International Journal of Clinical Case Reports, 2025, Vol.15, No.2, 59-67 http://medscipublisher.com/index.php/ijccr 60 personalized care that is accessible from the patient's home. This approach can significantly reduce hospital stays, lower the incidence of postoperative complications, and improve patient satisfaction. Remote rehabilitation also allows for better management of postoperative symptoms such as pain, fatigue, and sleep disturbances, thereby enhancing the overall quality of life for patients. Additionally, remote monitoring and smart assistance can ensure timely interventions and support, which are critical for successful recovery. This study evaluated the effectiveness of the intelligent platform-based telerehabilitation care model in postoperative patients. By asting this innovative approach with traditional models of care, to determine its effectiveness in improving patient outcomes, reducing complications and enhancing satisfaction with care. This study has the potential to revolutionize postoperative rehabilitation by providing a more efficient, effective and patient-centered care approach. The findings may pave the way for a wider application of smart platform technologies in healthcare, thereby ultimately improving patient outcomes and making more efficient use of healthcare resources. 2 Overview of the Application of Intelligent Platforms in Remote Rehabilitation Nursing 2.1 Definition of intelligent platforms and their functions in rehabilitation nursing Intelligent platforms in rehabilitation nursing refer to integrated systems that utilize advanced technologies such as artificial intelligence (AI), the Internet of Things (IoT), and machine learning to provide remote, personalized, and efficient rehabilitation services. These platforms are designed to support decentralized models of care, enabling therapeutic interventions to be delivered from a distance. They incorporate various functionalities, including remote monitoring, data analysis, and real-time feedback, to enhance patient outcomes and streamline the rehabilitation process (Mennella et al., 2023). 2.2 Key modules and implementation steps of intelligent platforms in rehabilitation nursing The implementation of intelligent platforms in rehabilitation nursing involves several key modules and steps. The system architecture typically includes wearable sensors and devices that capture real-time data on patient movements and physiological parameters. For instance, platforms like SKYRE use multi-sensor wearable garments to monitor knee rehabilitation exercises (Seibert et al., 2020). The data collected is transmitted to a central server or cloud platform where it is analyzed using machine learning algorithms to assess patient progress and predict optimal rehabilitation settings (Palagin et al., 2022). The platform provides interactive interfaces, such as mobile applications or web portals, for both patients and clinicians to access and manage rehabilitation programs. These interfaces often include features for virtual reality exercises, real-time feedback, and teleconsultations (Tedesco et al., 2022). 2.3 Potential application scenarios and advantages of these platforms in postoperative rehabilitation nursing Intelligent platforms offer numerous potential application scenarios in postoperative rehabilitation nursing. They can be used for remote monitoring of patients recovering from surgeries such as hip or knee replacements, where continuous assessment and timely interventions are crucial for optimal recovery (Gharaei et al., 2021). These platforms enable patients to perform rehabilitation exercises at home while being remotely supervised by healthcare professionals, thus reducing the need for frequent hospital visits and minimizing healthcare costs (Fan, 2022). Additionally, the use of AI and machine learning allows for personalized rehabilitation plans that adapt to the individual needs and progress of each patient, enhancing the effectiveness of the therapy. The integration of IoT and robotics further facilitates advanced rehabilitation techniques, such as the use of exoskeletons for limb rehabilitation, providing more comprehensive and targeted support (Zhao et al., 2020). Overall, intelligent platforms in remote rehabilitation nursing improve patient compliance, satisfaction, and outcomes by offering convenient, accessible, and high-quality care. 3 Role of Intelligent Platforms in Postoperative Rehabilitation Outcomes 3.1 The support and tracking of postoperative recovery progress through systematic health monitoring Intelligent platforms play a crucial role in supporting and tracking postoperative recovery progress through systematic health monitoring. These platforms utilize various technologies such as wearable devices, mobile
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