The Adtech 403315 is a sterile, single-use medical electrode strip designed for temporary neurophysiological monitoring and recording of brain electrical activity. Engineered for applications requiring precise localization of epileptogenic foci and functional brain mapping, this narrow-body electrode strip integrates platinum or stainless steel contacts with configurable spacing and exposure geometry to meet diverse implantation and recording protocols.
– Technical Specifications
• Contact material: Platinum or stainless steel
• Contact diameter: 4.0 mm
• Contact exposure: 2.3 mm (standard) or 1.8 mm (reduced)
• Spacing configurations: 10 mm or 15 mm
• Strip width: 6 mm or 8 mm
• Contact arrangements: 2-contact (1×2), 4-contact (1×4), 6-contact (1×6), or 8-contact (1×8)
• Contact numbering: Available as numbered or non-numbered
• Design: Thin, flexible narrow-body strips with reinforcement option on non-numbered variants
• Sterility: Sterile, single-use only
• Maximum implant duration: <30 days temporary use
– Key Features
• Visible recording surface for direct electrode identification
• Multiple contact configurations enable flexible array geometry for targeted neural sampling
• Reinforcement available for extended monitoring sessions
• Reduced exposure variant (1.8 mm) accommodates confined electrode sites
• Narrow-body profile facilitates subdural, epidural, and intracerebral placement
• Dual spacing options (10 mm and 15 mm) allow customization for target anatomy
– Typical Applications
• Intraoperative neurophysiological monitoring (IOM)
• Long-term monitoring (LTM) during pre-surgical epilepsy evaluation
• Functional brain mapping and localization of eloquent cortex
• Identification and characterization of epileptogenic zones
• Electrocorticography (ECoG) recording
– Compatibility & Integration
The Adtech 403315 integrates with standard neurophysiological recording, monitoring, and stimulation equipment used in neurosurgical and epilepsy management settings. Electrode configuration and contact spacing should be selected based on specific anatomical targets and recording protocol requirements.
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