A New Generation of Reusable SpO₂ Sensors Launched – Accurate Blood Oxygen Monitoring Enters the High-Precision Era

[Beijing, October 23, 2025] Amidst the rapid advancement of global medical monitoring technology, a new reusable SpO₂ sensor was recently officially released. Its high accuracy, durability, and environmental performance have attracted significant attention from medical institutions and research organizations. This innovative product marks the transition of blood oxygen saturation monitoring technology from "accurate" to "ultra-precise."

According to the R&D team, this new generation sensor utilizes advanced multi-wavelength spectral measurement and intelligent algorithm fusion technology to effectively reduce errors caused by skin pigmentation, ambient light, and motion interference. In actual clinical testing, its blood oxygen saturation (SpO₂) measurement accuracy has reached within ±1%, far exceeding international standards. Furthermore, the sensor operates stably in a variety of complex environments and is suitable for a variety of populations, including adults, children, and newborns.

One of the product's greatest highlights is its reusable design. Traditional disposable SpO₂ probes are frequently used and discarded in medical institutions, placing a significant environmental burden. The newly launched Reusable SpO₂ Sensor, made of high-molecular medical-grade silicone, can be sterilized repeatedly at high temperatures without compromising performance. This not only reduces healthcare costs but also significantly reduces medical waste.

Industry experts point out that the launch of this high-precision, reusable sensor will provide more reliable data support for hospitals, home monitoring devices, and telemedicine platforms. With the widespread adoption of smart health devices, accurate physiological parameter collection is crucial for early warning and personalized diagnosis and treatment.

The product has already passed multiple international safety and performance certifications and is scheduled for global market launch by the end of this year. The R&D team stated that they will further optimize the algorithm, combining artificial intelligence with big data analysis to achieve comprehensive monitoring of respiration, heart rate, and other vital signs, providing a more solid technical foundation for the smart healthcare ecosystem.