This document discusses barriers to adoption of mobile health (mHealth) apps by doctors and patients. It conducted a literature review and interviews with Dutch mHealth experts from different stakeholder groups (policymakers, users, developers). Twelve main adoption barriers were identified, with the two most important being "Integration and interoperability" due to closed technology supplier systems, and "Business case". Dutch experts viewed "Privacy and security" and "Conservative culture" differently than the international literature. Experts from different stakeholder groups also disagreed on the importance of "Visionless development" and "Competing payment mechanisms". Overcoming barriers could involve healthcare insurers taking a leading role in funding new open standard initiatives, and international cooperation.
World has taken a huge hit due to the ongoing COVID 19 Pandemic. All sectors including Architecture and Planning are bound to incorporate certain strategies to tackle this difficult situation.
Future of hospital design initial perspective - sept 2020Future Agenda
Hospitals of the Future
In partnership with Mott MacDonald we are exploring how hospital design will change in the next decade. Building on insights gained from multiple healthcare expert workshops around the world, this is an initial perspective that share some key thoughts on how and where we may see most change. Starting with context on shifts in healthcare more generally, from slide 28 onwards it includes 22 proposals for future design focus. These range from hub and spoke ecosystems and post-Covid reconfiguration to more flexible spaces and the impact of digital theatres.
As part of a global Open Foresight programme, we are now sharing these views to gain feedback for inclusion in a more detailed point of view that will be published later in the year. If you would like to add in your opinions on which issues will be driving most change in hospitals of the future, we would welcome input either directly to us by email (tim.jones@futureagenda.rg) or via this short survey: https://www.surveymonkey.co.uk/r/J9S8SB6
Many thanks in advance for your collaboration on another key topic for future change.
A Study of Healthcare Quality Measures across Countries to Define an Approach...iosrjce
IOSR Journal of Dental and Medical Sciences is one of the speciality Journal in Dental Science and Medical Science published by International Organization of Scientific Research (IOSR). The Journal publishes papers of the highest scientific merit and widest possible scope work in all areas related to medical and dental science. The Journal welcome review articles, leading medical and clinical research articles, technical notes, case reports and others.
Early diagnosis and prevention enabled by big data geneva conference finale-Marefa
The presentation provides an overview of how digital health or use of data processing and telecommunication infrastructure can contribute to the early diagnosis and prevention of diseases.
World has taken a huge hit due to the ongoing COVID 19 Pandemic. All sectors including Architecture and Planning are bound to incorporate certain strategies to tackle this difficult situation.
Future of hospital design initial perspective - sept 2020Future Agenda
Hospitals of the Future
In partnership with Mott MacDonald we are exploring how hospital design will change in the next decade. Building on insights gained from multiple healthcare expert workshops around the world, this is an initial perspective that share some key thoughts on how and where we may see most change. Starting with context on shifts in healthcare more generally, from slide 28 onwards it includes 22 proposals for future design focus. These range from hub and spoke ecosystems and post-Covid reconfiguration to more flexible spaces and the impact of digital theatres.
As part of a global Open Foresight programme, we are now sharing these views to gain feedback for inclusion in a more detailed point of view that will be published later in the year. If you would like to add in your opinions on which issues will be driving most change in hospitals of the future, we would welcome input either directly to us by email (tim.jones@futureagenda.rg) or via this short survey: https://www.surveymonkey.co.uk/r/J9S8SB6
Many thanks in advance for your collaboration on another key topic for future change.
A Study of Healthcare Quality Measures across Countries to Define an Approach...iosrjce
IOSR Journal of Dental and Medical Sciences is one of the speciality Journal in Dental Science and Medical Science published by International Organization of Scientific Research (IOSR). The Journal publishes papers of the highest scientific merit and widest possible scope work in all areas related to medical and dental science. The Journal welcome review articles, leading medical and clinical research articles, technical notes, case reports and others.
Early diagnosis and prevention enabled by big data geneva conference finale-Marefa
The presentation provides an overview of how digital health or use of data processing and telecommunication infrastructure can contribute to the early diagnosis and prevention of diseases.
Current healthcare trends and jobs outlook for 2025needppthelp
This is a team assignment for HCAD 600 for the MS program in Healthcare Administration by UMUC. This presentation is a analysis of the current healthcare trends and job outlook for 2025 to be presented to the HR committee of Board of Directors of a healthcare organization to address workforce shortages in key healthcare areas.
Eysenbach AMIA Keynote: From Patient Needs to Personal Health ApplicationsGunther Eysenbach
AMIA Spring Conference, May 29th-31st, 2008, Phoenix/AZ. PHR Track Keynote covers: An international perspective on the importance of PHR/PHA development & research; patient needs (and other drivers of Personal Health Records); Emerging technological trends, with an emphasis on what Eysenbach calls PHR 2.0 – impact of Web 2.0 approaches e.g. to reduce attrition in ehealth applications
The technologies of telehealth are advancing quickly as part of the ‘connected care’ revolution. Patients and health providers are ever more closely linked through real-time electronic tools. From digital imaging to allow remote viewing of CT scans, through to patient diagnosis, videoconferencing and monitoring, these tools could touch all aspects of the patient-provider relationship.
Much of the promise of telehealth is predicated on its ‘access’ benefits: the improved access of the patient to medical expertise regardless of location, and improved access of health providers to their patients, for the purpose of diagnosis, consultation and monitoring. Yet access to telehealth depends not only on telehealth technology. Policy frameworks must be modernised, communications infrastructures such as broadband and mobile network coverage must be improved, and skillsets – both of clinicians and patients – need to be strengthened. This briefing paper outlines three factors shaping the telehealth access environment: government readiness (e.g. legal and regulatory clarity and harmonisation, especially across states and borders), communications infrastructure, and skills.
Telemedicine in the Current New Normal: Opportunities and BarriersDr. Mustafa Değerli
Değerli, M. and Özkan-Yıldırım, S. (2021). Telemedicine in the Current New Normal: Opportunities and Barriers. Enhanced Telemedicine and e-Health: Advanced IoT Enabled Soft Computing Framework – Springer. 10.1007/978-3-030-70111-6_2 - https://link.springer.com/chapter/10.1007/978-3-030-70111-6_2
Remote Rehabilitation: A Solution to Overloaded & Scarce Health Care Systems_...CrimsonpublishersTTEH
Remote Rehabilitation: A Solution to Overloaded & Scarce Health Care Systems by Karla Muñoz Esquivel in Trends in Telemedicine & E-health
The population across Northern Europe is aging. Coupled with socio-economic challenges, health care systems are at risk of overloading and incurring unsustainable high costs. Rehabilitation services are used disproportionately by older people. One solution pertinent to rural areas is to change the model of rehabilitation to incorporate new technologies. This has the potential to free resources and reduce costs. However, implementation is challenging. In the Northern Periphery and Artic Programme (NPA), the Smart sensor Devices for rehabilitation and Connected health (SENDoc) project.
