The healthcare industry is looking to take advantage of IoT. Medical applications that use IoT are growing in effectiveness and potential. The main benefits of IoT are improved operations, processes, outcomes, and lower costs. IoT system for healthcare.
With the emergence of COVID-19 and patient safety as a top priority, customized medical apps incorporating IoT have seen a surge in demand. Yet, creating and integrating IoT technology in healthcare has its difficulties.
Innovations in medical equipment, infrastructure, and digital transformation have led to huge growth in the health sector. Incredibly, the Internet of Things in healthcare (IoT) marketplace was valued at $127.7 billion in 2023 and will reach $289.2 billion by 2028.
Companies are leveraging cutting-edge IoT equipment for medical use. IoT integration into the IoT healthcare software solutions can improve the quality of patient care, streamline hospital operations, and cut costs.
This guide will lead users to Top Healthcare IoT Companies influencing the direction of medical technology.
What are IoT Healthcare Devices?
IoT devices refer to wearable devices like smartwatches and medical devices connected to the Internet. Certain IoT devices may be incorporated inside a person’s body.
This connection allows for a variety of features that include:
- automation of tasks
- remote collection of health data
- analyzing data and recommending solutions
- making reports for patients’ health
These IoT healthcare devices can be used for numerous purposes and could even be the future standard for healthcare. Because of this, they are in high demand and could be worth USD 94.2 billion in 2026.
The Internet of Things (IoT) concept might be difficult initially. To explain it, we will present the top ten examples of Internet of Things (IoT) healthcare.
Glucose Monitoring
Glucose monitoring devices are wearable or embedded sensors that monitor the patient’s glucose level, maintain an accurate record of the results and alert medical health professionals. Certain embedded devices can even automatically supply insulin whenever necessary.
Patient monitoring has traditionally proved difficult. Manual glucose monitoring provides details about an individual’s blood sugar levels, but the monitoring is insufficient if these levels fluctuate constantly.
The benefits of IoT sensors include the capability of continuous monitoring, the reduction of time spent filing and data entry, and a reduced chance of human error while doing the paperwork.
Additionally, they assist patients in monitoring their sugar levels on their own. Furthermore, some devices automatically regulate insulin levels, producing greater quality. All of this leads to better monitoring and care for patients.
However, there are two major challenges within the medical field. First, the devices must be tiny enough not to interrupt a patient’s routine. In addition, businesses must develop IoT devices that don’t require a lot of electricity and do not require regular recharge.
However, medical professionals do not seem particularly concerned by these issues. Recent advances in healthcare technology have already begun to address them.
Hand Hygiene Monitoring
Several hospitals and other medical facilities have recently been using hygiene monitor IoT devices to maintain cleanliness standards. These devices remind healthcare professionals to wash their hands regularly or when they enter a particular space.
The majority of hospitals have rooms for critically seriously ill patients. Injecting pathogens can improve the condition of those patients. Even if you work with healthy patients, appropriate decontamination methods are essential to any healthcare facility’s success.
Hand hygiene devices from IoT can remind users of the need to cleanse their hands however, they also provide directions
and tips on how to wash their hands and sanitize surfaces. Both patients and medical professionals use these devices to maintain that they are properly hygienic.
However, the biggest issue with IoT gadgets is that they allow people to remind themselves to wash their hands. If they cannot make people wash their hands, they will not clean the healthcare rooms.
In both cases, the act of reminding yourself can make a difference. If people use these devices, the number of infections is estimated to reduce by 60%.
Parkinson’s Disease Monitoring
One of the most surprising new applications of IoT technology is its application to treating patients suffering from Parkinson’s disease. These healthcare devices can monitor those symptoms that are associated with Parkinson’s disease as well as the fluctuations in the intensity of these symptoms throughout the day.
Medical professionals need to recognize the signs of Parkinson’s disease and their fluctuations to provide the correct medical treatment. In most hospitals, patients must remain in health facilities for a long time to be monitored effectively.
IoT devices automatically gather the patient’s data, making this process much simpler. Monitoring patients not only provides significant savings on costs but also allows them to remain comfortable as they are not required to be in hospitals for a long period of time.
The most important thing to consider when identifying the signs is the degree of sensitivity a device has to symptoms that could be. When a device’s sensor is not sensitive, it may mistakenly identify something as a symptom. However, a device that is not sensitive enough could overlook some signs.
But, some research papers seek solutions to the problems of detecting Parkinson’s disease. With the possibility of living an independent lifestyle, errors are not a cause for concern.
