IoT Implementation in Healthcare Industry: Benefits and Challenges

The COVID-19 pandemic accelerated digital transformation and fueled the boundless potential of IoT. Over the past two years, IoT technology has deepened its roots in all industries and healthcare is no exception. However, there is still a lot of uncertainty around healthcare IoT development. However, there is still a lot of uncertainty around developing IoT solutions for healthcare.

Has IoT proved itself as a value-added technology? What are the pitfalls of IoT implementation? Is it possible to achieve a secure data transfer in IoT environments? Let’s figure it out together.

This article will help you learn more about the influence of IoT on the healthcare industry, discover the benefits of IoT in healthcare, understand challenges of IoT in healthcare, and discover how it helps healthcare providers to enhance the quality of patient care.

IoT in Healthcare: What It Is and How It Transforms the Industry

These days, more and more healthcare organizations implement IoT technology for various purposes ranging from telemedicine, impatient monitoring, and connected imaging to medication management. IoT solutions open up new horizons for patient-centered care and allow for streamlining medical practices. That is why the IoT market is booming like never before.

Over the last five years, the healthcare Internet of things market has grown at CAGR 11% and is projected to achieve a market growth rate of 30% by 2023. AllTheResearchpredicts IoT and healthcare market value reaching $254.2 billion by 2026.

Global Market Value of IoT in Healthcare

Global Market Value of IoT in Healthcare

The rapid growth of the technology market leads to the substantial expansion of IoT solution variety. For now, retail experts distinguish the following segments of IoT applications in healthcare:

  • On-body devices: tools for personal wellness and clinical-grade wearables. They include activity trackers, wristbands, sports watches, smart garments. For example, smart belts detecting falls and deploying hip protection, headsets for brain stimulation during workouts that enhance muscle memory or endurance, and neuromodulation devices helping patients relieve chronic pain are in this category.
  • In-home devices: portable tools that can monitor heart activity,  glucose levels, and other body reactions. In-home devices are designed to transmit patient medical data to healthcare providers and ensure consistent control. Most importantly, they alert the doctor when a deviation from the normal state occurs.
  • Community devices: mobility devices and equipment that enable patient tracking during medical transport or real-time drug transportation, medical equipment management, and shipment processes monitoring. This market segment also involves tools used in medical logistics, such as sensors for temperature monitoring in shipping boxes and delivery drones.
  • In-hospital devices: tools for asset management, solutions for the staff or patient flow management, and devices for environmental control. This group of IoT products can be used to track high-cost hospital equipment, scan arrival times at different locations, measure personnel productivity, and keep track of temperature and humidity rates of patients’ premises and repositories.

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Benefits of IoT in Healthcare

A survey conducted by Accenture revealed that  33% of medical care providers report a major reduction of operational costs, while 42% of patients save considerable amounts of money thanks to RPM IoHT programs.

Benefits of IoT in Healthcare

This proves the fact that the medical internet of things can improve an existing healthcare service in multiple ways while bringing benefits to healthcare institutions and patients alike. Let’s focus on some important advantages of applying the internet of medical things (IoMT) in a healthcare business. Let’s figure out which exactly benefits of iot in healthcare are helpful for businesses.

Cost Reduction

While rising healthcare costs remain one of the key issues facing the industry, IoT technology solves the challenge with a viable solution to reduce costs. There are a few areas where they are able to cut business expenses:

  • Making diagnostics more cost-effective. Since IoT devices enable remote diagnostics, there is no need for healthcare providers to arrange the facilities for frequent visits because patients no longer have to be physically present in the hospital.
  • Reducing nurse to patient ratio at hospitals. Thanks to IoT solutions, medical service providers are able to monitor patients remotely, which eliminates the need for hospitalization of those who require regular check-ups. This, in turn, implies streamlining medical practices and, consequently, lowering hospital spending.
  • Lowering treatment costs thanks to a quicker recovery.  Since IoT devices gather real-time data and instantly send alerts about the changes in a patient’s condition, doctors can immediately detect alarming signs of health deterioration and take appropriate actions. This results in both disease prevention and more efficient treatment.
  • Сutting costs on transportation of supplies or medications. With an emerging trend of using IoT devices for logistical purposes, there is a great probability that IoT devices will soon be actively involved in the procurement process. It’s expected that tools like drones will deliver medicines, test specimens, or even medical equipment faster and cheaper than traditional means of transport.

