Disposable Integrated Pressure Transducer Clinically Invasive K&type

Available in various configurations to meet your clinical requirements.

1. Invasive pressure monitoring core functions:

● Directly sensing real-time pressure within blood vessels (such as arteries and veins), cardiac chambers, or body cavities (such as the intracranial or abdominal cavity).

● Converting physical pressure signals into electrical signals with high precision, transmitting them to a monitor, and outputting continuous, dynamic pressure curves and numerical values (such as systolic pressure, diastolic pressure, and mean pressure).

● Designed for single-use, eliminating the risk of cross-infection from re-use and ensuring medical safety.

2. Invasive pressure monitoring main features:

● Continuous and accurate measurement.

● Simple, safe and economical operation.

● The pipelines are marked with different colors for easy distinction in different usage scenarios. 

● Can be matched with beds or infusion stands.

● 3 ml/hour and 30 ml/hour, two flow rates are available.

● Customized services can be provided according to customer requirements.

3. Invasive pressure monitoring key characteristics:

● Biocompatibility: Materials that come into contact with blood or tissue (e.g., polyvinyl chloride, medical-grade silicone, stainless steel) must comply with medical standards such as ISO 10993, and must be free of allergenic, haemolytic, or cytotoxic properties.

● Sterility: Sterilised via ethylene oxide (EO) sterilisation or gamma radiation sterilisation to ensure sterility prior to use; packaging must provide a sterile barrier function.

Single-use design: Intended for single-use only to prevent cross-infection from reuse (e.g., risks of bloodborne diseases).

● High precision and stability: Measurement error typically ≤±2% FS (full scale), ensuring reliable data in critical care monitoring; strong drift resistance to prevent numerical deviations during long-term monitoring.

● Exhaust design: Built-in exhaust structures (e.g., exhaust valves, hydrophobic membranes) effectively remove bubbles (bubbles absorb pressure energy, causing measurement lag or distortion).

● Compatibility: Be compatible with mainstream monitors (e.g., Philips, Mindray, GE, etc.) and standard medical catheters to ensure universal interchangeability.

4. Invasive pressure monitoring application scenarios:

Primarily used in critical care medical scenarios requiring real-time, precise pressure monitoring:

● ICU/CCU: Monitoring of arterial blood pressure (ABP) and central venous pressure (CVP) in critically ill patients to guide fluid resuscitation and vasoactive drug use;

● Operating Room: Monitoring of intracranial pressure (ICP), left atrial pressure (LAP), etc., during cardiac surgery and neurosurgical procedures;

● Emergency Department: Dynamic blood pressure monitoring for patients with traumatic shock to rapidly assess circulatory status;

● Interventional Therapy: Real-time monitoring of intravascular pressure during vascular interventional procedures to prevent vascular damage caused by excessive dilation.

Main technical parameters and working environment requirements: