Thông tin siêu dữ liệu biểu ghi
Trường DC Giá trịNgôn ngữ
dc.contributor.authorMuniva Islam
dc.contributor.otherMohammed Ziaul Haider
dc.contributor.otherSk. Faijan Bin Halim
dc.date.accessioned2023-11-01T10:24:09Z-
dc.date.available2023-11-01T10:24:09Z-
dc.date.issued2022
dc.identifier.isbn2632-5330
dc.identifier.urihttps://dlib.neu.edu.vn/handle/NEU/58681-
dc.descriptionHealth care
dc.description.abstractPurpose – This study examines mosquito-borne diseases and health hazard of using mosquito repellents in Bangladesh. This study also targets to explore the use of different mosquito repellents and associated health hazard between slum and residential people. Design/methodology/approach – This study has applied a stratified systematic sampling technique taking 120 adult individuals from residential and slum areas covering users and non-users of mosquito repellents of Khulna city, Bangladesh. A structured questionnaire has been used to collect data from respondents. Findings – Econometric techniques are exercised to examine the occurrence, severity and duration of different respiratory diseases. Results exhibit that poor and less-educated slum people are more prone to face respiratory diseases compared to residential people. The health cost of slum and residential people is estimated US$ 134 and US$ 9, respectively. Practical implications – Relevant stakeholders under public health programs should spread awareness among people regarding the negative health effect of using mosquito repellent, encourage them to limit the use of harmful repellent and instead use herbal product (neem coil), avoid using repellent in living room rather use outside of room and close window and use proper bed net at night. Originality/value – This study underpins arranging public health programs and taking averting actions as an impetus to raise consciousness toward the negative health effect of using mosquito repellents.
dc.description.tableofcontents1. Introduction; 2. Sample selection and data collection; 3. Materials and methods; 4. Research variables; 5. Results; 6. Discussion; 7. Conclusion and recommendation
dc.format.extentKhổ 21 x 29.7
dc.language.isoen
dc.publisherKinh Tế Quốc Dân
dc.subjectMosquito prevalence, Mosquito born-disease, Mosquito repellent, Respiratory disease, Health cost,
dc.subjectAverting action
dc.titleHealth hazard of using mosquito repellent in Khulna city, Bangladesh
dc.typeJournal of Economics and Development
dc.identifier.barcode10-1108_JED-05-2020-0067
dc.relation.referenceAldila, D. and Seno, H. (2019), “A population dynamic model of mosquito-borne disease transmission, focusing on mosqutoes’ based distribution and mosquito repellent use”, Bulletin of Mathematical Biology, Vol. 81 No. 12, pp. 4977-5008. Atreya, K. (2007), “Pesticide use in Nepal: understanding health costs from short-term exposure”, SANDEE working paper, Kathmandu. Castro, M.C., Wilson, M.E. and Bloom, D.E. (2017), “Disease and economic burdens of dengue”, The Lancet Infectious Diseases, Vol. 17 No. 3, pp. 70-78. Chima, I.R., Goodman, A.C. and Mills, A. (2003), “The economic impact of malaria in Africa: a critical review of the evidence”, Health Policy, Vol. 63 No. 1, pp. 17-36. Gul, S., Ibrahim, S., Wasif, N., Zafar, A. and Syed, R. (2013), “Mosquito repellents: killing mosquito or yourselves”, Journal of Scientific and Innovative Research, Vol. 2 No. 6, pp. 