Your search keyword '"Uthman, O.A."' showing total 4 results

1. Predicting the environmental suitability for onchocerciasis in Africa as an aid to elimination planning.

Author

Cromwell E.A., Osborne J.C.P., Unnasch T.R., Basanez M., Gass K.M., Barbre K.A., Hill E., Johnson K.B., Donkers K.M., Shirude S., Schmidt C.A., Adekanmbi V., Adetokunboh O.O., Afarideh M., Ahmadpour E., Beshir Ahmed M., Yihunie Akalu T., Al-Aly Z., Alanezi F.M., Alanzi T.M., Alipour V., Andrei C.L., Ansari F., Ansha M.G., Anvari D., Yaw Appiah S.C., Arabloo J., Arnold B.F., Ausloos M., Ayanore M.A., Amin Baig A., Banach M., Barac A., Barnighausen T.W., Bayati M., Bhattacharyya K., Bhutta Z.A., Bibi S., Bijani A., Bohlouli S., Bohluli M., Brady O.J., Bragazzi N.L., Butt Z.A., Carvalho F., Chatterjee S., Chattu V.K., Chattu S.K., Cormier N.M., Dahlawi S.M.A., Damiani G., Daoud F., Darwesh A.M., Daryani A., Deribe K., Dharmaratne S.D., Diaz D., Do H.T., El Sayed Zak M., El Tantawi M., Elemineh D.A., Faraj A., Harandi M.F., Fatahi Y., Feigin V.L., Fernandes E., Foigt N.A., Foroutan M., Franklin R.C., Mohialdeen Gubari M.I., Guido D., Guo Y., Haj-Mirzaian A., Abdullah K.H., Hamidi S., Herteliu C., De Hidru H.D., Higazi T.B., Hossain N., Hosseinzadeh M., Househ M., Ilesanmi O.S., Ilic M.D., Ilic I.M., Iqbal U., Naghibi Irvani S.S., Jha R.P., Joukar F., Jozwiak J.J., Kabir Z., Kalankesh L.R., Kalhor R., Matin B.K., Karimi S.E., Kasaeian A., Kavetskyy T., Kayode G.A., Karyani A.K., Kelbore A.G., Keramati M., Khalilov R., Khan E.A., Nuruzzaman Khan M.N., Khatab K., Khater M.M., Kianipour N., Kibret K.T., Kim Y.J., Kosen S., Krohn K.J., Kusuma D., Vecchia C.L., Lansingh V.C., Lee P.H., Legrand K.E., Li S., Longbottom J., Abd El Razek H.M., Abd El Razek M.M., Maleki A., Mamun A.A., Manafi A., Manafi N., Mansournia M.A., Martins-Melo F.R., Mazidi M., McAlinden C., Meharie B.G., Mendoza W., Mengesha E.W., Mengistu D.T., Mereta S.T., Mestrovic T., Miller T.R., Miri M., Moghadaszadeh M., Hafshejani A.M., Mohammadpourhodki R., Mohammed S., Moradi M., Moradzadeh R., Moraga P., Mosser J.F., Naderi M., Nagarajan A.J., Naik G., Negoi I., Nguyen C.T., Nguyen H.L.T., Nguyen T.H., Nikbakhsh R., Oancea B., Olagunju T.O., Olagunju A.T., Bali A.O., Onwujekwe O.E., Pana A., Pourjafar H., Rahim F., Ur Rahman M.H., Rathi P., Rawaf S., Rawaf D.L., Rawassizadeh R., Resnikoff S., Reta M.A., Rezapour A., Rubagotti E., Rubino S., Sadeghi E., Saghafipour A., Sajadi S.M., Samy A.M., Sarmiento-Suarez R., Sawhney M., Schipp M.F., Shaheen A.A., Shaikh M.A., Shamsizadeh M., Sharafi K., Sheikh A., Kumar Shetty B.S., Shin J.I., Shivakumar K.M., Simonetti B., Singh J.A., Skiadaresi E., Soheili A., Soltani S., Spurlock E.E., Sufiyan M.B., Tabuchi T., Tapak L., Thompson R.L., Thomson A.J., Traini E., Tran B.X., Ullah I., Ullah S., Uneke C.J., Unnikrishnan B., Uthman O.A., Melchers N.V.S.V., Violante F.S., Wolde H.F., Wonde T.E., Yamada T., Yaya S., Yazdi Feyzabadi V., Yip P., Yonemoto N., Yousof H.-A.S.A., Yu C., Yu Y., Yusefzadeh H., Zaki L., Zaman S.B., Zamanian M., Zhang Z.