For more Open access journals in Crimson Publishers Please click on: https://crimsonpublishers.com/
For more articles in Open access journal of Innovation in urgical Open Access Journal
Please click on: https://crimsonpublishers.com/tteh/index.php
Adoption of Integrated Healthcare Information System in Nairobi County: Kenya...Editor IJCATR
Health care information systems are aimed at facilitating the smooth running and interoperability of the health care
delivery processes to ensure efficiency and effectiveness; however, the complexity, heterogeneity and diversity of the health care
sector especially in Kenya poses serious challenges especially in relation to integration of the systems. There is a large disconnect
between the public and private health care delivery systems characterized by fragmentation of services, locally within hospitals
(among primary, secondary and tertiary health care settings) and across different health care centers. This research is aimed at
examining the adoption of integrated healthcare information system in Nairobi County; Kenyatta National Hospital represents the
public sector and The Mater Hospital the private sector. A sample size of 100 users on information system from the two hospitals
picked from the primary secondary and tertiary levels were selected and questionnaires administered to them. Data was analyzed
through descriptive statistics with the aid of SPSS. The results of the study indicated that there was a huge disparity between
healthcare information system adoption in the public and private sectors with the private sector’s adoption being at an advanced
stage. The major barriers to adoption including social political barriers, financial constraints and technical/technological barriers
also presented.
The system of delivery within health care has always been on the change and rise due
to technology along with self-care, health care, development, education, and creating a healthy society. As the old saying goes, “where there is good health there is also good financial wealth” and this is where the formation of the ACA took place and a new integrated delivery system created.
Everybody talks about e-health these days, but few people have come up with a clear definition of this comparatively new term. Barely in use before 1999, this term now seems to serve as a general “buzzword,” used to characterize not only “Internet medicine”, but also virtually everything related to computers and medicine. The term was apparently first used by industry leaders and marketing people rather than academics.
Enablers for IoT regarding Wearable Medical Devices to Support Healthy Living...Dr. Mustafa Değerli
Değerli, M. and Özkan-Yıldırım, S. (2021). Enablers for IoT regarding Wearable Medical Devices to Support Healthy Living: The Five Facets. IoT in Healthcare and Ambient Assisted Living – Springer. 10.1007/978-981-15-9897-5_10 - https://link.springer.com/chapter/10.1007/978-981-15-9897-5_10
Introduction
The big business of health care is growing in a massive rate more now than ever according to The Center for Health Workforce Studies a non-profit organization located in Rensselaer, New York the organization report that, “While total U.S. employment dropped by over 2% between 2000 and 2010, health care employment grew by more than 25% during the same period. More than 13% of the U.S. labor force worked in the health sector or in a health occupation (19 million jobs out of 143 million jobs in U.S. labor force). The health care sector is projected to add over 4.2 million jobs between 2010 and 2020, with 63% of those in ambulatory settings (offices of health practitioners, home health, and other non-institutional settings” (2012, CHWS). Health care is booming in all areas of study and research from Holistic to Western Medicine which include purchasing and supply. Unfortunately this is based off the demand for more Physicians that are not available where there is a need. The health care industry believe it or not includes the food industry and health and fitness as well.
The matter of ethics within the health care industry always needs to be address along with the quality of care for patients. Within this working essay paper I will discuss the matter of; Care & Service Provider, Ethics (codes and values), Mal-Distribution Physician Labor Forces. Even though the health care industry is growing the mal-distribution of health care is still evident in some rural areas. This factor of not having proper care delivered to impoverish neighborhoods and communities is another issue that still plagues the United States. David Cutler the online journal reporter for PBS News Hour stated, “About 10, 15 percent. Just to give you one example, Duke University Hospital has 900 hospital beds and 1,300 billing clerks. The typical Canadian hospital has a handful of billing clerks. Single-payer systems have fewer administrative needs. That’s not to say they’re better, but that’s just on one dimension that they clearly cost less. What a lot of those people are doing in America is they are figuring out how to bill different insurers for different systems, figuring out how to collect money from people, all of that sort of stuff” (2013). The need for health care workers is great, but the balance is off regarding where the needs are not being meet.
Current healthcare trends and jobs outlook for 2025needppthelp
This is a team assignment for HCAD 600 for the MS program in Healthcare Administration by UMUC. This presentation is a analysis of the current healthcare trends and job outlook for 2025 to be presented to the HR committee of Board of Directors of a healthcare organization to address workforce shortages in key healthcare areas.
Eysenbach AMIA Keynote: From Patient Needs to Personal Health ApplicationsGunther Eysenbach
AMIA Spring Conference, May 29th-31st, 2008, Phoenix/AZ. PHR Track Keynote covers: An international perspective on the importance of PHR/PHA development & research; patient needs (and other drivers of Personal Health Records); Emerging technological trends, with an emphasis on what Eysenbach calls PHR 2.0 – impact of Web 2.0 approaches e.g. to reduce attrition in ehealth applications
The technologies of telehealth are advancing quickly as part of the ‘connected care’ revolution. Patients and health providers are ever more closely linked through real-time electronic tools. From digital imaging to allow remote viewing of CT scans, through to patient diagnosis, videoconferencing and monitoring, these tools could touch all aspects of the patient-provider relationship.
Much of the promise of telehealth is predicated on its ‘access’ benefits: the improved access of the patient to medical expertise regardless of location, and improved access of health providers to their patients, for the purpose of diagnosis, consultation and monitoring. Yet access to telehealth depends not only on telehealth technology. Policy frameworks must be modernised, communications infrastructures such as broadband and mobile network coverage must be improved, and skillsets – both of clinicians and patients – need to be strengthened. This briefing paper outlines three factors shaping the telehealth access environment: government readiness (e.g. legal and regulatory clarity and harmonisation, especially across states and borders), communications infrastructure, and skills.
Telemedicine in the Current New Normal: Opportunities and BarriersDr. Mustafa Değerli
Değerli, M. and Özkan-Yıldırım, S. (2021). Telemedicine in the Current New Normal: Opportunities and Barriers. Enhanced Telemedicine and e-Health: Advanced IoT Enabled Soft Computing Framework – Springer. 10.1007/978-3-030-70111-6_2 - https://link.springer.com/chapter/10.1007/978-3-030-70111-6_2
Remote Rehabilitation: A Solution to Overloaded & Scarce Health Care Systems_...CrimsonpublishersTTEH
Remote Rehabilitation: A Solution to Overloaded & Scarce Health Care Systems by Karla Muñoz Esquivel in Trends in Telemedicine & E-health
The population across Northern Europe is aging. Coupled with socio-economic challenges, health care systems are at risk of overloading and incurring unsustainable high costs. Rehabilitation services are used disproportionately by older people. One solution pertinent to rural areas is to change the model of rehabilitation to incorporate new technologies. This has the potential to free resources and reduce costs. However, implementation is challenging. In the Northern Periphery and Artic Programme (NPA), the Smart sensor Devices for rehabilitation and Connected health (SENDoc) project.
