Benefits of IoMT (Internet of Medical Things) in Healthcare Industry

In the healthcare industry, where precision and timely interventions can be the difference between life and death, technological advancements continue to reshape the landscape. One such groundbreaking innovation that has garnered considerable attention is the Internet of Medical Things (IoMT). As we get into the intricate web of interconnected devices, sensors, and applications specifically designed for the healthcare industry, it becomes evident that IoMT is not just a technological trend but a transformative force with the potential to revolutionize patient care, streamline processes, and enhance overall healthcare outcomes.

In this blog, we will be exploring the benefits that IoMT brings to the healthcare industry. From improving diagnostic accuracy to fostering remote patient monitoring, IoMT stands at the forefront of a healthcare revolution that prioritizes efficiency, accessibility, and ultimately, improved patient well-being. 

What is IoMT(Internet of Medical Things)?

IoMT, or the Internet of Medical Things, is a specialized subset of IoT technologies tailored for medical and healthcare applications. Its primary role is to facilitate telehealth and telemedicine, connecting devices, applications, and stakeholders within the healthcare system.

Essentially, IoMT acts as the crucial link that enables the transmission of healthcare information securely. It connects patients, healthcare professionals, and various medical devices, promoting efficient data sharing. By leveraging automation, sensors, and machine-based intelligence, IoMT reduces the need for human intervention in routine healthcare procedures, enhancing overall system efficiency.

A key advantage of IoMT is its ability to provide enhanced accessibility to healthcare information for both patients and providers. This translates to a decrease in unnecessary doctor’s office visits and hospital admissions, streamlining healthcare processes and potentially reducing costs.

Key Market Takeaways for IoMT

According to Market Us, the global Internet of Medical Things (IoMT) market exhibited substantial growth, soaring from US$ 48.7 billion in 2022 to an anticipated US$ 370.9 billion by the end of 2032. This remarkable expansion is projected to continue, with an estimated Compound Annual Growth Rate (CAGR) of 23.15% between 2023 and 2032.

IoMT serves as an interconnected network encompassing medical equipment, software applications, and health systems. This collaborative ecosystem facilitates the sharing, storage, and exchange of health data. Noteworthy components include wearable devices, remote monitoring systems, implanted devices, and other smart technologies, all contributing to improved patient outcomes, reduced healthcare costs, and enhanced care quality.

Source: Market Us

Growth Factors

IoMT’s impressive strides owe much to advancements in technology, particularly artificial intelligence, machine learning, and cloud computing. These innovations have rendered IoMT more efficient and effective in delivering healthcare services.

Regulatory requirements such as HIPAA (Health Insurance Portability and Accountability Act) and GDPR (General Data Protection Regulation) have played a pivotal role in shaping the IoMT landscape. The demand for secure and dependable IoMT solutions that adhere to these regulations has fueled further development in the field.

The escalating prevalence of chronic illnesses, including diabetes, hypertension, and cardiovascular diseases, has underscored the significance of IoMT. Real-time patient monitoring facilitated by IoMT enables healthcare providers to intervene early, leading to decreased hospitalization rates and improved patient outcomes.

IoMT also empowers patients by providing real-time information about their health status. Additionally, these devices allow individuals to track physical activities and manage their diet, contributing to more effective management of chronic conditions.

Regional Dynamics

North America emerges as the dominant force in the global IoMT market, boasting a substantial market share of 35.8%. Factors contributing to this dominance include high adoption of advanced healthcare technologies, a surge in demand for remote patient monitoring, and the presence of major market players. Nevertheless, the Asia-Pacific region is poised for significant growth, fueled by increasing population, rising chronic disease incidence, and the emergence of startups, coupled with growing healthcare expenditure in countries like China and India.

Key Market Players

In the dynamic Internet of Medical Things (IoMT) market, significant players include Apple, Inc., Cisco Systems, Inc., General Electric Company, IBM Corporation, Boston Scientific Corporation, Biotronik SE & Co. KG, and Honeywell International Inc. These industry leaders play a vital role in driving innovation and progress within IoMT, utilizing their expertise and technological capabilities to influence the ongoing development of medical connectivity and healthcare solutions.

