cortiQ PRO is a system that uses g.HIamp to map high-gamma broad band brain acti
cortiQ PRO is a system that uses g.HIamp to map high-gamma broad band brain activity while running an experimental paradigm. The software helps to identify electrode positions coding differences in brain activity by means of experimental paradigm. cortiQ PRO performs the signal analysis in real-time and compares the high-gamma broad band activity during specific tasks. Then it performs a statistical analysis and visualizes electrodes coding the information that are statistically significant. It is abstracted from technical details of data acquisition, channel order and signal processing assuring robust and efficient measurements.
The g.Estim FES is a programmable constant-current stimulator that can deliver e
The g.Estim FES is a programmable constant-current stimulator that can deliver electrical pulses with alternating polarities, lengths, amplitudes as well as trains of such pulses. The applied part is galvanic isolated. The stimulator is powered by a combination of USB bus-power and battery power. The host computer must use Microsoft Windows. The stimulator is controlled via a software API that uses a USB connection. A host application can be situated on top of the API and can control the stimulator.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.HIamp is intended to be used for measuring, recording and analysing of ele
The g.HIamp is intended to be used for measuring, recording and analysing of electrical activityof the brain and/or through the attachment of multiple electrodes at various locations to aid inmonitoring and diagnosis as routinely found in clinical settings for EEG. It captures the data,converts it into digital form and passes it on to a host computer running appropriate software. Thedevice can be used for adults, children, infants and animals.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (E
The g.Nautilus PRO is intended to be used to acquire the electroencephalogram (EEG) and transmit it wirelessly to a computer.
GXY,GWL
Electrode, Cutaneous,Amplifier, Physiological Signal
The g.USBamp is inteded to measuring, recording and analysis of electrical activ
The g.USBamp is inteded to measuring, recording and analysis of electrical activity of the brain (EEG) and/or through the attachment of multiple electrodes at various locations to aid in monitoring and diagnosis as routinely found in clinical settings for the EEG.
The g.USBamp is inteded to measuring, recording and analysis of electrical activ
The g.USBamp is inteded to measuring, recording and analysis of electrical activity of the brain (EEG) and/or through the attachment of multiple electrodes at various locations to aid in monitoring and diagnosis as routinely found in clinical settings for the EEG.
The OCS2PND is a bipolar stimulating probe for cortical stimulation with malleab
The OCS2PND is a bipolar stimulating probe for cortical stimulation with malleable tips for precise localization. The probe has 2 mm diameter polished balls, spaced 5 mm apart, at the tip of the stimulator probe. It has a 310 cm cord with two electrically shrouded banana plugs for attachment to the OCS2 Ojemann Cortical Stimulator. It is reusable, is supplied non-sterile and must be sterilized before use.
The AURAGEN™ Cortical Surface Electrodes are designed for intraoperative monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 cort
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 cort
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 cort
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 cort
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 cort
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 cort
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 cort
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 cort
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 cort
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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 monitor
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.