-J., Zhang Y., Ziapour A., Hay S.I., Pigott D.M., Cromwell E.A., Osborne J.C.P., Unnasch T.R., Basanez M., Gass K.M., Barbre K.A., Hill E., Johnson K.B., Donkers K.M., Shirude S., Schmidt C.A., Adekanmbi V., Adetokunboh O.O., Afarideh M., Ahmadpour E., Beshir Ahmed M., Yihunie Akalu T., Al-Aly Z., Alanezi F.M., Alanzi T.M., Alipour V., Andrei C.L., Ansari F., Ansha M.G., Anvari D., Yaw Appiah S.C., Arabloo J., Arnold B.F., Ausloos M., Ayanore M.A., Amin Baig A., Banach M., Barac A., Barnighausen T.W., Bayati M., Bhattacharyya K., Bhutta Z.A., Bibi S., Bijani A., Bohlouli S., Bohluli M., Brady O.J., Bragazzi N.L., Butt Z.A., Carvalho F., Chatterjee S., Chattu V.K., Chattu S.K., Cormier N.M., Dahlawi S.M.A., Damiani G., Daoud F., Darwesh A.M., Daryani A., Deribe K., Dharmaratne S.D., Diaz D., Do H.T., El Sayed Zak M., El Tantawi M., Elemineh D.A., Faraj A., Harandi M.F., Fatahi Y., Feigin V.L., Fernandes E., Foigt N.A., Foroutan M., Franklin R.C., Mohialdeen Gubari M.I., Guido D., Guo Y., Haj-Mirzaian A., Abdullah K.H., Hamidi S., Herteliu C., De Hidru H.D., Higazi T.B., Hossain N., Hosseinzadeh M., Househ M., Ilesanmi O.S., Ilic M.D., Ilic I.M., Iqbal U., Naghibi Irvani S.S., Jha R.P., Joukar F., Jozwiak J.J., Kabir Z., Kalankesh L.R., Kalhor R., Matin B.K., Karimi S.E., Kasaeian A., Kavetskyy T., Kayode G.A., Karyani A.K., Kelbore A.G., Keramati M., Khalilov R., Khan E.A., Nuruzzaman Khan M.N., Khatab K., Khater M.M., Kianipour N., Kibret K.T., Kim Y.J., Kosen S., Krohn K.J., Kusuma D., Vecchia C.L., Lansingh V.C., Lee P.H., Legrand K.E., Li S., Longbottom J., Abd El Razek H.M., Abd El Razek M.M., Maleki A., Mamun A.A., Manafi A., Manafi N., Mansournia M.A., Martins-Melo F.R., Mazidi M., McAlinden C., Meharie B.G., Mendoza W., Mengesha E.W., Mengistu D.T., Mereta S.T., Mestrovic T., Miller T.R., Miri M., Moghadaszadeh M., Hafshejani A.M., Mohammadpourhodki R., Mohammed S., Moradi M., Moradzadeh R., Moraga P., Mosser J.F., Naderi M., Nagarajan A.J., Naik G., Negoi I., Nguyen C.T., Nguyen H.L.T., Nguyen T.H., Nikbakhsh R., Oancea B., Olagunju T.O., Olagunju A.T., Bali A.O., Onwujekwe O.E., Pana A., Pourjafar H., Rahim F., Ur Rahman M.H., Rathi P., Rawaf S., Rawaf D.L., Rawassizadeh R., Resnikoff S., Reta M.A., Rezapour A., Rubagotti E., Rubino S., Sadeghi E., Saghafipour A., Sajadi S.M., Samy A.M., Sarmiento-Suarez R., Sawhney M., Schipp M.F., Shaheen A.A., Shaikh M.A., Shamsizadeh M., Sharafi K., Sheikh A., Kumar Shetty B.S., Shin J.I., Shivakumar K.M., Simonetti B., Singh J.A., Skiadaresi E., Soheili A., Soltani S., Spurlock E.E., Sufiyan M.B., Tabuchi T., Tapak L., Thompson R.L., Thomson A.J., Traini E., Tran B.X., Ullah I., Ullah S., Uneke C.J., Unnikrishnan B., Uthman O.A., Melchers N.V.S.V., Violante F.S., Wolde H.F., Wonde T.E., Yamada T., Yaya S., Yazdi Feyzabadi V., Yip P., Yonemoto N., Yousof H.-A.S.A., Yu C., Yu Y., Yusefzadeh H., Zaki L., Zaman S.B., Zamanian M., Zhang Z.-J., Zhang Y., Ziapour A., Hay S.I., and Pigott D.M.

