Neff Walker1, Gayane Yenokyan, Ingrid K Friberg, Jennifer Bryce. 1. Institute for International Programs, Department of International Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD 21205, USA. pneffwalker@yahoo.com
Abstract
BACKGROUND: Urgent calls have been made for improved understanding of changes in coverage of maternal, newborn, and child health interventions, and their country-level determinants. We examined historical trends in coverage of interventions with proven effectiveness, and used them to project rates of child and neonatal mortality in 2035 in 74 Countdown to 2015 priority countries. METHODS: We investigated coverage of all interventions for which evidence was available to suggest effective reductions in maternal and child mortality, for which indicators have been defined, and data have been obtained through household surveys. We reanalysed coverage data from 312 nationally-representative household surveys done between 1990 and 2011 in 69 countries, including 58 Countdown countries. We developed logistic Loess regression models for patterns of coverage change for each intervention, and used k-means cluster analysis to divide interventions into three groups with different historical patterns of coverage change. Within each intervention group, we examined performance of each country in achieving coverage gains. We constructed models that included baseline coverage, region, gross domestic product, conflict, and governance to examine country-specific annual percentage coverage change for each group of indicators. We used the Lives Saved Tool (LiST) to predict mortality rates of children younger than 5 years (henceforth, under 5) and in the neonatal period in 2035 for Countdown countries if trends in coverage continue unchanged (historical trends scenario) and if each country accelerates intervention coverage to the highest level achieved by a Countdown country with similar baseline coverage level (best performer scenario). RESULTS: Odds of coverage of three interventions (antimalarial treatment, skilled attendant at birth, and use of improved sanitation facilities) have decreased since 1990, with a mean annual decrease of 5·5% (SD 2·7%). Odds of coverage of four interventions--all related to the prevention of malaria--have increased rapidly, with a mean annual increase of 27·9% (7·3%). Odds of coverage of other interventions have slowly increased, with a mean annual increase of 5·3% (3·5%). Rates of coverage change varied widely across countries; we could not explain the differences by measures of gross domestic product, conflict, or governance. On the basis of LiST projections, we predicted that the number of Countdown countries with an under-5 mortality rate of fewer than 20 deaths per 1000 livebirths per year would increase from four (5%) of the 74 in 2010, to nine (12%) by 2035 under the historical trends scenario, and to 15 (20%) under the best performer scenario. The number of countries with neonatal mortality rates of fewer than 11 per 1000 livebirths per year would increase from three (4%) in 2010, to ten (14%) by 2035 under the historical trends scenario, and 67 (91%) under the best performer scenario. The number of under-5 deaths per year would decrease from an estimated 7·6 million in 2010, to 5·4 million (28% decrease) if historical trends continue, and to 2·3 million (71% decrease) under the best performer scenario. INTERPRETATION: Substantial reductions in child deaths are possible, but only if intensified efforts to achieve intervention coverage are implemented successfully within each of the Countdown countries. FUNDING: The Bill & Melinda Gates Foundation.
