GAFAMS, STARTUPS & INNOVATION IN HEALTHCARE by PHARMAGEEK

Healthcare and technology go hand-in-hand. But the question on many people's minds is where are they going? Digital health trends like telemedicine, IoT devices, and virtual reality surgical training continue to attract massive investment, helping the industry improve health equity worldwide.

The World Health Organization defines health equity as "... the absence of unfair and avoidable or remediable differences in health among population groups defined socially, economically, demographically or geographically."

Put simply, health equity is all about making healthcare more accessible and affordable for everyone — and digital health trends are the driving forces behind health equity.

Of course, there are many challenges on the road to achieving this goal, with stakeholders at all levels of government involved and a myriad of social determinants of how we collect, analyze, and share health data. 

Read on as we explore the five crucial digital health trends with real momentum and explain why they matter to health equity and the future of healthcare.

5 Biggest Digital Health Trends to Watch

The pandemic triggered massive disruption in the healthcare industry and pushed the sector to invest more in innovative new technology. Some of the following digital health trends gained momentum during the pandemic and are predicted to change the future of medicine:

1. TELEHEALTH

Telehealth is the use of digital communication technologies such as computers, mobile phones, and tablets, to facilitate the delivery of healthcare services.

As the pandemic reduced in-person visits, healthcare providers had to pivot quickly. In April 2020, over 43% of Medicare primary care visits were conducted via telehealth services. 

Even as the COVID-19 vaccines roll out globally, telehealth looks set to stay. Studies from Fortune Business Insights predict the telehealth market will grow beyond $185 billion by 2026.

Why it matters

Telehealth offers multiple benefits, including:

• Expanded healthcare access: More people can access health-related services, including medically vulnerable people and people without transportation or a provider in their local area.
• Reduced contact: There is less contact between healthcare workers and patients, and also less chance of illness spreading, with fewer patients in medical buildings. 

• Care for urgent non-COVID-19 conditions: Patients with chronic conditions who need frequent checkups may be able to schedule remote appointments, if no in-person tests are required.
• Continuity of care: With consistent communication, providers can nurture their relationships with patients and potentially avoid any negative consequences caused by delayed or missed in-person appointments.

What to expect

People want a seamless digital experience to schedule appointments, get medication, and receive essential communication and advice on their health. Telehealth — instead of being a passing trend — is expected to become an important component of a comprehensive health care plan that improves the patient experience.

An estimated 40% of primary care appointments could be conducted remotely, and providers that offer telehealth options are likely to benefit from greater patient volume. The American Hospital Association reported that hospitals lost $161.4 billion from March to June 2020. Telehealth could help hospitals recoup some of those losses.

McKinsey estimates that $250 billion of the total U.S. healthcare spend may go virtual in the years after the pandemic. Rather than looking to digital health trends as an experimental option, the sector must fully embrace innovation to improve the agility and efficiency of providers in the future.

2. IOT AND MEDICINE

The Internet of Things (IoT) is the growing network of physical objects that contain software, sensors, and other technologies that enable connections and data exchanges with disparate devices and systems across the internet.

Medical IoT is a rapidly growing field that uses wearable devices, monitors, and integrated applications for healthcare needs. With AI and machine learning technology, medical IoT can offer enhanced versions of traditional medical devices, like the  smart inhaler — a device that syncs patient usage with a mobile app. 

Why it matters

Medical IoT offers multiple benefits, including:

• Remote monitoring: Patients can use wearable devices and go about their lives. Meanwhile, healthcare professionals can remotely monitor patients' conditions with real-time data insights, reducing the frequency of in-person appointments
• Improved convenience: With the rise of 5G and smart technology in healthcare, patients have more ability to manage their conditions and health needs. For example, smart insulin pens, and glucose monitoring devices help people keep tabs on their health needs with minimal disruption to their lives. 
• Lower costs for patients: As the technology improves, many IoT devices will become more affordable, edging us closer to health equity. That’s good news for patients.

