Hostname: page-component-7479d7b7d-8zxtt Total loading time: 0 Render date: 2024-07-10T13:31:54.180Z Has data issue: false hasContentIssue false
  • English
  • Français

Sex differentials in susceptibility to lymphatic filariasis and implications for maternal child immunity

Published online by Cambridge University Press:  15 May 2009

L. Brabin
L. Brabin
Affiliation:
UNDP/World Bank/WHO Special Programme for Research and Training in Tropical Diseases, World Health Organization, Geneva, Switzerland
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

This paper reviews epidemiological data to see if there are sex differentials in prevalence, density and clinical pathology due to lymphatic filariasis. Of 53 studies from Africa, South East Asia, the Indian Subcontinent and The Americas, 43 showed a lower mean prevalence of infection in females than in males. Prevalence is consistently lower in women of reproductive age and this is statistically significant in 16 of 32 studies classified by age and sex. Density of infection is also lower in the reproductive age but may be higher in children and in older women. Clinical disease is also lower in women and pathology has a later age of onset and rise to peak prevalence than in males. The paper assesses the evidence that lower rates of infection and clinical pathology are due to less exposure of females to infective vectors. It seems unlikely that exposure alone could account for these differences which are observed for both bancroftian and brugian filariasis, irrespective of periodicity. Several investigators have suggested that females have increased resistance to infection and this is supported by serological studies showing high antibody positivity to adult worm antigens in females. The review concludes that the association with the reproductive years suggests a pregnancy-associated mechanism. This has important implications for maternal – fetal interactions and maternal filarial infection may influence the development of immunity in children.

Type
Research Article
Information
Epidemiology & Infection , Volume 105 , Issue 2 , October 1990 , pp. 335 - 353
Copyright
Copyright © Cambridge University Press 1990

References

REFERENCES

1.Bundy, DAP. Gender-dependent patterns of infection and disease. Parasitol Today 1988; 4: 186–9.CrossRefGoogle Scholar
2.Goble, FC, Kanopka, EA. Sex as a factor in infectious diseases. Trans New York Acad Sci 1973; 35: 325–46.CrossRefGoogle Scholar
3.McGregor, IA. Current concepts concerning man's resistance to infection with malaria. Bull Soc Path Exot Fil 1983; 76: 433–5.Google ScholarPubMed
4.Brabin, BJ. An analysis of malaria in pregnancy in Africa. Bull WHO 1983; 61: 1005–16.Google ScholarPubMed
5.McGregor, IA, Hawking, F, Smith, DA. The control of filariasis with hetrazan. A field trial in a rural village (Keneba) in the Gambia. Br Med J 1952; 2: 908–11.CrossRefGoogle Scholar
6.McFadzean, JA. Filariasis in Gambia and Casamance, West Africa. Trans R Soc Trop Med Hyg 1954; 267–73.Google Scholar
7.Zielke, E, Chlebowsky, HO. Studies on Bancroftian filariasis in Liberia, West Africa. 1. Distribution and prevalence in the Nord-Western savanna area. Tropenmed Parasitol 1979; 30: 91–6.Google Scholar
