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SOCIO-DEMOGRAPHIC FACTORS ASSOCIATED WITH TREATMENT AGAINST SOIL-TRANSMITTED HELMINTH INFECTIONS IN CHILDREN AGED 12–59 MONTHS USING THE HEALTH FACILITY APPROACH ALONE OR COMBINED WITH A COMMUNITY-DIRECTED APPROACH IN A RURAL AREA OF ZAMBIA

Published online by Cambridge University Press:  07 June 2012

H. HALWINDI
Affiliation:
Department of Community Medicine, School of Medicine, University of Zambia, Lusaka, Zambia
P. MAGNUSSEN
Affiliation:
DBL-Centre for Health Research and Development, Department of Veterinary Disease Biology, Faculty of Life Sciences, Frederiksberg C, Denmark
S. SIZIYA
Affiliation:
Department of Community Medicine, School of Medicine, University of Zambia, Lusaka, Zambia
D. W. MEYROWITSCH
Affiliation:
Section of Health Services Research, Department of Public Health, University of Copenhagen, Copenhagen K, Denmark
A. OLSEN
Affiliation:
DBL-Centre for Health Research and Development, Department of Veterinary Disease Biology, Faculty of Life Sciences, Frederiksberg C, Denmark

Summary

A health facility-based (HF) approach to delivering anthelminthic drugs to children aged 12–59 months in Zambia was compared with an approach where community-directed treatment (ComDT) was added to the HF approach (HF+ComDT). This paper reports on the socio-demographic factors associated with treatment coverage in the HF+ComDT and HF areas after 18 months of implementation. Data were collected by interviewing 288 and 378 caretakers of children aged 12–59 months in the HF+ComDT and HF areas, respectively. Bivariate and multivariate logistic regression analyses were used for data analysis. Statistically significant predictors of a child being treated were: a child coming from the HF+ComDT area, being 12–36 months old, the family having lived in the area for >20 years, coming from a household with only one under-five child and living ≤3 km from the health facility. It is concluded that socio-demographic factors are of public health relevance and affect treatment coverage in both the HF+ComDT and the HF approaches. The implementation and strengthening of interventions like ComDT that bring treatment closer to households will enable more children to have access to treatment.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2012

