UNICEF. Committing to child survival: a promise renewed. eSocialSciences. 2015.
Bhutta ZA, Das JK, Bahl R, Lawn JE, Salam RA, Paul VK, Sankar MJ, Blencowe H, Rizvi A, Chou VB, Walker N. Can available interventions end preventable deaths in mothers, newborn babies, and stillbirths, and at what cost? Lancet. 2014;384:347–70.
Google Scholar
Clark H, Coll-Seck AM, Banerjee A, Peterson S, Dalglish SL, Ameratunga S, Balabanova D, Bhan MK, Bhutta ZA, Borrazzo J. A future for the world’s children? a Who–Unicef–lancet commission. The Lancet. 2020;395:605–58.
Google Scholar
United Nations Interagency Group for Child Mortality Estimation (UNIGME). Levels & trends in child mortality: report 2019, estimates developed by the United Nations interagency group for child mortality estimation. New York: United Nations Children’s Fund; 2019.
WHO. UNICEF, UNFPA, World Bank Group, and the United Nations Population Division: Trends in maternal mortality 2000 to 2017: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: World Health Organization; 2019.
Central Statistical Agency (CSA) [Ethiopia] and ICF-International. Ethiopia Demographic and Health Survey 2016. Addis Ababa, Ethiopia and Rockville, Maryland, USA; 2016.
WHO. eHealth and innovation in women’s and children’s health: a baseline review: based on the findings of the 2013 survey of CoIA countries by the WHO Global Observatory for eHealth, March 2014. Geneva: World Health Organization; 2014.
Wadhwa M. ICT interventions for improved health service quality and delivery in India: a literature review. 2019.
FMoH. Ethiopian national eHealth strategic. Addis Ababa: FMoH; 2014.
Tilahun B, Zeleke A, Kifle M, Fritz F. The Ethiopian national eHealth strategy and its alignment with the health informatics curriculum. J Health Inform Africa. 2014;2:2.
Nigussie ZY, Zemicheal NF, Tiruneh GT, Bayou YT, Teklu GA, Kibret ES, Eifler K, Hodsdon SE, Altaye DE, Rosenblum L, et al. Using mHealth to improve timeliness and quality of maternal and newborn health in the primary health care system in Ethiopia. Global Health, Sci Pract. 2021;9:668–81.
Google Scholar
Proctor E, Silmere H, Raghavan R, Hovmand P, Aarons G, Bunger A, Griffey R, Hensley M. Outcomes for implementation research: conceptual distinctions, measurement challenges, and research agenda. Adm Policy Ment Health. 2011;38:65–76.
Google Scholar
Lewis CC, Fischer S, Weiner BJ, Stanick C, Kim M, Martinez RG. Outcomes for implementation science: an enhanced systematic review of instruments using evidence-based rating criteria. Implement Sci. 2015;10:155.
Google Scholar
Soobiah C, Cooper M, Kishimoto V, Bhatia RS, Scott T, Maloney S, Larsen D, Wijeysundera HC, Zelmer J, Gray CS, Desveaux L. Identifying optimal frameworks to implement or evaluate digital health interventions: a scoping review protocol. BMJ Open. 2020;10: e037643.
Google Scholar
Wienert J, Zeeb H. Implementing health apps for digital public health—an implementation science approach adopting the consolidated framework for implementation research. Front Public Health. 2021. https://doi.org/10.3389/fpubh.2021.610237.
Google Scholar
Wienert J. Understanding health information technologies as complex interventions with the need for thorough implementation and monitoring to sustain patient safety. Front ICT. 2019;6:9.
Google Scholar
Ross J, Stevenson F, Dack C, Pal K, May C, Michie S, Barnard M, Murray E. Developing an implementation strategy for a digital health intervention: an example in routine healthcare. BMC Health Serv Res. 2018;18:794.
Google Scholar
Cremers H-P, Theunissen L, Hiddink J, Kemps H, Dekker L, van de Ven R, Monroy M, van Waes L, Scheele K, van Veghel D. Successful implementation of ehealth interventions in healthcare: development of an ehealth implementation guideline. Health Serv Manage Res. 2021;34:269–78.
