Antithrombogenic pO2Sensor for Continuous Intravascular Oxygen Monitoring

An antithrombogenic pO₂ sensor (Anthron^® pO₂ sensor) was produced by coating a hydropholic heparinized polymer (Anthron) on an etched epoxy composite, ultra-microelectrode (microhole electrode). From the in vitro tests, both the response time and stability were satisfactory under the conditions of a 20 μm thickness of Anthron coating and a depth up to 100 μm for the microhole.

Additionally, results of in vivo tests without systemic heparinization demonstrated that a stable real-time measurement of the intravascular p0₂ value was possible for a long period without thrombus formation or adhesion of blood components on the electrode surface of the Anthron pO₂ sensor. Moreover, the measured data agreed with those from the blood gas analyzer.

Due to the thick thrombus formation on the electrode surface, the control (non-coated) sensor was unable to measure the intravascular pO₂, even for a short period of time.