• Lower costs for hospitals: Hospitals rely on their complex medical equipment, such as X-ray machines, CAT scanners, and magnetic resonance imagers (MRI). The cost of replacing one of those machines is exorbitant, and any amount of machine downtime is costly. With IoT devices that monitor these machines and alert technicians about problems, hospitals can perform better predictive maintenance and avoid costly downtime. 

• Furthermore, hospitals can use sensors to track supply inventory, optimizing their usage and spending on gases, chemicals, and disposable items like masks, gloves, and syringes.

What to expect

IoT is one of the fastest-growing digital health trends — DataProt reports a compound annual growth rate (CAGR) of 28.6% this year. This growth is supported by the global adoption of cloud computing and mobile apps. 

When it comes to healthcare, data storage and security are paramount. Patients must be able to trust healthcare providers with sensitive personal information. In addition to protecting personal information, IoT devices must be reliable in terms of their connections, performance, and real-time data delivery. If there are any lags or downtime, healthcare professionals could miss critical information about a patient's health. 

The cloud age is ripe with opportunities for healthcare, but trust in data security and IoT functionality is still evolving. With that in mind, we can expect greater investment and funding to improve upon IoT technology in the years ahead.

3. APPS FOR EMPLOYEE WELLNESS

As life amid a pandemic extended, it deeply affected mental health as well. Mindfulness apps like Headspace, Liberate, and Calm weren’t just for the niche meditation audience, as mainstream adoption drove download numbers in the wellness app market. According to a report from The New York Times, Calm acquired 10 million new users, and venture capitalists pooled

$75 million to take the company’s valuation north of $2 billion.

Employers are increasingly recognizing that wellness apps could be helpful for their employees. Company initiatives like corporate wellness retreats, workplace yoga, and team-building events have been around for decades, but the employer-provided wellness app is a relatively new concept.

Why it matters

Employee wellness apps offer multiple benefits, including:

• Increased job satisfaction: A report from SHRM found that 48% of U.S. employees claim that they would have more confidence in digital health tools if their employer offered them. Moreover, 26% said that if such apps were on offer, they would be more inclined to stay with their current employer.

• Reduced costs: The increasing usage of health apps will help reduce overall health costs for providers and patients. In 2018, reports estimated health apps might save the U.S. healthcare system $7 billion each year. As the mobile age continues to attract more people to wellness apps, employers should see a decrease in employee “sick days,” which would in turn boost productivity. 

• Personalized healthcare: Many health and wellness apps enable users to set up a personal profile, which will then track key measures like weight, calorie count, and blood sugar levels. With personalized healthcare at our fingertips, people can have more control over their health. Also, users can share health data with their providers.


What to expect

Some of the apps targeting the corporate workplace include Limeade, which enables companies to nurture a culture of well-being and inclusion, and Vantage Fit, which helps employers create simple wellness programs and challenges to help their employees stay fit and healthy. 

The Future of Health report from Deloitte projects wellness to continue as one of the most important digital health trends in the next 20 years. By 2040, we can expect a fundamental shift away from treatment-focused medicine, with 60% of spending going toward improving health and well-being.

In line with this trend, employers will focus more on marketing to audiences that are interested in wellness apps and practices. Companies will implement digital wellness strategies as they attempt to build their teams and improve workplace morale and job satisfaction. 

4. CONTINUED INNOVATIONS IN INFECTIOUS DISEASE MANAGEMENT

Soon after the COVID-19 pandemic began, it was apparent just how unprepared the healthcare sector was to handle the situation. Within a few weeks, the only digital health trends worth talking about were those that sought to combat the spread of the virus. 

Many countries raced to launch apps that would help governments and healthcare providers with virus testing, tracking, and monitoring. No sooner than one app was launched, another would arrive with enhanced capabilities for shorter testing times and better tracking features. 

Unfortunately, it took the tragedy of the pandemic to spark innovation in the healthcare industry. While there have been massive losses since the end of 2019, there has also been tremendous progress.

Why it matters

There have been remarkable breakthroughs in genomics and sequencing technologies In the last two decades. This progress laid the foundation for the COVID-19 vaccines and made their accelerated development possible.