Connected Contact Lenses
Unlike conventional contact lenses, connected lenses come with an image sensor and camera. Iot lenses are a different kind of contact lens. They can provide superior vision and also check for early signs of illness.
The primary issue is that eyes naturally weaken or develop conditions over time. The condition can sometimes progress over a prolonged period without requiring medical treatment. Certain eye conditions can quickly progress, but this doesn’t give the patient enough time to act.
Connected contact lenses can search for signs that indicate early signs of eye conditions. However, some general medical conditions can be identified using IoT lenses. For example, the first symptoms of diabetes are detected by the glucose levels in the tears.
In addition, cameras inside the lenses permit patients to take photos with their lenses. This technology was designed by companies operating outside of the healthcare industry.
Many companies have already discovered numerous applications for this technology. However, if hackers could hack into the security of connected devices, those using these lenses may be tracked without knowledge. Being able to see what a person sees is a frightening possibility.
Because of this, data security should be an essential concern for healthcare organizations. Clients should choose reputable firms with a solid portfolio of projects that remain current with the most recent security standards.
Remote Patient Monitoring (RPM)
Wearable devices, such as smartwatches, wearable sensors, or phones automatically gather health-related metrics. These devices monitor patients remotely and collect health data like body temperature, blood pressure, body fat percentage, etc. The IoT health devices display this data for the patient and transmit the information to healthcare professionals.
As we’ve mentioned before, going to an establishment for healthcare is not always possible for someone. Even if a visit is possible, healthcare professionals could only have access to the patient’s medical biometric when he’s in the hospital. However, some ailments require constant patient monitoring, and capturing data may require a stay at the health facility.
Remote devices for monitoring patients can remove the need for monitoring by supplying an information stream. These health IoT devices can recommend treatments or issue alerts based on the collected data. For instance, a sudden increase or decrease in a patient’s blood pressure can alert healthcare professionals to the possibility of needing to intervene.
The biggest concern about these IoT devices for healthcare is that sensitive information is in danger because patients are constantly being spied on. Hackers might try to get data from these devices.
The most important concern facing healthcare organizations is protecting sensitive personal information by regulations like the General Data Protection Regulation (GDPR) or the Health Insurance Portability and Accountability Act (HIPAA).
Heart-Rate Monitoring
In contrast to glucose monitoring devices, IoT devices that monitor a person’s heart rate are mobile. Many smartwatches or IoT sensors constantly monitor an individual’s heart rate, so data can be gathered even when the patient sleeps.
Monitoring heart rate fluctuations can be more challenging than monitoring glucose, as various activities influence the heart rate during the day.
In the event of a stay in the hospital, routine heart rate checks might not be enough to combat these changes. Because of this, patients require monitoring with wired machines to ensure continuous monitoring of their heart rate, which can affect their mobility.
However, IoT devices are a more affordable alternative that does not require patients to be admitted to hospitals. This can impact a person’s quality of life. Another advantage is the ability to monitor the heartbeat.
However, the most important issue is the reliability of the heart rate monitor. Medical devices at hospitals offer more precise information than IoT devices.
But that’s not to suggest that portable versions aren’t reliable. Modern devices collect data with 90% accuracy. For most people, the improved mobility and lower cost are already worth more than the somewhat lower accuracy.
Depression or Mood Monitoring
IoT healthcare devices can discern information about a patient’s mood and mental well-being by monitoring blood pressure, heart rate, and other biometrics. Advanced IoT devices can also observe an individual’s eye movement.
Traditionally, the ongoing monitoring of an individual’s mental health can be extremely difficult. Medical professionals must periodically inquire about the patient’s mood to establish their diagnosis; however, they cannot predict the patient’s mood fluctuation. Another problem is the interpretation that patients make of patients. They might not accurately reflect their feelings or may even be lying.
The primary benefit of IoT gadgets is that they are based on objective biometrics rather than a person’s words. The patient cannot monitor these health indicators, but they can be used to measure a person’s mental well-being. Additionally, monitoring for patients may remain in place even while they sleep.
However, there are some doubts about the accuracy of these findings. They are not able to predict depression or other signs with 100% accuracy.
However, these issues are also present in other methods of interacting with the patient. As there is no alternative for these devices, IoT devices can be valuable for monitoring depression.
Robotic Surgery
A fresh method for performing surgery is via IoT Medical devices. The professionals use these devices to limit human error during operations that require accuracy.
