The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 Y- Lumbar Catheter consists of a F5 (ID: 0.8 mm) radiopaque silicone
The Integra Y- Lumbar Catheter consists of a F5 (ID: 0.8 mm) radiopaque silicone tubing with two open-ended arms (75 mm each) featuring several rows of inlet holes. The Y-shape consists of a 30 degree angle connection between the arms and the drainage catheter. The catheter overall length is 80 cm. A F5 radiopaque silicone Suture Clamp and a F8 -F5 radiopaque polypropylene Stepdown Connector (OD: 1.8 and 1.5 mm; ID: 0.8 mm) are supplied with the catheter.
The Integra Flow Regulating Valves Low Flow (Standard, Mini) are implantable hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 Lumbar are implantable hydrocephalu
The Integra Flow Regulating Valves Low Flow Lumbar are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the lumbar subarachnoid region to the peritoneal cavity. 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 Lumbar are implantable hydrocephalu
The Integra Flow Regulating Valves Low Flow Lumbar are implantable hydrocephalus valve systems for controlled cerebrospinal fluid (CSF) drainage from the lumbar subarachnoid region to the peritoneal cavity. 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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 hyd
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 Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s
The Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s effects on the fluid column within the drainage catheter of an implanted shunt system. The GCA consists of a silicone elastomer encased stainless steel housing with a ruby ball held in a stainless steel seat (in the vertical orientation) by two to four stainless steel balls. In the horizontal orientation, a minimal resistance to flow (<30mmH2O at 5ml/h) is added to the system, and in the vertical orientation: 140-170, 200-250 or 260-320mmH2O (at 5ml/h).
The Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s
The Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s effects on the fluid column within the drainage catheter of an implanted shunt system. The GCA consists of a silicone elastomer encased stainless steel housing with a ruby ball held in a stainless steel seat (in the vertical orientation) by two to four stainless steel balls. In the horizontal orientation, a minimal resistance to flow (<30mmH2O at 5ml/h) is added to the system, and in the vertical orientation: 140-170, 200-250 or 260-320mmH2O (at 5ml/h).
The Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s
The Gravity Compensating Accessory (GCA) is designed to counterbalance gravity’s effects on the fluid column within the drainage catheter of an implanted shunt system. The GCA consists of a silicone elastomer encased stainless steel housing with a ruby ball held in a stainless steel seat (in the vertical orientation) by two to four stainless steel balls. In the horizontal orientation, a minimal resistance to flow (<30mmH2O at 5ml/h) is added to the system, and in the vertical orientation: 140-170, 200-250 or 260-320mmH2O (at 5ml/h).
The Integra NeuroSciences Ventricular Catheter is a 25 cm silicone elastomer tub
The Integra NeuroSciences Ventricular Catheter is a 25 cm silicone elastomer tubing with full barium impregnation. Numbered length markers are located 5 and 10 cm from the proximal end. Length marker dots are located at 1 cm increments 3 to 14 cm from the proximal end. The proximal end presents fourty (40) flow holes. The proximal tip is constructed of molded, barium sulfate impregnated silicone to provide smooth, consistent end, which aid catheter placement. A stainless steel stylet and a right angle guide are provided.
Connectors are implantable accessories intended to be used with Integra Hydrocep
Connectors are implantable accessories intended to be used with Integra Hydrocephalus Valve Systems for connection between an implanted ventricular catheter or drainage catheter and a CSF Shunt System.
Connectors are implantable accessories intended to be used with Integra Hydrocep
Connectors are implantable accessories intended to be used with Integra Hydrocephalus Valve Systems for connection between an implanted ventricular catheter or drainage catheter and a CSF Shunt System.
Connectors are implantable accessories intended to be used with Integra Hydrocep
Connectors are implantable accessories intended to be used with Integra Hydrocephalus Valve Systems for connection between an implanted ventricular catheter or drainage catheter and a CSF Shunt System.
Connectors are implantable accessories intended to be used with Integra Hydrocep
Connectors are implantable accessories intended to be used with Integra Hydrocephalus Valve Systems for connection between an implanted ventricular catheter or drainage catheter and a CSF Shunt System.
Connectors are implantable accessories intended to be used with Integra Hydrocep
Connectors are implantable accessories intended to be used with Integra Hydrocephalus Valve Systems for connection between an implanted ventricular catheter or drainage catheter and a CSF Shunt System.
The Camino Flex Ventricular Intracranial Pressure Monitoring Kit is indicated wh
The Camino Flex Ventricular Intracranial Pressure Monitoring Kit is indicated when direct and continuous intraventricular intracranial pressure monitoring and cerebrospinal fluid drainage are required. The catheter is embedded with a strain gauge pressure transducer.The system is designed for no more than five days of continuous monitoring.
