humans: diagnostics for control and elimination programmes. PLoS Negl Trop Dis 2012, 6:e1601.