The primary issue is that the incisions necessary to perform operations by hand are more extensive than those of robotic counterparts. Human hands require more space to perform complicated procedures.
Utilizing IoT robotic devices, surgeons can perform more precise and efficient operations. Because of the ease of insertion into the IoT devices, incisions are shorter. This results in the procedure being less invasive for the patient and a faster recovery time.
The primary requirement for such equipment is that it be compact and durable enough to handle complicated procedures. The surgeon also needs to analyze accurately the state of affairs inside the body and make a suitable choice regarding the surgery.
These needs do not appear to be an issue that cannot be solved because surgeons already utilize the devices during several procedures. They’re a must-have tool for medical experts. The utilization of IoT robots for surgeries is likely to increase with the advancement of technology.
However, one common feature that all these devices share is their connectivity to the Internet. Data security is an important consideration when they work online, and the work of Internet of Things healthcare devices isn’t any different.
How IoT Maximizes ROI for Healthcare Industries?
Before we look at the leading companies, it might be beneficial to know how IoT medical devices can help healthcare organizations maximize their return on investment. We have listed the most effective ways IoT services can help the healthcare industry.
Process Automation
In healthcare, IoT, or the Internet of Things, can help automate various tasks and save time and money. For instance, an automated inventory management system with IoT medical devices can control all medical equipment, thus reducing the manual effort required for regular inspection.
Furthermore, automated medication dispensing will monitor patients’ medical regimens and notify them whenever it’s the right time for them to take medications. In turn, healthcare professionals can focus on more crucial tasks.
Personalized Healthcare
When connected to EHRs and other patient information, IoT data can offer complete information about individual health. This allows healthcare professionals to create individualized treatment plans, which can lead to more effective results.
Improved Patient Diagnosis and Treatment
IoT devices, such as wearable gadgets, can monitor vital indicators and transmit data to healthcare professionals in real-time, allowing them to detect acute illnesses and treat them promptly. Furthermore, IoT medical devices like capsule endoscopies provide a clear view of a patient’s digestive tract in full detail and aid medical professionals in detecting any infections or abnormalities.
Preventive Maintenance of Medical Equipment
IoT sensors may be incorporated inside medical equipment to track its performance continuously. The information gathered from sensors can help predict maintenance requirements and prevent costly breakdowns. In turn, it helps reduce equipment downtime and associated costs.
Early Disease Detection and Intervention
Health monitoring using IoT can identify earlier warning indicators of disease. This allows for prompt intervention and avoids expensive treatments later on.
Although adopting IoT in the healthcare sector involves an initial expense, the savings that could be realized and enhanced outcomes for patients offer an excellent return on investment. Additionally, as technology improves, the initial expense is expected to drop, making IoT more attractive financially.
Top 12 Healthcare IoT Companies in 2025
One key element in the success of your project will be the high-quality program, which is reflected in the healthcare IoT software development services you choose to work with. Here’s a list of the most reputable IoMT firms that have earned a stellar reputation in software development.
A3logics
A3logics has been actively learning and gaining expertise in creating rich and feature-rich IoMT systems for over a decade in the business. Our team, comprising 150+ experts, has participated in more than 300 projects.
We are a specialist in wireless and cloud-based services that connect healthcare systems. Our primary services include but aren’t only limited to systems for monitoring patients’ remote diagnostics, remote patient monitoring systems, and the use of telemedicine. Through the help of our IoT services, we can help to improve the quality of care and efficiency within healthcare institutions.
A3logics is the most reputable IoT software development firm in the healthcare industry. Our advanced IoT solutions will always please you if you want to improve the efficiency of your clinical workflow. We aim to assist healthcare professionals in managing their business effectively, providing better healthcare, and managing medical assets.
Cogniteq
For more than 15 years in the business, Cogniteq has actively learned and acquired expertise in creating rich and feature-rich IoMT systems. Its staff of 120+ experts has participated in more than 300 different projects.
Cogniteq’s portfolio consists of a variety of successful projects of varying kinds. One of these is a mobile app designed to improve the language skills of autistic children. It is connected to a device that allows users to record and playback voice messages in various ways. Another instance of an IoMT solution from Cogniteq is a data management platform connected to modern-day cardiac monitors. They provide robust capabilities to monitor cardiac activity remotely and collect and analyze data. The solution improves the quality of monitoring cardiac arrhythmias, the accuracy of diagnosing cardiovascular disorders, and the workflow of medical facilities’ documents.