1052-1057. Hennessee, I., Chinkhumba, J., Briggs-Hagen, M., Bauleni, A., Shah, M.P., Chalira, A., Moyo, D., Dodoli, W., Luhanga, M., Sande, J. and Ali, D. (2017), “Household costs among patients hospitalized with malaria: evidence from a national survey in Malawi”, Malaria Journal, Vol. 16 No. 1, p. 395. Hogarh, J.N., Antwi-Agyei, P. and Obiri-Danso, K. (2016), “Application of mosquito repellent coils and associated self-reported health issues in Ghana”, Malaria Journal, Vol. 15 No. 1, p. 61. Ipa, M., Widawati, M., Laksono, A.D., Kusrini, I. and Dhewantara, P.W. (2020), “Variation of preventive practices and its association with malaria infection in eastern Indonesia: findings from community-based survey”, PloS One, Vol. 15 No. 5, p. e0232909. Kamble, V.S. (2012), “Study of chronic treatment mosquito repellent liquid inhalation on biochemical constitutions of rat”, International Journal of Applied Biology and Pharmaceutical Thchnology, Vol. 4 No. 3, pp. 189-192. Khan, M., Mahmood, H.Z., Noureen, S., Muhmood, K., Husnain, M.I.U. and Hameed Khaliq, I. (2019), “The health burden of malaria and household choices regarding treatment and prevention in Pakistan”, Tropical Biomedicine, Vol. 36 No. 3, pp. 664-676. Kusuma, Y.S., Burman, D., Kumari, R., Lamkang, A.S. and Babu, B.V. (2019), “Impact of health education based intervention on community’s awareness of dengue and its prevention in Dlehi, India”, Global Health Promotion, Vol. 26 No. 1, pp. 50-59. Kyaw Myint, O. (2016), “Effects of mosquito coil smoke inhalation on human health”, Journal of the Myanmar Academy of Arts and Science, Vol. 16 Nos 1-2, pp. 1-14. Lawrence, C.E. and Croft, A.M. (2004), “Do mosquito coils prevent malaria? A systematic review of trials”, Journal of Travel Medicine, Vol. 11 No. 2, pp. 92-96. Liu, W., Zhang, J., Hashim, J.H., Jalaludin, J., Hashim, Z. and Goldstein, B.D. (2003), “Mosquito coil emissions and health implications”, Environmental Health Perspectives, Vol. 111 No. 12, pp. 1454-1460. Manica, M., Cobre, P., Rosa, R. and Caputo, B. (2017), “Not in my backyard: effectiveness of outdoor residual spraying from hand-held sprayers against the mosquito Aedes albopictus in Rome, Italy”, Pest Management Science, Vol. 73 No. 1, pp. 138-145. Health hazard of using mosquito repellent 77Mehta, D., Anand, G.A.R.G. and Mehta, N.K. (2010), “Rural buyers’ perception about mosquito repellants”, Economia. Seria Management, Vol. 13 No. 1, pp. 43-52. Mohiuddin, A.K. (2019), “Dengue protection and cure: Bangladesh perspective”, European Journal of Sustainable Development Research, Vol. 4 No. 1, p. em0104. Moore, E.L., Scott, M.A., Rodriguez, S.D., Mitra, S., Vulcan, J., Cordova, J.J., Chung, H.N., de Souza, D.L.L., Gonzales, K.K. and Hansen, L.A. (2018), “An online survey of personal mosquitorepellent strategies”, PeerJ, Vol. 6, p. e.5151. Nagoor, K., Babu, S., Kahn, S., Kalluri, R.J. and John, K. (2017), “Knowledge, attitude and practice on dengue fever and its prevention and control measures in urban slums of South India”, International Journal of Community and Public Health, Vol. 4 No. 8, pp. 3013-3017. Naz, M., Rehman, N., Ansari, M.N., Kamal, M., Ganaie, M.A., Awaad, A.S. and Alqasoumi, S.I. (2019), “Comparative study of subchronic toxicities of mosquito repellents (coils, mats and liquids) on vital organs in Swiss albino mice”, Saudi Pharmaceutical Journal, Vol. 27 No. 3, pp. 348-353. Nkya, T.E., Akhouayri, I., Kisinza, W. and