Messenger RNA (mRNA) is the basis of the first vaccines. But it's not limited to tackling COVID-19, as it enables researchers to create many other vaccines and treatments at much lower costs and in less time than traditional methods. Described as “biological software,” mRNA vaccines can be customized with a protein code that stimulates an immune response to a specific pathogen. 

We may soon see new solutions for other diseases, including malaria, hepatitis B, tuberculosis, and cystic fibrosis. Furthermore, researchers are looking at how mRNA medicines could be used to treat cancer, with clinical trials in progress.

What to expect

The rapid innovation in healthcare throughout the past years made it possible to bring testing for COVID-19 mobile. Soon, we should be able to test for other infectious diseases outside of traditional healthcare settings, enabling providers to test people in workplaces, schools, and homes.

In February 2021, Moderna, Inc. announced intentions to ramp up manufacturing investment, as it targets the production of 1.4 billion doses of its COVID-19 vaccine in 2022. We can also assume that virtual healthcare will enhance efforts to control the spread of disease.

Historically, the vaccine development process has been slow — 10 years, in some cases — but production timelines for mRNA vaccines could be as short as three to four months.

In the future, AI and predictive analytics will be crucial to helping medical professionals develop a better scientific understanding of the incubation and spread of infectious diseases. However, at a more fundamental level, the entire global health system is set for an overhaul of supply chains and logistics so that it's possible to deliver effective, affordable vaccines and healthcare to whoever needs it when they need it. '

5. VIRTUAL AND AUGMENTED REALITY

Not long ago, virtual reality seemed like a novelty best suited to video games. Now, virtual reality (VR) and augmented reality (AR) technology offer a wide range of practical uses beyond gaming and entertainment.

In healthcare, VR helps with surgical training and planning, enabling both surgeons and patients to get more comfortable with procedures. There are also many reports about the efficacy of VR for helping with chronic pain management and mental health.

MarketsandMarkets conducted a study on the expected growth of AR and VR in healthcare, projecting a 30.7% annual growth rate between 2017 and 2025. 

Why it matters

Health professionals already use virtual reality to treat a variety of conditions, including mental illnesses, such as anxiety, phobias, and post-traumatic stress disorder. Providers can use VR and AR technology to create simulations of real-life scenarios where people feel psychologically challenged — for example, dealing with eating disorders, a fear of heights, or social anxiety. 

Although people understand when they put on a VR headset or use an augmented reality application that the environment is artificial, the simulation gives them an opportunity to face challenges and overcome their fear with practice. Oxford VR reports that this style of immersive therapy can reduce fears and phobias by 68% after an average treatment time of only two hours. 

On the providers' side, VR helps medical professionals build their skillset. A study on the impact of VR training in healthcare revealed that students who received VR training were able to complete medical procedures 20% faster than a group who only received traditional training. Also, the VR-trained group completed 38% more steps correctly. 

What to expect

The healthcare VR market was just $2 billion in 2019, but a recent report from Verified Market Research predicts massive growth, to the tune of $34 billion by 2027.  

In the next year (and beyond), we’ll witness many new VR and AR applications in healthcare. These technologies transcend the short shelf life of many digital health trends, as they present tangible long-term benefits for medical professionals and patients, which can save time and money, and improve overall patient care.

Companies like Oxford VR and Karuna Labs are leading a mission to help people who have chronic pain and mental illness — both of which were health problems long before the pandemic lockdown.

VR is still a developing technology. As it continues to advance, its capabilities herald exciting developments for areas like preventive healthcare, rehabilitation, and cancer therapy.

FINAL THOUGHTS

The technology behind telemedicine, IoT devices, and healthcare apps didn’t just start appearing in response to the pandemic — we’ve had it for years. But it took the pandemic to push healthcare forward, and for health institutions, providers, and patients to embrace digital health trends and new technology.

Digital health is having a profound effect on health systems, changing the balance of power between provider and patient, enabling new models of care, and shifting the focus of health systems toward client-centered health care within low- and middle-income countries.

