NEURO DIAGNOSTIC DEVICES, INC.
NEURO DIAGNOSTIC DEVICES, INC. Patent applications | ||
Patent application number | Title | Published |
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20140005589 | CEREBROSPINAL FLUID EVALUATION SYSTEM HAVING THERMAL FLOW AND FLOW RATE MEASUREMENT PAD USING A PLURALITY OF CONTROL SENSORS | 01-02-2014 |
20110054382 | CEREBROSPINAL FLUID EVALUATION SYSTEM HAVING THERMAL FLOW AND FLOW RATE MEASUREMENT PAD USING A PLURALITY OF CONTROL SENSORS - A method and device for testing for the presence, absence and/or rate of flow in a shunt tubing implanted under the skin by using a measurement pad having a plurality of temperature sensors, one of which is aligned with the shunt and the other sensors being symmetrically displaced on either side of the first temperature sensor in a direction transverse to the shunt tubing. These “outer” temperature sensors act as control temperature sensors. A temperature source, e.g., a cooling agent, positioned within an insulated enclosure, is then applied at a predetermined location on the measurement pad that is insulated from the temperature sensors. The movement of this temperature “pulse” is detected by the shunt-aligned temperature sensor via the shunt tubing as the CSF carries the temperature pulse while the control sensors detect the pulse via convection through the skin. The temperature data from these sensors are provided to a CSF analyzer that determines a CSF shunt flow status or flow rate. | 03-03-2011 |
20080214951 | Cerebrospinal Fluid Evaluation Systems - Methods and devices for testing for the presence, absence and/or rate of flow in a shunt tubing implanted under the skin by using a measurement pad having a plurality of temperature sensor configurations, or by using other temperature sensor arrangements, or by using a temperature sensitive material, which are positioned over, or in the vicinity of, the CSF shunt in substantially an upstream and downstream orientation. A temperature source, e.g., a cooling agent, is then applied at a predetermined location with respect to the measurement pad that is insulated from the temperature sensors, or to the temperature sensitive material. The movement of this temperature “pulse” is detected by the temperature sensors, or temperature sensitive material, via the shunt tubing as the CSF carries the temperature pulse while a control sensor detects the pulse via convection through the skin. The temperature data from these sensors are provided to a CSF analyzer that subtracts the control sensor data from each of the other sensors for determining a CSF shunt flow status or flow rate. A reader is used to optically or electrically detect the changes in the temperature sensitive material for determining a CSF shunt flow status or flow rate. | 09-04-2008 |