8.Zielke, E, Chleblowsky, HO. Studies of Bancroftian filariasis in Liberia, West Africa. II. Changes in microfilaraemia in a rural population some years after first examination. Tropenmed Parasitol 1979; 30: 153–6.Google Scholar
9.Chleblowsky, HO, Zielke, E. Studies of Bancroftian filariasis in Liberia, West Africa. IV. Notes on side effects observed during a diethylcarbamazine treatment campaign in a rural area endemic for Wuchereria bancrofti and onchocerca volvulus. Tropenmed Parasitol 1980; 31: 339–44.Google Scholar
10.Udonsi, JK. Bancroftian filariasis in the Igwun Basin, Nigeria. Acta Trop 1988; 45: 171–9.Google Scholar
11.Ripert, C, Eono, P, Eono, D, Tribouley, J, Appriou, M, Issoufa, H. Etude epidemiologique de la bancroftose dans la valleé du Logone (Nord Cameroun). Med Trop 1982; 42: 5966.Google Scholar
12.Jordan, P. Microfilarial density and infection rates of Wuchereria bancrofti and Acanthocheilonema perstans in the southern province of Tanganyika territory. Anns Trop Med Parasitol 1955; 49: 4253.Google Scholar
13.McMahon, JE, Magayuka, SA, Kolstrup, N, Mosha, FW, Bushrod, FM, Abaru, DE. Studies on the transmission and prevalence of Bancroftian filariasis in four coastal villages of Tanzania. Ann Soc Trop Med Hyg 1981; 75: 415–31.Google ScholarPubMed
14.Wijers, DJB, Kinyanjui, DH. Bancroftian filariasis in Kenya, II. Clinical and parasitological investigations in Mambrui, a small coastal town, and Jaribuni, a rural area more inland (Coast Province). Ann Trop Med Parasitol 1977; 71: 333–45.CrossRefGoogle ScholarPubMed
15.Nelson, GS, Heisch, RB, Furlong, M. Studies in filariasis in East Africa. II. Filarial infections in man, animals and mosquitoes on the Kenya coast. Trans R Soc Trop Med Hyg 1962; 56: 202–17.CrossRefGoogle ScholarPubMed
16.Brunhes, J. La filariose de bancroft dans la sous-région Malgache (Comores-Madagascar-Réunion). Memoires Orstom 1975; No 81. Orstom: Paris.Google Scholar
17.Krishnaswami, AK. Filariasis in Mangalore (South India). Ind J Malariol 1955; 9: 116.Google ScholarPubMed
18.Bhattacharya, NC, Gubler, JD. A survey for Bancroftian filariasis in the Calcutta area. Ind J Med Res 1973; 61; 811.Google ScholarPubMed
19.Rao, CK, Datta, KK, Sundaram, RM et al. , Epidemiological studies in bancroftian filariasis in East Godivari District (Andra Pradesh): baseline filariometric indices. Ind J Med Res 1980; 71: 712–20.Google Scholar
20.Nair, CP. Filariasis in centrally administered areas. Part I. Filaria survey of Pondicherry settlement. Ind J Malariol 1960; 14: 233–52.Google Scholar
21.Singh, J, Raghavan, NGS, Krishnaswami, AK. Filariasis in Travancore-Cochin State. Ernakulam and Mattancheri. Ind J Malariol 1956; 10: 219–38.Google Scholar
22.Varma, BK, Dass, NL, Sinha, VP. Filariasis in the rural population around Bhagalpur Town. Part I. Ind J Malariol 1961; 15. 285–92.Google Scholar
23.Varma, BK, Dass, NL, Sinha, VP. Filariasis in the rural population around Bhagalpur Town. Part II. Ind J Malariol 1961; 15: 293–9.Google Scholar
24.Basu, PC. Filariasis in Assam State. Ind J Malariol 1975; 11: 293308.Google Scholar
25.Kant, L, Sen, SK, Puri, BS. Filariasis in Patna (Bihar). Ind J Malariol 1966; 10: 199217.Google Scholar
26.Wolfe, MS, Aslamkhan, M. Bancroftian filariasis in two villages in Dinajpur District, East Pakistan. I. Infections in man. Am J Trop Med Hyg 1972; 21: 22–9.Google Scholar
