Smith+Nephew has announced the launch of its next-generation LEAF Platform, a wearable sensor-based remote patient monitoring system designed to support postoperative recovery and improve care delivery outside the hospital setting. The LEAF Platform launch represents the company’s continued focus on expanding its digital health portfolio with technology aimed at tracking patient recovery following orthopaedic surgery.
The updated LEAF Platform features a redesigned wearable sensor that is smaller, more comfortable, and easier for patients to use at home. The system enables care teams to remotely monitor patient progress by collecting data on physical activity and rehabilitation adherence during the recovery period. The platform is intended to give clinicians meaningful, real-time visibility into how patients are recovering after procedures such as total knee and total hip replacements.
According to Smith+Nephew, the next-generation system includes improvements in sensor design and connectivity, making it more practical for widespread clinical use. The company indicated that the LEAF Platform is part of its broader digital and robotics strategy, which is focused on delivering connected care solutions that bridge the gap between surgical procedures and long-term patient outcomes. Remote patient monitoring through wearable sensor technology has increasingly become a priority for healthcare providers seeking to manage patient recovery more efficiently while reducing unnecessary clinical visits.
Smith+Nephew stated that the LEAF Platform launch aligns with growing demand among healthcare systems for scalable digital tools that extend the reach of clinical care teams. The platform is designed to integrate into existing care workflows, allowing providers to act on recovery data without disrupting established protocols. With the next-generation LEAF Platform now available, Smith+Nephew reinforces its position in the expanding remote patient monitoring market, where wearable sensor adoption continues to gain traction across orthopaedic and rehabilitation settings.