The Radiopaque Polypropylene Plug consists of a Tubing Plug provided for surgeon
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 Integral Drainage Set (IDS) consists of a one-piece assembly (male Luer-lock
The Integral Drainage Set (IDS) consists of a one-piece assembly (male Luer-lock connector; small diameter drainage inlet tube with attached clamp, check valve, and silicone band; graduated bag with hydrophobic vent filter, drip chamber, suspension string with adjustable clip; large diameter drainage collector; outlet tube with clamp, watertight cap and silicone band); a 360° three-way stopcock with Luer-lock connectors; two stopcock protection boxes.
The External Drainage Set (EDS) consists of: an extension tubing line with a T f
The External Drainage Set (EDS) consists of: an extension tubing line with a T fitting and a four-way stopcock; a one-piece drainage tube assembly, including a patient line with a T fitting, a tubing, an antireflux valve, a 75 ml cylinder and a drainage tubing; a drainage bag with female luer lock connector, a suspension hook and a hydrophobic filter; a 350 mm H2O drainage pressure scale. A Ventricular Catheter Accessory Kit (VCAK). A Pressure Transducer.
The External Drainage Set (EDS) consists of: an extension tubing line with a T f
The External Drainage Set (EDS) consists of: an extension tubing line with a T fitting and a four-way stopcock; a one-piece drainage tube assembly, including a patient line with a T fitting, a tubing, an antireflux valve, a 75 ml cylinder and a drainage tubing; a drainage bag with female luer lock connector, a suspension hook and a hydrophobic filter; a 350 mm H2O drainage pressure scale. A Lumbar Catheter Accessory Kit (LCAK).
6 Drainable Collection Bags, 500 ml, with female Luer-lock connector, a suspensi
6 Drainable Collection Bags, 500 ml, with female Luer-lock connector, a suspension hook, and a hydrophobic filter.
Replacement Drainage Bag, 500 ml, with female Luer-lock connector, a suspension
Replacement Drainage Bag, 500 ml, with female Luer-lock connector, a suspension hook, and a hydrophobic filter.
The External Drainage Set (EDS) consists of: an extension tubing line with a T f
The External Drainage Set (EDS) consists of: an extension tubing line with a T fitting and a four-way stopcock; a one-piece drainage tube assembly, including a patient line with a T fitting, a tubing, an antireflux valve, a 75 ml cylinder and a drainage tubing; a drainage bag with female luer lock connector, a suspension hook and a hydrophobic filter; a 350 mm H2O drainage pressure scale. It also includes a Ventricular Catheter Accessory Kit.
The External Drainage Set (EDS) consists of: an extension tubing line with a T f
The External Drainage Set (EDS) consists of: an extension tubing line with a T fitting and a four-way stopcock; a one-piece drainage tube assembly, including a patient line with a T fitting, a tubing, an antireflux valve, a 75 ml cylinder and a drainage tubing; a drainage bag with female luer lock connector, a suspension hook and a hydrophobic filter; a 350 mm H2O drainage pressure scale.
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a p
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a polypropylene needle-stop, and an F8 integrated connector. The CSF Reservoir can be provided alone. Other configurations include a right angle ventricular catheter (7 cm or 9 cm length) and a 15 cm introducing rod, or a 15 cm straight ventricular catheter and a right angle guide. The ventricular catheter features radiopaque length markings at 2, 4, 6, 8, 10 cm from the tip.
LKG
PORT & CATHETER, IMPLANTED, SUBCUTANEOUS, INTRAVENTRICULAR
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a p
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a polypropylene needle-stop, and an F8 integrated connector. The CSF Reservoir can be provided alone. Other configurations include a right angle ventricular catheter (7 cm or 9 cm length) and a 15 cm introducing rod, or a 15 cm straight ventricular catheter and a right angle guide. The ventricular catheter features radiopaque length markings at 2, 4, 6, 8, 10 cm from the tip.
LKG
PORT & CATHETER, IMPLANTED, SUBCUTANEOUS, INTRAVENTRICULAR
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a p
The CSF Reservoir consists of a silicone dome-shaped reservoir incorporating a polypropylene needle-stop, and an F8 integrated connector. The CSF Reservoir can be provided alone. Other configurations include a right angle ventricular catheter (7 cm or 9 cm length) and a 15 cm introducing rod, or a 15 cm straight ventricular catheter and a right angle guide. The ventricular catheter features radiopaque length markings at 2, 4, 6, 8, 10 cm from the tip.