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References

Agha, S. (2000) The determinants of infant mortality in Pakistan. Social Science & Medicine 51, 199208.CrossRefGoogle ScholarPubMed
Albonico, M., Allen, H., Chitsulo, L., Engels, D., Gabrielli, A-F. & Savioli, L. (2008) Controlling soil-transmitted helminthiasis in pre-school-age children through preventive chemotherapy. PLoS Neglected Tropical Diseases 2(3).CrossRefGoogle ScholarPubMed
Amazigo, U. V., Obono, O. M., Dadzie, K. Y., Remmie, J., Ndyomungyenyi, R., Roungou, J. B., Noma, M. & Seketeli, A. (2002) Monitoring community-directed treatment programmes for sustainability: lessons from the African Programme for Onchocerciasis Control (APOC). Annals of Tropical Medicine and Parasitology 8 (Supplement 1), S7592.CrossRefGoogle Scholar
Archarya, L. B. & Cleland, J. (2000) Maternal and child health services in rural Nepal: does access or quality matter more? Health Policy and Planning 15(2), 223229.CrossRefGoogle Scholar
Arora, H. & Jaswal, S. (1995) Quality of child care among mothers involved in income generating activities. Indian Journal of Maternal and Child Health 6(4), 96100.Google Scholar
Bain, G. A. & Flower, C. D. (1996) Pulmonary eosinophilia. European Journal of Radiolology 23(1), 38.CrossRefGoogle ScholarPubMed
Baume, C., Helitzer, D. & Kachur, P. S. (2000) Patterns of care for childhood malaria in Zambia. Social Science & Medicine 51, 14911503.Google Scholar
Bennett, S., Woods, T., Liyanage, W. M. & Smith, D. L. (1991) A simplified general method for cluster-sample surveys of health in developing countries. World Health Statistics Quarterly 44, 98106.Google ScholarPubMed
Bhuiya, A., Bhuiya, I. & Chowdhury, M. (1995) Factors affecting acceptance of immunization among children in rural Bangladesh. Health Policy and Planning 10(3), 304312.CrossRefGoogle ScholarPubMed
Burnham, G. & Mebrahtu, T. (2004) Review: the delivery of ivermectin (Mectizan). Tropical Medicine and International Health 9(4), A2644.CrossRefGoogle ScholarPubMed
Chhabra, P., Nair, P., Gupta, A., Sandhir, M. & Kannan, A. T. (2007) Immunization in urbanized villages of Delhi. Indian Journal of Pediatrics 74, 131134.CrossRefGoogle ScholarPubMed
Ensor, T. & Cooper, S. (2004) Overcoming barriers to health service access: influencing the demand side. Health Policy and Planning 19(2), 6979.CrossRefGoogle ScholarPubMed
Gage, A. J. (2007) Barriers to the utilization of maternal health care in rural Mali. Social Science & Medicine 65, 16661682.CrossRefGoogle Scholar
Halwindi, H., Magnussen, P., Meyrowitsch, D., Handema, R., Siziya, S. & Olsen, A. (2010) Effect on treatment coverage of adding community-directed treatment to the health facility-based approach of delivering anthelminthic drugs to under-five children during child health week in Mazabuka District, Zambia. International Health 2, 253261.Google Scholar
Halwindi, H., Magnussen, P., Siziya, S., Handema, R., Meyrowitsch, D. & Olsen, A. (2011) Impact of community-directed treatment on soil transmitted helminth infections in children aged 12 to 59 months in Mazabuka District, Zambia. Parasitology 138, 15781585.CrossRefGoogle Scholar
Howe, L. D., Hargreaves, J. R. & Huttly, S. R. A. (2008) Issues in the construction of wealth indices for the measurement of socio-economic position in low-income countries. Emerging Themes in Epidemiology 5, 3.CrossRefGoogle ScholarPubMed
Iram, U. & Sabihuddin, M. (2004) Socioeconomic and environmental determinants of child-care patterns of preschoolers on Pakistan. International Journal of Social Economics 31(3), 218238.CrossRefGoogle Scholar
Jordan, H., Roderick, P., Martin, D. & Barnett, S. (2004) Distance, rurality and need for care: access to health services in Southern England. International Journal of Health Geography 3(21).CrossRefGoogle Scholar
Katabarwa, N. M. & Mutabazi, D. (2000) Controlling onchocerciasis by community-directed, ivermectin-treatment programmes in Uganda: why do some communities succeed and others fail? Annals of Tropical Medicine and Parasitology 94(4), 343352.CrossRefGoogle ScholarPubMed
Kiwanuka, S. N., Ekirapa, E. K., Peterson, S., Okui, O., Rahman, M. H., Peters, D. & Pariyo, G. W. (2008) Access to and utilization of health services for the poor in Uganda: a systematic review of available evidence. Transactions of the Royal Society of Tropical Medicine and Hygiene 102(11), 10671074.CrossRefGoogle ScholarPubMed
