Multifunctional neuromonitoring catheters
The microchip catheter program for diagnostic applications in neurosurgery clinics and practices.
RAUMEDIC offers a wide range of microchip catheters for parenchyma as well as ventricular and epidural pressure measurement.
The precision pressure catheters are used in neurosurgical procedures for the reliable measurement of Intracranial Pressure (ICP), Intracranial Temperature (ICT) and Oxygen Partial Pressure (ptiO2).
Advantages of RAUMEDIC catheters:
- Parenchymal pressure, temperature and ptiO2 measurement in one single catheter
- Plug & Play system – no catheter calibration required
- Compatible with most standard patient monitors
- Excellent measurement stability and linearity
- MR conditional at 1.5 T and 3.0 T – no surgical intervention and disposition of the catheter required for the imaging process (such as MRI and CT)
Catheters for Parenchymal Measurement
Specialized catheters for parenchymal measurement enable a precise assessment of crucial parameters: Intracranial Pressure (ICP), Intracranial Temperature (ICT), and Oxygen Partial Pressure (ptiO2). RAUMEDIC catheters are designed for direct placement into the brain tissue (parenchyma), allowing for accurate monitoring of vital parameters.
Catheters for Ventricular Measurement
Ventricular measurement, an important neuromonitoring technique, involves inserting a special catheter into the fluid-filled lateral ventricle of the brain. This allows the measurement of both Intracranial Pressure (ICP) and Intracranial Temperature (ICT) while simultaneously draining the Cerebrospinal Fluid (CSF). RAUMEDIC offers a variety of catheters for ventricular neuromonitoring with measurement catheters.
Catheters for Epidural Measurement
RAUMEDIC provides specialized catheters designed for epidural measurement of Intracranial Pressure (ICP), with one model offering the added option of measuring Intracranial Temperature (ICT). Epidural catheters are positioned between the dura mater (outermost layer of brain coverings) and the inner skull surface.
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