LKG
PORT & CATHETER, IMPLANTED, SUBCUTANEOUS, INTRAVENTRICULAR
Contour-Flex Valve Unit, Small, Medium Pressure for ventricular shunting of cere
Contour-Flex Valve Unit, Small, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve Unit, Small, Low Pressure for ventricular shunting of cerebro
Contour-Flex Valve Unit, Small, Low Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve Unit, Small, High Pressure for ventricular shunting of cerebr
Contour-Flex Valve Unit, Small, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve Unit, Regular, Medium Pressure for ventricular shunting of ce
Contour-Flex Valve Unit, Regular, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve Unit, Regular, Low Pressure for ventricular shunting of cereb
Contour-Flex Valve Unit, Regular, Low Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve Unit, Regular, High Pressure for ventricular shunting of cere
Contour-Flex Valve Unit, Regular, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cere
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of ce
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of ce
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cere
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of ce
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of ce
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cere
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of ce
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of ce
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cere
Contour-Flex Valve System, Small, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of ce
Contour-Flex Valve System, Small, Medium Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of ce
Contour-Flex Valve System, Regular, High Pressure for ventricular shunting of cerebrospinal fluid.
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of
Contour-Flex Valve System, Regular, Medium Pressure for ventricular shunting of cerebrospinal fluid.
The AccuDrain™ External CSF Drainage System is used to drain cerebrospinal fluid
The AccuDrain™ External CSF Drainage System is used to drain cerebrospinal fluid (CSF) from the ventricles of the brain or the lumbar subarachnoid space to a drainage bag. System components facilitate CSF drainage, CSF sampling and intracranial pressure (ICP) monitoring. Monitoring of intracranial pressure (ICP) is usually performed in selected patients with severe head injury, subarachnoid hemorrhage, Reyes syndrome or similar encephalopathies, hydrocephalus, hydrocephalic shunt infections, intracranial hemorrhage and pre and/or post-operative monitoring.
The Integra Essential Shunt Kit-Flat Bottom Design is designed to deliver CSF fr
The Integra Essential Shunt Kit-Flat Bottom Design is designed to deliver CSF from the ventricles of the brain to the peritoneal cavity. Each kit contains one CSF flushing reservoir with attached 120cm kink-resistant striped peritoneal tubing. The CSF flow control valve is located inside the peritoneal tubing immediately distal to the reservoir. One 18cm ventricular catheter with stylet and one right-angle ventricular catheter guide are also included.
The Integra Essential Shunt Kit-Flat Bottom Design is designed to deliver CSF fr
The Integra Essential Shunt Kit-Flat Bottom Design is designed to deliver CSF from the ventricles of the brain to the peritoneal cavity. Each kit contains one CSF flushing reservoir with attached 120cm kink-resistant striped peritoneal tubing. The CSF flow control valve is located inside the peritoneal tubing immediately distal to the reservoir. One 18cm ventricular catheter with stylet and one right-angle ventricular catheter guide are also included.
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design c
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design contains one 16mm CSF Flow Control Valve, one 18cm Ventricular Catheter with stylet and one 120cm open-ended peritoneal catheter. The CSF flow control valve, designed for placement in a formal burr hole, is a spherically shaped, silicone elastomer device used for the treatment of hydrocephalic patients when shunting cerebrospinal fluid (CSF) from the ventricles of the brain. The valve incorporates an internal high pressure diaphragm for proximal control of CSF flow. The device also provides one-way flow control. The kit is designed to deliver CSF from the ventricles of the brain to the peritoneal cavity.
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design c
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design contains one 16mm CSF Flow Control Valve, one 18cm Ventricular Catheter with stylet and one 120cm open-ended peritoneal catheter. The CSF flow control valve, designed for placement in a formal burr hole, is a spherically shaped, silicone elastomer device used for the treatment of hydrocephalic patients when shunting cerebrospinal fluid (CSF) from the ventricles of the brain. The valve incorporates an internal medium pressure diaphragm for proximal control of CSF flow. The device also provides one-way flow control. The kit is designed to deliver CSF from the ventricles of the brain to the peritoneal cavity.
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design c
HS ESSENTIAL CSF SHUNT SYSTEMThe Integra Essential Shunt Kit- Burr Hole Design contains one 16mm CSF Flow Control Valve, one 18cm Ventricular Catheter with stylet and one 120cm open-ended peritoneal catheter. The CSF flow control valve, designed for placement in a formal burr hole, is a spherically shaped, silicone elastomer device used for the treatment of hydrocephalic patients when shunting cerebrospinal fluid (CSF) from the ventricles of the brain. The valve incorporates an internal low pressure diaphragm for proximal control of CSF flow. The device also provides one-way flow control. The kit is designed to deliver CSF from the ventricles of the brain to the peritoneal cavity.