Though many of these changes are just being felt due to resistance by organizations and individuals reluctant to change the status quo, the explosive growth of digital technology globally means that these changes are inevitable. We can expect to see increasing use of telemedicine for remote diagnostics and treatment, protocol-driven health care to improve quality of care, and better access to goods and services through changes in the organization of transportation and delivery services.

Data will become central to health systems, whether big data and artificial intelligence tools for surveillance, planning, and management or “personalized data” in the form of universal electronic record systems and customized treatment protocols. As with any disruptive innovation, the growth of digital health will also bring challenges, including who owns, controls, and manages the data being collected and how to maintain privacy and confidentiality in this data-rich world.

Universal health coverage will not be achieved without a significant change in how health care is delivered in low-income countries. The current doctor-centered, facility-based system cannot be expanded sufficiently to achieve “health for all,” something we have been trying to do since the Alma Atta declaration of 1978. However, the use of digital technology in health care delivery has the potential to provide a needed breakthrough in achieving access to high-quality care to everyone no matter where they live. This commentary looks at how digital technology is changing the landscape of health delivery in low-income countries and what the implications are for achieving universal health coverage within the next decade.

Current health care delivery models are largely based on a top-down medical model, driven by the World Health Organization, with doctors and nurses as the purveyors of knowledge and the arbiters of care. Care is primarily accessed through health facilities whether at the hospital or in the community, and information is delivered primarily by medical personnel.

Although lip service is given to the need for client-centered care the reality remains that services are primarily designed for and by the medical establishment with little regard for the convenience or needs of the client/patient. The problem with this model is that it is difficult to expand to meet the growing needs of the population who want more convenience, better information, and better access to care where and when they want it.

Health care in this regard is not unique. We have seen the disruption of taxi and hotel systems by businesses such as Uber and Airbnb and of commercial sales by Amazon and Alibaba. Access to digital technology through the use of smartphones has fundamentally changed who the dominant players are in these fields and how we access services. We are seeing a shift in the balance of power from the traditional vendors to a new digital model whereby services are made more accessible and more flexible depending on the needs of the consumer. In health care we are beginning to see these same changes.

Medical information is available online or through telemedicine and medicines can be delivered to homes through online pharmacies. Patients have access to their own medical records and may communicate with their providers using email or online portals rather than needing to visit a facility. Access no longer means physical access; for many purposes, it can mean virtual access through telecommunications. In high-income countries, these changes are being driven by the need to lower (or at least limit growth of) costs, whereas in low-income countries the driver is the poor access and quality of the care that is delivered and the explosion in access to digital technology.

This digital revolution is not limited to wealthier countries. According to the Global System for Mobile Communications, there are over five billion unique digital phone subscribers reaching an estimated two thirds of the global population,1 including 2.27 billion monthly active Facebook users in 2018.

The highest growth of digital technologies is now in low-income countries, where according to the Pew Research Center, 84% of people in developing and emerging economies own a cell phone compared to 90% of people in the United States and people in emerging and developing nations are quickly catching up to those in advanced nations in terms of access to technology.2 And beyond the growth in numbers of users, digital technology is having a greater impact on the lives of the poor in low-income countries. A recent project in Zanzibar, Tanzania, has shown how the use of digital technology has been able to significantly increase the ability of women to access safer delivery services.

In India, Uganda, and Tanzania, ambulance services focused on the use of digital protocols and access have replaced the largely nonexistent public system. In South Africa, two million young women have access to accurate information about sex, health, and motherhood through a national online service run by the government.4 In addition to these health programs, digital technology is being used to create new and more transparent markets for farmers, virtual learning platforms for education, and easy and inexpensive digital banking services throughout Africa and Asia. What does this mean for health care?

A New World of Health Care

Recent work by the World Health Organization has described at least 12 functions that digital technology is providing in health5 and is currently developing a set of recommendations for all countries on its use.6 In brief, these functions include providing better and more direct information to everyone about health and illness; providing direct support to health workers and supervisors regarding the diagnosis and treatment of patients; providing verifiable and searchable records about births, deaths, and health encounters; and providing health managers at every level with operational and strategic information about drug availability, finances, and human resource management. Impacts on these functions will fundamentally change the delivery of health care in ways that we may not fully anticipate, but what is very clear is that disruption is coming. The following five elements describe how we believe that digital technology will change health care delivery and society.