Abstract

Recent evidence suggests that, in some foci, elimination of onchocerciasis from Africa may be feasible with mass drug administration (MDA) of ivermectin. To achieve continental elimination of transmission, mapping surveys will need to be conducted across all implementation units (IUs) for which endemicity status is currently unknown. Using boosted regression tree models with optimised hyperparameter selection, we estimated environmental suitability for onchocerciasis at the 5 x 5-km resolution across Africa. In order to classify IUs that include locations that are environmentally suitable, we used receiver operating characteristic (ROC) analysis to identify an optimal threshold for suitability concordant with locations where onchocerciasis has been previously detected. This threshold value was then used to classify IUs (more suitable or less suitable) based on the location within the IU with the largest mean prediction. Mean estimates of environmental suitability suggest large areas across West and Central Africa, as well as focal areas of East Africa, are suitable for onchocerciasis transmission, consistent with the presence of current control and elimination of transmission efforts. The ROC analysis identified a mean environmental suitability index of 0.71 as a threshold to classify based on the location with the largest mean prediction within the IU. Of the IUs considered for mapping surveys, 50.2% exceed this threshold for suitability in at least one 5x5-km location. The formidable scale of data collection required to map onchocerciasis endemicity across the African continent presents an opportunity to use spatial data to identify areas likely to be suitable for onchocerciasis transmission. National onchocerciasis elimination programmes may wish to consider prioritising these IUs for mapping surveys as human resources, laboratory capacity, and programmatic schedules may constrain survey implementation, and possibly delaying MDA initiation in areas that would ult

