Remote Patient Monitoring: Enabling Patient-Centered Care in a World of Value-Based Care

Published in Member Communities on October 03, 2024

Remote Patient Monitoring: Enabling Patient-Centered Care in a World of Value-Based CareBy Ashley Hettermann, Director of Product Management, Direct Supply Brands

In recent years, the healthcare industry has been shifting towards a more holistic approach known as patient-centered care, which emphasizes the importance of focusing on patients’ individual healthcare needs and their desired health outcomes, including allowing the patient to receive care in the setting that is the most comfortable to them. Along with that has been the rise of remote patient monitoring, with some estimating nearly 50 million people in the United States using remote patient monitoring (RPM) devices. This significant number reflects the increasing adoption of RPM technologies to manage chronic diseases, monitor vital signs, and provide continuous care remotely. The rise in RPM usage has been driven by the need for efficient healthcare delivery, especially following the COVID-19 pandemic, which highlighted the importance of remote healthcare solutions. How can this rise in RPM help transform healthcare and achieve goals of patient-centered care?

Estimated nearly 50 million people in the United States using remote patient monitoring (RPM) devices.

The integration of RPM technology into these paradigms represents a transformative leap forward, offering significant benefits to patients, providers, and healthcare systems alike. RPM significantly enhances patient-centered care by providing continuous personalized data to healthcare providers, allowing for tailored care plans that truly reflect the current health status of each patient. RPM has become an integral part of modern healthcare, offering real-life solutions for managing chronic conditions, post-surgical care, and preventive health. Here are some real-life examples of how RPM is being used today:

  • A diabetic patient using an RPM device that tracks blood glucose levels can receive real time feedback from their healthcare team, enabling adjustments in diet or medication without the need for a physical visit to the clinic. This not only saves time and reduces the burden on healthcare facilities but also empowers patients by keeping them engaged and informed about their health.
  • During the COVID-19 pandemic, RPM was used to monitor patients with mild to moderate symptoms at home. Patients used pulse oximeters and thermometers connected to a mobile app to track their oxygen levels and temperature. This helped in reducing hospital admissions and ensuring timely care for those whose conditions worsened.
  • There are platforms available that offer remote monitoring for expectant mothers. It includes a mobile app and connected devices like blood pressure monitors to track vital signs. Healthcare providers can monitor the health of the mother and the baby, ensuring timely interventions and reducing the risk of complications during pregnancy.
  • Devices allow patients to monitor their blood pressure at home and share the readings with their healthcare providers through a mobile app. This helps in better management of hypertension and reduces the risk of stroke and heart attack by ensuring that blood pressure is kept within target ranges.

In a program targeting heart failure patients, those using RPM technology reported a 50% reduction in hospital readmissions.

Not only does RPM offer many benefits to patient-centered care, it also can drive better health outcomes and reduce costs through improved management of chronic diseases, enhanced patient engagement, and reduced need for in-person care services. For example, RPM can help reduce the rate of hospital readmissions, a key metric in value-based care contracts, by enabling providers to monitor patients remotely and intervene proactively when a patient’s data indicates a potential problem. In a program targeting heart failure patients, those using RPM technology reported a 50% reduction in hospital readmissions, significantly cutting costs and improving patient quality of life. 

In a value-based care system, RPM not only improves patient quality of life through early detection of potential issues and timely interventions, but it also can create value for providers and payers.

Providers benefit from RPM by gaining real-time access to patient data, enabling more informed decision-making and personalized care plans, ultimately improving patient outcomes and efficiency. For payers, RPM reduces healthcare costs by minimizing hospital readmissions, emergency visits, and unnecessary procedures, aligning with the value-based care model that emphasizes quality over quantity. Together, these benefits foster a more proactive, efficient, and cost-effective healthcare ecosystem, driving value for all stakeholders involved.

Recently, remote patient monitoring (RPM) has evolved beyond wearable technology to include innovative solutions that monitor patient health seamlessly and unobtrusively. The use of non-contact RPM technologies offers numerous benefits, including improved patient comfort, reduced healthcare costs, and enhanced efficiency in healthcare delivery. These systems are particularly valuable in the following scenarios:

  1. Chronic Disease Management: Continuous monitoring of patients with chronic conditions such as heart disease, COPD, or diabetes allows for better management and early detection of complications.
  2. Elderly Care: Non-contact monitoring ensures the safety and well-being of elderly patients by detecting falls and other health issues without the need for wearable devices, which may be difficult for them to manage.
  3. Hospital-at-Home Programs: These technologies support the growing trend of providing hospital-level care at home, reducing the need for hospital stays and improving patient outcomes.
  4. Post-Operative Care: Continuous monitoring of patients recovering from surgery ensures timely detection of complications and reduces the likelihood of readmissions.

These noninvasive systems leverage non-contact sensors and artificial intelligence (AI)-driven analytics to capture vital signs and health metrics without the need for traditional wearable devices. Here are some ways in which they work:

  • Advanced sensor technology to measure vital signs such as heart rate, respiratory rate, and body temperature. This system uses infrared and radar technologies to monitor patients from a distance, ensuring continuous health surveillance without physical contact. This approach is particularly beneficial for monitoring elderly patients or individuals with chronic conditions who might find wearable devices uncomfortable or intrusive.
  • Radar technology to detect and analyze vital signs. Devices can be placed in a room to continuously monitor parameters such as heart rate, respiratory rate, and even detect falls. The system uses low-power radar signals to capture detailed health data without the need for the patient to wear any devices.
  • 4D imaging sensors that can track and monitor patients’ vital signs and movements without physical contact. Sensors create high-resolution 3D images in real-time, allowing for the monitoring of heart rate, respiratory rate, and even detecting falls.

The integration of AI and machine learning with non-contact RPM technologies enhances their capabilities by providing predictive analytics and early warning systems. These technologies analyze vast amounts of data to detect subtle changes in a patient’s health that may indicate the onset of a medical condition. For instance, AI can identify trends in a patient’s heart rate or respiratory rate that suggest a deterioration in health, prompting early intervention and potentially preventing hospital admissions.

While RPM offers significant benefits, there are challenges to its widespread adoption. Data security and privacy concerns are paramount, as sensitive health data is transmitted over digital platforms.

Ensuring the accuracy and reliability of RPM devices is also crucial to avoid misdiagnoses and inappropriate treatments.

The future of RPM looks promising with further advancements in artificial intelligence (AI) and machine learning. These technologies can enhance data analysis, providing deeper insights and more accurate predictions. Integration with telehealth services is another trend that will likely expand the reach and effectiveness of RPM.

For more insights and resources from Direct Supply, visit their HME Resource Hub: https://www.directsupply.com/home-health-resources/

References

Harvard Health Publishing. “What’s the future of remote patient monitoring?” Harvard Health, July 13, 2022. Accessed June 1, 2024. https://www.health.harvard.edu/staying-healthy/whats-the-future-of-remote-patient-monitoring.

Medical Economics. “RPM cuts hospital readmissions by 50% for heart patients, study finds.” February 21, 2024. Accessed June 1, 2024. https://www.medicaleconomics.com/view/rpm-cuts-hospital-readmissions-by-50-for-heart-patients-study-finds.

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