Google Scholar
Fotis T, Kioskli K, Sundaralingam A, Fasihi A, Mouratidis H. Co-creation in a digital health living lab: a case study. Front Public Health. 2023;10:892930.
Google Scholar
Glasgow RE, Phillips SM, Sanchez MA. Implementation science approaches for integrating eHealth research into practice and policy. Int J Med Informatics. 2014;83:e1–11.
Google Scholar
Smith JD, Li DH, Rafferty MR. The implementation research logic model: a method for planning, executing, reporting, and synthesizing implementation projects. Implement Sci. 2020;15:84.
Google Scholar
Damschroder LJ, Aron DC, Keith RE, Kirsh SR, Alexander JA, Lowery JC. Fostering implementation of health services research findings into practice: a consolidated framework for advancing implementation science. Implement Sci. 2009;4:50.
Google Scholar
Proctor EK, Landsverk J, Aarons G, Chambers D, Glisson C, Mittman B. Implementation research in mental health services: an emerging science with conceptual, methodological, and training challenges. Adm Policy Ment Health. 2009;36:24–34.
Google Scholar
Powell BJ, Waltz TJ, Chinman MJ, Damschroder LJ, Smith JL, Matthieu MM, Proctor EK, Kirchner JE. A refined compilation of implementation strategies: results from the expert recommendations for implementing change (ERIC) project. Implement Sci. 2015;10:21.
Google Scholar
Tiruneh GT, Nigatu TG, Magge H, Hirschhorn LR. Using the implementation research logic model to design and implement community-based management of possible serious bacterial infection during COVID-19 pandemic in Ethiopia. BMC Health Serv Res. 2022;22:1515.
Google Scholar
Kebebaw T, Alemneh E, Azage M, Misgan E, Nigatu D, Abate E. Development and heuristic-based usability evaluation of an e-partograph. In: 2021. IEEE; 2021: 196–201.
Alemneh E, Kebebaw T, Nigatu D, Azage M, Misgan E, Abate E. Electronic maternal and child health application usability, feasibility and acceptability among healthcare providers in Amhara region Ethiopia. PLOS Digital Health. 2024;3: e0000494.
Google Scholar
Ettlin L, Bruderer-Hofstetter M, Rausch-Osthoff A-K, Nast I, Gaugler O, Niedermann K. Evaluation of the strategy for implementing the GLA: D programme in Switzerland: protocol for an implementation-effectiveness hybrid type 3 design study with a mixed-method approach. BMJ Open. 2022;12: e057993.
Google Scholar
Lewis CC, Klasnja P, Powell BJ, Lyon AR, Tuzzio L, Jones S, Walsh-Bailey C, Weiner B. From classification to causality: advancing understanding of mechanisms of change in implementation science. Front Public Health. 2018. https://doi.org/10.3389/fpubh.2018.00136.
Google Scholar
Tricco AC, Lillie E, Zarin W, O’Brien KK, Colquhoun H, Levac D, Moher D, Peters MDJ, Horsley T, Weeks L, et al. PRISMA extension for scoping reviews (PRISMA-ScR): checklist and explanation. Ann Intern Med. 2018;169:467–73.
Google Scholar
Page MJ, McKenzie JE, Bossuyt PM, Boutron I, Hoffmann TC, Mulrow CD, Shamseer L, Tetzlaff JM, Akl EA, Brennan SE, et al. The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. BMJ. 2021;372: n71.
Google Scholar
Miller CJ, Barnett ML, Baumann AA, Gutner CA, Wiltsey-Stirman S. The FRAME-IS: a framework for documenting modifications to implementation strategies in healthcare. Implement Sci. 2021;16:36.
Google Scholar
Damschroder LJ, Reardon CM, Sperber N, Robinson CH, Fickel JJ, Oddone EZ. Implementation evaluation of the telephone lifestyle coaching (TLC) program: organizational factors associated with successful implementation. Transl Behav Med. 2017;7:233–41.
Google Scholar
Chitiyo C, Verhey R, Mboweni SN, Healey A, Chibanda D, Araya R, Wagenaar BH. Applying the consolidated framework for implementation research to optimize implementation strategies for the friendship bench psychological intervention in Zimbabwe. Global Implement Res Applic. 2023;3:245–58.