Published

2021

2. Predicting the environmental suitability for onchocerciasis in Africa as an aid to elimination planning.

Author

Cromwell E.A., Osborne J.C.P., Unnasch T.R., Basanez M., Gass K.M., Barbre K.A., Hill E., Johnson K.B., Donkers K.M., Shirude S., Schmidt C.A., Adekanmbi V., Adetokunboh O.O., Afarideh M., Ahmadpour E., Beshir Ahmed M., Yihunie Akalu T., Al-Aly Z., Alanezi F.M., Alanzi T.M., Alipour V., Andrei C.L., Ansari F., Ansha M.G., Anvari D., Yaw Appiah S.C., Arabloo J., Arnold B.F., Ausloos M., Ayanore M.A., Amin Baig A., Banach M., Barac A., Barnighausen T.W., Bayati M., Bhattacharyya K., Bhutta Z.A., Bibi S., Bijani A., Bohlouli S., Bohluli M., Brady O.J., Bragazzi N.L., Butt Z.A., Carvalho F., Chatterjee S., Chattu V.K., Chattu S.K., Cormier N.M., Dahlawi S.M.A., Damiani G., Daoud F., Darwesh A.M., Daryani A., Deribe K., Dharmaratne S.D., Diaz D., Do H.T., El Sayed Zak M., El Tantawi M., Elemineh D.A., Faraj A., Harandi M.F., Fatahi Y., Feigin V.L., Fernandes E., Foigt N.A., Foroutan M., Franklin R.C., Mohialdeen Gubari M.I., Guido D., Guo Y., Haj-Mirzaian A., Abdullah K.H., Hamidi S., Herteliu C., De Hidru H.D., Higazi T.B., Hossain N., Hosseinzadeh M., Househ M., Ilesanmi O.S., Ilic M.D., Ilic I.M., Iqbal U., Naghibi Irvani S.S., Jha R.P., Joukar F., Jozwiak J.J., Kabir Z., Kalankesh L.R., Kalhor R., Matin B.K., Karimi S.E., Kasaeian A., Kavetskyy T., Kayode G.A., Karyani A.K., Kelbore A.G., Keramati M., Khalilov R., Khan E.A., Nuruzzaman Khan M.N., Khatab K., Khater M.M., Kianipour N., Kibret K.T., Kim Y.J., Kosen S., Krohn K.J., Kusuma D., Vecchia C.L., Lansingh V.C., Lee P.H., Legrand K.E., Li S., Longbottom J., Abd El Razek H.M., Abd El Razek M.M., Maleki A., Mamun A.A., Manafi A., Manafi N., Mansournia M.A., Martins-Melo F.R., Mazidi M., McAlinden C., Meharie B.G., Mendoza W., Mengesha E.W., Mengistu D.T., Mereta S.T., Mestrovic T., Miller T.R., Miri M., Moghadaszadeh M., Hafshejani A.M., Mohammadpourhodki R., Mohammed S., Moradi M., Moradzadeh R., Moraga P., Mosser J.F., Naderi M., Nagarajan A.J., Naik G., Negoi I., Nguyen C.T., Nguyen H.L.T., Nguyen T.H., Nikbakhsh R., Oancea B., Olagunju T.O., Olagunju A.T., Bali A.O., Onwujekwe O.E., Pana A., Pourjafar H., Rahim F., Ur Rahman M.H., Rathi P., Rawaf S., Rawaf D.L., Rawassizadeh R., Resnikoff S., Reta M.A., Rezapour A., Rubagotti E., Rubino S., Sadeghi E., Saghafipour A., Sajadi S.M., Samy A.M., Sarmiento-Suarez R., Sawhney M., Schipp M.F., Shaheen A.A., Shaikh M.A., Shamsizadeh M., Sharafi K., Sheikh A., Kumar Shetty B.S., Shin J.I., Shivakumar K.M., Simonetti B., Singh J.A., Skiadaresi E., Soheili A., Soltani S., Spurlock E.E., Sufiyan M.B., Tabuchi T., Tapak L., Thompson R.L., Thomson A.J., Traini E., Tran B.X., Ullah I., Ullah S., Uneke C.J., Unnikrishnan B., Uthman O.A., Melchers N.V.S.V., Violante F.S., Wolde H.F., Wonde T.E., Yamada T., Yaya S., Yazdi Feyzabadi V., Yip P., Yonemoto N., Yousof H.-A.S.A., Yu C., Yu Y., Yusefzadeh H., Zaki L., Zaman S.B., Zamanian M., Zhang Z.