For more Open access journals in Crimson Publishers Please click on: https://crimsonpublishers.com/
For more articles in Open access journal of Innovation in urgical Open Access Journal
Please click on: https://crimsonpublishers.com/tteh/index.php
Adoption of Integrated Healthcare Information System in Nairobi County: Kenya...Editor IJCATR
Health care information systems are aimed at facilitating the smooth running and interoperability of the health care
delivery processes to ensure efficiency and effectiveness; however, the complexity, heterogeneity and diversity of the health care
sector especially in Kenya poses serious challenges especially in relation to integration of the systems. There is a large disconnect
between the public and private health care delivery systems characterized by fragmentation of services, locally within hospitals
(among primary, secondary and tertiary health care settings) and across different health care centers. This research is aimed at
examining the adoption of integrated healthcare information system in Nairobi County; Kenyatta National Hospital represents the
public sector and The Mater Hospital the private sector. A sample size of 100 users on information system from the two hospitals
picked from the primary secondary and tertiary levels were selected and questionnaires administered to them. Data was analyzed
through descriptive statistics with the aid of SPSS. The results of the study indicated that there was a huge disparity between
healthcare information system adoption in the public and private sectors with the private sector’s adoption being at an advanced
stage. The major barriers to adoption including social political barriers, financial constraints and technical/technological barriers
also presented.
The system of delivery within health care has always been on the change and rise due
to technology along with self-care, health care, development, education, and creating a healthy society. As the old saying goes, “where there is good health there is also good financial wealth” and this is where the formation of the ACA took place and a new integrated delivery system created.
Everybody talks about e-health these days, but few people have come up with a clear definition of this comparatively new term. Barely in use before 1999, this term now seems to serve as a general “buzzword,” used to characterize not only “Internet medicine”, but also virtually everything related to computers and medicine. The term was apparently first used by industry leaders and marketing people rather than academics.
Enablers for IoT regarding Wearable Medical Devices to Support Healthy Living...Dr. Mustafa Değerli
Değerli, M. and Özkan-Yıldırım, S. (2021). Enablers for IoT regarding Wearable Medical Devices to Support Healthy Living: The Five Facets. IoT in Healthcare and Ambient Assisted Living – Springer. 10.1007/978-981-15-9897-5_10 - https://link.springer.com/chapter/10.1007/978-981-15-9897-5_10
Introduction
The big business of health care is growing in a massive rate more now than ever according to The Center for Health Workforce Studies a non-profit organization located in Rensselaer, New York the organization report that, “While total U.S. employment dropped by over 2% between 2000 and 2010, health care employment grew by more than 25% during the same period. More than 13% of the U.S. labor force worked in the health sector or in a health occupation (19 million jobs out of 143 million jobs in U.S. labor force). The health care sector is projected to add over 4.2 million jobs between 2010 and 2020, with 63% of those in ambulatory settings (offices of health practitioners, home health, and other non-institutional settings” (2012, CHWS). Health care is booming in all areas of study and research from Holistic to Western Medicine which include purchasing and supply. Unfortunately this is based off the demand for more Physicians that are not available where there is a need. The health care industry believe it or not includes the food industry and health and fitness as well.
The matter of ethics within the health care industry always needs to be address along with the quality of care for patients. Within this working essay paper I will discuss the matter of; Care & Service Provider, Ethics (codes and values), Mal-Distribution Physician Labor Forces. Even though the health care industry is growing the mal-distribution of health care is still evident in some rural areas. This factor of not having proper care delivered to impoverish neighborhoods and communities is another issue that still plagues the United States. David Cutler the online journal reporter for PBS News Hour stated, “About 10, 15 percent. Just to give you one example, Duke University Hospital has 900 hospital beds and 1,300 billing clerks. The typical Canadian hospital has a handful of billing clerks. Single-payer systems have fewer administrative needs. That’s not to say they’re better, but that’s just on one dimension that they clearly cost less. What a lot of those people are doing in America is they are figuring out how to bill different insurers for different systems, figuring out how to collect money from people, all of that sort of stuff” (2013). The need for health care workers is great, but the balance is off regarding where the needs are not being meet.
Delivering high quality, equitable care in india an ethically-resilient fram...Ahmad Ozair
Developing countries struggle to provide high-quality, equitable care to all. Challenges of resource allocation frequently lead to ethical concerns of healthcare inequity. To tackle this, such developing nations continually need to implement healthcare innovation, coupled with capacity building to ensure new strategies continue to be developed and executed. The COVID-19 pandemic has made significant demands of healthcare systems across the world-to provide equitable healthcare to all, to ensure public health principles are followed, to find novel solutions for previously unencountered healthcare challenges, and to rapidly develop new therapeutics and vaccines for COVID-19. Countries worldwide have struggled to accomplish these demands, especially the latter two, considering that few nations had long-standing systems in place to ensure processes for innovation were ongoing before the pandemic struck. The crisis represents a critical juncture to plan for a future. This future needs to incorporate a vision for the implementation of healthcare innovation, coupled with capacity building to ensure new strategies continue to be developed and executed. In this paper, the case of the massive Indian healthcare system is utilized to describe how it could implement this vision. An inclusive, ethically-resilient framework has been broadly laid out for healthcare innovation in the future, thereby ensuring success in both the short-and the long-term.
The use of mobile applications, through smart phones, smartphones, has been considered by many to be the technological revolution of greatest repercussion in recent times. Compared to a handheld computer and with access to millions of applications, its main feature is unlimited mobility, accompanying its user at all times and in any place. In health, it is known that professionals are constantly moving outside of the institutions in which they work, so mobility is fundamental, which contributes to the interoperability of mobile technologies. This study aims to identify the research involving mobile technology applied to the vaccination being used. The methodology used is of the type integrative review of the literature. The final sample had 14 papers.
Future of Healthcare Provision Jan 2017Future Agenda
Building on insights from our 2015 future of health discussions, this is a new initial view on how healthcare provision may change, especially given emerging opportunities for improved patient engagement. As well as insights from discussions in India, UK, Canada, Singapore and the US it also includes other additional perspectives shared in interviews and workshops over the past 12 months.
We recognise that given the multi-factored nature of this topic and the rapid emergence of new options, what we have summarised in this document is itself in flux. As such, over the next few months we will be sharing this more widely for additional feedback ahead of publication of an updated paper over the summer. So, if you have any comments on changes and additions or issues that you think need more detail, please let us know and we will include.
As with all Future Agenda output, this is being published under creative commons (share alike non commercial) so you are free to share and quote as suits.