With its experience in a broad range of business areas and industries, the company’s variety of services isn’t restricted to the healthcare software market. Cogniteq provides top-quality Internet of Things solutions for various industries. It is one of the leading IoT firms that works with clients across the globe.
Mindbowser
The company is headquartered in India. It sees its role as aiding businesses through its digital evolution. Mindbowser is involved in various spheres, with healthcare being one of the main areas. The company’s portfolio includes a range of solutions for software that aid patients as well as hospitals, clinics, and pharmacies. Non-Emergency Medical Transport (NEMT) software is one of Mindbowser’s main products. The company that develops software offers cutting-edge tools that allow continuous monitoring and real-time information collection that could be integrated into smart medical devices.
Velvetech
The software development company has over 20 years of experience and a headquarters in the US. It is renowned for its top-quality eHealth and IoMT solutions. The company offers HIPAA, PCI, and FDA-compliant solutions and, due to its expertise across industries, has created powerful health insurance verification tools. The Velvetech team develops advanced IoMT solutions and cloud-based infrastructure that ensure better performance for medical facilities of all kinds.
HQSoftware Lab
HQSoftware Lab is a software development company located in the USA and Europe. The company has over 11 years of knowledge of IoT development. However, its offerings aren’t limited to creating IoMT software. HQSoftware Lab can create hardware prototypes that meet the specifications of the project’s client and produce them in close collaboration with its partner for the long haul. The company promises absolute NDA conditions and the most comprehensive level of protection for sensitive data.
Softeq
Although Softeq produces completely different software solutions, it is renowned as an IoT development company with outstanding knowledge of IoMT. Softeq was founded around two years ago and has been increasing its operations ever since. Its offices are situated across three continents. Some products it can make are medication trackers, vital signs monitors, and hospital automation solutions.
KORE Wireless
KORE is a U.S.-based, publicly traded company founded in 2002. It is now a leader in developing IoT products to address business’s everyday tasks. One of the most well-known and popular products developed through KORE for the healthcare industry includes solutions to remote diagnostics and mobile emergency response systems for personal emergencies. KORE also offers effective solutions that seamlessly integrate IoT apps to monitor home and remote care.
Folio3
The next one on our checklist of health IoT businesses is Folio3. This well-established firm provides numerous services in diverse sectors. Their experience in medical IoT is worth your consideration. Folio3 collaborates with industrial giants to offer solutions that will bring the most value to healthcare providers and patients.
Contus
Contus is among the top software development companies in India. Although the company works with various industries and markets, telehealth is one area it closely works with. Contus has created many IoT-powered solutions for its customers that aim to automate medical procedures and supply medical facilities with smart technology.
Eleks
Eleks is a renowned company with a long history. It was established in 1991 and currently operates in Europe, the UK, and the US. It offers consultancy and software development, and IoT (specifically, IoMT) is one area comprising its core work. The company has collaborated with many medical services companies and healthcare institutions, enabling it to acquire extensive knowledge of this field and understand market trends comprehensively.
RisingMax
The company is a U.S.-based application development firm specializing in creating solutions for healthcare professionals and others. It creates IoMT applications for patients, doctors, and their families, as well as insurance companies, to improve the management of medical procedures and enhance the flexibility and quality of the services provided. The company provides feature-rich solutions that help change the way healthcare organizations operate. RisingMax has a long list of successfully executed projects and continually adds new talent.
Siemens AG
Siemens AG is a German technology company and a top service provider for IoT in healthcare. It offers a range of IoT medical devices that optimize procedures, improve patient care quality, and identify equipment failure.
They have also developed cloud-based IoT solutions that help connect medical devices and collect information, allowing professionals to analyze information more efficiently. This makes them a complete solution for IoT solutions in healthcare.
Examples of IoT in Healthcare
IoT applications in healthcare are changing how patients receive care through real-time monitoring and remote access for medical providers. Connecting devices also improve treatment options.
Wearable Devices
Wearable devices are an excellent illustration of IoT in healthcare. Fitness trackers and smartwatches track various health-related metrics, such as heart rate, the number of steps, and sleeping patterns. These devices allow patients to monitor their health information. Patients can also communicate this information with health professionals to monitor their health remotely.
Remote Patient Monitoring Systems
These systems can monitor patients recuperating at home following an inpatient stay or suffering from chronic illnesses. They can monitor vital indicators like high blood pressure, heart rate, and oxygen levels. Additionally, they will alert health professionals if there are any major changes.