-J., Zhang Y., Ziapour A., Hay S.I., Pigott D.M., Cromwell E.A., Osborne J.C.P., Unnasch T.R., Basanez M., Gass K.M., Barbre K.A., Hill E., Johnson K.B., Donkers K.M., Shirude S., Schmidt C.A., Adekanmbi V., Adetokunboh O.O., Afarideh M., Ahmadpour E., Beshir Ahmed M., Yihunie Akalu T., Al-Aly Z., Alanezi F.M., Alanzi T.M., Alipour V., Andrei C.L., Ansari F., Ansha M.G., Anvari D., Yaw Appiah S.C., Arabloo J., Arnold B.F., Ausloos M., Ayanore M.A., Amin Baig A., Banach M., Barac A., Barnighausen T.W., Bayati M., Bhattacharyya K., Bhutta Z.A., Bibi S., Bijani A., Bohlouli S., Bohluli M., Brady O.J., Bragazzi N.L., Butt Z.A., Carvalho F., Chatterjee S., Chattu V.K., Chattu S.K., Cormier N.M., Dahlawi S.M.A., Damiani G., Daoud F., Darwesh A.M., Daryani A., Deribe K., Dharmaratne S.D., Diaz D., Do H.T., El Sayed Zak M., El Tantawi M., Elemineh D.A., Faraj A., Harandi M.F., Fatahi Y., Feigin V.L., Fernandes E., Foigt N.A., Foroutan M., Franklin R.C., Mohialdeen Gubari M.I., Guido D., Guo Y., Haj-Mirzaian A., Abdullah K.H., Hamidi S., Herteliu C., De Hidru H.D., Higazi T.B., Hossain N., Hosseinzadeh M., Househ M., Ilesanmi O.S., Ilic M.D., Ilic I.M., Iqbal U., Naghibi Irvani S.S., Jha R.P., Joukar F., Jozwiak J.J., Kabir Z., Kalankesh L.R., Kalhor R., Matin B.K., Karimi S.E., Kasaeian A., Kavetskyy T., Kayode G.A., Karyani A.K., Kelbore A.G., Keramati M., Khalilov R., Khan E.A., Nuruzzaman Khan M.N., Khatab K., Khater M.M., Kianipour N., Kibret K.T., Kim Y.J., Kosen S., Krohn K.J., Kusuma D., Vecchia C.L., Lansingh V.C., Lee P.H., Legrand K.E., Li S., Longbottom J., Abd El Razek H.M., Abd El Razek M.M., Maleki A., Mamun A.A., Manafi A., Manafi N., Mansournia M.A., Martins-Melo F.R., Mazidi M., McAlinden C., Meharie B.G., Mendoza W., Mengesha E.W., Mengistu D.T., Mereta S.T., Mestrovic T., Miller T.R., Miri M., Moghadaszadeh M., Hafshejani A.M., Mohammadpourhodki R., Mohammed S., Moradi M., Moradzadeh R., Moraga P., Mosser J.F., Naderi M., Nagarajan A.J., Naik G., Negoi I., Nguyen C.T., Nguyen H.L.T., Nguyen T.H., Nikbakhsh R., Oancea B., Olagunju T.O., Olagunju A.T., Bali A.O., Onwujekwe O.E., Pana A., Pourjafar H., Rahim F., Ur Rahman M.H., Rathi P., Rawaf S., Rawaf D.L., Rawassizadeh R., Resnikoff S., Reta M.A., Rezapour A., Rubagotti E., Rubino S., Sadeghi E., Saghafipour A., Sajadi S.M., Samy A.M., Sarmiento-Suarez R., Sawhney M., Schipp M.F., Shaheen A.A., Shaikh M.A., Shamsizadeh M., Sharafi K., Sheikh A., Kumar Shetty B.S., Shin J.I., Shivakumar K.M., Simonetti B., Singh J.A., Skiadaresi E., Soheili A., Soltani S., Spurlock E.E., Sufiyan M.B., Tabuchi T., Tapak L., Thompson R.L., Thomson A.J., Traini E., Tran B.X., Ullah I., Ullah S., Uneke C.J., Unnikrishnan B., Uthman O.A., Melchers N.V.S.V., Violante F.S., Wolde H.F., Wonde T.E., Yamada T., Yaya S., Yazdi Feyzabadi V., Yip P., Yonemoto N., Yousof H.-A.S.A., Yu C., Yu Y., Yusefzadeh H., Zaki L., Zaman S.B., Zamanian M., Zhang Z.-J., Zhang Y., Ziapour A., Hay S.I., and Pigott D.M.

