Remote patient monitoring systems are among the innovations in society due to the digital transformation of the healthcare industry. Telehealth has a promising future, and the market for this technology is projected to reach a staggering $175. 2 billion by 2027. It is predicted that by 2024, 30 million patients in the United States will be using remote patient monitoring services, which underlines the development of this promising technology.
The need for such software is understandable. It allows doctors to monitor their patients without requiring face-to-face sessions, providing a level of convenience that was previously unimaginable. Patients, in turn, benefit from lower costs associated with in-hospital care, making healthcare more accessible than ever before.
Digital technology is used in Remote Patient Monitoring (RPM), a healthcare delivery system, to gather patient health data remotely. After evaluation and analysis, this data is sent to medical specialists, who use it to make patient treatment recommendations and choices.
RPM, together with integrated EMR, helps treat long-term illnesses such as diabetes, heart disease, hypertension, and respiratory problems. It enables ongoing patient monitoring outside of traditional clinical settings, which may be particularly helpful for those unable to travel or live far away from normal healthcare facilities.
Several Widely Used Remote Patient Monitoring System Applications
Currently, remote patient monitoring systems are being used in the following real-world applications:
Control of Diabetes
According to Diabetes Care research, daily remote patient monitoring for diabetes control is just as beneficial as three months of in-person visits to medical facilities. The RPM system instantly delivers all diabetic data, including blood pressure, blood glucose, and weight, to patients and medical personnel. When required, the remote patient monitoring software sends notifications so medical personnel may respond promptly.
After Surgery
Following surgery, patients can track vital indicators, including blood pressure, oxygen saturation, and heart rate, using wearable technology with built-in sensors. The remote patient monitoring software facilitates the uninterrupted transfer of vital sign data to medical professionals, allowing for the real-time assessment of the patient’s physiological condition.
RPM may also entail wearable technology or smart wound dressings that monitor a surgical wound’s temperature, moisture content, and infection indicators. Patients can take pictures of their surgical incisions and submit them to medical professionals to remotely monitor the healing process.
IVF Assistance
An effective technique for IVF (in vitro fertilization) is patient remote monitoring. This approach can monitor ovulation markers, such as basal body temperature, changes in cervical mucus, and hormone swings, using wearable technology or fertility tracking applications. These gadgets enable patients to gather and send real-time data to their medical professionals, which enables more precise and timely surveillance of ovulation patterns.
RPM can continue remotely monitoring patients during the critical post-procedure time following embryo transfer.
Cancer
Chemotherapy patients may monitor and report common side symptoms, including nausea, exhaustion, and pain, with symptom monitoring applications. By providing healthcare practitioners real-time information on patients’ symptoms, RPM enables prompt interventions and modifications to the cancer treatment strategy.
Lowering the Risk of Dementia
Falling is one of the many dangers associated with dementia, particularly for elderly people. Devices like walkers or canes can be equipped with remote patient monitoring, which transmits data via GPS or Wi-Fi. An algorithm that analyzes location, speed, or gaits will identify falls as a concern and notify caretakers.
How to Create RPM Software
Developing a remote patient monitoring system calls for a systematic approach to get the intended outcomes. This is a detailed how-to for creating an all-inclusive RPM system:
Describe the Conditions
Describe the particular requirements and demands of patients, medical staff, and the organization. Determine the target circumstances or groups, then choose the right technology and monitoring tools.
Choose Monitoring Tools and Technologies
Choose from wearable and non-wearable monitoring devices that are precise, dependable, and easy to use. Choose the right connectivity options (cellular, Wi-Fi, or Bluetooth) to ensure smooth device administration and data transmission.
Create a User’s Interface and Experience
Provide a user-friendly interface for patients and healthcare providers. Make it simple to navigate and act with by providing clear, concise data display and intuitive navigation.
Combine with Current Healthcare Systems
Integrate the RPM system with medical applications and electronic health records (EHR) using APIs or bespoke programming. Facilitate smooth data transfer across several systems to prevent duplication.
Provide Solutions for Safe Data Transmission and Storage
Provide a scalable, safe data storage solution that complies with industry standards, such as cloud-based storage. Implement safe data transfer methods, such as secure APIs and encryption.
Use AI and Data Analytics Tools
AI technologies, like machine learning algorithms, can be used with data analytics to interpret patient data effectively. These technologies provide predictive analytics and actionable information to help healthcare professionals make decisions.
Verify and Test the RPM System
Before deploying, thoroughly test and confirm security, dependability, and functionality. Then, user testing will be carried out to evaluate the results, pinpoint areas that need work, and ensure that the objectives are being met.
Conclusion
To sum up, remote patient monitoring systems represent a substantial development in providing high-quality, reasonably priced healthcare widely available.
If monitoring software is created to enhance patient outcomes, then RPM solutions have the potential to completely change the way that healthcare is provided to certain patients and doctors. The method saves a significant amount of money and time that would otherwise be required for patient transportation or hospital monitoring.