Access to Internet-Based Information Will Be Universal
Though not everyone will own a smartphone, everyone or very close to everyone will have access to Internet-based information. With groups like Google and Facebook pushing for global Internet even in remote parts of the world, we are close to universal Internet access today, and this will be achieved in the next 10 years.7 Access may be through low-cost personally owned devices, community-based Internet kiosks, or some other mechanism.

This global access to the Internet will mean that information can no longer be controlled by a single body, whether governmental or professional. Increased use of social networks will provide more peer-to-peer information and access to publicly available Web-based health information will provide people with a wide range of information. Although the quality of information will not be uniformly excellent, the availability of diverse types of information will change the role of health workers from being the primary source of health information to facilitators who help individuals navigate the deluge of information that is available. This is already true in most wealthy countries but will become more universal.

The first point of inquiry about health will no longer be a health worker but rather the Internet or direct-to-consumer information by groups such as Mom connect in South Africa4,8 or the Ananya in India.9 The role of the primary health care worker will change; no longer the primary purveyor of information about wellness and illness, these workers will become guides to existing information, helping patients connect to useful and accurate information sources that are freely available. As in the United States where patients no longer ask their doctor what is wrong, they will come to seek care with a preconceived idea of their own diagnosis, which may or may not be correct. Health workers will necessarily become more sophisticated about what information is available to clients to help them navigate the world of almost unlimited health information.

Health Workers Will Be Digitally Supported

Today’s model of care relies on the proper training of health workers, who are taught to diagnose and treat patients and communicate with them about their illness and wellness. Yet we know that though training is very important in delivering quality services, it is not sufficient for delivery of high-quality care, and the use of decision support for clinical algorithms or pathways is increasingly being recognized as an important adjunct to quality improvement and is being recommended for use by the World Health Organization.

Every health worker will have a digital tool that helps him or her with diagnosis and treatment as well as communication to the client/patient. This can be in the form of checklists for routine care such as antenatal visits, decision support for diagnosis of illness, and video or graphic counseling messages from the provider directly to the client. Numerous studies have shown the advantage of using decision support,10,11 video counseling,12 and digital supervision strategies13 to improve quality. Though many of these strategies are in their infancy, they are increasingly being adopted by countries as core components of their health strategies.

Training will also be changed by technology. Training that today means face-to-face lectures and interactions will increasingly be replaced by distance learning, with the training customized to the needs of the student/health worker and the specific situation of the work. It will not be seen as a one-time effort but a continuous stream of training updates for each health worker. There will remain a need for face-to-face training (consider learning to perform surgery, for example) but the basic idea of continuous training will supplant the current training model. The content of the training will also change so that health workers, rather than trying to memorize every symptom and its meaning, will learn to navigate the digital world and use decision support and other tools to make better clinical decisions.14 Communications will also be changed as the use of video, animation, and graphics replaces the verbal advice that health workers provide (or at least should provide) to the client/patient.

Supervision in health care will also change. Supervision will not be the once-a-year unstructured visit by a supervisor but automated feedback to the provider and managers on what is happening, what the problems are, and suggested solutions. Today’s adversarial and judgmental relationship between supervisor and supervisee has the opportunity to be replaced by a shared need to improve performance with pay for performance and other shared incentives in place. Accurate real-time data about health workers’ performance will be available not only to supervisors but to their supervisors and to program managers as well. It will be provided in a format that is easy to interpret and will suggest corrective measures for problems that are recurrent.

Most Health Care Will Be Provided at Home

The current model of health care is that the client/patient must go to a health facility to get any kind of care or even advice. The new model will bring care to the patient rather than the patient to care. Advances in the use of telemedicine and universal access to information and communications will mean that people no longer need to visit a clinic but can ask questions and receive advice and treatment recommendations via telephone or some other device.