Google Scholar
Abiy R, Gashu K, Asemaw T, Mitiku M, Fekadie B, Abebaw Z, Mamuye A, Tazebew A, Teklu A, Nurhussien F, et al. A comparison of electronic medical record data to paper records in antiretroviral therapy clinic in ethiopia: what is affecting the quality of the Data? Online J Public Health Inform. 2018;10: e212.
Google Scholar
Ahmed MH, Bogale AD, Tilahun B, Kalayou MH, Klein J, Mengiste SA, Endehabtu BF. Intention to use electronic medical record and its predictors among health care providers at referral hospitals, north-West Ethiopia, 2019: using unified theory of acceptance and use technology 2(UTAUT2) model. BMC Med Inform Decis Mak. 2020;20:207.
Google Scholar
Awol SM, Birhanu AY, Mekonnen ZA, Gashu KD, Shiferaw AM, Endehabtu BF, Kalayou MH, Guadie HA, Tilahun B. Health professionals’ readiness and its associated factors to implement electronic medical record system in four selected primary hospitals in Ethiopia. Adv Med Educ Pract. 2020;11:147–54.
Google Scholar
Keleb G. Electronic medical record utilization, its determinant factors and barriers among health care providers at selected health facilities in Addis Ababa. Ethiopia: Addis Ababa University; 2020.
Bisrat A, Minda D, Assamnew B, Abebe B, Abegaz T. Implementation challenges and perception of care providers on Electronic Medical Records at St Paul’s and Ayder Hospitals Ethiopia. BMC Med Inform Decis Mak. 2021;21:306.
Google Scholar
Nigussie ZY, Zemicheal NF, Tiruneh GT, Bayou YT, Teklu GA, Kibret ES, Eifler K, Hodsdon SE, Altaye DE, Rosenblum L, et al. Using mHealth to improve timeliness and quality of maternal and newborn health in the primary health care system in Ethiopia. Glob Health Sci Pract. 2021;9:668–81.
Google Scholar
Biruk S, Yilma T, Andualem M, Tilahun B. Health Professionals’ readiness to implement electronic medical record system at three hospitals in Ethiopia: a cross sectional study. BMC Med Inform Decis Mak. 2014;14:115.
Google Scholar
Shiferaw KB, Mehari EA. Modeling predictors of acceptance and use of electronic medical record system in a resource limited setting: using modified UTAUT model. Inform Med Unlocked. 2019;17: 100182.
Google Scholar
Berihun B, Atnafu DD, Sitotaw G. Willingness to use electronic medical record (EMR) system in healthcare facilities of Bahir Dar City Northwest Ethiopia. Biomed Res Int. 2020;2020:3827328.
Google Scholar
Kalayou MH, Endehabtu BF, Tilahun B. The applicability of the modified technology acceptance model (TAM) on the sustainable adoption of ehealth systems in resource-limited settings. J Multidiscip Healthc. 2020;13:1827–37.
Google Scholar
Ahmed MH, Awol SM, Kanfe SG, Hailegebreal S, Debele GR, Dube GN, Guadie HA, Ngusie HS, Klein J. Willingness to use telemedicine during COVID-19 among health professionals in a low income country. Inform Med Unlocked. 2021;27: 100783.
Google Scholar
Kanfe SG, Debele GR, Berhanu RD, Ngusie HS, Ahmed MH. Utilisation of district health information system and its associated factors among health professionals working at public health facilities of the southwest of Ethiopia: cross-sectional survey. BMJ Open. 2021;11: e046578.
Google Scholar
Oumer A, Muhye A, Dagne I, Ishak N, Ale A, Bekele A. Utilization, determinants, and prospects of electronic medical records in Ethiopia. Biomed Res Int. 2021;2021:1–11.
Google Scholar
Tesfa GA, Kalayou MH, Zemene W. Electronic health-information resource utilization and its associated factors among health professionals in Amhara regional state teaching hospitals Ethiopia. Adv Med Educ Pract. 2021;12:195–202.