Also read, “Top 10 HealthCare App Development Ideas in 2024“

Benefits of IoMT in Healthcare

Here is a list of some of the crucial benefits of IoMT in healthcare,

1. Elevating Patient Care

A. Better Information Sources

Examples of Connected Technologies

IoMT devices span a wide range, from wearable fitness trackers to sophisticated devices like MRI scanners. These devices play a pivotal role in enriching routine healthcare procedures by providing real-time health data.

Utilization of Nanosensors in Digestible Pills

A groundbreaking development approved by the FDA involves the integration of nanosensors in digestible pills. This innovation allows a sensor embedded in the pill to digitally track whether patients have ingested their medication, providing an unprecedented level of medication adherence monitoring.

B. Early Intervention

Role of Wearable Devices in Remote Patient Monitoring (RPM)

Wearable devices, with their capability to collect real-time health data, serve as the backbone of many telehealth services, especially in remote patient monitoring. The data collected by wearables can be shared with healthcare providers in real-time, thereby enhancing the quality of virtual consultations and enabling proactive care.

Importance for Chronic Disease Management

IoMT facilitates 24/7 monitoring of patients with chronic conditions, alerting practitioners when medical intervention is needed. This involves patients wearing special sensor devices and surgically implanting sensors under the skin for continuous monitoring.

C. Accurate Diagnoses

Data Consolidation and Analysis

IoMT not only provides new data but also consolidates and analyzes data from various sources. This offers practitioners better insights into patient health, enabling more informed decisions when diagnosing patients and prescribing treatment.

Informed Decision-Making by Practitioners

IoMT solutions for remote patient monitoring contribute to more accurate diagnoses while better tracking and preventing chronic diseases.

D. Better Engagement

Medication Reminder Apps

IoMT devices, such as wearables for remote patient monitoring, can alert doctors about symptom changes well before minor issues escalate into severe problems requiring hospitalization.

Wearable Devices for Vitals Tracking and Education

Wearable devices present numerous opportunities for healthcare professionals to monitor patients and for patients to monitor themselves, especially in terms of vital signs tracking and education about their conditions.

2. Cost-Efficiency

A. Remote Patient Monitoring 

Shift from Hospital Visits to Home Monitoring

IoMT devices have paved the way for a paradigm shift, enabling medical practitioners to monitor patients in the comfort of their homes, significantly reducing the necessity for hospital visits. This shift is particularly advantageous for noncritical patients, offering them a more convenient and less resource-intensive healthcare experience.

Real-Time Data for Noncritical Patients

The ability of IoMT devices to send real-time data about patients’ symptoms has a profound impact on reducing clinic visits. This real-time monitoring ensures that noncritical patients receive timely attention, minimizing unnecessary trips to healthcare facilities.

B. Proactive Treatment

Early Intervention and Medication Adherence

IoMT applications and devices play a crucial role in fostering early intervention and improving patient medication adherence. By facilitating timely medical attention, IoMT contributes to preventing the escalation of conditions, ultimately reducing treatment costs.

Reduction in Treatment Costs

The prompt transfer of data through IoMT allows for earlier diagnoses, simplifying treatment procedures and subsequently lowering the overall cost of care..

C. Operational Efficiency

IoMT’s Role in Workflow Optimization

IoMT serves as a catalyst for optimizing healthcare workflows by automating routine tasks, streamlining resource allocation, and eliminating manual paperwork. This operational efficiency not only enhances patient care but also contributes to a more effective utilization of healthcare resources.

Real-Time Tracking of Hospital Infrastructure

IoMT goes beyond patient data consolidation, providing real-time tracking of a hospital’s entire infrastructure, from equipment to staff. This real-time visibility optimizes workflow and supply management, reducing waste by directing resources where they are most needed.