Integra™ Ventricular Drainage System provides a sterile path for the drainage of
Integra™ Ventricular Drainage System provides a sterile path for the drainage of cerebrospinal fluid (CSF) from an intraventricular catheter to a collection bag. The system can be used for external drainage, and the management of hydrocephalic shunt infections, or treatment of other cerebral conditions such as pre-operative or post-operative pressure monitoring of CSF to control increased intracranial pressure.
The silicone elastomer Integra CSF Reservoir, in connection with a ventricular c
The silicone elastomer Integra CSF Reservoir, in connection with a ventricular catheter, is designed to provide access to the brain and/or CSF. The Convertible model incorporates an outlet tube in addition to an inlet tube. The outlet tube may be connected to a distal catheter, allowing the reservoir to be used in a shunting system, if later indicated. The 2.5cm base diameter reservoir is a flat bottom design; the 1.5cm base diameter reservoir is a burr-hole model.
The Evolution Pole Mount Assembly provides support and alignment for the Externa
The Evolution Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular or lumbar catheter to an external CSF drainage system. This Integra Pole Mount is provided with a laser leveling device and an optional line level. The laser level is attached via a bracket.
The Evolution Pole Mount Assembly provides support and alignment for the Externa
The Evolution Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular or lumbar catheter to an external CSF drainage system. This Integra Pole Mount is provided with a laser leveling device and an optional line level. The laser level is attached via a bracket.
The Evolution Pole Mount Assembly provides support and alignment for the Externa
The Evolution Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular or lumbar catheter to an external CSF drainage system. This Integra Pole Mount is provided with a laser leveling device and an optional line level. The laser level is attached via a bracket.
The Pole Mount Laser Level device is provided with mounting bracket for use with
The Pole Mount Laser Level device is provided with mounting bracket for use with Integra Pole Mount Assemblies. The Pole Mount Laser provides alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular catheter or lumbar catheter to an external ventricular drainage system.
The Evolution Pole Mount Assembly provides support and alignment for the Externa
The Evolution Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular or lumbar catheter to an external CSF drainage system. This Integra Pole Mount is provided with a laser leveling device and an optional line level. The laser level is attached via a bracket.
The Evolution Pole Mount Assembly provides support and alignment for the Externa
The Evolution Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems. These systems are used for draining CSF from an intraventricular or lumbar catheter to an external CSF drainage system. This Integra Pole Mount is provided with a laser leveling device and an optional line level. The laser level is attached via a bracket.
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail: The Pole Mount Asse
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail: The Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems (EVD). These systems are used for draining CSF from an intraventricular catheter to the external ventricular drainage system. A Pole Mount Sliding Bracket is supplied with each Pole Mount Assembly. The Pole Mount Sliding Bracket is used to secure the EVD system to the rail on the Pole Mount Assembly.
The MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail provides support
The MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail provides support and alignment for External Ventricular Drainage (EVD) Systems. These systems are used for draining cerebrospinal fluid (CSF) from an intraventricular catheter to the external ventricular drainage system.
The Integra Pole Mount Sliding Bracket can be used with Integra External Ventric
The Integra Pole Mount Sliding Bracket can be used with Integra External Ventricular Drainage (EVD) systems and may also be used as a replacement assembly or accessory component. The Integra Pole Mount Sliding Bracket is used to secure the EVD system to the rail of the Pole Mount Assembly.
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail and Laser Leveling D
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg Rail and Laser Leveling Device: The Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems (EVD). These systems are used for draining CSF from an intraventricular catheter to the external ventricular drainage system. A Pole Mount Sliding Bracket is supplied with each Pole Mount Assembly. The Pole Mount Sliding Bracket is used to secure the EVD system to the rail on the Pole Mount Assembly.
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg rail: The Pole Mount Asse
MoniTorr ICP Pole Mount Assembly with cm H2O and mm Hg rail: The Pole Mount Assembly provides support and alignment for the External CSF Drainage and Monitoring Systems (EVD). These systems are used for draining CSF from an intraventricular catheter to the external ventricular drainage system. A Pole Mount Sliding Bracket is supplied with each Pole Mount Assembly. The Pole Mount Sliding Bracket is used to secure the EVD system to the rail on the Pole Mount Assembly.