Technology Acceptance Model for Mobile Health SystemsIOSR Journals
Abstract: The purpose of this paper is to explore the factors that influence health-related consumer’s
acceptance to use the mobile technology as a tool for receiving healthcare services. Based on technology
acceptance model (TAM), this paper provides a better understanding of antecedent of key acceptance constructs
(e.g. intention to use, perceived usefulness, perceived ease of use). The proposed research model and hypotheses
validated and tested with data collected from 302 Egyptians and Yemenis patients, health professionals, and
general health users. The results are analyzed using a number of statistical techniques including partial least
squares. The key findings obtaining from the results of the three surveyed stakeholders reveal that: (1) ninety
percent are indented to use mobile health services. (2) While intention to use has greatly influenced by
perceived usefulness, the impact of perceived ease of use varies. (3) Perceived value, perceived ease of use and
portability factors are significantly affect perceived usefulness. (4) Self-efficacy and technology anxiety have a
great impact on perceived ease of use. (5) The impact of the rest of the suggested factors ranged from medium,
low, and insignificant. The research made an in-depth exploration and examination of the factors that influence
user’s intention to use mobile health services focusing on technological, cultural, organizational, political, and
social aspects whereas most of the previous studies considered only one or two aspects together. The proposed
model can be applied to assess mobile health user’s acceptance, thereby help mobile health developers and
providers to develop better mobile health applications that meet the needs of the potential users.
Keywords: Intention to use, Mobile health, portability, Resistance to change, Technology anxiety, Technology
acceptance model
Greater Interoperability in Healthcare 2022: Data & TechnologyInferscience
Inferscience offers the best HCC medicare risk adjustment services in Newton, MA. Inferscience has taken advantage of these new wider rules to expand functionality. Inferscience’s proprietary technology can extract clinical data from any web-based EHR and standardize it. The data can be made available to any application via API. It is the expectation that expanding functionality with these types of features will at the end of the day benefit providers and patients as well. The most important consideration, therefore, for the continuing success of this road map is for all interest groups to participate with attentiveness and intentionality. Because in the end, collaboration is the key to greater interoperability in healthcare.
Future of Healthcare – Leadership Challenges
Further to several additional expert workshops this year, we are delighted to share an updated global perspective on the future of healthcare. Produced in partnership with Duke Corporate Education (http://www.dukece.com), this adds new insights on the pivotal shifts taking place across the sector plus viewpoints on some of the core implications for leadership. Topics include the growing power of data; the rising impact of urbanisation on health; increasing patient centricity; the need for more flexible organisations and the move of innovation activity eastwards.
Available as both this report and as an accompanying presentation (https://www.slideshare.net/futureagenda2/future-of-healthcare-15-october-2019-182433390) this is now being used to inform and provoke further debate around the world. As ever we would like to thank all those who have given their time and insight to contribute to this project.
Digital health is an emerging area at the intersection of healthcare and digital technologies. It covers technologies such as mobile health, telemedicine, big data, genomics, artificial intelligence, blockchain, and wearable devices that are used to improve access to healthcare, reduce the cost of care, and improve the quality of patient care. A digital based healthcare system is desperately needed. Deploying digital health services that fit into existing healthcare systems is crucial to improve their performance, accessibility, comfort, and efficiency. All citizens have a right to digital healthcare because it is better, more sustainable, and empowering. For this reason, the digital healthcare is a booming industry. The future of digital health continues to look bright, as long as policy makers, privacy experts, and the private sector can work together to address key issues that limit its potential impact. This paper provides an overview of digital health and its uses. Matthew N. O. Sadiku | Uwakwe C. Chukwu | Abayomi Ajayi-Majebi | Sarhan M. Musa "Digital Health: An Overview" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-4 , June 2022, URL: https://www.ijtsrd.com/papers/ijtsrd50102.pdf Paper URL: https://www.ijtsrd.com/engineering/other/50102/digital-health-an-overview/matthew-n-o-sadiku
Chronic illness: 75% of health system costs in North America
* Reimbursement models & care pathways focused
on disease management will continue to escalate
2. F. Dehzad et al.
1. Introduction
Over the past decade a higher need for new innovations in healthcare has emerged, especially for developed
countries. These countries face a crisis in their current healthcare systems, because healthcare costs are soaring
at an unsustainable rate [1]. This is partially due to an aging population, coupled with rising incidence of chronic
conditions and a shortage of healthcare workers [1] [2]. That is why innovation in healthcare is needed. The
healthcare sector has always been characterized by innovation aimed at enhancing life expectancy, quality of life,
diagnostic and treatment options [3]. In the last decades the need has also shifted to efficiency and cost effec-tiveness
in healthcare. Health Information Technology (health IT) can play a vital role in this. Buntin (2011)
showed that 92 percent of the recent articles on health IT reached positive conclusions, with most positive out-comes
2205
in effectiveness and efficiency of care [4].
In healthcare innovation a new trend is visible within the parameters of eHealth. eHealth is a more recent term
for health IT, which has been introduced since 1999 and predominantly refers to the use of Internet in healthcare
practice [5]. With the rapidly growing adoption of mobile phones all over the world, at the moment over 6 bil-lion
people own one, a new field has evolved in eHealth, known as mHealth [6] [7]. The term mHealth implies
using mobile communications—such as PDAs and mobile phones—for health services and information [8].
High expectations for mHealth exist; it is seen as an enabler of change in the healthcare sector shifting the care
paradigm from crisis intervention to promoting wellness, prevention and self-management [9]. In 2011, the US
Secretary of Health and Human Services Kathleen Sebelius referred to mHealth as “the biggest technology
breakthrough of our time” [10].
Unfortunately, mHealth failed to reach the scale of adoption that many stakeholders have hoped for [11] [12].
This can be attributed to a variety of factors. Explanations range from macro-level systemic barriers (such as
lack of enabling healthcare policy) to micro level individual barriers (such as perceived complexity and resis-tance
from physicians) [13] [14]. According to Norris (2009) the health sector in itself is a notoriously late
adopter of information technologies, especially mHealth as a disruptive innovation faces a difficult and slow
adoption in healthcare [15] [16]. Also, concerns to the perceived quality of services and lack of evidence are
mentioned [7] [9] [17]. Wu (2011) suggests more studies on adoption of mobile devices by medical profession-als
are needed to effectively promote the use of such devices in hospitals [12].
To date, however, few studies have focused on the adoption barriers of mHealth from a multi-stakeholder
point of view. Most of the studies are physician-centered and study micro-level individual barriers for adoption.
Furthermore, they were designed to evaluate the perspective of stakeholders in the US. Different studies suggest
future research should have a larger size of participants, should include non-US data for a more global context
and have a multi-stakeholder perspective [13] [18] [19]. Tomlinson (2013) and Gruber (2009) suggest program-mers
and health insurers should also be included in studies so they can leverage future policy and investments in
mHealth [17] [20]. Vishwanath (2007) suggests the importance and relationship of barriers are also desirable
information [13], since at this moment no ranking was given on the importance of barriers. Norris (2009) pro-poses
a more top-down view to match and encourage bottom-up innovation by healthcare practitioners [15].
Better understanding of barriers to mHealth supports faster adoption of mHealth in the healthcare sector.