D. On-Demand Care

Telehealth and IoMT Solutions

The synergy between telehealth and IoMT solutions empowers patients to access qualified care on-demand, irrespective of their location. This not only benefits individuals in remote areas but also alleviates the burden on healthcare systems, minimizing the necessity for in-person visits.

Access to Qualified Care Regardless of Location

IoMT devices break down geographical barriers, ensuring that patients can receive care from qualified healthcare professionals regardless of their location. This is especially significant in the United States, where rural areas often face challenges in accessing specialized care.

E. Easy to Implementation

Quick Data Transmission for Patients

IoMT devices facilitate the rapid and efficient transmission of patient data[^3^]. Real-time monitoring through connected devices empowers healthcare professionals to respond promptly to medical emergencies.

Integration of AI Technologies like Chatbots

The integration of artificial intelligence (AI) technologies, such as chatbots, into IoMT devices enhances patient understanding of symptoms. This integration fosters improved patient engagement and adherence to treatment plans.

3. Supporting Healthcare Practitioners

A. Fewer In-Person Visits

Impact of Remote Patient Monitoring and Telehealth

IoMT plays a pivotal role in enabling remote patient monitoring, consequently reducing the need for in-person clinic visits. This not only enhances patient comfort but also allows for better management of their conditions, fostering a more patient-centric healthcare approach..

Alleviating the Workload on Healthcare Professionals

IoMT solutions emerge as a beacon in combating the burnout experienced by nearly 80% of healthcare practitioners[^4^]. By automating routine tasks and providing real-time patient data, IoMT contributes to reducing the overwhelming workload, allowing practitioners to focus on critical aspects of patient care.

B. Better Data Access

Immediate Access to Patient Records via IoMT

IoMT devices facilitate real-time patient data exchange between point-of-care devices and hospital networks, ensuring immediate access to vital patient records. This not only leads to more accurate diagnoses but also diminishes the necessity for frequent in-person medical visits, streamlining the healthcare delivery process.

Streamlining Information Retrieval for Busy Practitioners

The connectivity between sensors and devices, made possible by IoMT, empowers healthcare organizations to streamline clinical operations and workflow management[^6^]. This efficient information retrieval system is particularly beneficial for busy practitioners, allowing them to access pertinent data swiftly.

C. Reduced Chance of Errors

IoMT Solutions in Enhancing Data Analysis

IoMT enhances human–machine interaction, enabling real-time health surveillance and patient participation in judgment. The integration of IoMT allows for continuous health monitoring, data registration, and health record management, all contributing to data-driven decision-making.

Also read, “Machine Learning In Healthcare: Advantages & Use Cases“

Integration of AI Tools for Error Prevention

IoMT solutions not only improve data analysis but also integrate AI tools to ensure that critical information is not overlooked. This proactive approach significantly reduces the chance of errors in healthcare decision-making, enhancing patient safety and practitioner confidence.

Practical Applications of the Internet of Medical Things

Here’re some of the practical use cases of Internet of Medical Things,

1. Remote Healthcare

IoMT devices, including wearable technology, play a crucial role in remote healthcare by monitoring patient health post-surgery or treatment. These devices provide progress reports on underlying conditions, empowering patients with real-time information. Remote Patient Monitoring (RPM) solutions, for instance, enhance patient engagement by offering insights into the benefits of prescribed medications, physiotherapy sessions, or necessary rest, allowing patients to take active ownership of their health and recovery.

2. Temperature Control

IoMT devices can contribute to temperature monitoring, including body temperature. For example, in the realm of IoT technology, remote control of storage temperature during the transportation of vaccines and medications is possible. This is particularly crucial for maintaining the efficacy of specific medications and vaccines, as they often require precise storage temperatures.

3. Disease Symptom Tracking

IoMT devices accurately track symptoms of various diseases, eliminating the need for additional doctor’s appointments. In heart disease diagnostics, machine learning techniques predict the presence or absence of heart diseases. Moreover, IoMT enables continuous tracking of patients, predicting their condition within specific timelines. This continuous assessment proves vital in reducing mortality rates in critical health conditions. The ability to track symptoms proactively contributes to more effective and timely healthcare interventions.