Abstract

Recent evidence suggests that, in some foci, elimination of onchocerciasis from Africa may be feasible with mass drug administration (MDA) of ivermectin. To achieve continental elimination of transmission, mapping surveys will need to be conducted across all implementation units (IUs) for which endemicity status is currently unknown. Using boosted regression tree models with optimised hyperparameter selection, we estimated environmental suitability for onchocerciasis at the 5 x 5-km resolution across Africa. In order to classify IUs that include locations that are environmentally suitable, we used receiver operating characteristic (ROC) analysis to identify an optimal threshold for suitability concordant with locations where onchocerciasis has been previously detected. This threshold value was then used to classify IUs (more suitable or less suitable) based on the location within the IU with the largest mean prediction. Mean estimates of environmental suitability suggest large areas across West and Central Africa, as well as focal areas of East Africa, are suitable for onchocerciasis transmission, consistent with the presence of current control and elimination of transmission efforts. The ROC analysis identified a mean environmental suitability index of 0.71 as a threshold to classify based on the location with the largest mean prediction within the IU. Of the IUs considered for mapping surveys, 50.2% exceed this threshold for suitability in at least one 5x5-km location. The formidable scale of data collection required to map onchocerciasis endemicity across the African continent presents an opportunity to use spatial data to identify areas likely to be suitable for onchocerciasis transmission. National onchocerciasis elimination programmes may wish to consider prioritising these IUs for mapping surveys as human resources, laboratory capacity, and programmatic schedules may constrain survey implementation, and possibly delaying MDA initiation in areas that would ult

Published

2021

3. Global burden of hypertension and systolic blood pressure of at least 110 to 115mmHg, 1990-2015.

Author

Roth G.A., Vasankari T., Venketasubramanian N., Vlassov V.V., Vos T., Westerman R., Yan L.L., Yano Y., Yonemoto N., El Sayed Zaki M., Murray C.J.L., Forouzanfar M.H., Liu P., Ng M., Biryukov S., Marczak L., Alexander L., Estep K., Abate K.H., Akinyemiju T.F., Ali R., Alvis-Guzman N., Azzopardi P., Banerjee A., Barnighausen T., Basu A., Bekele T., Bennett D.A., Biadgilign S., Catala-Lopez F., Feigin V.L., Fernandes J.C., Fischer F., Gebru A.A., Gona P., Gupta R., Hankey G.J., Jonas J.B., Judd S.E., Khang Y.-H., Khosravi A., Kim Y.J., Kimokoti R.W., Kokubo Y., Kolte D., Lopez A., Lotufo P.A., Malekzadeh R., Melaku Y.A., Mensah G.A., Misganaw A., Mokdad A.H., Moran A.E., Nawaz H., Neal B., Ngalesoni F.N., Ohkubo T., Pourmalek F., Rafay A., Rai R.K., Rojas-Rueda D., Sampson U.K., Santos I.S., Sawhney M., Schutte A.E., Sepanlou S.G., Shifa G.T., Shiue I., Tedla B.A., Thrift A.G., Tonelli M., Truelsen T., Tsilimparis N., Ukwaja K.N., Uthman O.A., Roth G.A., Vasankari T., Venketasubramanian N., Vlassov V.V., Vos T., Westerman R., Yan L.L., Yano Y., Yonemoto N., El Sayed Zaki M., Murray C.J.L., Forouzanfar M.H., Liu P., Ng M., Biryukov S., Marczak L., Alexander L., Estep K., Abate K.H., Akinyemiju T.F., Ali R., Alvis-Guzman N., Azzopardi P., Banerjee A., Barnighausen T., Basu A., Bekele T., Bennett D.A., Biadgilign S., Catala-Lopez F., Feigin V.L., Fernandes J.C., Fischer F., Gebru A.A., Gona P., Gupta R., Hankey G.J., Jonas J.B., Judd S.E., Khang Y.-H., Khosravi A., Kim Y.J., Kimokoti R.W., Kokubo Y., Kolte D., Lopez A., Lotufo P.A., Malekzadeh R., Melaku Y.A., Mensah G.A., Misganaw A., Mokdad A.H., Moran A.E., Nawaz H., Neal B., Ngalesoni F.N., Ohkubo T., Pourmalek F., Rafay A., Rai R.K., Rojas-Rueda D., Sampson U.K., Santos I.S., Sawhney M., Schutte A.E., Sepanlou S.G., Shifa G.T., Shiue I., Tedla B.A., Thrift A.G., Tonelli M., Truelsen T., Tsilimparis N., Ukwaja K.N., and Uthman O.A.