There is limited amount of academic research dedicated to quantifying barriers and ranking them according
their importance [21]. Our research aims to identify these barriers in the adoption of mHealth, as experienced by
different key opinion leaders (KOL) in the Dutch healthcare sector. These KOLs represent all the relevant
stakeholders in the mHealth industry. Data were generated from a literature review, survey and interviews, and
provided insight into the importance and differences of the barriers from an international and multi-stakeholder
point of view. Relationships between the barriers, causes and breakthrough opportunities are also given. This
paper presents knowledge that can be used for new policy by governmental institutions, hospitals and patient
organizations to foster the innovation of health trough mHealth.
2. Background Information
2.1. State of mHealth
Over the past decades, mHealth has seen a substantial growth. This is mainly due to the exponential growth of
mobile phones. Currently, the number of mobile subscribers worldwide is expected to have reached over 7 bil-lion,
of which 1 billion are smartphones with mobile broadband connections [16] [22]. Almost all developed
countries and even some developing countries have mobile penetration greater than 100% [23]. This has been
3. F. Dehzad et al.
fueling the interest in mHealth solutions as a game changer for global health [7].
There are high expectations for mHealth for both developed and developing regions in the world. According
to the Economist Intelligence Unit (2012), mHealth can increase access to care in emerging markets and trans-form
the developed world’s costly healthcare burden into less expensive, prevention-based and patient-focused
systems [16]. The driving force of the advancement of mHealth in the hospital is, besides general healthcare
needs such as increasing productivity, capacity and patient service, more specifically the clinician’s needs for
providing the right care to the right patient at any time in any place [24]. If these needs are met, mHealth has the
potential to save the EU 99 EUR billion in healthcare costs in 2017 and help 185 million patients lead healthier
lives [25].
Different classifications of mHealth solutions are mentioned in earlier studies. MHealth has roughly three
types of technologies: devices, sensors, and applications and other software [26]. Mobile apps, which work
without external devices, can be classified as applications and other software. The target group of mHealth is
classified into healthy people, hospital patients and chronically ill individuals [15]. The solutions mHealth can
bring can be targeted at four domains: wellness and prevention; diagnosis; treatment and monitoring; and
stronger healthcare systems [15] [23] [25]. Stronger healthcare systems focus on enhancing clinical decision-making
and improving the utilization of physical and human healthcare resources by providing the system and
staff more information and analysis. These different classifications are visualized in Figure 1.
There is a rising call for more evidence about the efficacy and effectiveness of mHealth. Over the last couple
of years hundreds of proof-of-concept projects have been done, which failed to translate or scale into health sys-tems,
leading to criticisms of “pilotitis” [7]. Most randomized trials of mHealth interventions have employed
text message reminder systems [17]. According to Free (2013) these have modest benefits and may be appropri-ate
for implementation [27]. Many investigators call for more high quality trials, for more evidence [7] [17] [27].
Labrique (2013), however, claims the evidence base for mHealth continues to be strengthened, but sees chal-lenges
2206
due to the disruptive character of mHealth.
According to Research2Guidance (2013), mHealth has currently left the initial trial phase and entered the
commercialization phase of the market [28]. Currently, more than 97,000 mHealth applications are listed in the
different app stores. The general sophistication of these applications, however, is low to medium, and provides
limited benefit for patients, doctors and health interested smartphone users [28]. Researchers all agree the mar-ket
revenue of mHealth is going to grow exponentially, which is currently between 1.3 and 4.5 billion dollar [22]
[23]. Between 2017 and 2018 the revenue is expected to reach 10.2 billion dollar according to Ruder Finn
(2013), 23 billion dollar according to PwC (2012) and 26 billion dollar according to Research2Guidance [22]
[23] [28]. While the US has been at the forefront of mobile health deployments in the world at this moment,
Europe and Asia Pacific are expected to each have about 30% market share of the global mHealth market in
2017, closely followed by the developed markets of North America with 28% market share [23]. Furthermore,
mHealth could add 93 billion EUR to the EU GDP in 2017 if its adoption is encouraged [25].
Figure 1. Classification model for mHealth solutions.
4. F. Dehzad et al.
2.2. Dutch Healthcare System
Just as in other developed countries, the Netherlands faces the same challenges on the increasing burden on the
healthcare system. It is estimated that over 4 million people will be 65 years or older in 2030, almost a quarter of
the total population [29]. Since the fundamental reform in 2006 of the Dutch health care, the role of the national
government changed from directly steering the system, to safeguarding the proper functioning of the health
markets [30]. Responsibilities have been transferred to providers, insurers and patients. Since then insurers ne-gotiate
with healthcare providers on price and quality and patients choose the providers they prefer and join a
healthcare insurance policy. The principle behind it was to introduce a market system with competition between
providers, to cope with the future challenges [31]. This market orientation implies that insurers are key in
agreeing on healthcare arrangements with health care providers, such as to reimburse innovation programs like
eHealth and mHealth, for providers [32].
The Netherlands is internationally recognized as an early adopter for eHealth, but there are no nationwide im-plementations
of interoperable eHealth solutions [32]. The healthcare sector is lagging behind in implementing
ICT innovations and solutions, compared to other branches [30]. The use of electronic health records among
general practitioners, however, is among the highest in the world [33]. But in 2011 the Dutch Senate vetoed the
rollout of a nationwide electronic health record, due to privacy concerns [32]. While the government stimulates
eHealth innovation and its implementation, it does not take a leading role. That is why many players exist in im-plementing
eHealth programs. Current developments in eHealth are too fragmented and hardly based on stan-dards
that can enable wider implementation [32]. This leads to a lack of evidence for eHealth, which withholds
insurance companies from reimbursing programs. The Dutch healthcare sector can be characterized as tradition-al,
medical specialists and nurses are often resistant to new innovations [32].
The use of smart phones and tablets by healthcare professionals, however, is high, 64% uses them for profes-sional
work [34]. According to the same research, one on every six Dutch doctors has prescribed an app to a pa-tient.
Healthcare professionals highly trust that mobile technology will improve the communication and cooper-ation
between them. But also Dutch patients are highly willing to use the Internet to get into contact with their
healthcare provider [30].
2.3. Stakeholders
According to Herzlinger (2006) six forces can help or hinder efforts in innovation: industry players, funding,
public policy, technology, customers, and accountability [35]. Omachonu (2010) defines these forces for
healthcare innovation into the following stakeholders: physicians; patients; organizations; innovator companies
and regulatory agencies [3]. When looked to specific interests, needs and expectations of them, we sum up the
following stakeholders: regulators, providers, funders, technology suppliers, patients and healthcare organiza-tions
[1] [11]. Healthcare regulators (e.g. ministries), healthcare organizations (e.g. hospitals) and healthcare
funders (e.g. health insurers for the Netherlands) have the same role when implementing mHealth; they formu-late
policy from a top-down view [1]. They are mainly interested in cost-effectiveness and efficacy of mHealth.