4. Medication Management

IoMT devices play a crucial role in medication management by providing users with reminders and dosing information, enhancing adherence and overall treatment outcomes. Notably, an IoMT portable pillbox has been developed, offering a practical solution for effective medication management. This technology ensures that individuals receive timely reminders and information, contributing to improved health outcomes and better adherence to prescribed regimens.

5. Internet of Bodies (IoB)

IoB technology leverages the human body as a source of medical and fitness data. IoB devices collect diverse data types, including biometric, physiological, and behavioral information. This data is then shared through IoT system networks, undergoes storage and analysis with back-end infrastructure, and is ultimately delivered to end-users, often through mobile apps. IoB enhances healthcare by providing personalized insights into an individual’s health and fitness, fostering a more proactive approach to well-being.

6. Smart Pills

IoMT smart Pills, resembling capsules with sensor indicators or cameras, serve various purposes. Healthy individuals use them for cognitive enhancement, improving memory and focus. Upon ingestion, the pill activates a signal, transmitted to an adhesive patch on the abdomen. This patch sends real-time data to smartphones or servers, offering insights into medication adherence and physiological responses, aiding healthcare providers in personalized treatment plans.

7. Medical Alert Systems

Medical Alert Systems are designed for emergency assistance. They connect users to dispatchers who can promptly send help during medical crises. Strategically placed in homes and connected to landlines or cellular networks, these systems ensure quick response times. They are particularly valuable for individuals with chronic illnesses or the elderly, offering a sense of security and minimizing the impact of medical emergencies.

8. Wearables

Wearables, like smartwatches, also play a pivotal role in health monitoring and telehealth integration. In-built sensors continuously measure blood volume and composition, providing real-time health data. This is beneficial for patients managing chronic conditions or undergoing fitness regimens. Wearables facilitate remote patient monitoring, allowing healthcare professionals to track recovery post-surgery, manage chronic diseases, and provide preventive care. They contribute to the digitization of healthcare processes, enabling remote consultations and timely interventions.

9. Connected Inhalers

IoT-connected inhalers play a crucial role in managing conditions like asthma or COPD, where sudden attacks can occur unexpectedly. These devices monitor attack frequency and collect environmental data to aid healthcare providers in understanding triggers. They also offer alerts to patients who leave their inhalers at home, mitigating the risk of an attack without proper medication or when inhalers are used improperly.

10. Connected Contact Lenses

Smart contact lenses provide a non-intrusive method for collecting healthcare data. Companies, such as Google, are exploring the integration of microcameras into these lenses, allowing wearers to capture images. Whether for enhancing health outcomes or other purposes, smart lenses transform human eyes into a powerful tool for digital interactions, showcasing the potential of IoMT in advancing wearable healthcare technology.

11. Robotic Surgery

The incorporation of small Internet-connected robots in robotic surgery brings about a paradigm shift in complex medical procedures. Surgeons can perform intricate operations that would be challenging with human hands. This approach minimizes incision size, leading to less invasive procedures and faster patient recovery. The utilization of small IoT devices in robotic surgery exemplifies how IoMT contributes to the evolution of medical practices, combining connectivity and robotics for enhanced healthcare outcomes.

Also read, “Top 10 Benefits of IoT in Healthcare in 2024“

Types of IoMT Applications

Here’re some of the IoMT apps can be beneficial for the healthcare industry,

1. Medical Alert Systems Apps

Crafted for emergency scenarios, these applications connect users to dispatchers who can promptly summon assistance during a medical crisis. Especially valuable for the elderly or those with chronic conditions, these apps serve as a lifeline in urgent situations, ensuring swift medical attention.