Improved Patient Experience

Patient experience is paramount for healthcare businesses, and the ability to enhance it with the help of modern strategies and cutting-edge solutions like IoT technology puts medical services providers ahead of the competition. How exactly IoT devices can improve patient experience? Let’s explore it below.

  • Efficient facility management thanks to better equipment control. The use of IoT technology can guarantee the reliability and functionality of all hospital appliances, so treatment plans will be less likely disrupted. Additionally, connected devices, like RFID chips, can ensure asset safety via tracking, thus helping medical staff handle inventory and utilize equipment more efficiently.
  • Workflow optimization through allocation schemes and instant scheduling. IoT devices can collect such data as staff expertise, patient location, and therapeutic equipment availability. After gathering and analyzing data, managers can better understand staff actions and asset movements throughout the day. This helps them predict where employees and equipment will be most needed the next day or week, so it gets possible to schedule workflows more effectively.
  • Error elimination preventing disastrous outcomes. The likelihood of mistakes made by medical staff can be diminished with the help of technology. Unless healthcare workers fail to manage software, the IoT devices offer precise data. With the high accuracy of analytics generated by IoT tools, the probability of making a wrong data-based decision plummets. Therefore, there are also fewer risks of the patient’s negative treatment outcome.

How to Implement IoT in Healthcare with 7 Steps

So the main task is how to implement IoT in the healthcare industry. IoT integration in healthcarecomprises two parts: hardware and software. IoT implementation in the medical industry consists of such steps within those components:

Basic hardware and software requirements analysis

Before starting any IoT project, you need to know what technical and technological boundaries can occur while you implement it.

Make a table where you can put in columns such information:

  • technical and other parameters;
  • oriental time to implement (e.g., time to develop a specific software, to buy particular hardware, etc.);
  • medical device software compliance;
  • approximate costs to implement for software, hardware and other.

Calibrate hardware framework

  • Analyze existing IT framework to know its capabilities for IoT applications.
  • Establish a non-compromising WLAN, which enables good connectivity between devices.
  • Secure communication by implementing reliable IT infrastructure to connect different devices and platforms seamlessly.

Develop software part

  • Choose a sustainable cloud-native or hybrid, or on-premise platform to store, transmit, and operate with data in a HIPAA-compliant way.
  • Use platforms to support and maintain portable devices.
  • Develop software that allows robust connection, information transfer, and easy-to-comprehend reports for smooth IoT integration in the medical industry.

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Test everything

Partner does hardware testing. They need a specific environment (hardware, cables, fixtures, and other components). Then they change conditions (voltage, temperature, apply pressure, etc.), take specific measurements, and record them. Technicians repeat testing 2-5 times to a required level and estimate whether this equipment is good or bad. Software testing by your partners includes different kinds of testing. Therefore let’s make a short testing types overview.

  • Functional testing. This type of testing refers to software function testing.
  • Performance testing. This kind of testing is for application speed testing.
  • Unit testing. It’s the smallest piece of code testing (i.e., property, function, method, etc.)
  • Stress testing. This part of testing measures requires checking the software’s robustness and error handling capabilities.
  • Usability testing. Testers analyze application user-friendliness during this type of testing.
  • Interface testing. Technical specialists analyze the accuracy of the connection between two kinds of devices.
  • Compatibility testing. This testing component is needed to understand whether your app can launch on different hardware and software, PCs, laptops, mobile devices, etc.
  • Security testing. Company tests software to determine any security vulnerabilities in the healthcare technologies using IoT to prevent malicious intruders.

Technicians check IoT applications according to 5C principles: connectivity, continuity, compliance, coexistence, and cybersecurity.

Note that testing is an iterative process, which you are doing every time you need to finish a particular stage.

Deployment stage

  • Showcase your MVP to the market.
  • Receive feedback from customers and end-users.
  • Improve and fix specific processes.

Now you know how to integrate IoT in healthcare. IoT in hospital management may vary depending on the specific tasks of the devices. Efficient integration of IoT in the healthcare industry is based on how IoT is used in healthcare facilities and on the level of support and service.

Implementation of IoT in Healthcare: Key Challenges and How to Address Them

Alongside numerous opportunities provided by IoT, medical business owners receive some challenges. Security, connectivity, data collection and performance take the lead among them.

Key Concerns of IoT Development

Key Concerns of IoT Development

Let’s review some of the most common IoT technology implementation issues and the ways of dealing with them.

Cybersecurity

According to the Internet of Healthcare Things Survey, security concerns are one of the most common reasons that holds back IoT implementation in the healthcare industry. It’s a well-known fact that any devices connected to the web can be hacked and IoT tools are no exception. Thus, the data gathered by healthcare organizations may be exposed to various security threats.