David, J.P. (2013), “Impact of environment on mosquito response to pyrethroid insecticides: facts, evidences and prospects”, Insect Biochemistry and Molecular Biology, Vol. 43 No. 4, pp. 407-416. Norris, D.E. (2004), “Mosquito-borne diseases as a consequence of land use change”, EcoHealth, Vol. 1 No. 1, pp. 19-24. Okine, L.K.N., Nayarko, G.E., Armah, B., Awumbila, K., Owusu, S., Set-Soafia, S. and Ofosuhnea, M. (2004), “Adverse effect of mosquito repellent coil smoke on lung, liver and certain drug metabolising enzymes in male wistar albino rat”, Ghana Medical Journal, Vol. 38 No. 3, pp. 89-95. Rowland, M., Freeman, T., Downey, G., Hadi, A. and Saeed, M. (2004), “DEET mosquito repellent sold through social marketing provides personal protection against malaria in an area of all-night mosquito biting and partial coverage of insecticide-treated nets: a case-control study of effectiveness”, Tropical Medicine and International Health, Vol. 9 No. 3, pp. 343-350. Sah, M.L., Mishra, D., Sah, S.P. and Rana, M. (2010), “Formulation and evaluation of herbal mosquito repellent preparations”, Indian Drugs, Vol. 47 No. 4, pp. 45-50. Sharma, V.P. (2001), “Health hazards of mosquito repellents and safe alternatives”, Current Science, Vol. 80 No. 3, pp. 341-343. Shi-Chen, C., Ruey-Hong, W., Li-Jie, S., Ming-Chih, C. and Huei, L. (2008), “Exposure to mosquito coil smoke may be a risk factor for lung cancer in Taiwan”, Journal of Epidemiology, Vol. 18 No. 1, pp. 19-25. Shretta, R., Avancena, A.L. and Hatefi, A. (2016), “The economics of malaria control and elimination: a systematic review”, Malaria Journal, Vol. 15 No. 1, p. 593. Tinuade, O., Iyabo, R.A. and Durutoye, O. (2010), “Health-care-seeking behavior for childhood illnesses in resource-poor setting”, Journal of Pediatrics and Child Health, Vol. 46 No. 5, pp. 238-242. Trivedi, A., Rai, P., Kumar, J. and Trivedi, C.A. (2018), “Formulation of low smoke herbal mosquito repellent sticks by using different essential oils”, The Pharma Innovation Journal, Vol. 7 No. 4, pp. 173-175. Wadi, Y., Rantetampang, A.L., Sandjaja, B. and Mallongi, A. (2019), “Factors influencing acute respiratory infection incidence to child under five years in sentani health primary Jayapura district”, International Journal of Science and Healthcare Research, Vol. 4 No. 1, pp. 274-283. Wang, L., Zheng, X., Stevanovic, S., Xiang, Z., Liu, J., Shi, H., Yu, M. and Zhu, C. (2018), “Characterizing pollutant emissions from mosquito repellents incenses and implications in risk assessment of human health”, Chemosphere, Vol. 191, pp. 962-970. World Health Organization (WHO) (2018), “Dengue and severe dengue”, available at: https://www. who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue (accessed 20 August 2017). JED 24,1 78Wu, C., Guo, X., Zhao, J., Lv, Q., Li, H., McNeil, E.B., Chongsuvivatwong, V. and Zhou, H. (2017), “Behaviors related to mosquito-borne diseases among different ethnic minority groups along the China-Laos border areas”, International Journal of Environmental Research and Public Health, Vol. 14 No. 10, p. 1227. Yang, H., Yang, H., Li, Z., Liu, L., Wang, W., He, T., Fan, F., Sun, Y., Liu, J., Li, Y. and Zeng, X. (2018), “Japanese encephalitis virus/yellow fever virus chimera is safe and confers full protection against yellow fever virus in intracerebrally challenged mice”, Vaccine, Vol. 36 No. 18, pp. 2450-2455.