2. Wearables Devices Apps

Wearable devices, like smartwatches, equipped with built-in sensors, contribute to health monitoring. IoMT technology, following FHIR and SMART on FHIR standards, facilitates seamless integration across various devices and platforms. This guarantees uniform data collection and sharing, fostering a common language for healthcare applications.

3. Remote Patient Monitoring Apps

Empowering healthcare providers, these applications facilitate the monitoring of patients beyond traditional clinical settings. From tracking post-surgery recovery to reporting on underlying conditions, these devices gather and process data from multiple touchpoints, providing comprehensive insights into patient health. This proactive approach ensures that patients and their families are well-informed about their well-being.

5. Smart Pills Apps

Smart pills, integrated with monitoring technology, introduce a distinctive approach to medication management. These pills transmit data to a body-worn sensor, enabling real-time monitoring of medication levels. The information seamlessly reaches a mobile app, granting patients access to vital data concerning their health conditions and medication adherence.

6. Doctor Scheduling Apps

These applications empower patients to schedule appointments with doctors seamlessly, eliminating the need for traditional phone calls to a doctor’s office. This innovation significantly enhances the efficiency of healthcare services, offering a convenient and time-saving solution for both patients and medical practitioners.

7. Queue Management Apps

Utilized for patient admission and discharge, these applications play a crucial role in optimizing hospital performance, reducing waiting times, and enhancing doctors’ time management. Particularly beneficial during times of high patient influx, a queue management system (QMS) efficiently handles the flow of visitors, contributing to smoother operations within healthcare facilities.

8. Location Tracking Apps

IoMT technology enables the collection, analysis, and transmission of data across the web from virtually any medical device. This includes the valuable capability of location tracking for patients, employees, and hospital assets. Asset tracking ensures quick localization of IoMT devices and enhances network security by permitting access only to authorized and secure devices.

9. Assisted Living Apps

Equipped with AI chatbots and virtual assistants, these applications provide independent healthcare service options and social support, specifically tailored for seniors or individuals requiring real-time monitoring and safety preservation. Ambient Assisted Living, leveraging modern technology, aims to enhance the quality of life for people of various age groups, marking a significant global improvement in life standards.

10. Smart Room Apps

Integrated with IoMT, Smart Home solutions utilize smart sensors to monitor residents’ vital health data, including blood pressure, heart rate, and blood sugar levels. Beyond health monitoring, these apps optimize living experiences by adjusting room temperature and lighting schemes based on personalized health data. The IoMT devices contribute to offering personalized health services, enhancing overall well-being.

11. AI-Powered IoT Big Data Solution Apps

These applications play a crucial role in collecting extensive data from connected medical devices. They monitor device usage and anomalies, providing real-time data to dashboards for healthcare professionals and infrastructure users. Additionally, they utilize predictive analytics to forecast growth trends and prevent failures in connected medical devices.

For example, the IoMT big-data Bayesian-backward deep-encoder learning (IBBD) framework employs deep autoencoder configurations for data sparsification, determining optimal tradeoffs between information loss and power overhead.

Real Life Case Studies of IoMT in Healthcare

Here’re some of the interesting case studies for IoMT in healthcare, you should keep an eye on, 

1. ISA (Intelligent Sensor for Aging)

ISA utilizes advanced 3D sensor technology to detect and interpret the movements of individuals, particularly in scenarios like falls, slumping, or bed sliding.

Functionality: Once installed, ISA provides intuitive monitoring and alerts caregivers immediately in case of a fall, reducing the time a patient spends on the floor.

Advantages: Enhances patient safety by proactively notifying caregivers, minimizing response time to potential accidents. The system’s intuitive design facilitates ease of use for both patients and healthcare providers.

The ISA system has been implemented in approximately ten nursing homes and hospitals in Belgium. Additionally, its application at CHwapi resulted in a reduction of fall-related adverse events from 844 in 2019 to 574 in 2020.

2. PillCam System

The PillCam system is a minimally invasive ingestible capsule equipped with a camera, light source, battery, and wireless transmitter for visualizing the small bowel.