The use of low-cost digital diagnostic devices that can measure vital signs such as temperature, respiratory rate, oxygen saturation, and blood pressure simply and accurately with nothing more than a smartphone means that the use of telemedicine and at-home treatment will replace most outpatient (ambulatory) visits except for those who are very ill or have complex needs.15 This is especially important in addressing the global epidemic of chronic disease where home-based disease management is far more effective and inexpensive than the current model of periodic clinic visits. Many models already exist for this type of distributed care where people use telemedicine for frontline care and triage and facility-based care when it is needed.

One implication of the widespread use of telemedicine is the need for both electronic medical records and the use of unique ID numbers for each client. When the client/patient is no longer physically present at an encounter, it is important that the provider know both who is on the other end of the phone and what his or her past history is; for example, immunizations, pregnancies, and medications. This does not necessarily mean that there will be a single, universal platform but that there is a record that a remote provider can access. Recent progress in the use of biometric identifiers and simplified electronic medical record systems will mean that this is possible.17,18 The Aadhar program in India provides unique identification numbers for all residents in India based on demographic and biometric information. Managed by a statutory body created for this purpose, it has demonstrated the viability and functionality of this concept.

Transportation and Logistics Management Could Be Revolutionized

There will still be a need for face-to-face care, and that could take advantage of the sharing economy for transportation. With access to the digital network, people will be able to access bicycles, scooters, or cars (with drivers) through a growing number of companies. This model has been both disruptive and successful in the United States and Europe as well as China and India and is particularly appropriate for low-income countries where not everyone can afford a car or bicycle but can typically afford to rent one for a low single-ride payment. In Tanzania, D-tree International has shown the value of this approach for emergency transport.

In India, centralized private ambulance service is provided to millions of people using digital technology to manage the system. There is a growing body of evidence that the use of call-in services linked to ambulance systems in parts of India has a direct impact on health outcomes and can be implemented on a very large scale. Even small interventions such as the use of mobile money to send bus tickets to rural patients in need of specialized serviced can have a big impact on people’s lives.

For the delivery of goods and supply chains in remote areas, the changes are also significant. Better logistics planning and execution through the use of optimization algorithms can reduce transport costs and delays for both goods and people. Community health workers are using these algorithms to plan their weekly or monthly visits to people’s homes.

Expert systems are helping to triage patients to the appropriate facility based on level of care needed. And the use of drones in rural Rwanda and Tanzania has been shown to be successful in delivering blood products to remote health facilities24 and collect blood samples and distribute vaccines in remote areas where these products would be otherwise unavailable.

These examples of improvements in logistics and transportation management are being explored in low-income countries, and we can expect that technological advancements in this area that are developed for use in wealthier countries will rapidly become part of the landscape in how health is being delivered globally.

Data Will Be Central to Health Systems

It will not be surprising that one of the areas that will be most disrupted by the use of digital technology is its impact on data management and use. At present, few low-income countries have reliable data despite substantial investments in health information systems. Most data are still paper based, kept at the national level only on an aggregate level, and primarily used for reporting on the incidence of specific reportable diseases or numbers of patients seen. This is about to change. The shift to digital data collection systems at the point of care means that data can be collected in a more timely and complete manner, that data quality can be improved, and that health planners have incentives to use the data for planning and management.

The first breakthrough is that collection of data as a by-product of decision support in the hands of health workers will be available in a more timely way. No longer a separate activity from patient care, data entry will be part of clinical care. Data that are collected as part of the diagnostic process will be written to an electronic patient record, making individual records available for immediate analysis and use at any level of the system. At the level of the provider, this will make information available about the patient’s history, streamlining the diagnostic process.

The use of universal biometric identification will reduce the need for repeating demographic information. Timely information about patient care will provide supervisors and managers with better information about provider performance. Aggregate data can be used for reporting purposes, surveillance, and planning.28 Disease outbreaks such as diarrheal disease or malaria can be identified in real time by looking for spikes in the reporting of these symptoms.

