收藏: 医疗传感器

许多医疗程序涉及气体管理，而气体管理会影响患者的健康和安全。气体监测可确保患者在麻醉管理、呼吸治疗和氧气 (O2) 治疗等程序期间获得正确的气体浓度。监测氧气等气体有助于预防缺氧、高碳酸血症和麻醉过量等不良事件，确保患者的安全和健康。

对于呼吸衰竭或肺功能受损的患者，机械通气是重症监护和呼吸支持的一个重要方面。气体监测可帮助医疗保健提供者评估患者通气参数、监测气体交换并优化呼吸机设置，以确保充足的氧合和通气，同时最大限度地降低呼吸机相关并发症的风险。

氧疗通常用于治疗呼吸功能不全或低氧血症患者。气体监测可确保患者接受规定的 O2 浓度，并帮助医疗保健提供者根据患者的反应和 O2 饱和度水平调整治疗。监测 O2 水平还有助于防止 O2 中毒和与过度暴露相关的其他不良影响。

医院和医疗机构依靠集中式医用气体供应系统向患者护理区提供氧气、氮气和医用空气等气体。气体监测通过检测泄漏、压力波动和其他可能影响气体输送和患者护理的异常情况来确保这些系统的完整性和安全性。

Accurate O2 monitoring is vital for both acute therapy and long-term concentrator use, where consistent performance directly affects patient outcomes. Whether supporting hospital-based respiratory care or home-care systems for chronic conditions, precise O2 measurement helps ensure that patients receive the prescribed therapy safely and effectively.

Our medical O2 sensors provide the dependable measurement, fast response and long-term stability needed to support patient safety and device reliability.

With multiple connectors available including Molex and Jack fitting, our medical O2 sensors have the performance and value proposition to suit a variety of high-quality O2 delivery devices.

Greater awareness of digestive issues and personal gut health is driving increased use of breath testing as a fast and accurate method of gaining insights into a patient’s digestive function.

H2 levels in exhaled breath are a key biomarker for conditions such as lactose intolerance, Small Intestinal Bacterial Overgrowth (SIBO), and carbohydrate malabsorption, making accuracy essential for effective diagnosis and treatment planning.

We have drawn upon our extensive experience in industrial H2 monitoring and detection to develop a medical sensor which provides accurate, stable and repeatable results without cross-sensitivity to CO. This step forward in performance and longevity helps instrument OEMs deliver even greater accuracy in the next generation of their instruments.

The monitoring of potentially hazardous gases in medical facilities and systems is critical for the protection of hospital staff and patients alike.

With modern sterilisation, disinfection and decontamination processes frequently relying on gases such as Ethylene Oxide (ETO), Ozone (O3) and NO2, there is an increasing need to monitor medical facilities for leakage, to prevent overexposure and ensure safe room re-entry after sterilisation cycles.

At DD-Scientific, we have been making ETO, O3 and NO2 sensors for a range of industrial safety applications for many years. We have leveraged this experience in the development of our medical range, resulting in high-performance, fast-responding sensors which enable instrument manufacturers to outperform their competitors in medical applications.