Levin, A., Rahman, M. A., Quayyum, Z., Routh, S. & Barkat-e-Khuda, (2001) Demand for child curative care in two rural Thanas of Bangladesh: effects of income and women's employment. International Journal of Health Planning and Management 16(3), 179194.Google Scholar
Li, J. & Taylor, B. (1993) Factors affecting uptake of measles, mumps and rubella immunization. British Medical Journal 307, 168171.Google Scholar
Lochhead, Y. (1991) Failure to immunize children under-5 years: a literature review. Journal of Advanced Nursing 16, 130137.Google Scholar
Luman, E. T., McCauley, M. M., Shefer, A. & Chu, S. Y. (2003) Maternal characteristics associated with vaccination of young children. Paediatrics 111(2), 12151218.Google Scholar
Mbonye, A. K., Bygbjerg, I. B. & Magnussen, P. (2006) Intermittent preventive treatment of malaria in pregnancy: evaluation of a new delivery approach and the policy implications for malaria control in Uganda. Health Policy 81, 228241.Google Scholar
Meirion, R. E. & Thomas, D. R. H. (1998) A retrospective cohort study of risk factors for missing preschool booster immunization. Archives of Disease in Childhood 79(2), 141144.Google Scholar
Montresor, A., Awasthi, S. & Crompton, D. W. T. (2003) Use of benzimidazoles in children younger than 24 months for the treatment of soil-transmitted helminthiasis. Acta Tropica 86, 223232.Google Scholar
Ndugwa, R. P. & Zulu, E. M. (2008) Child morbidity and care-seeking in Nairobi slum settlements: the role of environmental and social-economic factors. Journal of Child Health Care 12(4), 314328.CrossRefGoogle Scholar
Negussie, T. & Chepngeno, G. (2005) Determinants of health care seeking for childhood illnesses in Nairobi slums. Tropical Medicine and International Health 10(3), 240245.Google Scholar
Nuwaha, F., Okware, J. & Ndyomungyenyi, R. (2005). Predictors of compliance with community-directed ivermectin treatment in Uganda: quantitative results. Tropical Medicine and International Health 10(7), 659667.Google Scholar
Phukhan, R. P., Barman, M. P. & Mahanta, J. (2008) Factors associated with immunization coverage of children in Assam, India: over the first year of life. Journal of Tropical Paediatrics 55(4), 249252.CrossRefGoogle Scholar
Pulle, C., Fiandt, K. & Walker, S. N. (2001) Determinants of preventive services utilization in rural older women. Journal of Gerontological Nursing 21(1), 4051.Google Scholar
Sasaki, S., Igarashi, K., Fujino, Y., Comber, A. J., Brunsdon, C., Muleya, C. M. & Suzuki, H. (2011) The impact of community-based outreach immunisation services on immunisation coverage with GIS network accessibility analysis in peri-urban areas, Zambia. Journal of Epidemiology and Community Health 65, 11711178.CrossRefGoogle ScholarPubMed
Seketeli, A., Adeoye, G., Eyamba, A., Nnoruka, E., Drameh, P., Amazigo, U. V. et al. (2002) The achievements and challenges of the African Programme for Onchocerciasis Control (APOC). Annals of Tropical Medicine and Parasitology 96(1), S1528.Google Scholar
Singh, P. & Yadav, R. J. (2000) Immunization status of children of India. Indian Paediatrics 37, 11941199.Google ScholarPubMed
Taffa, N. & Chepngeno, G. (2005) Determinants of health seeking for childhood illnesses in Nairobi slums. Tropical Medicine and International Health 10(3), 240245.CrossRefGoogle ScholarPubMed
TDR (2008) Community-directed interventions for major health problems in Africa. A multi-country study final report. UNICEF/UNDP/World Bank/WHO.Google Scholar
Varenne, B., Petersen, P. E., Fournet, F., Msellita, P., Gary, J., Ouattara, S., Harang, M. & Salem, G. (2006) Illness-related behaviour and utilization of oral health services among adult city-dwellers in Burkina Faso: evidence from a household survey. BMC Health Services Research 6, 164.Google Scholar
Victoria, C. G., Wagstaff, A., Schellenberg, J. A., Gwatkin, D., Claeson, M. & Habicht, J. (2003) Applying an equity lens to child health and mortality: more of the same is not enough. Lancet 362, 233241.Google Scholar
WHO (2005) Report of the Third Global Meeting of the Partners for Parasite Control: Deworming for Health and Development, Geneva, 29–30th November 2004.Google Scholar