Healthcare providers and patients are the users of the mHealth solutions; they are mainly interested in clinical
outcome. The technology suppliers and the innovation companies are the developers of the mHealth solutions
and are mainly interested into profitability and improved outcomes. The different stakeholders and their differ-ent
roles in the mHealth industry are plotted in Table 1.
Table 1. The stakeholders in the mHealth industry and their expectations.
Stakeholders Who Expectations
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Policy-makers
Healthcare regulators Cost-effectiveness
Healthcare organizations
Healthcare funders Efficacy
Users
Healthcare providers
Clinical outcome
Patients
Developers
Technology suppliers Profitability
Innovation companies Improved outcomes
5. F. Dehzad et al.
2.4. Barriers to Innovation
Innovation is a complex phenomenon and studying barriers to innovation provides insight into the dynamics of
innovation, which simultaneously is a first step in the process of overcoming them [21]. A barrier to innovation
is any factor that negatively influences the innovation process. Barriers to innovation can be grouped into endo-genous
and exogenous barriers. Endogenous barriers may arise due to organizational routines, lack of technical
expertise, resource related or human nature related e.g. risk-adverse top managers [36]. Exogenous barriers may
include financial barriers e.g. reluctance of investors, governmental barriers e.g. policies and regulations, and
collaboration barriers e.g. differences in objectives between players [36]. Also, barriers can be further classified
into general or relative barriers. General barriers are affecting all types of companies, while relative barriers se-lectively
affect companies in specific sectors [21]. It is estimates that if the current barriers on adoption of
mHealth persist, the potential benefits of it in the EU will be limited [25]. With only 10% of the total potential
adoption, the total healthcare cost saving will not be 99 EUR billion but 6.6 EUR billion, and the added GDP
will be 6.5 EUR billion instead of 93 EUR billion. That is why research into these barriers could encourage
stakeholders to adopt mHealth into its full potential. The focus of the present research lies on studying barriers
associated with the adoption of mHealth applications for hospital patients and chronically ill patients in the de-veloped
world. The barriers studied will be relative exogenous barriers, since these results in a cross-industry
perspective
3. Methodology
Data for the current research was generated in different stages. In the first stage a literature study was done to
find the main adoption barriers for mHealth in an international context. In the second stage KOLs from multiple
stakeholder groups were asked in a questionnaire to quantify these barriers according to importance. In the last
stage KOLs were interviewed to get more knowledge about the relations, causes and breakthrough opportunities
of the barriers. All together this generated a top-down view on what is hindering mHealth adoption, how impor-tant
2208
it is and how it can be overcome.
3.1. Literature Study
In this stage barriers were found from multiple articles of peer-reviewed journals and reports of international re-search
institutes. PubMed and Google Scholar were used to find these articles and reports. The keywords, which
were searched for, were: “mobile health adoption”, “adoption barriers”, “innovation barriers” and “e-health
adoption”. Only articles and reports that were published from 2007 were taken into account. The context of the
articles and reports had to about the use of mobile techniques for health in the developed countries. Only the
barriers that were mentioned at least three different times in articles or reports were taken into account for anal-ysis.
It was thus possible to identify the main barriers from an international perspective. These barriers were then
used as input for the barrier prioritization process questionnaire.
3.2. Participant Selection
The participants for the questionnaire and the interviews had to be a “Key Opinion Leader” within the broader
context of mHealth. A KOL ought to have extensive experience in either the policymaking process, usage or
development of mHealth applications in the hospital and chronic care in the Netherlands. They were found via
different methods. Two expert-meetings about mHealth were attended. Others were contacted directly online via
a search for experts that had been a keynote speaker at a congress or symposium about mHealth. The online
questionnaire was also shared on a (private) LinkedIn group for Mobile Doctors (245 members) that was admi-nistered
by a large Dutch healthcare provider association, and a (private) platform about eHealth from the Dutch
institute for Health IT (100 members). The snowball technique was used to find more participants, every partic-ipant
was asked for other KOLs that could be contacted for this research. Participants, who were not contacted
beforehand directly, were opposed to a selection afterwards on their scale of experience as a KOL. The KOLs
were divided into three stakeholder groups: policy-makers, users and developers. All participants were asked for
their names and e-mail addresses to ensure the reliability of the online questionnaire; unfinished questionnaires
and names, which were not familiar or searchable on LinkedIn, were filtered out of the results.
6. F. Dehzad et al.
3.3. Questionnaire
An online questionnaire was made with the online web survey program Survey Monkey. This was embedded in
a simple (mobile) website specifically made for this research. A brief explanation of the research and the defini-tions
of all the barriers were explained on this website. 98 KOLs were contacted directly via phone, e-mail or
twitter and another 245 KOLs were reached through the two online platforms. To increase response rates, KOLs
that did not respond to the initial request, received a follow up e-mail one week later.
In the questionnaire the KOLs were asked to do a weighted-ranking exercise with the list of barriers created in
the first stage, so a prioritization of the main barriers could be made. Weighted-ranking is a tool used to quantify
the opinions on a set of pre-determined elements by capturing the associations between core factors and the de-gree
they are assesses as barriers [37]. KOLs were asked to rank their personal top-four and indicating its im-portance
weight by distributing hundred points over the four factors selected. Fifty points could be distributed
over number one, thirty over number two and ten under number three and four. Participants also had the possi-bility
to introduce a new barrier, which was not mentioned earlier and on the list, and allocate points to it. The
following formula was used to calculate the relative weighted rank per barrier:
(( ) ( )( )( ))
(( ) ( )( )( ))
Σ Σ
Σ Σ
50 30 10 10 Allratedbarriers
n n n n
n n n n
∗ + ∗ ∗ ∗
r r r r
2209
( )
( )
1 2 3 4 KOL group
1 2 3 4 HRB total
WR
50 30 10 10 Allratedbarriers
ab
r r r r
=
∗ + ∗ ∗ ∗
WR: weighted ranking; ab: adoption barrier; HRB: highest rated barrier; n: number of times; r1/2/3 = rank1/2/3;
KOL group: total points allocated in a KOL group; total: total points allocated by all participants (Adopted from
[37]).
Differences in size of KOL groups are removed with this formula. Subsequently the relative weighted ranks
were aggregated according to the different KOL groups. The results were supplemented by a one-way ANOVA
for the statistical variance between the perceptions of each KOL group.
3.4. Semi-Structured Interviews
In the last stage semi-structured interviews were undertaken with nine KOLs, to identify the relations, underly-ing
causes and the breakthrough opportunities for the barriers. All participants of the questionnaire could indi-cate
if they would like to participate in an interview. From all the participants that were willing to do an inter-view,
nine were selected which were mentioned the most as a KOL by other participants. The participants
equally represented the different stakeholder groups. The interview questions were prepared by asking for un-derlying
causes and breakthrough possibilities for the barriers found during the literature review and other ques-tions
emerged from the results of the questionnaire. All interviews were recorded, transcribed and analyzed ac-cording
to the root-cause analysis.