Smart Pills
The application of IoT to healthcare isn’t limited to wearables or monitoring. Smart pills have sensors that track dosage and transfer information to smartphones or other devices. This helps ensure that the patient is taking their medication properly. In addition, smart pills can inform healthcare providers when patients miss a dosage.
Smart Inhalers
These devices can monitor the use of asthma medications and COPD patients. This provides real-time information on patterns of usage and adhesion, which will help healthcare professionals modify treatment plans and spot possible issues before they become more dangerous.
Telemedicine Platforms
Telemedicine platforms allow healthcare professionals to interact with patients remotely using videoconferencing technology. This is especially beneficial for patients living in remote areas or with mobility problems. It helps them get care without having to leave their homes.
How is IoT Transforming Other Industries?
We’ve already seen how IoT healthcare software ML can help improve and speed up healthcare delivery and operations. In the same way, IoT is changing business processes across other sectors. It offers real-time information to increase ROI, streamline operations, and give more value to customers.
While IoT for healthcare continues to grow, more applications are likely soon. Let’s look at a few examples of IoT in other industries.
Retail
IoT has revolutionized retail by providing businesses with real-time customer behavior information. According to a study by Grand View Research, the global market for IoT in retail is predicted to be $35.6 billion in 2025.
IoT sensors can monitor foot movement, track customer movements, and even analyze buying habits. This could help retailers. Additionally, it can assist them in optimizing store layouts and better-managing inventory. It can also aid them in giving customers individualized experiences.
Transportation
IoT transforms the transportation industry by providing businesses with live data about vehicle conditions and location. A study by MarketsandMarkets estimates that the global industry of IoT transport will be $143.93 billion by 2025.
This increase in the IoT transportation market has meant that companies are utilizing technology to improve how they move their equipment around. With IoT, they can monitor their vehicles and determine their state at any given moment. Therefore, IoT makes transportation more efficient.
Manufacturing
IoT transforms manufacturing industries by allowing firms to collect and analyze real-time data. According to a report from McKinsey IoT, applications using IoT in manufacturing could generate as much as $3.7 trillion in value in 2025. Manufacturers are already using IoT sensors.
They employ them to monitor the machine’s condition and to predict when maintenance should be performed. In addition, they utilize these devices to increase production. This helps companies cut down on time in the process, reduce waste, and improve efficiency.
Agriculture
IoT revolutionizes the agriculture industry, allowing farmers to track crop growth and soil condition in real-time. According to a study by MarketsandMarkets, the IoT marketplace in agriculture will grow to $20.9 billion in 2025.
Additionally, IoT devices can monitor environmental conditions like humidity, temperature, and weather. This helps farmers anticipate and reduce risks like drought, frost, and pests.
Energy
IoT is changing the energy industry, enabling businesses to track energy consumption in real-time. According to a study by MarketsandMarkets, the global marketplace of IoT in energy is expected to reach $22.34 billion in 2025.
IoT sensors can monitor energy consumption, identify energy consumption, and optimize energy consumption. This could help companies cut the cost of energy, reduce waste, and enhance the sustainability of their operations.
The Key Takeaway
The increased demand for IoT medical device integration into healthcare sector is revolutionizing healthcare by improving the quality of care for patients and outcomes. Brands can use IoT services in numerous ways, including health wearables, remote patient monitoring, and even patient monitoring.
In addition, connected medical equipment, smart hospital infrastructure, and telemedicine are possible. However, there are difficulties. They include privacy, security, compatibility, regulation, and change resistance.
From improving patient comfort to making the care environment safer for both patients and care doctors to providing healthcare professionals with precise information in real-time, easily available data for better and more educated choices, IoT healthcare devices are changing the way we think about healthcare.
FAQs
What does IoT mean in healthcare?
IoT in healthcare refers to the use of internet-connected devices to collect and share health data and improve patient care.
How is IoT being used in the healthcare industry?
In healthcare, IoT is monitoring patients remotely, monitoring vital indicators with wearables, and enhancing the efficiency of medical procedures.
What are some IoT devices commonly used in healthcare?
IoT products used in healthcare include wearable health monitors, remote monitoring of patient systems, and smart medical devices.
What impact has IoT had on the healthcare sector?
IoT has enhanced the monitoring of patients’ access to healthcare and treatment options. Additionally, it improves the efficiency of healthcare facilities’ operational processes.
How can IoT devices be effectively managed?
Users can manage IoT devices through mobile applications, web interfaces, voice commands, or central IoT platforms.
