Table 2.
Identifying details of articles selected for data extraction.
| First author | Year | Title | Study type | Innovation |
|---|---|---|---|---|
| Targeted Search | ||||
| Abadía-Barrero | 2018 | Kangaroo Mother Care in Colombia: A Subaltern Health Innovation against For-profit Biomedicine | Ethnographic | Healthcare provision |
| Arasaratnam | 2013 | Emerging economies drive frugal innovation | Commentary | Device |
| Arnold | 2007 | Knowledge translation in international emergency medical care | Review | Emergency medical care |
| Babo Martins | 2016 | Economic Assessment of Zoonoses Surveillance in a 'One Health' Context: A Conceptual Framework | Cost analysis | Framework for zoonotic disease surveillance |
| Babo Martins | 2017 | Economics of zoonoses surveillance in a 'One Health' context: an assessment of Campylobacter surveillance in Switzerland | Cost analysis | Zoonotic disease surveillance |
| Basu | 2017 | The role of South-North partnerships in promoting shared learning and knowledge transfer | Commentary | Global partnership |
| Bertrand | 2004 | Diffusion of innovations and HIV/AIDS | Review | HIV/AIDS prevention |
| Bhattacharyya | 2017 | Criteria to assess potential reverse innovations: opportunities for shared learning between high- and low-income countries | Modified Delphi | RI criteria |
| Binagwaho | 2013 | Shared learning in an interconnected world: innovations to advance global health equity | Commentary | Innovative partnership |
| Bloom | 2018 | Health system innovations: adapting to rapid change | Commentary | Health systems |
| Bolton | 2019 | Disseminating technology in global surgery | Review | Technology, medical device |
| Busse | 2014 | Learning from developing countries in strengthening health systems: an evaluation of personal and professional impact among global health volunteers at Addis Ababa University's Tikur Anbessa Specialized Hospital (Ethiopia) | Cross sectional survey | Global health partnership |
| Cordero | 2008 | Funding agencies in low- and middle-income countries: support for knowledge translation | Key Informant Interview | Knowledge translation |
| Correa | 2004 | Ownership of knowledge-the role of patents in pharmaceutical R&D | Commentary | Barriers to RI |
| Cotton | 2014 | Value innovation: an important aspect of global surgical care | Commentary | Surgical |
| Crisp | 2014 | Mutual learning and reverse innovation-where next? | Commentary | Mutual learning |
| Crisp | 2015 | Co-development, innovation and mutual learning-or how we need to turn the world upside down | Commentary | Mutual learning |
| Dalton | 2017 | Enablers of innovation in digital public health surveillance: lessons from Flutracking | Commentary | Opportunities for RI |
| De Paula Vieira | 2020 | Recalibrating Veterinary Medicine through Animal Welfare Science and Ethics for the 2020s | Commentary | Smart (precision) technology |
| DePasse | 2013 | A model for 'reverse innovation' in health care | Commentary | RI framework |
| Firoz | 2017 | Reverse innovation in maternal health | Case studies | Devices, mobile health, geographic information system |
| Fiz | 2004 | Non-invasive monitoring of diaphragmatic timing by means of surface contact sensors: an experimental study in dogs | Pilot study | Device |
| Foltz | 1993 | Modeling technology transfer in health information systems. Learning from the experience of Chad | Case report | Health information technology |
| Fraser | 2005 | Implementing electronic medical record systems in developing countries | Review | Electronic medical records |
| Free | 1993 | Health technologies for the developing world. Promoting self-reliance through improving local procurement and manufacturing capabilities | Review | Opportunities for RI |
| Fritz | 2015 | Success criteria for electronic medical record implementations in low-resource settings: a systematic review | Review | Electronic medical records |
| Harris | 2000 | Health technology transfer | Commentary | Technology transfer |
| Harris | 2016 | Does the Country of Origin Matter in Health Care Innovation Diffusion? | Commentary | Barriers to RI |
| Harris | 2020 | Review of the reverse innovation series in globalization and health - where are we and what else is needed? | Review | RI lessons and opportunities |
| Harris | 2017 | Measuring the bias against low-income country research: an Implicit Association Test | Cognitive psychology survey | Barriers to RI |
| Harris | 2015 | 'They hear "Africa" and they think that there can't be any good services'-perceived context in cross-national learning: a qualitative study of the barriers to Reverse Innovation | Key informant interview | Barriers to RI |
| Harris | 2016 | That's not how the learning works - the paradox of Reverse Innovation: a qualitative study | Key informant interview | Barriers to and opportunities for RI |
| Ibe | 2018 | From Kisiizi to Baltimore: cultivating knowledge brokers to support global innovation for community engagement in healthcare | Randomized controlled trial | Community knowledge brokers |
| Johnston | 2004 | The cost-effectiveness of technology transfer using telemedicine | Cost analysis | Telemedicine, technology transfer |
| Kayali | 2006 | Cost-description of a pilot parenteral vaccination campaign against rabies in dogs in N'Djaména, Chad | Cost analysis | One health vaccination |