Abstract

IMPORTANCE Elevated systolic blood (SBP) pressure is a leading global health risk. Quantifying the levels of SBP is important to guide prevention policies and interventions. OBJECTIVE To estimate the association between SBP of at least 110 to 115mmHg and SBP of 140mmHg or higher and the burden of different causes of death and disability by age and sex for 195 countries and territories, 1990-2015. DESIGN A comparative risk assessment of health loss related to SBP. Estimated distribution of SBP was based on 844 studies from 154 countries (published 1980-2015) of 8.69 million participants. Spatiotemporal Gaussian process regression was used to generate estimates of mean SBP and adjusted variance for each age, sex, country, and year. Diseases with sufficient evidence for a causal relationship with high SBP (eg, ischemic heart disease, ischemic stroke, and hemorrhagic stroke) were included in the primary analysis. MAIN OUTCOMES AND MEASURES Mean SBP level, cause-specific deaths, and health burden related to SBP (<=110-115mmHg and also<=140mmHg) by age, sex, country, and year. RESULTS Between 1990-2015, the rate of SBP of at least 110 to 115mmHg increased from 73 119 (95%uncertainty interval [UI], 67 949-78 241) to 81 373 (95%UI, 76 814-85 770) per 100000, and SBP of 140mmHg or higher increased from 17 307 (95%UI, 17 117-17 492) to 20526 (95%UI, 20283-20746) per 100000. The estimated annual death rate per 100000associated with SBP of at least 110 to 115mmHg increased from 135.6 (95%UI, 122.4-148.1) to 145.2 (95%UI 130.3-159.9) and the rate for SBP of 140mmHg or higher increased from 97.9 (95%UI, 87.5-108.1) to 106.3 (95%UI, 94.6-118.1). Loss of disability-adjusted life-years (DALYs) associated with SBP of at least 110 to 115mmHg increased from 148 million (95%UI, 134-162 million) to 211 million (95% UI, 193-231 million), and for SBP of 140mmHg or higher, the loss increased from 95.9 million (95%UI, 87.0-104.9 million) to 143.0million (95%UI, 130.2-157.0million). The large