Functionality: Patients swallow the pill-sized device, and it traverses the digestive system, transmitting images to a recorder worn by the patient. Physicians can then review the captured images for diagnostic purposes.

Advantages: Offers a non-invasive and painless alternative to traditional endoscopy, reducing risks and discomfort. Provides comprehensive and accurate imaging of the entire small intestine, detecting abnormalities that might be missed by other methods.

The PillCam is employed within clinic or hospital settings and is administered by healthcare professionals or staff. It was highlighted as one of Medtronic’s latest medical technology innovations at Arab Health 2024.

3. AirSense 10 AutoSet

The AirSense 10 AutoSet is an advanced pressure device with an integrated humidifier, cellular connectivity, and event detection capabilities.

Functionality: Designed to automatically adjust therapy pressure based on individual patient needs, the device includes features like AutoRamp™, Expiratory Pressure Relief (EPR™), and Easy-Breathe technology.

Advantages: Identifies various respiratory events such as central sleep apnea, respiratory effort-related arousal, and Cheyne-Stokes respiration, offering valuable insights into patient health. The device also provides optional pulse oximetry monitoring.

4. InPen Smart Insulin Pen

The InPen is a reusable insulin pen utilizing smart technology for diabetes management. It facilitates insulin delivery, calculates doses based on glucose levels and estimated carbohydrate intake, and connects to a smartphone app for comprehensive tracking.

Functionality: The pen’s dose calculation feature assists users by determining insulin doses according to real-time glucose levels and estimated carbohydrate intake. Additionally, it estimates carbohydrates for meals, aiding users in understanding the impact of their dietary choices on blood glucose levels.

Advantages: InPen’s integration with a smartphone app automates dose tracking, ensuring accurate records. This smart insulin pen minimizes guesswork in diabetes management, providing personalized insulin recommendations and considering residual insulin activity to prevent hypoglycemia.

It is the inaugural smart insulin pen sanctioned in Europe, seamlessly integrated with real-time Continuous Glucose Monitoring (CGM) through a convenient smartphone application.

5. Mobile Intelligent Remote Cardiac Monitor (MIRCaM)

MIRCaM is a real-time cardiac monitor designed for cloud-connected data storage and analysis. It specializes in detecting cardiac arrhythmias, myocardial ischemia, and infarctions.

Functionality: The device continuously monitors cardiac activity, enabling timely detection and management of heart-related issues. It facilitates long-term monitoring, particularly for patients with abnormal heart rhythms, even during daily activities.

Advantages: MIRCaM’s real-time monitoring capabilities make it a cutting-edge tool for cardiac care. Worn for a recommended period, it enhances the diagnosis and management of cardiac conditions, providing critical follow-up for patients outside traditional healthcare settings.

6. iGLU (Intelligent Glucose Meter)

iGLU employs near-infrared (NIR) spectroscopy and a high-accuracy machine learning model for non-invasive blood glucose measurement. It connects to an IoMT platform for remote monitoring.

Functionality: The device offers painless and accurate blood glucose measurements without invasive procedures. It leverages machine learning for precise readings and stores data in the cloud for remote monitoring by healthcare professionals.

Advantages: iGLU eliminates the need for painful fingertip pricking, reducing complications and discomfort. Its accuracy, coupled with remote monitoring, enhances patient care, especially in remote areas with limited access to diagnostic facilities.

7. 3Nethra Classic

3nethra classic is a digital non-mydriatic fundus camera developed by Forus Health for capturing undistorted retina and cornea photographs. The device addresses preventable blindness issues.

Functionality: Clinicians use 3nethra classic for effective evaluation, diagnosis, and documentation of visual health, particularly in diseases like glaucoma, diabetic retinopathy, Age-Related Macular Degeneration (ARMD), and cataract.

Advantages: The compact design enhances mobility, making it suitable for various healthcare settings. 

In a 2016 health camp, Forus Health deployed the 3nethra classic to screen thousands for ocular diseases, demonstrating its effectiveness in preventive care initiatives.