Bộ sưu tập
02. Tạp chí (Tiếng Anh)


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    Thông tin siêu dữ liệu biểu ghi
    Trường DC Giá trịNgôn ngữ
    dc.contributor.authorMuniva Islam
    dc.contributor.otherMohammed Ziaul Haider
    dc.contributor.otherSk. Faijan Bin Halim
    dc.date.accessioned2023-11-01T10:24:09Z-
    dc.date.available2023-11-01T10:24:09Z-
    dc.date.issued2022
    dc.identifier.isbn2632-5330
    dc.identifier.urihttps://dlib.neu.edu.vn/handle/NEU/58681-
    dc.descriptionHealth care
    dc.description.abstractPurpose – This study examines mosquito-borne diseases and health hazard of using mosquito repellents in Bangladesh. This study also targets to explore the use of different mosquito repellents and associated health hazard between slum and residential people. Design/methodology/approach – This study has applied a stratified systematic sampling technique taking 120 adult individuals from residential and slum areas covering users and non-users of mosquito repellents of Khulna city, Bangladesh. A structured questionnaire has been used to collect data from respondents. Findings – Econometric techniques are exercised to examine the occurrence, severity and duration of different respiratory diseases. Results exhibit that poor and less-educated slum people are more prone to face respiratory diseases compared to residential people. The health cost of slum and residential people is estimated US$ 134 and US$ 9, respectively. Practical implications – Relevant stakeholders under public health programs should spread awareness among people regarding the negative health effect of using mosquito repellent, encourage them to limit the use of harmful repellent and instead use herbal product (neem coil), avoid using repellent in living room rather use outside of room and close window and use proper bed net at night. Originality/value – This study underpins arranging public health programs and taking averting actions as an impetus to raise consciousness toward the negative health effect of using mosquito repellents.
    dc.description.tableofcontents1. Introduction; 2. Sample selection and data collection; 3. Materials and methods; 4. Research variables; 5. Results; 6. Discussion; 7. Conclusion and recommendation
    dc.format.extentKhổ 21 x 29.7
    dc.language.isoen
    dc.publisherKinh Tế Quốc Dân
    dc.subjectMosquito prevalence, Mosquito born-disease, Mosquito repellent, Respiratory disease, Health cost,
    dc.subjectAverting action
    dc.titleHealth hazard of using mosquito repellent in Khulna city, Bangladesh
    dc.typeJournal of Economics and Development
    dc.identifier.barcode10-1108_JED-05-2020-0067
    dc.relation.referenceAldila, D. and Seno, H. (2019), “A population dynamic model of mosquito-borne disease transmission, focusing on mosqutoes’ based distribution and mosquito repellent use”, Bulletin of Mathematical Biology, Vol. 81 No. 12, pp. 4977-5008. Atreya, K. (2007), “Pesticide use in Nepal: understanding health costs from short-term exposure”, SANDEE working paper, Kathmandu. Castro, M.C., Wilson, M.E. and Bloom, D.E. (2017), “Disease and economic burdens of dengue”, The Lancet Infectious Diseases, Vol. 17 No. 3, pp. 70-78. Chima, I.R., Goodman, A.C. and Mills, A. (2003), “The economic impact of malaria in Africa: a critical review of the evidence”, Health Policy, Vol. 63 No. 1, pp. 17-36. Gul, S., Ibrahim, S., Wasif, N., Zafar, A. and Syed, R. (2013), “Mosquito repellents: killing mosquito or yourselves”, Journal of Scientific and Innovative Research, Vol. 