27.Abdulcader, MHM, Padley, R. Filariasis records in Ceylon. Ind J Malariol 1960; 14: 521–35.Google Scholar
28.Dennis, DT, Partano, F, Purnomo, SA, Sulianti, Saroso J. Timor filariasis: Epidemiologic and clinical features in a defined community. Am J Trop Med Hyg 1976; 25: 797802.CrossRefGoogle Scholar
29.Partano, F, Purnomo, SA, Pribadi, W, Soewarta, A. Epidemiology and clinical features of Brugia Timori in a newlv established village, Karakuak, West flores. Indonesia. Am J Trop Med Hyg 1978; 27: 910–5.CrossRefGoogle Scholar
30.Partano, F, Hudojo, , Oemyati, S et al. , Malayan filariasis in Mangolembo, South Sulawesi, Indonesia. SE Asia J Trop Med Pub Hlth 1972; 3: 537–47.Google Scholar
31.Sajidiman, H, Desowitz, RS, Darwis, F. Studies on filariasis in the Pacific. 5. Brugia malayi filariasis in treated and untreated populations of South Borneo. SE Asia J Trop Med Pub Hlth 1975; 6: 190–4.Google ScholarPubMed
32.Partano, F, Djakaria, , Oemijata, S et al. , Filariasis in West Kalimantan (Borneo), Indonesia. SE Asia J Trop Med Pub Hlth 1977; 8: 459–63.Google Scholar
33.Partano, F, Oemijati, S, Joesoef, A et al. , Malayan filariasis in Central Sulawesi (Celebes), Indonesia. SE Asia J Trop Med Pub Hlth 1977; 8: 452–8.Google Scholar
34.Lie, Kian Joe, Hujodo, , Wijono, , Amaliah, S. Wuchereria bancrofti infection in Djakarta, Indonesia. A study of some factors influencing its transmission. Ind J Malariol 1960; 14: 339–51.Google Scholar
35.Oemijati, S, Desowitz, RS, Partano, F, Pant, CP, Mechfudin, H, Sajidiman, H. Studies on filariasis in the Pacific. 4. The application of the membrane filtration concentration technique to a survey of Wuchereria bancrofti filariasis in Kepu District, Jakarta, Indonesia. SE Asia J Trop Med Pub Hlth 1975; 6: 186–94.Google Scholar
36.Barclay, R. Filariasis in Sabah, East Malaysia. Ann Trop Med Parasitol 1969; 63: 473–88.Google Scholar
37.Kazura, JW, Spark, R, Forsyth, K, Brown, G, Heywood, P, Peters, P, Alpers, M. Parasitologic and clinical features of Bancroftian filariasis in a community in East Sepik Province, Papua New Guinea. Am J Trop Med Hyg 1984; 33: 1119–23.Google Scholar
38.Weller, PF, Ottesen, EA, Heck, L, Tingika, Tere, Neva, FA. Endemic filariasis on a Pacific Island. I. Clinical, epidemiological and parasitological aspects. Am J Trop Med Hyg 1983; 31: 942–52.CrossRefGoogle Scholar
39.Beye, HK, Kessel, JF, Heuls, J, Thoovis, G, Bamdridge, B. Nouvelles recherches sur l'importance, les manifestations cliniques, et la lutte centre la filariose à Tahiti, Oceanic Francaise. Bull Soc Path Exot Fil 1953; 1: 144–63.Google Scholar
40.Rosen, L. Observations on the epidemiology of human filariasis in French Oceania. Am J Hyg 1955; 61: 219–48.Google Scholar
41.Desowitz, RS, Hitchcock, JC. Hyperendemic Bancroftian filariasis in the Kingdom of Tonga: the application of the membrane filter concentration technique to an age-stratified blood survey. Am J Trop Med Hyg 1974; 23: 877–9.Google Scholar
42.Murray, WD. Filariasis studies in American Samoa, Naval Med Bull 1948; 48: 327–41.Google Scholar
43.Wenceslao, JMA, Oban, E, Cabrera, BD. Eastern Samar. The fourth endemic focus for Malayan filariasis in the Republic of the Philippines. SE Asia J Trop Med Pub Hlth 1972; 3: 552–61.Google Scholar
