Item number | Dimensions (in) | Weight (g) | Units per box |
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186-0106 | 11 x 1.1 | 3.7 | 25 |
Brain sensors
BIS™ quatro sensor
The BIS™ quatro sensor captures EEG signals from the frontal brain cortex that are processed by the BIS™ algorithm and displayed on the BIS™ monitor.
Features
The BIS™ quatro sensor:
- Is a noninvasive sensor applied to the patient’s forehead
- Offers peel-and-stick simplicity and Zipprep™ technology
- Collects electroencephalograph (EEG) data using BIS™ technology
- Has a density spectral array (DSA) display with unilateral sensors
- Has a spectral edge frequency (SEF) display with unilateral sensors
- Has a median frequency (MF) display with unilateral and bilateral sensors
- Has a suppression time (ST) display
- Generates a continuous live data stream
How does our sensor technology work to capture the low-voltage EEG signal?
- We use a conductive ink that is printed directly on the surface of the sensor, under the adhesive foam and Zipprep™ technology. This creates an electrode surface that is helpful in picking up the low-voltage EEG.
- The Zipprep™ technology helps clear away the first layer of the epidermis. The mechanical action of pressing on the electrode results in the tines clearing away some of the first layer of dead skin cells, exposing the inner, more electrically conductive layer of skin. The conductive gel within the electrode permeates into this newly exposed area, creating a good electrical pathway between the EEG-carrying inner layers of skin and the conductive traces within the sensor. The EEG signal is then carried through these traces to the BIS™ monitor.
- We include a thin layer of sponge that contains a very precise amount of gel. This gel creates a bridge between the forehead and the conductive electrode surface.
These combined components help achieve an optimal environment to acquire and maintain the EEG signal.
Specifications
Shelf life | One and a half years from date of manufacture |
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Connector (paddle) | Polycarbonate plastic (incidental patient contact) |
Tab stiffener | Polycarbonate sheet (no patient contact), one side coated with adhesive |
Module | Copper, brass, Kapton®* (no patient contact) |
Flexible circuit | Polyester screen-printed with cured Ag/AgCI and dielectric inks (incidental patient contact) |
Electrode gel | Potassium chloride (KCI) aqueous gel |
Electrode tines disk | Green nylon plastic |
Electrode sponge disk | Polyurethane, polyester foam |
Electrode tines retaining disk | 1/32 inch white polyethylene foam (no patient contact), both sides coated with medical-grade adhesive |
Basepad | 1/16 inch white polyethylene foam, both sides coasted with medical-grade adhesive |
Liner card | Silicone-coated, high-impact, polystyrene (no patient contact) |
Packaging | Paper, aluminum foil, polyethylene (no patient contact) |
Ordering information
Similar products
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BIS™ bilateral sensorThe BIS™ bilateral sensor captures EEG signals from the left and right hemispheres of the brain's frontal cortex that are processed by the BIS™ algorithm.
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BIS™ extend sensorThe BIS™ extend sensor captures EEG signals from the frontal brain cortex that are processed by the BIS™ algorithm and displayed on the BIS™ monitor.
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BIS™ pediatric sensor
The BIS™ pediatric sensor, intended for children age 4 and above, captures EEG signals from the frontal brain cortex to be displayed on the BIS™ monitor.
The BIS™ monitoring system should not be used as the sole basis for diagnosis or therapy and is intended only as an adjunct in patient assessment. Reliance on the BIS™ monitoring system alone for intraoperative anesthetic management is not recommended.
®* Third-party brands are trademarks of their respective owners.
- Dershwitz M. Should we measure depth of anesthesia? Seminars in Anesthesia, Perioperative Medicine and Pain. 2001;20(4):246–256.