| Kulasabanathan | 2017 | Do International Health Partnerships contribute to reverse innovation? a mixed methods study of THET-supported partnerships in the UK | Mixed methods | International health partnership |
| Kumar | 2016 | I've got 99 problems but a phone ain't one: Electronic and mobile health in low and middle income countries | Commentary | e-health |
| Larios | 2013 | Five years of designing wireless sensor networks in the Doñana Biological Reserve (Spain): an applications approach | Pilot study | Technology, device |
| Lewis | 2012 | E-health in low- and middle-income countries: findings from the Center for Health Market Innovations | Review | e-health |
| Lubaba | 2015 | Movement Behaviour of Traditionally Managed Cattle in the Eastern Province of Zambia Captured Using Two-Dimensional Motion Sensors | Cross-sectional | Device |
| Mabey | 2004 | Diagnostics for the developing world | Review | Diagnostic tests |
| Mateen | 2019 | Multiple sclerosis in resource-limited settings: Research opportunities in an unequal world | Commentary | Opportunities for RI |
| McPherson | 2014 | Hearing assistive technologies in developing countries: background, achievements and challenges | Review | Device technology |
| Melon | 2009 | A survey of South-North health biotech collaboration | Cross sectional survey | Global partnership |
| Miranda | 2010 | Exporting 'failure': why research from rich countries may not benefit the developing world | Commentary | Barriers to RI |
| Morel | 2005 | Health innovation networks to help developing countries address neglected diseases | Commentary | Opportunities for RI |
| Mormina | 2019 | Science, Technology and Innovation as Social Goods for Development: Rethinking Research Capacity Building from Sen's Capabilities Approach | Analytic framework | Knowledge transfer |
| Murphy | 2004 | Diffusion of innovations: family planning in developing countries | Commentary | Family planning |
| Narrod | 2012 | A one health framework for estimating the economic costs of zoonotic diseases on society | Cost analysis | Framework for zoonotic disease economic assessment |
| Nosratabadi | 2020 | Food Supply Chain and Business Model Innovation | Review | Food supply chain business model |
| Novillo-Ortiz | 2018 | Digital health in the Americas: advances and challenges in connected health | Cross sectional survey | e-health |
| Okafor | 2014 | Evaluation of the interferon-γ assay on blood collected at exsanguination of cattle under field conditions for surveillance of bovine tuberculosis | Case-control | Point of care diagnostic test |
| Ovretveit | 2011 | Widespread focused improvement: lessons from international health for spreading specific improvements to health services in high-income countries | Review | Innovation scale up |
| Peña-Mohr | 1987 | Distributing and transferring medical technology. A view from Latin America and the Caribbean | Commentary | Medical technology |
| Piette | 2015 | Mobile Health Devices as Tools for Worldwide Cardiovascular Risk Reduction and Disease Management | Review | Mobile health technology |
| Piot | 2016 | Innovating healthcare delivery to address noncommunicable diseases in low-income settings: the example of hypertension | Conference proceedings | Healthcare delivery |
| Premji | 2016 | Call to Action for Nurses/Nursing | Review | Global partnership |
| Rezaie | 2012 | Emergence of biopharmaceutical innovators in China, India, Brazil, and South Africa as global competitors and collaborators | Qualitative analysis | Biopharmaceutical |
| Salicrup | 2006 | Challenges and opportunities for enhancing biotechnology and technology transfer in developing countries | Review | Technology transfer |
| Santosham | 1997 | Oral rehydration therapy for diarrhea: an example of reverse transfer of technology | Expert panel | Oral rehydration therapy |
| Serageldin | 2002 | The rice genome. World poverty and hunger-the challenge for science | Commentary | Opportunity for RI |
| Shalloo | 2018 | Review: Grass-based dairy systems, data and precision technologies | Review | Precision technology |
| Sharifi | 2013 | E-health implementation challenges in Iranian medical centers: a qualitative study in Iran | Expert survey | e-health |
| Silva | 2011 | Health technology diffusion in developing countries: a case study of CT scanners in Brazil | Key informant interview | Health technology policy |
| Simba | 2004 | Application of ICT in strengthening health information systems in developing countries in the wake of globalisation | Commentary | Information communication technology |
| Skopec | 2019 | Delivering cost effective healthcare through reverse innovation | Commentary | Opportunities/barriers for RI |
| Sleator | 2007 | Not so neglected diseases | Commentary | Knowledge transfer |
| Snowdon | 2015 | Reverse innovation: an opportunity for strengthening health systems | Review | Opportunities for RI |
| Sobolski | 2005 | Technology licensing: lessons from the US experience | Commentary | Technology transfer |
| Spicer | 2018 | 'The development sector is a graveyard of pilot projects!' Six critical actions for externally funded implementers to foster scale-up of maternal and newborn health innovations in low and middle-income countries | Semi-structured interviews | Healthcare innovation scale-up |
| Subramanian | 2011 | Do we have the right models for scaling up health services to achieve the Millennium Development Goals? | Review | Scale up |