Published

2017

4. Global burden of hypertension and systolic blood pressure of at least 110 to 115mmHg, 1990-2015.

Author

Roth G.A., Vasankari T., Venketasubramanian N., Vlassov V.V., Vos T., Westerman R., Yan L.L., Yano Y., Yonemoto N., El Sayed Zaki M., Murray C.J.L., Forouzanfar M.H., Liu P., Ng M., Biryukov S., Marczak L., Alexander L., Estep K., Abate K.H., Akinyemiju T.F., Ali R., Alvis-Guzman N., Azzopardi P., Banerjee A., Barnighausen T., Basu A., Bekele T., Bennett D.A., Biadgilign S., Catala-Lopez F., Feigin V.L., Fernandes J.C., Fischer F., Gebru A.A., Gona P., Gupta R., Hankey G.J., Jonas J.B., Judd S.E., Khang Y.-H., Khosravi A., Kim Y.J., Kimokoti R.W., Kokubo Y., Kolte D., Lopez A., Lotufo P.A., Malekzadeh R., Melaku Y.A., Mensah G.A., Misganaw A., Mokdad A.H., Moran A.E., Nawaz H., Neal B., Ngalesoni F.N., Ohkubo T., Pourmalek F., Rafay A., Rai R.K., Rojas-Rueda D., Sampson U.K., Santos I.S., Sawhney M., Schutte A.E., Sepanlou S.G., Shifa G.T., Shiue I., Tedla B.A., Thrift A.G., Tonelli M., Truelsen T., Tsilimparis N., Ukwaja K.N., Uthman O.A., Roth G.A., Vasankari T., Venketasubramanian N., Vlassov V.V., Vos T., Westerman R., Yan L.L., Yano Y., Yonemoto N., El Sayed Zaki M., Murray C.J.L., Forouzanfar M.H., Liu P., Ng M., Biryukov S., Marczak L., Alexander L., Estep K., Abate K.H., Akinyemiju T.F., Ali R., Alvis-Guzman N., Azzopardi P., Banerjee A., Barnighausen T., Basu A., Bekele T., Bennett D.A., Biadgilign S., Catala-Lopez F., Feigin V.L., Fernandes J.C., Fischer F., Gebru A.A., Gona P., Gupta R., Hankey G.J., Jonas J.B., Judd S.E., Khang Y.-H., Khosravi A., Kim Y.J., Kimokoti R.W., Kokubo Y., Kolte D., Lopez A., Lotufo P.A., Malekzadeh R., Melaku Y.A., Mensah G.A., Misganaw A., Mokdad A.H., Moran A.E., Nawaz H., Neal B., Ngalesoni F.N., Ohkubo T., Pourmalek F., Rafay A., Rai R.K., Rojas-Rueda D., Sampson U.K., Santos I.S., Sawhney M., Schutte A.E., Sepanlou S.G., Shifa G.T., Shiue I., Tedla B.A., Thrift A.G., Tonelli M., Truelsen T., Tsilimparis N., Ukwaja K.N., and Uthman O.A.

Abstract

IMPORTANCE Elevated systolic blood (SBP) pressure is a leading global health risk. Quantifying the levels of SBP is important to guide prevention policies and interventions. OBJECTIVE To estimate the association between SBP of at least 110 to 115mmHg and SBP of 140mmHg or higher and the burden of different causes of death and disability by age and sex for 195 countries and territories, 1990-2015. DESIGN A comparative risk assessment of health loss related to SBP. Estimated distribution of SBP was based on 844 studies from 154 countries (published 1980-2015) of 8.69 million participants. Spatiotemporal Gaussian process regression was used to generate estimates of mean SBP and adjusted variance for each age, sex, country, and year. Diseases with sufficient evidence for a causal relationship with high SBP (eg, ischemic heart disease, ischemic stroke, and hemorrhagic stroke) were included in the primary analysis. MAIN OUTCOMES AND MEASURES Mean SBP level, cause-specific deaths, and health burden related to SBP (<=110-115mmHg and also<=140mmHg) by age, sex, country, and year. RESULTS Between 1990-2015, the rate of SBP of at least 110 to 115mmHg increased from 73 119 (95%uncertainty interval [UI], 67 949-78 241) to 81 373 (95%UI, 76 814-85 770) per 100000, and SBP of 140mmHg or higher increased from 17 307 (95%UI, 17 117-17 492) to 20526 (95%UI, 20283-20746) per 100000. The estimated annual death rate per 100000associated with SBP of at least 110 to 115mmHg increased from 135.6 (95%UI, 122.4-148.1) to 145.2 (95%UI 130.3-159.9) and the rate for SBP of 140mmHg or higher increased from 97.9 (95%UI, 87.5-108.1) to 106.3 (95%UI, 94.6-118.1). Loss of disability-adjusted life-years (DALYs) associated with SBP of at least 110 to 115mmHg increased from 148 million (95%UI, 134-162 million) to 211 million (95% UI, 193-231 million), and for SBP of 140mmHg or higher, the loss increased from 95.9 million (95%UI, 87.0-104.9 million) to 143.0million (95%UI, 130.2-157.0million). The large

Published

2017