2 No. 6, pp. 1052-1057. Hennessee, I., Chinkhumba, J., Briggs-Hagen, M., Bauleni, A., Shah, M.P., Chalira, A., Moyo, D., Dodoli, W., Luhanga, M., Sande, J. and Ali, D. (2017), “Household costs among patients hospitalized with malaria: evidence from a national survey in Malawi”, Malaria Journal, Vol. 16 No. 1, p. 395. Hogarh, J.N., Antwi-Agyei, P. and Obiri-Danso, K. (2016), “Application of mosquito repellent coils and associated self-reported health issues in Ghana”, Malaria Journal, Vol. 15 No. 1, p. 61. Ipa, M., Widawati, M., Laksono, A.D., Kusrini, I. and Dhewantara, P.W. (2020), “Variation of preventive practices and its association with malaria infection in eastern Indonesia: findings from community-based survey”, PloS One, Vol. 15 No. 5, p. e0232909. Kamble, V.S. (2012), “Study of chronic treatment mosquito repellent liquid inhalation on biochemical constitutions of rat”, International Journal of Applied Biology and Pharmaceutical Thchnology, Vol. 4 No. 3, pp. 189-192. Khan, M., Mahmood, H.Z., Noureen, S., Muhmood, K., Husnain, M.I.U. and Hameed Khaliq, I. (2019), “The health burden of malaria and household choices regarding treatment and prevention in Pakistan”, Tropical Biomedicine, Vol. 36 No. 3, pp. 664-676. Kusuma, Y.S., Burman, D., Kumari, R., Lamkang, A.S. and Babu, B.V. (2019), “Impact of health education based intervention on community’s awareness of dengue and its prevention in Dlehi, India”, Global Health Promotion, Vol. 26 No. 1, pp. 50-59. Kyaw Myint, O. (2016), “Effects of mosquito coil smoke inhalation on human health”, Journal of the Myanmar Academy of Arts and Science, Vol. 16 Nos 1-2, pp. 1-14. Lawrence, C.E. and Croft, A.M. (2004), “Do mosquito coils prevent malaria? A systematic review of trials”, Journal of Travel Medicine, Vol. 11 No. 2, pp. 92-96. Liu, W., Zhang, J., Hashim, J.H., Jalaludin, J., Hashim, Z. and Goldstein, B.D. (2003), “Mosquito coil emissions and health implications”, Environmental Health Perspectives, Vol. 111 No. 12, pp. 1454-1460. Manica, M., Cobre, P., Rosa, R. and Caputo, B. (2017), “Not in my backyard: effectiveness of outdoor residual spraying from hand-held sprayers against the mosquito Aedes albopictus in Rome, Italy”, Pest Management Science, Vol. 73 No. 1, pp. 138-145. Health hazard of using mosquito repellent 77Mehta, D., Anand, G.A.R.G. and Mehta, N.K. (2010), “Rural buyers’ perception about mosquito repellants”, Economia. Seria Management, Vol. 13 No. 1, pp. 43-52. Mohiuddin, A.K. (2019), “Dengue protection and cure: Bangladesh perspective”, European Journal of Sustainable Development Research, Vol. 4 No. 1, p. em0104. Moore, E.L., Scott, M.A., Rodriguez, S.D., Mitra, S., Vulcan, J., Cordova, J.J., Chung, H.N., de Souza, D.L.L., Gonzales, K.K. and Hansen, L.A. (2018), “An online survey of personal mosquitorepellent strategies”, PeerJ, Vol. 6, p. e.5151. Nagoor, K., Babu, S., Kahn, S., Kalluri, R.J. and John, K. (2017), “Knowledge, attitude and practice on dengue fever and its prevention and control measures in urban slums of South India”, International Journal of Community and Public Health, Vol. 4 No. 8, pp. 3013-3017. Naz, M., Rehman, N., Ansari, M.N., Kamal, M., Ganaie, M.A., Awaad, A.S. and Alqasoumi, S.I. (2019), “Comparative study of subchronic toxicities of mosquito repellents (coils, mats and liquids) on vital organs in Swiss albino mice”, Saudi Pharmaceutical Journal, Vol. 27 No. 3, pp. 348-353. Nkya, T.E., Akhouayri, I., Kisinza, W. and David, J.P. (2013), “Impact of environment on mosquito response to pyrethroid