Top 10 Apps and Platforms for IoMT in USA

Here’re the top 10 IoMT apps and platfroms in USA, you should keep an eye on,

1. Forescout Continuum

Forescout Continuum is a comprehensive platform that ensures the alignment of your digital reality with your security framework. It employs over 30 active and passive techniques, including passive deep packet inspection, to continuously discover cyber assets. Particularly focused on operational technology (OT), industrial control systems (ICS), and IoMT assets, it manages the risk posture of cyber assets and enhances threat detection and response for operational continuity.

Standout Features:

• Continuous discovery using various active and passive techniques.
• Passive deep packet inspection for sensitive OT/ICS and IoMT assets.
• Risk posture management for cyber assets.
• Enhanced threat detection and response capabilities.

2. Ordr

Ordr is a versatile platform that facilitates seamless device connectivity, allowing users to create customized patient and caregiver workflows. It covers a broad spectrum of connected devices, including IT, IoT, IoMT, and OT devices. Ordr’s capabilities extend to mapping microscopic device behavior, identifying risks and vulnerabilities on a large scale, and automating necessary actions for enhanced security.

Standout Features

• Easy device connectivity and workflow customization.
• In-depth mapping of microscopic device behavior.
• Identification of risks and vulnerabilities at a massive scale.
• Automation for proactive security measures.

3. Armis

Armis is an enterprise-class security platform designed to address the evolving threat landscape posed by unmanaged and IoMT devices. Notably, it operates without agents, providing visibility and security for all connected devices and systems using a common language. Armis is adept at identifying and mitigating risks associated with the increasing number of connected devices.

Standout Features

• Agentless security platform for unmanaged and IoMT devices.
• Comprehensive visibility for all connected devices.
• Common language communication for effective security.

4. BioT Connected Medical Devices

The BioT platform transforms traditional medical devices into connected care solutions swiftly through a regulated cloud platform. It enables users to connect devices and create tailored workflows for both patients and caregivers. Additionally, it offers comprehensive visibility, analysis, and control over the entire medical device network, enhancing overall connectivity and security.

Standout Features

• Swift transformation of medical devices into connected care solutions.
• Regulated cloud platform for secure connectivity.
• Customized workflows for patients and caregivers.
• Comprehensive visibility and control of the medical device network.

5. Microchip IoT Medical Device Solutions

Microchip Technology Inc. provides semiconductor solutions for smart, connected, and secure embedded control. Specifically tailored for the Internet of Medical Things (IoMT), Microchip’s solutions focus on connectivity and security features for remote medical devices. It empowers developers to design IoMT connectivity with added layers of security to ensure the integrity of medical data.

Standout Features

• Semiconductor solutions for smart and secure embedded control.
• Specialized solutions for IoMT connectivity.
• Integration of advanced security features for remote medical devices.

6. Medigate

Medigate is a modular healthcare cybersecurity platform powered by Software as a Service (SaaS). It is designed to scale and adapt to evolving healthcare environments, addressing specific use cases and goals. The platform extends cybersecurity coverage to the healthcare Extended Internet of Things (XIoT) and is focused on managing the risk posture of cyber assets. It excels in delivering enhanced threat detection and response capabilities for operational continuity.

Standout Features

• Modular SaaS-powered healthcare cybersecurity platform.
• Scalable to evolving healthcare environments.
• Extends cybersecurity to the healthcare Extended Internet of Things (XIoT).
• Enhanced threat detection and response for operational continuity.

7. WiTTRA

WiTTRA offers a technology platform tailored for product developers, featuring a secure, long-range wireless sensor network. The platform includes developer-friendly hardware suitable for both prototyping and volume production. Pre-packaged for field deployment, WiTTRA is pre-certified, compliant with standards, and boasts an open architecture for seamless integration.

Standout Features

• Long-range, secure wireless sensor network.
• Developer-friendly hardware for prototyping and production.
• Pre-certified and standards-compliant.
• Open architecture for ease of integration.