| Syed | 2013 | Reverse innovation in global health systems: towards global innovation flow | Commentary | Global partnership |
| Thakur | 2018 | Artificial-Intelligence-Based Prediction of Clinical Events among Hemodialysis Patients Using Non-Contact Sensor Data | Case control | Device |
| Tomasi | 2004 | Health information technology in primary health care in developing countries: a literature review | Review | Health information technology |
| Tran | 2016 | Frugal innovation in medicine for low resource settings | Commentary | Lean tools, opportunistic solutions, contextualized adaptations, bottom-up innovation |
| Tuijn | 2011 | Data and image transfer using mobile phones to strengthen microscopy-based diagnostic services in low and middle income country laboratories | Pilot study | Information communication technology, mobile digital data platform |
| Tura | 2010 | A low frequency electromagnetic sensor for indirect measurement of glucose concentration: in vitro experiments in different conductive solutions | Pilot study | Device |
| van Dam | 2017 | Open-source mobile digital platform for clinical trial data collection in low-resource settings | Pilot study | Mobile digital data platform |
| Varghese | 2004 | Categorizing the telehealth policy response of countries and their implications for complementarity of telehealth policy | Review | National telehealth policies |
| Watts | 2011 | Lost in translation | Commentary | Challenges to RI |
| Yapa | 2018 | Implementation science in resource-poor countries and communities | Review | Implementation science, opportunities for RI |
| Zhou | 2020 | Systematic review of early abortion services in low- and middle-income country primary care: potential for reverse innovation and application in the UK context | Review | Service delivery |
| Zinsstag | 2007 | Human benefits of animal interventions for zoonosis control | Cross-sector economic assessment | Zoonotic disease control |
| Snowball Search | ||||
| Awoonor-Williams | 2013 | Lessons learned from scaling up a community-based health program in the Upper East Region of northern Ghana | Case report | Community based health service |
| Bhatia | 2020 | Need for integrated surveillance at human-animal interface for rapid detection & response to emerging coronavirus infections using One Health approach | Commentary | Integrated surveillance system |
| Bordier | 2018 | Characteristics of One Health surveillance systems: a systematic literature review | Review | Integrated surveillance system |
| Dobbins | 2009 | A description of a knowledge broker role implemented as part of a randomized controlled trial evaluating three knowledge translation strategies | Randomized controlled trial | Knowledge translation |
| Hadengue | 2018 | Reverse innovation: A systematic literature review | Review | RI framework |
| Haefeli | 2019 | Investigation of the behaviour of cows using geolocated contact sensors | Cross-sectional survey | Device |
| Häsler | 2014 | A one health framework for the evaluation of rabies control programmes: a case study from Colombo City, Sri Lanka | Cost analysis | One Health intervention |
| Howitt | 2012 | Technologies for global health | Expert report | Health technology |
| Johnson | 2018 | The challenges of implementing an integrated One Health surveillance system in Australia | Key Informant Interviews | Integrated surveillance system |
| Kumar | 2004 | Learning from low-income countries | Commentary | Community based health service |
| Laager | 2018 | The importance of dog population contact network structures in rabies transmission | Cross-sectional survey | Device |
| Léchenne | 2016 | Validation of a Rapid Rabies Diagnostic Tool for Field Surveillance in Developing Countries | Validation | Diagnostic test |
| Paternoster | 2017 | Economics of One Health: Costs and benefits of integrated West Nile virus surveillance in Emilia-Romagna | Cost analysis | Integrated surveillance system |
| Roth | 2003 | Human health benefits from livestock vaccination for brucellosis: case study | Cost analysis | Integrated intervention |
| Schelling | 2005 | Synergy between public health and veterinary services to deliver human and animal health interventions in rural low income settings | Cost analysis | Integrated intervention |
| Schelling | 2007 | Towards Integrated and Adapted Health Services for Nomadic Pastoralists | Mixed methods | Integrated intervention |
| Sounderajah | 2021 | Are disruptive innovations recognised in the healthcare literature? A systematic review | Review | Categorized by domain |
| Stärk | 2015 | One Health surveillance - More than a buzz word? | Cost analysis | Integrated surveillance system |
| von Zedtwitz | 2015 | A typology of reverse innovation | Analytic framework | RI typologies |
| Wendt | 2015 | Zoonotic disease surveillance–inventory of systems integrating human and animal disease information | Review | Integrated surveillance system |
| WHO | 2018 | WHO compendium of innovative health technologies for low-resource settings | Compendium | Health technology |
| Zinsstag | 2009 | Transmission dynamics and economics of rabies control in dogs and humans in an African city | Cost analysis | Integrated intervention |
| Zinsstag | 2019 | Reverse innovation in global health | Commentary | Integrated approaches, global partnership |
| Zinsstag | 2020 | Towards integrated surveillance-response systems for the prevention of future pandemics | Commentary | Integrated surveillance systems |