BACKGROUND: Urgent calls have been made for improved understanding of changes in coverage of maternal, newborn, and child health interventions, and their country-level determinants. We examined historical trends in coverage of interventions with proven effectiveness, and used them to project rates of child and neonatal mortality in 2035 in 74 Countdown to 2015 priority countries. METHODS: We investigated coverage of all interventions for which evidence was available to suggest effective reductions in maternal and child mortality, for which indicators have been defined, and data have been obtained through household surveys. We reanalysed coverage data from 312 nationally-representative household surveys done between 1990 and 2011 in 69 countries, including 58 Countdown countries. We developed logistic Loess regression models for patterns of coverage change for each intervention, and used k-means cluster analysis to divide interventions into three groups with different historical patterns of coverage change. Within each intervention group, we examined performance of each country in achieving coverage gains. We constructed models that included baseline coverage, region, gross domestic product, conflict, and governance to examine country-specific annual percentage coverage change for each group of indicators. We used the Lives Saved Tool (LiST) to predict mortality rates of children younger than 5 years (henceforth, under 5) and in the neonatal period in 2035 for Countdown countries if trends in coverage continue unchanged (historical trends scenario) and if each country accelerates intervention coverage to the highest level achieved by a Countdown country with similar baseline coverage level (best performer scenario). RESULTS: Odds of coverage of three interventions (antimalarial treatment, skilled attendant at birth, and use of improved sanitation facilities) have decreased since 1990, with a mean annual decrease of 5·5% (SD 2·7%). Odds of coverage of four interventions--all related to the prevention of malaria--have increased rapidly, with a mean annual increase of 27·9% (7·3%). Odds of coverage of other interventions have slowly increased, with a mean annual increase of 5·3% (3·5%). Rates of coverage change varied widely across countries; we could not explain the differences by measures of gross domestic product, conflict, or governance. On the basis of LiST projections, we predicted that the number of Countdown countries with an under-5 mortality rate of fewer than 20 deaths per 1000 livebirths per year would increase from four (5%) of the 74 in 2010, to nine (12%) by 2035 under the historical trends scenario, and to 15 (20%) under the best performer scenario. The number of countries with neonatal mortality rates of fewer than 11 per 1000 livebirths per year would increase from three (4%) in 2010, to ten (14%) by 2035 under the historical trends scenario, and 67 (91%) under the best performer scenario. The number of under-5 deaths per year would decrease from an estimated 7·6 million in 2010, to 5·4 million (28% decrease) if historical trends continue, and to 2·3 million (71% decrease) under the best performer scenario. INTERPRETATION: Substantial reductions in child deaths are possible, but only if intensified efforts to achieve intervention coverage are implemented successfully within each of the Countdown countries. FUNDING: The Bill & Melinda Gates Foundation.
Authors: Margaret E Kruk; Sabrina Hermosilla; Elysia Larson; Daniel Vail; Qixuan Chen; Festo Mazuguni; Beatrice Byalugaba; Godfrey Mbaruku Journal: Trop Med Int Health Date: 2015-04-30 Impact factor: 2.622
