The peritoneal catheter is used to drain cerebrospinal fluid from the outlet of the valve unit into the peritoneum. The distal end of the catheter has four staggered rows of 6-mm slits, which are not readily visible. If the distal outlet hole of the catheter becomes obstructed, the slits open for drainage. The slits perform optimally in a saline environment after soaking for 24 hours at 37 degrees Celsius.

The peritoneal catheter is used to drain cerebrospinal fluid from the outlet of the valve unit into the peritoneum. The distal end of the catheter has four staggered rows of 6-mm slits, which are not readily visible. If the distal outlet hole of the catheter becomes obstructed, the slits open for drainage. The slits perform optimally in a saline environment after soaking for 24 hours at 37 degrees Celsius.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

Ventricular Catheters are provided Straight, Finned or Right Angle (inner diameter 1.4mm, outer diameter 2.7mm). They are delivered with an Introducer. Marked Ventricular Catheters feature radiopaque Length Markings at 2.0 cm Intervals from the Tip. A Straight or Right Angle Connector, and/or a silicone Right Angle Guide, are supplied as Accessories.

The Radiopaque Polypropylene Plug consists of a Tubing Plug provided for surgeons using the Integral Ventricular Reservoir (IVR) who prefer to use the wire introducer for introduction of the ventricular catheter. The plug allows to close the catheter after its placement.

The OSV II Hydrocephalus Valve System is an implantable device for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart's right atrium. Unlike conventional valves, the OSV II Valve System is a varable resistnace valve which maintains a dreanage rate close to the CSF secretion rate (20 ml/hr) within the physioligical range of intracranial of pressure. 2

The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart’s right atrium. Unlike conventional valves, the Integra Flow Regulating Valve Low Flow is a variable resistance valve that maintains drainage at a constant rate, between 8 and 17 ml/hr, within the physiological range of intracranial pressure.

The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart’s right atrium. Unlike conventional valves, the Integra Flow Regulating Valve Low Flow is a variable resistance valve that maintains drainage at a constant rate, between 8 and 17 ml/hr, within the physiological range of intracranial pressure.

The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart’s right atrium. Unlike conventional valves, the Integra Flow Regulating Valve Low Flow is a variable resistance valve that maintains drainage at a constant rate, between 8 and 17 ml/hr, within the physiological range of intracranial pressure.

The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart’s right atrium. Unlike conventional valves, the Integra Flow Regulating Valve Low Flow is a variable resistance valve that maintains drainage at a constant rate, between 8 and 17 ml/hr, within the physiological range of intracranial pressure.

The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart’s right atrium. Unlike conventional valves, the Integra Flow Regulating Valve Low Flow is a variable resistance valve that maintains drainage at a constant rate, between 8 and 17 ml/hr, within the physiological range of intracranial pressure.

The OSV II Hydrocephalus Valve System is an implantable device for controlled cerebrospinal fluid (CSF) drainage from the ventricles to the peritoneal cavity or other appropriate drainage site such as the heart's right atrium. Unlike conventional valves, the OSV II Valve System is a variable resistance valve which maintains a drainage rate close to the CSF secretion rate (20 ml/hr) within the physiological range of intracranial pressure.

The Auragen™ depth electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are inserted stereotaxically into the brain. Depth electrodes are available with 4 to 12 platinum/iridium contacts. The type of depth electrode used is dependent on the procedure and the size of area being tested.

The Auragen™ depth electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are inserted stereotaxically into the brain. Depth electrodes are available with 4 to 12 platinum/iridium contacts. The type of depth electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The Auragen™ depth electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are inserted stereotaxically into the brain. Depth electrodes are available with 4 to 12 platinum/iridium contacts. The type of depth electrode used is dependent on the procedure and the size of area being tested.

The Auragen™ depth electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are inserted stereotaxically into the brain. Depth electrodes are available with 4 to 12 platinum/iridium contacts. The type of depth electrode used is dependent on the procedure and the size of area being tested.

The Auragen™ depth electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are inserted stereotaxically into the brain. Depth electrodes are available with 4 to 12 platinum/iridium contacts. The type of depth electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.

The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitoring of cortical electrical activity in order to define the location of epileptogenic foci. They are placed on the exposed cortical surface or inserted into the subdural space to contact the cortical surface. Cortical Electrodes are available with platinum contacts and vary in size according to the number of contacts. The type of cortical electrode used is dependent on the procedure and the size of area being tested.