4. Results
4.1. International Barriers Ranking
An initial forty-four barriers were found in five research reports of prominent research firms and five academic
articles of peer-reviewed journals. All of them were published between 2007 and 2013. Subsequently these bar-riers
were grouped in overlapping and corresponding main barriers. Barriers that were only mentioned twice or
less in the references and could not be grouped were excluded. Eventually forty-one initial barriers were
grouped into twelve main barriers. In Table 2 the corresponding barriers that are ranked according to their ref-erences
are displayed.
4.2. Weighted Ranking Exercise
Eighty-six KOLs completed the online questionnaire. Twenty-nine KOLs did not respond at all. After a selec-tion
based on their scale of experience as a KOL, nine participants were excluded, which resulted in seventy-six
remaining participants for the questionnaire that were taken into account for analysis. The participants equally
represent the different stakeholder groups: twenty-four represented policy-makers, twenty-four the users and
twenty-eight the developers. Three participants did not complete the questionnaire completely by not distribut-ing
all the hundred points to the different barriers. Only one participant introduced a novel barrier, which was
7. F. Dehzad et al.
Table 2. Literature barrier ranking [6] [14] [16] [18] [19] [25] [38]-[41].
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Ranking Barriers Themes References WHO
[6]
Li et al.
[14]
EIU
[16]
Mirza
et al.
[18]
Whittaker
[19]
PwC
[25]
Vodafone
[38]
GSMA
[39]
Clark
et al.
[40]
Shieh
et al.
[41]
1 Integration &
Interoperability 10 x x x x x x x x x x
2 Business case 10 x x x x x x x x x x
3 Privacy & Security 9 x x x x x x x x x
4 Technological
obstacles 9 x x x x x x x x x
5 Lack of access
for patients 8 x x x x x x x x
6 Legislation 8 x x x x x x x x
7 Not adapted
for physician 8 x x x x x x x x
8 Lack of governance 7 x x x x x x x
9 Lack of Evidence 5 x x x x x
10 Conservative culture 5 x x x x x
11 Competing
payment mechanism 3 x x x
12 Visionless
development 3 x x x
further not mentioned by other participants and so not taken into account for further analysis. It is therefore as-sumed
the list of barriers reflect the twelve most important barriers on the adoption of mHealth. In Figure 2 the
differences in perceived value of the barriers on the adoption of mHealth by the different stakeholder groups is
plotted.
Results indicate a significant internal validity of KOL group responses. Additionally, the ANOVA analysis
revealed no significant variance between the KOL groups. Only the barrier visionless development showed sig-nificant
variance between the KOL groups. In Table 3 the Anova analysis results are plotted.
4.3. Data Integrations
By mapping the results in a decision matrix configuration, similarities and differences between the perceived
importance of barriers according to the international literature and the Dutch KOL responses are visualized. The
international literature barrier ranking is taken as a reference (Figure 3).
The following decision matrix configuration visualizes the similarities and differences between the KOL res-ponses.
The policy-makers opinion is taken as a reference, to which the users and developers are compared
(Figure 4).
4.4. Relations, Causes and Breakthrough Opportunities
Nine KOLs were invited for a semi-structured interview. During the root-cause analysis of the transcripts of the
interviews, an initial fifty-one causes and fifty-one breakthrough opportunities were found. Subsequently they
were grouped in overlapping and corresponding main causes and breakthroughs. The ones that were mentioned
by two or less KOLs and the ones that could not be grouped were excluded. Eventually eleven causes and nine
breakthrough opportunities remained and the relationships between them were identified. It is believed these
represent the most important causes and breakthroughs opportunities for the corresponding barriers. Integrating
all the outcomes of this research, results in a an overview that visualizes which main barriers are impacting
mHealth adoption, their relationships, the main underlying causes and which main breakthrough opportunities
exist in overcoming them. Since barriers usually mutually reinforce their impact on each other, the identification
of the causes and breakthrough opportunities of the adoption barriers may assist in their elimination or reduction
[21]. This overview can be seen in Figure 5 and the explanation of the different definitions can be found in Ta-ble
4.
8. F. Dehzad et al.
Table 3. Anova analysis for significant effect between the weighted ranking values and KOL group membership.
Anova Analysis df F P-value F crit
Integration & Interoperability 2 0.978 0.3808 3.122
Business case 2 0.467 0.6290 3.122
Conservative culture 2 2.688 0.0748 3.122
Visionless development 2 3.863 0.0254 3.122
Not adapted for physician 2 0.219 0.8041 3.122
Privacy & Security 2 0.544 0.5825 3.122
Lack of Governance 2 0.843 0.4344 3.122
Lack of Evidence 2 1.293 0.2807 3.122
Competing payment mechanism 2 2.239 0.1138 3.122
Legislation 2 0.377 0.6875 3.122
Lack of access for patients 2 0.392 0.6773 3.122
Technological obstacles 2 1.125 0.3301 3.122
KOL group 2 0.002 0.9984 3.008
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Figure 2. Stakeholders’ barrier ranking.
9. F. Dehzad et al.
Figure 3. Barrier ranking matrix international literature and Dutch KOLs.
Figure 4. Decision matrix stakeholder groups.
5. Discussion
The developed world has high expectations of transformative health innovations such as mHealth, since they are
severely needed to cope with future challenges in the healthcare system. To date, however, mHealth has not
achieved its promise, due to a lack of large-scale adoption. There is little knowledge on the underlying barriers
that exist and what their impact is on adoption. Our research aims to quantify these barriers and rank them ac-cording
to their importance from a multi-stakeholder point of view. The most important barriers are “Integration
and interoperability” and “Business case”. A different and more strategic role of funding by healthcare insurers
might have a positive role on the elimination of these barriers.
The present study shows the importance of “Integration and interoperability” and “Business case” as barriers
according to international literature and according to different stakeholders in the Dutch healthcare system. An
important underlying cause for “Integration and interoperability” is the active closed power system of technol-ogy
suppliers. In the Netherlands only a few big suppliers exist, and for them it is not lucrative to make use of
open standards and APIs. With the fragmented developments in mHealth and a non-leading role of the Dutch
Government on mHealth deployment, only the healthcare insurers might be able to break this closed system
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10. F. Dehzad et al.
Figure 5. Relations, underlying-causes and breakthrough opportunities.
2213
11. F. Dehzad et al.
Table 4. Explanation Figure 5; Barriers, relations, causes and breakthroughs opportunities.