A second benefit of digital data collection is that we can expect that the quality of the data will be improved. Because data are being entered as part of the delivery of care rather than as a separate data collection process, we are likely to see reductions in data entry mistakes. Errors in data will be more apparent to the health worker as they are used in treatment algorithms and there will be fewer opportunities to simply make up data as overworked health workers try to save time. Automated data quality checks can identify deliberate errors such as entering false records by alerts for records that are entered in a very short time period or have inconsistent entries. Other types of data checks can be introduced to validate the data being entered.

We can expect that more timely and accurate data will lead to improvements in quality of care. Providers themselves can benefit from individual data feedback and their supervisors can use the data for improved supervision. We may see patients using the data to assess the quality of individual providers or provider groups using programs such as Yelp, which is already available in the United States and increasingly being made available globally.

This type of crowdsourcing data about providers, facilities, and health systems is likely to grow as more people take advantage of Internet-based rating systems despite potential resistance from providers themselves who may prefer to remain anonymous.29

At the macrolevel we are already seeing a rise in the mining of data from health records to identify trends in disease patterns, link agricultural data with rates of malnutrition, and similar uses.

Artificial intelligence30 can be used for better diagnostic algorithms for individual care, better planning for personnel and logistics, and better reporting on the quality of care being delivered by individual providers or individual facilities. If linked to other types of demographic data, it can also be used by non-health organizations for marketing, research, or planning.27 However, it should be acknowledged that this use of comprehensive data at the individual level can also be used for less noble purposes, as we have seen with the recent sale of data by Google and Facebook31 for political or commercial purposes, and controlling the use of our data will be one of the major challenges facing health planners of the future.

Challenges

Though the use of digital technology has the potential to transform and improve the delivery of health care in low-income countries, it also raises many concerns, including how individual privacy and confidentiality will be maintained, who will control both the technology and the data, who will pay for the technology, and how to deal with the inevitable resistance to the changes discussed by those who benefit from the status quo.

Any discussion of electronic health records quickly leads to a discussion of privacy and confidentiality. Though this is not a new concern, because the same issues arise with paper records, the ease of analyzing and reproducing digital data is cause for concern.

Recent data breaches by numerous commercial and government enterprises have made it clear that these concerns are real and that data breaches or abuses will become a reality of the digital age. Although we can wish to go back to an era or more privacy and confidentiality, the reality of surveillance cameras on each street corner, tracking location through mobile phone networks, and monitoring credit or debit card transactions has made it nearly impossible to maintain privacy. And as the use of digital cash transfers and Internet purchases grows, control of privacy will become less possible32 and it is unlikely that we will ever again be able to protect all of our data as was done in the past.

What is needed is not to try to do the impossible but rather to adapt to the new reality. Trying to protect all of our data, whether financial or medical, will likely be an impossible task, but we can develop systems that identify which data are critical to protect and which are less critical. We can and should protect individuals with stigmatizing diagnosis such as HIV+ or gonorrhea but perhaps not be as concerned about common diagnoses such as malaria. Because we will not be able to protect all data uniformly, we will have to make choices about what to protect and who gets to decide.

This is, of course, true about all kinds of data, but medical data will have its own challenges in terms of what is confidential.

Questions around protecting individual privacy lead quickly to questions of who owns the data and the systems in which the data reside and who gets to decide what is private. There is an emerging consensus that the data should be owned by the individual, but this is far from the current practice. Data on individuals are being collected in the form of digital health records with little consistency on where the data are kept or who can access it. Governments have often taken the position that they are the owners of all medical data about their citizens and that the data cannot leave the country and be stored on servers in government ministries. However, few governments have the capacity to maintain these servers or truly understand that data cannot be kept within physical geographic boundaries. Further, recent actions by governments to target vulnerable populations for discrimination and prosecution33 have caused global concerns about government ownership of personal-level health data. It remains unclear how this challenge will be resolved.