Google Scholar
Tilahun B, Fritz F. Modeling antecedents of electronic medical record system implementation success in low-resource setting hospitals. BMC Med Inform Decis Mak. 2015;15:61.
Google Scholar
Gebre-Mariam M, Borycki E, Kushniruk A, Purkis ME: An Electronic Medical Record (EMR) implementation framework for HIV care and treatment facilities in Ethiopia. 2012.
Medhanyie AA, Little A, Yebyo H, Spigt M, Tadesse K, Blanco R, Dinant GJ. Health workers’ experiences, barriers, preferences and motivating factors in using mHealth forms in Ethiopia. Hum Resour Health. 2015;13:2.
Google Scholar
Shiferaw S, Workneh A, Yirgu R, Dinant GJ, Spigt M. Designing mHealth for maternity services in primary health facilities in a low-income setting – lessons from a partially successful implementation. BMC Med Inform Decis Mak. 2018;18:96.
Google Scholar
Ethiopia Launches Digital Health Innovation and Learning Center [https://www.jsi.com/ethiopia-launches-digital-health-innovation-and-learning-center/]
FMoH. The national information and communication technology policy and strategy. Addis Ababa, Ethiopia: Federal Ministry of Health; 2009.
FMoH. The national information and communication technology (ICT) policy and strategy. Addis Ababa Ethiopia: Federal Ministry of Health; 2016.
FMoH-Ethiopia: National Health Information System Road Map: 2005 – 2012 E.c. (2012/13 – 2019/20 G.c.). Addis Ababa, Ethiopia: Federal Ministry of Health; 2012.
FMoH-Ethiopia: Information Revolution Roadmap. Addis Ababa, Ethiopia: Federal Ministry of Health; 2016.
FMoH: Health Sector Transformation Plan-I (HSTP-I): 2015/16 – 2019/20 (2008–2012 EFY). Addis Ababa; 2015.
FMoH: Health Sector Transformation Plan-II (HSTP-II): 2020/21–2024/25 (2013 EFY – 2017 EFY). Addis Ababa; 2021.
FMoH-Ethiopia: Ethiopian digital health blueprint. Addis Ababa, Ethiopia: Federal Ministry of Health, Ethipia; 2021.
FMoH-Ethiopia: Health communication message guide: reproductive, maternal, newborn and child health. Addis Ababa: Federal Ministry of Health – Ethiopia; 2017.
Eccles MP, Mittman BS. Welcome to implementation science. Implement Sci. 2006;1:1.
Google Scholar
Czosnek L, Zopf EM, Cormie P, Rosenbaum S, Richards J, Rankin NM. Developing an implementation research logic model: using a multiple case study design to establish a worked exemplar. Implement Sci Commun. 2022;3:90.
Google Scholar
Keith RE, Crosson JC, O’Malley AS, Cromp D, Taylor EF. Using the consolidated framework for implementation research (CFIR) to produce actionable findings: a rapid-cycle evaluation approach to improving implementation. Implement Sci. 2017;12:15.
Google Scholar
King DK, Shoup JA, Raebel MA, Anderson CB, Wagner NM, Ritzwoller DP, Bender BG. Planning for implementation success using RE-AIM and CFIR frameworks: a qualitative study. Front Public Health. 2020;8:59.
Google Scholar
Fiechtner L, Castro I, Ayala SG, Velez DS, Lindros J, Perkins M, Baker A, Salmon J, Biggs V, Cannon-Smith G, et al. Design and approach of the healthy weight clinic pediatric weight management intervention package and implementation: Massachusetts-CORD 3.0. Child Obes. 2021;17:48–54.
Google Scholar
Creger T, Burgan K, Turner WH, Tarrant A, Parmar J, Rana A, Mugavero M, Elopre L. Using implementation mapping to ensure the success of PrEP optimization through enhanced continuum tracking (PrOTECT) AL-A structural intervention to track the statewide prep care continuum in Alabama. J Acquir Immune Defic Syndr. 2022;90:S161-s166.
Google Scholar
Indraratna P, Biswas U, Liu H, Redmond SJ, Yu J, Lovell NH, Ooi S-Y. Process evaluation of a randomised controlled trial for teleclinical care, a smartphone-app based model of care. Front Med. 2022;8:780882.