2214
Integration
and interoperability
Difficult for mHealth apps to be
integratable in current health IT
systems and their lack of connectivity
with other technology solutions
Consumers not willing to pay
Consumers expect all applications
to be free or low-priced, just as
in the different app-markets
Business case High risk investment
needed in unsure market Conservative nature
Healthcare is traditionally conservative
due to the importance of personal
contact and risk averse behavior
Conservative culture
Existence of a conservative
culture among healthcare
professionals for new technologies
Unfamiliarity with healthcare
Developers are mostly new in the
healthcare market and possess
insufficient health knowledge
Visionless development
Current developments of mHealth
applications miss focus and
vision for added value
No involvement of end users Physicians and patients are insufficiently
involved during the development phase
Not adapted to physicians
Difficult for physician to adapt
new technologies in their current
work-environment
High expectations for privacy The general population has high
standards for privacy preservation
Privacy and security High expectations for proper security
with privacy sensitive information Absence of health insurers
Health insurers are not taking the
lead where they should, due to the
non leading role of the government
Lack of governance Not enough central control and
steering from the government Open standards and APIs Open standards and APIs make integration
easy and possible on a high systemic level
Lack of evidence Insufficient evidence of clinical
outcomes, effectiveness and efficiency
Strategic funding programs
by health insurers
Health insurers should strategically fund
initiatives that are integratable from start
and deliver value on the long-term
Competing
payment mechanism
Current pay-per-performance is
outdated and not compatible with
mHealth’s prevention focus
Higher value for
funding parties
New initiatives should better match
the needs of funding parties and
collaborate with them on an early basis
Legislation
National and international legislation
about medical devices is unclear,
to strict and outdated
More realistic approach
Realistic approach and more focus
on the end-results, such as efficiency
and digitalization
Lack of access for patients
Use of mHealth applications asks
for a high degree of (technological)
knowledge and is to costly
Collaborations with end users Better collaborations with end users and
stakeholders, such as doctors and patients
Technological obstacles
Current solutions are too complex.
Furthermore connectivity
and battery lacks performance
Good information and
review opportunities
The government should provide guidelines
and review opportunities for new initiatives
No realistic expectations
Too high and unrealistic expectations
of integration and interoperability
of all technological devices
New performance policy
New policy about performance funding
for healthcare professionals, where
health results should be the measuring tip
Closed power of suppliers Limited amount of health IT
suppliers with a closed power system Better market phase Waiting for a better market phase which
is more sophisticated and developed
by strategically funding technology developments that use open standards and APIs from start. Healthcare in-surers
can have a similar role in funding new mHealth initiatives that face a problem with their business case.
While mHealth can lead to cost reductions on the long run, this cannot be expected and surely should not be a
goal from a transformative innovation on the short term. Since healthcare insurers will reap the benefits of a
healthier population, it is expected they should strategically fund new initiatives where users are not willing to
pay, and guide developers to deliver higher value solutions. For other countries where the government is the
main funding party, the same role is expected from them.
This study further shows a difference in the ranking of importance of some barriers found in literature and
perceived by Dutch KOLs. “Conservative culture” and “Visionless development” are perceived as more impor-tant
to Dutch KOLS then according to international literature. As explained earlier the Dutch healthcare system
is characterized as traditional [32], which might be an explanation for the higher importance of “Conservative
culture” as a barrier to adoption. A cause for the high ranking of “Visionless development” might be the frag-mented
landscape of eHealth and mHealth developments in the Netherlands. On the other hand, our research
12. F. Dehzad et al.
shows that some barriers seem to be less important according to Dutch KOLs than according to international li-terature.
While the Dutch Senate vetoed the rollout of a nationwide electronic health record due to privacy con-cerns,
“Privacy and security” together with “Legislation”, “Lack of access”, and “Technological obstacles” are
perceived as less important barriers. An underlying cause for this difference might be the fact that the mHealth
market in the Netherlands is less advanced as in the US, where most of the studies are done and is at the fore-front
of mobile health deployments [23]. Several KOLs pointed out during the interviews these barriers might
become more important in the future, when the mHealth market in Netherlands will be more advanced. Since
Europe is expected to have the largest market share in 2017 [23], the importance of these barriers should not be
underestimated.
Other findings show stakeholders have different perceptions among each other, on the importance of some
barriers. “Lack of evidence” and “Technological obstacles” are perceived as more important to users than to
policy-makers and developers. A possible explanation for this is that the users face the liability question. This is
specifically the case for doctors, who have to prescribe the mHealth solutions to patients, and for patients who
have to weigh up the risks of using them. The “Competing payment mechanism” is a much-heard barrier when
KOLs are speaking about the transformation of a treatment focused healthcare system to a prevention based
health system. However, users and developers rank the importance lower than policy-makers. This might be
since users, such as doctors, benefit from the current payment mechanism; consequently they might not perceive
it as an important barrier.
Our study provides unique findings that contribute to the knowledge about mHealth adoption in the developed
countries. The multi-stakeholder point of view gives unique insight into the differences and similarities of
stakeholder’s perceptions on the importance of barriers. The inclusion of developers and policy-makers as
stakeholders is scarce in the mHealth research. Furthermore this study gives a unique international comparison
on how barriers impact mHealth adoption globally. The Netherlands can be taken as a reference for other West-ern-
European countries. A limiting factor for this research is the starting phase where mHealth is currently in. In
some parts research about eHealth and Telehealth, which were about practices closely linked to mHealth, were
taken into account as mHealth practices. KOLs, who participated, were in the same way not always experts on
mHealth merely, but experts on the broader field of eHealth. Furthermore a limited amount of patients partici-pated
in this research. It was difficult to find patients with extensive experience in mHealth. Though this re-search
included KOLs, the amount of participants makes it difficult to represent all stakeholders in the Dutch
healthcare industry.
The results of this research imply which barriers exist, how important they are, what their underlying causes
are and which breakthrough opportunities exist. It provides practical knowledge for policy-makers, doctors, pa-tient-
organizations and developers where to change policy and improve solutions. The research suggests that
health funders in the Netherlands, such as health insurers, could play a new and more strategic role to deal with
the two most important barriers, “Integration and interoperability” and “Business case”. Since they are also
perceived as important according to international literature, the most successful breakthrough possibilities might
also lie in the international context. Especially for the European Union, where major opportunities lie when
mHealth is successfully adopted [25], cooperation between countries might result in better uptake of mHealth. It
is advised for all stakeholders to be prepared for a change in importance of barriers, when the market phase fur-ther
advances.
Future research should provide more knowledge on the underlying causes and breakthrough opportunities of
the mentioned barriers. Case-study research on successful large-scale rollouts of mHealth strategies could give
new information on how barriers have successfully been overcome. When the current market of mHealth is fur-ther
advanced, new barriers might arise and the importance of others might change. More knowledge about bar-riers
on mHealth adoption in developing countries might give new insight, since adoption in some developing
countries is increasing more rapidly than developed countries [16].
This research has given new knowledge on how mHealth adoption can be improved. The writers believe when
keeping them in mind during the development of new policies and mHealth initiatives, a larger rate of adoption
can be met. All stakeholders should actively contribute in removing these barriers. So one day, mHealth can
meet its promise and transform global healthcare into a more sustainable system.
Acknowledgements
The authors gratefully acknowledge the participants in this study for generously helping of this research.
2215
13. F. Dehzad et al.
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