IoT security tips

To ensure data security, it’s essential to use a private IoT network that can be accessed only by authorized devices. Patient privacy can be protected if administrators apply modern encryption protocols, create reliable access passwords, and keep the SSL certificates of remote systems valid. On top of that, healthcare organizations using IoT must have strict rules of security of medical devices to avoid breaches and hacks.

Connectivity

According to the HIT Infrastructure report, approximately 45% of connections initially fail, which results in two seconds delay in data delivery. Connectivity problems may occur due to different reasons, such as limited network capacity, poorly functioning IT teams, or physical interruptions of a signal. And yet, consistent connectivity is an indispensable condition for using IoT devices in the healthcare sector.

Tips for IoT connectivity-2

Since the stakes of connectivity failure may be too high, clinicians should ensure a reliable network infrastructure and anticipate potential connectivity issues. IT teams working for medical organizations need to create an adaptive and secure system that perfectly maintains  IoT devices connectivity.

Cost

Since IoT adoption requires allocating a substantial budget to launch an IoT project, this may be a serious step that not many healthcare organizations dare to take

Tips for IoT cost efficiency

However, the benefits of IoT devices have proved this investment worthy. Implementing IoT healthcare applications brings businesses a significant long-term ROI by allowing them to save a significant amount of money and resources and thus increase revenue.

Successful Cases of IoMT Development

With a growing demand for innovative patient-centered solutions, IoT use cases in healthcare become more and more common. Neuroscience and psychiatry, cardiology, chronic disease management, and many other areas are already benefitting from IoT solutions. Let’s review some successful use cases below.

#1. Real-time medical monitoring system

An IoT-based wireless monitoring system gathers real-time health data through a wearable device and immediately transmits it to a patient’s mobile app, hospital or clinic workstation, and cloud API server. Develop by Empeek, this IoT solution is able to monitor numerous health parameters such as arterial pressure, respiratory and heart rate, cardiac impulse and output, and many other measures.

#2. Diabetes management technology

The Bigfoot Unity Diabetes Management System was developed to help patients deal with insulin-dependent diabetes more efficiently. With the help of special algorithms predicting glucose levels, this IoT tool suggests accurate doses of insulin for injections. Hence, patients don’t need to measure blood glucose and calculate insulin dosing manually.

#3. Insertable Cardiac Monitors

Insertable cardiac monitors aim at monitoring the heart rhythm continuously without interrupting the patient’s lifestyle. This tool transfers gathered data to healthcare providers, so they can immediately create a personalized care plan.

Final Thoughts

The medical care industry is developing so rapidly that it’s difficult to keep up with its pace.  This leads to severe competition between companies and requires them to seek out solutions for staying a step ahead of rivals. However, the organizations implementing IoMT are able to put themselves a notch above their less technological competitors in terms of service quality.

The Internet of things in healthcare has a big potential to improve the industry in years to come. IoT devices are applied to boost patient comfort, expand outpatient opportunities, and make the treatment process more transparent. They also enhance healthcare management, streamline medical practices, and allow healthcare organizations to cut their expenses. With all the mentioned benefits, the internet of things technology turns into an indispensable asset for healthcare providers. Check one of our alike project is EMR app to connect families.

If multiple advantages brought by IoT implementation sound persuasive enough to adopt this technology in your company, Empeek professionals will be glad to help you with fully-custom healthcare IoT solutions development for your business.

FAQs

What IoMT domains are the most preferable for implementation?

Telemedicine and remote patient monitoring are the most popular and cost-efficient variants for IoT applications. But you can choose for yourself which IoT software is more likely to blow the market. Some solutions can even buck up the trend.

How much does it cost to create an IoT software solution?

Development expenses may vary depending on the complexity, the number of features, and scale. Expenditures range from $10 000 to $200 000 and even more.

What are the main security measures to protect IoMT applications from malicious attacks?

All security protection must comply with HIPAA, GDPR, or other regulations regarding your country. The two-factor authentification, strong paroles, and separate networks are the primary cybersecurity methods in healthcare.

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Written by:
Roman Konstantinov Roman Konstantinov Managing Partner & Co-Founder
Roman is the co-founder of Empeek who brings a breadth of knowledge to build, scale and transform healthcare organizations. He specializes in revitalizing struggling businesses and turning them into profitable enterprises. By emphasizing automation and effectively navigating the transition from startup to a sustainable and scalable model, Roman drives remarkable transformations to ensure long-term success.

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