insecticides: facts, evidences and prospects”, Insect Biochemistry and Molecular Biology, Vol. 43 No. 4, pp. 407-416. Norris, D.E. (2004), “Mosquito-borne diseases as a consequence of land use change”, EcoHealth, Vol. 1 No. 1, pp. 19-24. Okine, L.K.N., Nayarko, G.E., Armah, B., Awumbila, K., Owusu, S., Set-Soafia, S. and Ofosuhnea, M. (2004), “Adverse effect of mosquito repellent coil smoke on lung, liver and certain drug metabolising enzymes in male wistar albino rat”, Ghana Medical Journal, Vol. 38 No. 3, pp. 89-95. Rowland, M., Freeman, T., Downey, G., Hadi, A. and Saeed, M. (2004), “DEET mosquito repellent sold through social marketing provides personal protection against malaria in an area of all-night mosquito biting and partial coverage of insecticide-treated nets: a case-control study of effectiveness”, Tropical Medicine and International Health, Vol. 9 No. 3, pp. 343-350. Sah, M.L., Mishra, D., Sah, S.P. and Rana, M. (2010), “Formulation and evaluation of herbal mosquito repellent preparations”, Indian Drugs, Vol. 47 No. 4, pp. 45-50. Sharma, V.P. (2001), “Health hazards of mosquito repellents and safe alternatives”, Current Science, Vol. 80 No. 3, pp. 341-343. Shi-Chen, C., Ruey-Hong, W., Li-Jie, S., Ming-Chih, C. and Huei, L. (2008), “Exposure to mosquito coil smoke may be a risk factor for lung cancer in Taiwan”, Journal of Epidemiology, Vol. 18 No. 1, pp. 19-25. Shretta, R., Avancena, A.L. and Hatefi, A. (2016), “The economics of malaria control and elimination: a systematic review”, Malaria Journal, Vol. 15 No. 1, p. 593. Tinuade, O., Iyabo, R.A. and Durutoye, O. (2010), “Health-care-seeking behavior for childhood illnesses in resource-poor setting”, Journal of Pediatrics and Child Health, Vol. 46 No. 5, pp. 238-242. Trivedi, A., Rai, P., Kumar, J. and Trivedi, C.A. (2018), “Formulation of low smoke herbal mosquito repellent sticks by using different essential oils”, The Pharma Innovation Journal, Vol. 7 No. 4, pp. 173-175. Wadi, Y., Rantetampang, A.L., Sandjaja, B. and Mallongi, A. (2019), “Factors influencing acute respiratory infection incidence to child under five years in sentani health primary Jayapura district”, International Journal of Science and Healthcare Research, Vol. 4 No. 1, pp. 274-283. Wang, L., Zheng, X., Stevanovic, S., Xiang, Z., Liu, J., Shi, H., Yu, M. and Zhu, C. (2018), “Characterizing pollutant emissions from mosquito repellents incenses and implications in risk assessment of human health”, Chemosphere, Vol. 191, pp. 962-970. World Health Organization (WHO) (2018), “Dengue and severe dengue”, available at: https://www. who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue (accessed 20 August 2017). JED 24,1 78Wu, C., Guo, X., Zhao, J., Lv, Q., Li, H., McNeil, E.B., Chongsuvivatwong, V. and Zhou, H. (2017), “Behaviors related to mosquito-borne diseases among different ethnic minority groups along the China-Laos border areas”, International Journal of Environmental Research and Public Health, Vol. 14 No. 10, p. 1227. Yang, H., Yang, H., Li, Z., Liu, L., Wang, W., He, T., Fan, F., Sun, Y., Liu, J., Li, Y. and Zeng, X. (2018), “Japanese encephalitis virus/yellow fever virus chimera is safe and confers full protection against yellow fever virus in intracerebrally challenged mice”, Vaccine, Vol. 36 No. 18, pp. 2450-2455.
    Bộ sưu tập
    02. Tạp chí (Tiếng Anh)


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  • 10-1108_JED-05-2020-0067.pdf
    • Dung lượng : 150,33 kB

    • Định dạng : Adobe PDF

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