Introduction
We stand at the threshold of a healthcare revolution that would have seemed like science fiction just decades ago. The convergence of cutting-edge technology with medical practice is not merely improving healthcare—it's fundamentally reimagining what's possible. From pocket-sized devices that can detect heart irregularities to artificial intelligence systems that can diagnose diseases faster than human specialists, we're witnessing the dawn of a new era where technology doesn't just support medicine—it transforms it.
This technological metamorphosis is touching every aspect of healthcare delivery, from how patients interact with their doctors to how life-saving organs are created in laboratories. As we navigate this digital frontier, understanding these emerging technologies becomes crucial for anyone invested in the future of human health and wellbeing.
Today, health informatics — a discipline that combines information systems, data, communications and medical care — is revolutionizing the healthcare industry. Technological advancements have sparked industry-wide innovation across all disciplines within the medical field. From artificial intelligence to 3D bioprinting and beyond, technology is at the forefront of the ongoing transformation of the healthcare system.
Here are 10 ways health informatics and technology will shape the future of healthcare.
1. Mobile Health Revolution: Healthcare in Your Pocket
mHealth, the use of mobile technology for patient care, is offering a much more convenient patient experience and streamlining care. An increasing array of mobile apps are enabling patients to better manage their health, communicate with healthcare providers, schedule appointments and access health information. The technology is also helping providers improve patient compliance with tools that provide remote monitoring of certain health conditions and medical devices. Wellframe, MedWand, WellDoc, Pager, Oscar Health and Vesta Healthcare are just a handful of mobile technology companies that are working on applications to transform how doctors and patients interact in the modern era.
2. Telemedicine
Telemedicine, much like mHealth, deals with virtual communication between patient and physician. With telemedicine, doctors are able to see and treat patients through video conferencing, eliminating the need for patients to drive to a physician's office or clinic. Telemedicine is a boon for the thousands of people who don't have access to medical care because they live in a remote location, lack transportation options or are not ambulatory.
The usage of telemedicine exploded in the wake of the COVID-19 pandemic in 2020. Telemedicine allowed doctors and nurses to ensure continuity of care for COVID and non-COVID patients, while protecting themselves and the public from infection.
3. Electronic Health Records
As digital records of a patient's health history, EHRs offer improved continuity of care for patients and better outcomes by ensuring that doctors are diagnosing and treating patients based on a holistic picture of their past and current health. EHRs have also improved coordination of care between providers, reduced healthcare disparities, and streamlined processes such as e-prescribing and telehealth.
In our digitally connected world, EHRs are not only allowing doctors to coordinate patient care and ensure accuracy, but patients are now more empowered to be their own advocates. Whatever information they need about their health history they can access instantaneously. Many clinics and hospitals have patient portals where they can access their records and lab results, and even communicate with their primary care physician. Further benefits of the widespread use of EHRs include:
- Improved patient care
- Improved diagnostics and patient outcomes
- Practice efficiencies and cost savings
4. Interoperable Healthcare Information Technology (Health IT) Systems
Interoperability refers to the ability to operate a secure system that allows instant access to and sharing of health data and information among authorized stakeholders, and only authorized stakeholders, no matter where they are located.
A more technical explanation is offered by the Healthcare Information and Management Systems Society (HIMSS). "Interoperability is the ability of different information systems, devices and applications to access, exchange, integrate and cooperatively use data in a coordinated manner, within and across organizational, regional and national boundaries, to provide timely and seamless portability of information and optimize the health of individuals and populations globally."
Before interoperable Health IT systems, patients would have to either track down all their medical records and share them with new doctors, hope that their medical network shared all information, or simply rely on giving doctors an oral history of their previous care. But with Health IT systems, healthcare providers can access all of a patient's medical records and history, even if they are stored across numerous disparate computer systems in different locations. This is imperative to continuity of care and ensures that medical providers at any medical facility are getting a full picture of a patient's medical history.
5. Wearables
Wearables offer yet another avenue beyond electronic patient records to collect data, increase prevention and improve health outcomes for users. The smartwatch and Fitbit were some of the first and most well-known wearables, but there has been an explosion in the number and capabilities of wearables today.
A valuable feature of wearables is their ability to alert wearers and their doctors to sudden onset medical issues. Wearables collect real-time data that is then compiled and analyzed by a system that can inform doctors of an issue with their patient. This allows doctors to be proactive and reach out to patients who may need immediate medical attention without even realizing it. For example, patients with asthma can wear an ADAMM (Automated Device for Asthma Monitoring and Management). This monitor connects to an app and can proactively alert wearers and doctors of an oncoming asthma attack or other medical episode.
6. The Cloud & Data Analytics
With the plethora of data flooding into health centers through EHRs, wearables and more, the cloud and data analytics are becoming trusted mechanisms to store and share big data. IBM Watson has been a leader in cloud-based technology that is "bringing together clinical, research and social data from a diverse range of health sources" to advance care and speed up communication and healthcare innovation.