Linked to data ownership is ownership of the system through which the data are collected and stored. At present, most data systems are private, and these private companies largely control how the data are stored, which enables them also to control how data will be used. Consider, for example, the Epic medical record system that now controls almost half of all medical records in the United States. Though the data are meant for use by providers at each facility and can be shared among facilities using the Epic system, it is almost impossible for researchers even from affiliated hospitals to use the data for any purpose not defined by Epic. Thus, though each facility that uses the software may own its own data, controlling the structure of the database in which the data are stored means that the software designer also has significant power over how the data are used. Private organizations have often wanted to own the system, whereas governments have demanded that it be openly available for modification. Closed proprietary systems (like Epic) are now giving way to new models of ownership whether open source, open standards, or simply freely available as defined in the “Principles for Digital Development.”34 This is one reason that governments have wanted to own both the data and the system.

At present, technology is being introduced by a wide variety of players. In India, the introduction of Aadhar19 has been a government-led initiative but control has been ceded to a statutory body. In Zanzibar, technology has been introduced by a nongovernmental organization but ownership is being transferred to the government.3 In Malawi, the government has been working with funders and consultants to develop a digital health strategy.35 What is common to these three models and most other examples is that the government has a central role in defining the policies and strategies for digital health, whereas implementation is often led by outside private groups. This approach makes sense for a number of reasons. There is a need for coordination of approaches so that systems that are developed for one application or geographic location can be integrated into a national or regional system. Providing separate digital systems for each disease entity or target population group is neither efficient nor effective, as demonstrated in Uganda where duplication of efforts by a multitude of funders and implementers led to a digital moratorium in 20105 but eventually to a national digital health policy.36 It is also true that in many countries the government remains the largest provider of health services and thus will need to be included in any national system. However, though government will have a role, most countries will also require substantial input from the private sector. Few governments have the agility and capacity to develop and test emerging digital technologies and are better suited to support rather than manage innovation.

A third challenge relates to the cost of the technology. At present, much of the technological innovation has been funded by outside groups, but there is increasing pressure on governments to provide more funding.37 In middle-income countries that is being done as governments see the value of digital technology in providing better care to their populations.

However, in many low-income countries, health spending is severely limited and, according to the Global Burden of Disease Health Financing Collaborator Network, “Development assistance for health is no longer an expanding resource for developing country health budgets.”38 Tepid growth in the amount of overseas development assistance since 2010 suggests that a greater part of the funding for digital technology (and indeed for health) will need to come from a mix of private sources and from the governments themselves.39

Part of the funding to support digital health systems will no doubt come from individuals who benefit from the service.

improvements, and to some extent this is already happening. A number of interesting experiments are underway to make this both feasible and affordable. People in Zanzibar have shown a willingness to pay for transportation for pregnant women in labor, and in India community organizations are being encouraged to create individual savings accounts where some percentage of the interest paid on the savings is used to pay for the system. Other models of mixed payment are being tried around the globe, and it is likely is that mixed models of individual, private, government, and outside funding will fuel the expansion of digital health technology, with substantial variation in the particular model being used.

Of course, one can always hope that the efficiency gains in the use of digital technology will actually offset the additional costs of implementation, but there is not yet any evidence that this is the case, especially when digital technology is in fact replacing a system that is already not sufficiently funded. Though an Uber-like system for emergency transportation may be more efficient than the use of government ambulances, if current spending on ambulance services is already much too low, this will not be a source of savings.

The questions then become whether external funding agencies will increase their willingness to continue to fund digital innovation, whether governments in low-income countries will increase their commitment to health spending, and whether private companies will be allowed to gain profits from their innovations. Like so many issues, these remain unanswered questions.

Conclusion

Though there is a growing consensus that digital health will be a positive change in the delivery of health care in low- and middle-income countries, there remain significant challenges to its implementation and growth.

As with all disruptive changes, those who benefit from the status quo will resist these changes despite the promise of better access and quality for the consumer. Digital technology will change the balance of power between the provider and the patient, leading to changes in the roles of both government and health care workers.

However, the penetration of digital technology across the entire global population will make these changes inevitable. The role of program planners and managers will be to use these changes for the common good and ensure that they benefit everyone and not only those who can pay for care or control the health care sector.