44.Grove, DI, Valeza, FS, Cabrera, BJ. Bancroftian filariasis in a Philippine village: clinical, parasitological, immunological and social aspects. Bull WHO 1978; 56: 975–84.Google Scholar
45.Morishita, K. An epidemiological aspect of filariasis in central Japan. Ind J Malariol 1960; 14: 363–74.Google ScholarPubMed
46.Dong-Chan, Kim. Brugian filariasis in Korea. In: Mak, JW, Yong, HS, eds. WHO Regional Seminar on Control of Brugian filariasis. Geneva. 1985; 1725.Google Scholar
47.Ngugen, Duy Toan. Filariasis and filariasis control in Vietnam. In: Mak, JW, Yong, HS, eds. WHO Regional Seminar on Control of Brugian filariasis. Geneva. 1985: 2730.Google Scholar
48.Fan, PC, Wang, YC, Liu, JC, Hsu, J. Filariasis on Kinmen (Quemoy) Islands. Republic of China. T. Parasitological investigations. SE Asia J Trop Med Pub Hlth 1974; 5: 211–22.Google Scholar
49.Nathan, MB, Beckles, G, Tikasingh, ES, Hamilton, PJS, Monteil, S. Parasitological and clinical studies of Wuchereria bancrofti and Mansonella Ozzardi in Coastal North Trinidad. West Indies. West Ind Med J 1982; 31: 168–76.Google ScholarPubMed
50.Causey, OR, Deane, MP, Da Costa, O, Deane, LM. Studies on incidence and transmission of filaria, Wuchereria bancrofti, in Belem. Brazil. Am J Hyg 1945; 41: 143–9.Google Scholar
51.Piessens, WF, Partano, F. Host-vector-parasite relationships in human filariasis. In: Weinstein, L. Fields, BN. eds. Seminars in infectious disease, vol. III. New York: Thieme-Stratton Inc., 1984: 131–52.Google Scholar
52.Raccurt, CP, Mojon, M, Hodges, WH. Parasitological. serological. and clinical studies of Wuchereria bancrofti in Limbe, Haiti. Am J Trop Med Hyg 1984; 33: 1124–9.Google Scholar
53.Raccurt, CP, Lowrie, RC Jr, Katz, SP, Duverseau, YT. Epidemiology of Wuchereria bancrofti in Leogane. Haiti. Trans R Soc Trop Med Hyg 1988: 82: 721–5.Google Scholar
54.McCarthy, DD, Fitzgerald, N. Habit, habitat and hyperfiliation in the epidemiology of filariasis in Western Samoa. Trans R Soc Trop Med Hyg 1956; 50: 5865.Google Scholar
55.Maxwell, JP. Filariasis in China. Philippine J Sc 1921; 19: 257323.Google Scholar
56.Barrv, C, Ahmed, A, Quadir, Khan A. Endemic filariasis in Thakurgaon. East Pakistan. Am J Trop Med Hyg 1971; 20: 592–7.CrossRefGoogle Scholar
57.Jordan, P. Epidemiology of Wuchereria bancrofti in Africa. Ind J Malariol 1960: 14: 353–62.Google Scholar
58.Knight, R, McAdam, KPWJ, Matola, YG, Kirkham, V. Bancroftian filariasis and other parasitic infections in the Middle Fly River region of Western Papua New Guinea. 1. Clinical, parasitological and serological studies. Ann Trop Med Parasitol 1979: 73: 563–76.CrossRefGoogle Scholar
59.Grove, DI, Davis, RS. Serological diagnosis of bancroftian and malayan filariasis. Am J Trop Med Hyg 1978; 27: 508–13.CrossRefGoogle ScholarPubMed
60.Piessens, WF, McGreevy, PB, Ratiwayanto, S et al. , Immune responses in human infections with Brugia malayi: correlation of cellular and humoral reactions to microfilarial antigens with clinical status. Am J Trop Med Hyg 1980: 29: 563–70.CrossRefGoogle ScholarPubMed
61.Feinsod, FM, Faris, R, Gad, A et al. , Clinical manifestations of Wuchereria bancroftian filariasis in an endemic village in the Nile Delta. Ann Soc Belge Méd Trop 1987: 67: 259–65.Google Scholar