Google Scholar
Knapp AA, Carroll AJ, Mohanty N, Fu E, Powell BJ, Hamilton A, Burton ND, Coldren E, Hossain T, Limaye DP, et al. A stakeholder-driven method for selecting implementation strategies: a case example of pediatric hypertension clinical practice guideline implementation. Implement Sci Commun. 2022;3:25.
Google Scholar
Rodriguez-Hart C, Mackson G, Belanger D, West N, Brock V, Phanor J, Weigl S, Ahmed C, Soler J, McKinnon K, Sandfort TGM. Reducing intersecting stigmas in HIV service organizations: an implementation science model. J Acquir Immune Defic Syndr. 2022;90:S215-s225.
Google Scholar
Stump TK, Ethier K, Hirschhorn LR, Dakin A, Bouacha N, Freeman A, Bannon J, Gómez W, Moskowitz JT, Bouris A. Development of an implementation facilitation strategy to link mental health screening and ehealth intervention for clients in Ryan white-funded clinics in Chicago. J Acquir Immune Defic Syndr. 2022;90:S197-s205.
Google Scholar
Bisson M, Aubrey-Bassler K, Chouinard MC, Doucet S, Ramsden VR, Dumont-Samson O, Howse D, Lambert M, Schwarz C, Luke A, et al. Patient engagement in health implementation research: a logic model. Health Expect. 2023. https://doi.org/10.1111/hex.13782.
Google Scholar
Czosnek L, Rankin NM, Cormie P, Murnane A, Turner J, Richards J, Rosenbaum S, Zopf EM. “Now is the time for institutions to be investing in growing exercise programs as part of standard of care”: a multiple case study examining the implementation of exercise oncology interventions. Support Care Cancer. 2023;31:422.
Google Scholar
Nelson LE, Ogunbajo A, Abu-Ba’are GR, Conserve DF, Wilton L, Ndenkeh JJ, Braitstein P, Dow D, Arrington-Sanders R, Appiah P, et al. Using the implementation research logic model as a lens to view experiences of implementing HIV prevention and care interventions with adolescent sexual minority men-a global perspective. AIDS Behav. 2023;27:128–43.
Google Scholar
Pickel J, Fiks AG, Karavite D, Maleki P, Beidas RS, Dowshen N, Petsis D, Gross R, Wood SM. Provider perspectives on clinical decision support to improve HIV prevention in pediatric primary care: a multiple methods study. Implement Sci Commun. 2023;4:18.
Google Scholar
Schliemann D, Ramanathan K, Ibrahim Tamin NSB, O’Neill C, Cardwell CR, Ismail R, Kassim Z, Kee F, Su TT, Donnelly M. Implementation of a home-based colorectal cancer screening intervention in Malaysia (CRC-SIM). BMC Cancer. 2023;23:22.
Google Scholar
Stensland KD, Sales AE, Damschroder LJ, Skolarus TA. Applying implementation frameworks to the clinical trial context. Implement Sci Commun. 2022;3:109.
Google Scholar
Quimby KR, Murphy MM, Harewood H, Howitt C, Hambleton I, Jeyaseelan SM, Greaves N, Sobers N. Adaptation of a community-based type-2 diabetes mellitus remission intervention during COVID-19: empowering persons living with diabetes to take control. Implement Sci Commun. 2022;3:5.
Google Scholar
Chang MW, Militello LK, Stephens JD. Mothers in motion program: implementation process and acceptability by community. Nutrients. 2023. https://doi.org/10.3390/nu15122739.
Google Scholar
Martinez K, Lane E, Hernandez V, Lugo E, Muñoz FA, Sahms T, Broder-Fingert S, Barnett M, Stadnick NA. Optimizing ATTAIN implementation in a federally qualified health center guided by the FRAME-IS. Am Psychol. 2023;78:82–92.
Google Scholar
Legenza L, Coetzee R, Rose WE, Esack T, Crombie K, Mina M, Safdar N, Barnett SG. Application of consolidated framework for implementation research to improve Clostridioides difficile infection management in district hospitals. Res Social Adm Pharm. 2022;18:4100–11.
Google Scholar
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