One example of the innovations made possible by IBM Watson cloud computing and data analytics happened at The Aurum Institute. The group centralized all clinical data collection, which allowed them to utilize cloud computing technologies to improve the efficiency and accuracy of the data capture and reporting. By optimizing these processes, the Aurum Institute could quickly determine actionable outcomes that would ordinarily be buried under endless amounts of data.
Data analytics programs and cloud solutions are allowing healthcare as a whole to operate and innovate faster and more efficiently than before. Analytics programs like Watson can weigh thousands of options and determine optimal outcomes in a fraction of the time a doctor could, using insights generated from real data. This enhanced speed in accessing information and informing decisions can make all the difference in healthcare.
7. 3D Bioprinting
This high-tech medical advancement is not fully formed, but has the potential to create drugs, prostheses, and even human tissue and organs. In 2018, scientists printed human ears and successfully attached them to the skin of mice, a huge step forward in the evolution of 3D printing.
Potentially even more exciting is a development in Australia, where doctors completed a successful implant of a 3D printed vertebrae into a human patient who had been suffering from chordoma cancer. 3D orthopedic implants are revolutionizing joint and bone replacement, creating better-fitting, longer-lasting and higher-performing implants. It is estimated that by 2027 more than four million orthopedic implants will have been used on patients.
The Kidney Project is currently developing a bioartificial kidney "as a permanent solution to end-stage renal disease." They have even successfully implanted a prototype kidney bioreactor containing functional human kidney cells into pigs without significant safety concerns. This advancement could ensure that every eligible patient would have the option of receiving a transplant, not just those who make it to the top of the list.
8. Artificial Intelligence
New capabilities of artificial intelligence have led to real advancements in hospital settings. AI and machine learning are being utilized in healthcare and health informatics to help healthcare providers improve diagnostic accuracy and forecast the potential high-risk conditions. AI is also improving the personalization of care by giving doctors greater insight into patterns of symptoms and treatment strategies that enhance patient success. "Unlocking data on health conditions that historically we've made simple decisions about, AI allows us to get much deeper and look for associations the human brain isn't able to do... but a computer can," said David B. Agus, MD, a professor of medicine and engineering at the University of Southern California Keck School of Medicine and Viterbi School of Engineering.
9. Robotics
Because of the enhanced capabilities of AI and machine learning, robotics are playing a larger role in the administration of care and facility maintenance. Robotics equipped with robust AI capabilities are working as surgical assistants and delivery and transportation aids. In Sioux Falls, S.D., a robot named Xena is one of two robots the Avera McKennan hospital is employing to disinfect operating rooms and destroy superbugs, and has become a vital tool while fighting the COVID-19 pandemic. And in 2019, the FDA gave Zimmer Biomet Holdings clearance for the company's ROSA robotically assisted total knee replacement surgery platform.
10. Blockchain
Blockchain is a technology that is improving data security across many industries, including healthcare. Blockchain is a shared, immutable ledger that facilitates the process of recording transactions and tracking assets in a business network. An asset can be tangible (a house, a car, cash, land) or intangible (intellectual property, patents, copyrights, branding). Virtually anything of value can be tracked and traded on a blockchain network, reducing risk and cutting costs for all involved. The idea is that the ledger cannot be altered by anyone once it's entered, making that piece of data ultra-secure, but also accessible.
It is this highly secure, unalterable quality that is making blockchain appealing to healthcare providers. The U.S. National Library of Medicine sees blockchain being utilized to "improve medical record management and the insurance claim process, accelerate clinical and biomedical research, and advance biomedical and healthcare data ledger." Blockchain will also empower patients to have greater control over the security of their medical information, such as who it's shared with, when it's shared and how much.
Conclusion
The future of healthcare is being written in code, printed in laboratories, and powered by artificial intelligence. These ten transformative technologies represent more than just incremental improvements—they signify a complete reimagining of how we approach human health and medical care. From the smartphone in your pocket that can monitor your heart rhythm to the robotic surgeons performing precision operations, we're witnessing the emergence of a healthcare ecosystem that is more personalized, more accessible, and more effective than ever before.
As these technologies continue to evolve and integrate with one another, they promise to address some of healthcare's most persistent challenges: geographic barriers to care, medical errors, data security concerns, and the limitations of human diagnostic capabilities. The convergence of mobile health, artificial intelligence, 3D bioprinting, and blockchain technology is creating a synergistic effect that will accelerate medical breakthroughs and improve patient outcomes on a global scale.
The healthcare revolution is not a distant possibility—it's happening now, in hospitals, clinics, and research laboratories around the world. As we embrace these innovations, we move closer to a future where healthcare is truly predictive, preventive, personalized, and participatory. The question is no longer whether technology will transform healthcare, but how quickly we can harness its full potential to create a healthier world for all.