62.Harinath, BC. Discussion. In: Ciba Foundation Symposium, 127. Filariasis. Chichester: Wiley 1987: 177.Google Scholar
63.Wilson, T. Filariasis in Malaya – a general review. Trans R Soc Trop Med Hyg 1961: 55: 107–29.CrossRefGoogle ScholarPubMed
64.Ash, LR. Preferential susceptibility of male jirds (Meriones unguiculatus) to infection with Brugia Pahangi. J Parasitol 1971: 57: 777–80.Google Scholar
65.Devereux, D, Ash, LR. Increased susceptibility to infection with Brugia Pahangi in aged female jirds (Meriones unguiculatus). J Parasitol 1978; 64: 115–18.Google Scholar
66.Wesley, IV. The effect of hormones on the preferential susceptibility of the male Mongolian jird (Meriones unguiculatus) to infection with Brugia Pahangi. PhD. Dissertation. University of California. Los Angeles School of Public Health. 1973.Google Scholar
67.Chatterjee, RK, Singh, DP, Misra, LS. Dipetalonema vitae in Mastomys natalensis: effect of pregnancy and lactation on establishment and course of infection. Trop Med Parasitol 1988: 39: 2930.Google Scholar
68.Schrater, AF, Spielman, A, Piessens, WF. Predisposition to Brugia malayi microfilaremia in progeny of infected gerbils. Am J Trop Med Hyg 1983; 32: 1306–08.CrossRefGoogle ScholarPubMed
69.Haque, A, Capron, A. Transplacental transfer of rodent microfilariae induces antigen-specific tolerance in rats. Nature, 1982; 299: 361–3.CrossRefGoogle ScholarPubMed
70.Klei, TR, Blanchard, DP, Coleman, SW. Development of Brugia pahangi infections and lymphatic lesions in male offspring of female jirds with homologous infections. Trans R Soc Trop Med Hyg 1986; 80: 214–6.CrossRefGoogle ScholarPubMed
71.Dutta, SN, Diesfeld, HJ, Kirsten, C. Der immunfloureszenz-serologische nachweis diaplazentar von mutter auf kind übertrangener serum-antikôrper gegen D. vitae als antigen in einem Wucheria brancrofti – endemie gebiet in Indien. Tropenmed Parasitol 1976: 27: 479–82.Google Scholar
72.Dissanayke, S, De Silva, LVK, Ismail, MM. IgM antibody to filarial antigens in human cord blood: possibility of transplacental infection. Trans R Soc Trop Med Hyg 1980; 74: 542–4.Google Scholar
73.Weil, GJ, Hussain, R, Kumaraswami, V, Tripathy, SP, Phillips, KS, Ottesen, EA. Prenatal allergic sensitization to helminth antigens in offspring of parasite-infected mothers. J Clin Invest 1983: 71: 1124–9.Google Scholar
74.Agarwal, M, Prasad, GBKS, Harinath, BC, Bhata, BD. Transplacental transfer of fllarial infection. Ind Pediatr 1986: 23: 169–74.Google Scholar
75.Rao, KR, Venkatatanaryana, M, Naidu, YD, Narasinham, MVVL, Viswanatham, R, Rao, CK. Transplacental transmission in Bancroftian filariasis. Ind J Med Res 1984; 79: 495–6.Google Scholar
76.Piessens, WF, Wadee, AA, Kurniawan, L. Regulation of immune responses in lymphatic filariasis. In Ciba Foundation Symposium 127. Filariasis. Chichester: Wiley. 1987; 164–79.Google Scholar
77.Wilson, T, Ramachandran, CP. Brugia infections in man and animals: long-term observations on microfilaraemia and estimates of the efficiency of transmission from mosquito vector to definitive host. Ann Trop Med Parasitol 1971: 65: 525–46.Google Scholar
78.Ottesen, EA, Mendell, XR, MacQueen, JM, Weller, PF, Amos, DB, Ward, FE. Familial predisposition to filarial infection – not linked to HLA-A or-B locus specificities. Acta Trop 1981: 38: 205–16.Google Scholar