Authors: Haidong Wang; Chelsea A Liddell; Matthew M Coates; Meghan D Mooney; Carly E Levitz; Austin E Schumacher; Henry Apfel; Marissa Iannarone; Bryan Phillips; Katherine T Lofgren; Logan Sandar; Rob E Dorrington; Ivo Rakovac; Troy A Jacobs; Xiaofeng Liang; Maigeng Zhou; Jun Zhu; Gonghuan Yang; Yanping Wang; Shiwei Liu; Yichong Li; Ayse Abbasoglu Ozgoren; Semaw Ferede Abera; Ibrahim Abubakar; Tom Achoki; Ademola Adelekan; Zanfina Ademi; Zewdie Aderaw Alemu; Peter J Allen; Mohammad AbdulAziz AlMazroa; Elena Alvarez; Adansi A Amankwaa; Azmeraw T Amare; Walid Ammar; Palwasha Anwari; Solveig Argeseanu Cunningham; Majed Masoud Asad; Reza Assadi; Amitava Banerjee; Sanjay Basu; Neeraj Bedi; Tolesa Bekele; Michelle L Bell; Zulfiqar Bhutta; Jed D Blore; Berrak Bora Basara; Soufiane Boufous; Nicholas Breitborde; Nigel G Bruce; Linh Ngoc Bui; Jonathan R Carapetis; Rosario Cárdenas; David O Carpenter; Valeria Caso; Ruben Estanislao Castro; Ferrán Catalá-Lopéz; Alanur Cavlin; Xuan Che; Peggy Pei-Chia Chiang; Rajiv Chowdhury; Costas A Christophi; Ting-Wu Chuang; Massimo Cirillo; Iuri da Costa Leite; Karen J Courville; Lalit Dandona; Rakhi Dandona; Adrian Davis; Anand Dayama; Kebede Deribe; Samath D Dharmaratne; Mukesh K Dherani; Uğur Dilmen; Eric L Ding; Karen M Edmond; Sergei Petrovich Ermakov; Farshad Farzadfar; Seyed-Mohammad Fereshtehnejad; Daniel Obadare Fijabi; Nataliya Foigt; Mohammad H Forouzanfar; Ana C Garcia; Johanna M Geleijnse; Bradford D Gessner; Ketevan Goginashvili; Philimon Gona; Atsushi Goto; Hebe N Gouda; Mark A Green; Karen Fern Greenwell; Harish Chander Gugnani; Rahul Gupta; Randah Ribhi Hamadeh; Mouhanad Hammami; Hilda L Harb; Simon Hay; Mohammad T Hedayati; H Dean Hosgood; Damian G Hoy; Bulat T Idrisov; Farhad Islami; Samaya Ismayilova; Vivekanand Jha; Guohong Jiang; Jost B Jonas; Knud Juel; Edmond Kato Kabagambe; Dhruv S Kazi; Andre Pascal Kengne; Maia Kereselidze; Yousef Saleh Khader; Shams Eldin Ali Hassan Khalifa; Young-Ho Khang; Daniel Kim; Yohannes Kinfu; Jonas M Kinge; Yoshihiro Kokubo; Soewarta Kosen; Barthelemy Kuate Defo; G Anil Kumar; Kaushalendra Kumar; Ravi B Kumar; Taavi Lai; Qing Lan; Anders Larsson; Jong-Tae Lee; Mall Leinsalu; Stephen S Lim; Steven E Lipshultz; Giancarlo Logroscino; Paulo A Lotufo; Raimundas Lunevicius; Ronan Anthony Lyons; Stefan Ma; Abbas Ali Mahdi; Melvin Barrientos Marzan; Mohammad Taufiq Mashal; Tasara T Mazorodze; John J McGrath; Ziad A Memish; Walter Mendoza; George A Mensah; Atte Meretoja; Ted R Miller; Edward J Mills; Karzan Abdulmuhsin Mohammad; Ali H Mokdad; Lorenzo Monasta; Marcella Montico; Ami R Moore; Joanna Moschandreas; William T Msemburi; Ulrich O Mueller; Magdalena M Muszynska; Mohsen Naghavi; Kovin S Naidoo; K M Venkat Narayan; Chakib Nejjari; Marie Ng; Jean de Dieu Ngirabega; Mark J Nieuwenhuijsen; Luke Nyakarahuka; Takayoshi Ohkubo; Saad B Omer; Angel J Paternina Caicedo; Victoria Pillay-van Wyk; Dan Pope; Farshad Pourmalek; Dorairaj Prabhakaran; Sajjad U R Rahman; Saleem M Rana; Robert Quentin Reilly; David Rojas-Rueda; Luca Ronfani; Lesley Rushton; Mohammad Yahya Saeedi; Joshua A Salomon; Uchechukwu Sampson; Itamar S Santos; Monika Sawhney; Jürgen C Schmidt; Marina Shakh-Nazarova; Jun She; Sara Sheikhbahaei; Kenji Shibuya; Hwashin Hyun Shin; Kawkab Shishani; Ivy Shiue; Inga Dora Sigfusdottir; Jasvinder A Singh; Vegard Skirbekk; Karen Sliwa; Sergey S Soshnikov; Luciano A Sposato; Vasiliki Kalliopi Stathopoulou; Konstantinos Stroumpoulis; Karen M Tabb; Roberto Tchio Talongwa; Carolina Maria Teixeira; Abdullah Sulieman Terkawi; Alan J Thomson; Andrew L Thorne-Lyman; Hideaki Toyoshima; Zacharie Tsala Dimbuene; Parfait Uwaliraye; Selen Begüm Uzun; Tommi J Vasankari; Ana Maria Nogales Vasconcelos; Vasiliy Victorovich Vlassov; Stein Emil Vollset; Stephen Waller; Xia Wan; Scott Weichenthal; Elisabete Weiderpass; Robert G Weintraub; Ronny Westerman; James D Wilkinson; Hywel C Williams; Yang C Yang; Gokalp Kadri Yentur; Paul Yip; Naohiro Yonemoto; Mustafa Younis; Chuanhua Yu; Kim Yun Jin; Maysaa El Sayed Zaki; Shankuan Zhu; Theo Vos; Alan D Lopez; Christopher J L Murray Journal: Lancet Date: 2014-05-02 Impact factor: 79.321
Authors: Cesar G Victora; Jennifer Harris Requejo; Aluisio J D Barros; Peter Berman; Zulfiqar Bhutta; Ties Boerma; Mickey Chopra; Andres de Francisco; Bernadette Daelmans; Elizabeth Hazel; Joy Lawn; Blerta Maliqi; Holly Newby; Jennifer Bryce Journal: Lancet Date: 2015-10-22 Impact factor: 202.731
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