Establishing Standards to Evaluate the Impact of Integrating Digital Health into Health Systems

The key milestones in the rise of digital health illustrate efforts to bridge gaps in the evidence base, a shifting focus to scale-up and sustainability, growing attention to the precise costing of these strategies, and an emergent implementation science agenda that better characterizes the ecosystem—the social, political, economic, legal, and ethical context that supports digital health implementation—necessary to take digital health approaches to scale. The key milestones in the rise of digital health illustrate efforts to bridge gaps in the evidence base, a shifting focus to scale-up and sustainability, growing attention to the precise costing of these strategies, and an emergent implementation science agenda that better characterizes the ecosystem—the social, political, economic, legal, and ethical context that supports digital health implementation—necessary to take digital health approaches to scale.

[1]  A. Haines,et al.  The effectiveness of M-health technologies for improving health and health services: a systematic review protocol , 2010, BMC Research Notes.

[2]  Thomas P Giordano,et al.  Mobile phone technologies improve adherence to antiretroviral treatment in a resource-limited setting: a randomized controlled trial of text message reminders. , 2011, AIDS.

[3]  A. Haines,et al.  The Effectiveness of Mobile-Health Technologies to Improve Health Care Service Delivery Processes: A Systematic Review and Meta-Analysis , 2013, PLoS medicine.

[4]  Garrett Mehl,et al.  Harnessing mHealth in Low-Resource Settings to Overcome Health System Constraints and Achieve Universal Access to Healthcare , 2014 .

[5]  Ralph Maddison,et al.  A Development and Evaluation Process for mHealth Interventions: Examples From New Zealand , 2012, Journal of health communication.

[6]  A. Lefevre,et al.  Defining a staged-based process for economic and financial evaluations of mHealth programs , 2017, Cost Effectiveness and Resource Allocation.

[7]  Alain B Labrique,et al.  Mobile technology in support of frontline health workers. A comprehensive overview of the landscape knowledge gaps and future directions. , 2016 .

[8]  Nhan Tran,et al.  Republished research: Implementation research: what it is and how to do it , 2013, British Journal of Sports Medicine.

[9]  Henry Lucas,et al.  Beyond pilotitis: taking digital health interventions to the national level in China and Uganda , 2017, Globalization and Health.

[10]  W. Jack,et al.  Effects of a mobile phone short message service on antiretroviral treatment adherence in Kenya (WelTel Kenya1): a randomised trial , 2010, The Lancet.

[11]  A. Lefevre,et al.  Guidelines for reporting of health interventions using mobile phones: mobile health (mHealth) evidence reporting and assessment (mERA) checklist , 2016, British medical journal.

[12]  Tigest Tamrat,et al.  Special Delivery: An Analysis of mHealth in Maternal and Newborn Health Programs and Their Outcomes Around the World , 2012, Maternal and Child Health Journal.

[13]  A. Lefevre,et al.  A Call to Digital Health Practitioners: New Guidelines Can Help Improve the Quality of Digital Health Evidence , 2017, JMIR mHealth and uHealth.

[14]  Garrett Mehl,et al.  H_pe for mHealth: More "y" or "o" on the horizon? , 2013, Int. J. Medical Informatics.

[15]  Garrett Mehl,et al.  Mobile Technology for Community Health in Ghana: what happens when technical functionality threatens the effectiveness of digital health programs? , 2017, BMC Medical Informatics and Decision Making.

[16]  Audie A Atienza,et al.  Mobile health technology evaluation: the mHealth evidence workshop. , 2013, American journal of preventive medicine.

[17]  Trish Groves,et al.  Enhancing the quality and transparency of health research , 2008, BMJ : British Medical Journal.

[18]  Garrett Mehl,et al.  Prioritizing integrated mHealth strategies for universal health coverage , 2014, Science.

[19]  N. Walker,et al.  Using the Lives Saved Tool (LiST) to Model mHealth Impact on Neonatal Survival in Resource-Limited Settings , 2014, PloS one.

[20]  Cristian Pop-Eleches,et al.  Mobile phone technologies improve adherence to antiretroviral treatment in a resource-limited setting: a randomized controlled trial of text message reminders , 2011, AIDS.

[21]  Garrett Mehl,et al.  mHealth innovations as health system strengthening tools: 12 common applications and a visual framework , 2013, Global Health: Science and Practice.

[22]  R. Whittaker,et al.  Mobile phone-based interventions for smoking cessation. , 2016, The Cochrane database of systematic reviews.

[23]  A. Haines,et al.  The Effectiveness of Mobile-Health Technology-Based Health Behaviour Change or Disease Management Interventions for Health Care Consumers: A Systematic Review , 2013, PLoS medicine.

[24]  P. Stone,et al.  What is the economic evidence for mHealth? A systematic review of economic evaluations of mHealth solutions , 2017, PloS one.

[25]  H. Cole-Lewis,et al.  Text messaging as a tool for behavior change in disease prevention and management. , 2010, Epidemiologic reviews.

[26]  J. A. Oliveira,et al.  The Impact of mHealth Interventions: Systematic Review of Systematic Reviews , 2018, JMIR mHealth and uHealth.

[27]  Dr. Hernan Murdock Information Systems Audit and Controls Association (ISACA) , 2018, Auditor Essentials.

[28]  L. Swartz,et al.  Scaling Up mHealth: Where Is the Evidence? , 2013, PLoS medicine.

[29]  Patricia Mechael,et al.  Barriers and Gaps Affecting mHealth in Low and Middle Income Countries: Policy White Paper , 1970 .

[30]  Alain B. Labrique,et al.  Understanding the Role of mHealth and Other Media Interventions for Behavior Change to Enhance Child Survival and Development in Low- and Middle-Income Countries: An Evidence Review , 2014, Journal of health communication.

[31]  Caricia Catalani,et al.  mHealth for HIV Treatment & Prevention: A Systematic Review of the Literature , 2013, The open AIDS journal.