8. MILL5 Internet of Things

MILL5 specializes in bringing together software development, data science, and hardware engineering to create innovative IoT solutions. The company collaborates with customers to build short and long-term strategies that harness the power of the Internet of Things across various industries. MILL5’s approach integrates expertise from multiple domains to deliver unique and effective IoT solutions.

Standout Features

• Integration of software development, data science, and hardware engineering.
• Creation of unique and innovative IoT solutions.
• Collaboration with customers for strategic planning.
• Application of IoT across various industries.

9. Health Care Originals – ADAMM

ADAMM, a mobile application developed by Health Care Originals (HCO) for use with RSM wearables, provides comprehensive visibility, analysis, and control of medical device networks. It enables the detection and prevention of potential attacks, offering features such as symptom detection, inhaler detection, voice journaling, and autonomous rechargeability.

Standout Features

• Mobile application for RSM wearables by HCO.
• Comprehensive visibility and control of medical device networks.
• Detection and prevention of potential attacks.
• Features include symptom detection, inhaler detection, voice journaling, and autonomous rechargeability.

10. MyCareLink Heart

Medtronic offers the MyCareLink Heart mobile app, utilizing data from the patient’s heart device to provide daily, weekly, and monthly views of physical activity. The app offers information for patients regarding their heart devices and supports remote monitoring.

Standout Features

• Utilizes data from the patient’s heart device.
• Provides daily, weekly, and monthly views of physical activity.
• Supports remote monitoring for enhanced patient care.

Also read, “Web3 in Healthcare: Use Cases and Benefits“

Conclusion

The adoption of IoMT stands as a pivotal development in the healthcare industry. Its transformative impact on patient care, operational efficiency, and medical advancements is undeniable. As technology continues to evolve, IoMT holds the promise of shaping a future where healthcare is not only more effective but also more accessible and personalized.

IoMT Development with IdeaUsher

If you are interested in developing IoMT applications, IdeaUsher is here to assist you. From mobile app to web app development, our experienced team can bring your IoMT ideas to life. Explore the possibilities of healthcare innovation with IdeaUsher’s expertise in creating cutting-edge IoMT solutions.

FAQs

Q1: What are the benefits of IoT in healthcare?

A1: The integration of the Internet of Things (IoT) in healthcare offers numerous advantages. IoT enables the seamless connection of medical devices, improving real-time monitoring and data collection. This facilitates remote patient monitoring, timely intervention, and personalized treatment plans. Additionally, IoT contributes to operational efficiency in healthcare facilities by automating processes, reducing errors, and optimizing resource utilization.

Q2: What is the real difference between the Internet of Things and IoMT?

A2: The distinction between the Internet of Things (IoT) and the Internet of Medical Things (IoMT) lies in their specific applications. While IoT encompasses a broad range of connected devices across various industries, IoMT specifically refers to the network of medical devices and applications in healthcare. IoMT focuses on enhancing healthcare services, such as remote patient monitoring, smart medical devices, and improved data analytics for more informed clinical decisions.

Q3: Why is IoMT the future of healthcare?

A3: The Internet of Medical Things (IoMT) is poised to revolutionize healthcare by enhancing patient care, streamlining workflows, and fostering medical advancements. IoMT facilitates proactive and personalized healthcare through continuous monitoring, predictive analytics, and timely interventions. Its integration enables healthcare providers to deliver more efficient and patient-centric services, ultimately leading to improved outcomes, reduced costs, and an overall transformation of the healthcare landscape.

Q4: How will wearable medical devices transform healthcare?

A4: Wearable medical devices are poised to transform healthcare by providing real-time health data and fostering proactive patient engagement. These devices, ranging from smartwatches to fitness trackers, enable continuous monitoring of vital signs and health metrics. This data empowers individuals to take control of their health, allows healthcare professionals to make more informed decisions, and facilitates early detection of potential health issues. The widespread adoption of wearable medical devices is expected to contribute significantly to preventive healthcare and personalized medicine.