Brain damage monitor
First Claim
1. A method for assessment of the outcome of brain injury resulting in pathological processes affecting cells within a portion of in animal, including a human, comprising the steps of(a) applying a first pair of electrodes about the periphery of the portion,(b) applying a second pair of electrodes also about the periphery of the portion,(c) generating an alternating current at a known current level,(d) applying the alternating current between the second pair of electrodes,(e) detecting and measuring the alternating voltage developed between the first pair of electrodes,(f) repeatedly calculating the impedance of the portion, and(g) noting the time course of any changes in the impedance.
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Accused Products
Abstract
An impedance monitor (100) is adapted for use in long-term monitoring of intracellular (neuronal) swelling in the brains (102) of mammals over periods of hours or days. The monitor has an electrically isolated current source (103), supplying a one microampere AC square waveform at 200 Hz. This current is passed through an outer pair of electrodes (104, 105) of a four-electrode arrangement having skin electrodes, extradural electrodes, or in some cases surface electrodes embedded in surgical retractors. Sensing electrode pairs (107, 108) may also detect EEG activity. Impedance changes are displayed graphically (109). Multiple electrode arrays may be used for localization of affected portions of the brain. Even trans-cranially measured impedances reflect intracellular oedema and are clinically useful indicators of treatment efficacy and outcome in cases of ischaemia, asphyxia, trauma, and the like.
100 Citations
10 Claims
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1. A method for assessment of the outcome of brain injury resulting in pathological processes affecting cells within a portion of in animal, including a human, comprising the steps of
(a) applying a first pair of electrodes about the periphery of the portion, (b) applying a second pair of electrodes also about the periphery of the portion, (c) generating an alternating current at a known current level, (d) applying the alternating current between the second pair of electrodes, (e) detecting and measuring the alternating voltage developed between the first pair of electrodes, (f) repeatedly calculating the impedance of the portion, and (g) noting the time course of any changes in the impedance.
- 9. Apparatus capable of determining the electrical impedance and monitoring changes of the electrical impedance of a damaged brain, comprising means capable of generation of an alternating current at a known current level, means capable of measuring the voltage drop produced across a first pair of electrode means as a consequence of the passage of the alternating current between a second pair of electrode means and through the brain, characterised in that the measurement moans is capable of coherent detection or demodulation of the voltage developed between the first pair of electrodes.
Specification