Process and arrangement for determining the perfusion factor of a gas in a sample
First Claim
1. A device for determining the perfusion factor of a gas carried in blood perfused in animal tissue, the device comprising, in combination, a sensor unit adapted to be placed against the animal tissue, the sensor unit including a metallic reference electrode having a flat surface adapted to be placed against the animal tissue and defining a measuring surface, a sensor electrode located at said measuring surface, means including an electrolyte establishing electrolytic contact between the metallic reference electrode and the sensor electrode, and a metallic diathermy electrode structure including a portion located at said measuring surface;
- polarographic measuring means connected across the reference and sensor electrodes and operative for establishing a potential difference thereacross and performing a polarographic measurement and indication of the concentration of the gas of interest;
a controllable-output-power high-frequency voltage sources means having one output terminal electrically connected to the metallic reference electrode and another output terminal electrically connected to the metallic diathermy electrode structure and operative for establishing between the reference electrode and the diathermy electrode structure a high-frequency dielectric heating field operative for diathermally generating heat within dielectric constituents of the tissue against which the sensor unit is placed;
means operative for sensing the temperature of the metallic reference electrode in order to detect transfer of heat from the diathermally heated tissue to the reference electrode, and in dependence upon the sensed temperature electrode, and in dependence upon the sensed temperature of the reference electrode automatically adjusting the high-frequency voltage source means to maintain the temperature of the reference electrode constant at a predetermined value; and
means for indicating the heating power supplied by the high-frequency voltage source means.
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Accused Products
Abstract
A process and an arrangement for determining the perfusion factor of a gas in a sample, particularly of oxygen dissolved in blood flowing through biological tissue, includes measuring the amount of gas diffused from the sample by means of a polarographic cell which comprises a reference electrode having a heat conductive surface which is adapted to be placed in heat-transmitting relationship over a portion of the sample, and a sensor electrode in electrolytic contact with the reference electrode so as to generate a signal indicative of the amount of gas being diffused from the sample portion. A heating unit comprising a high frequency generator to establish a high frequency field in the sample is also provided for heating the sample diathermically to a desired temperature. The temperature of the sample is thereupon detected by a temperature sensor attached to the heat conducting surface, which is operative to generate a control signal for the heating unit which is operative to maintain the temperature of the reference electrode at a substantially constant value. The amount of heat furnished by the heating unit to the reference electrode which is equivalent to the flow of blood stream is thereupon measured so that the perfusion factor of the gas is determinable from the aforementioned measured amounts of gas diffused from the sample portion and of heat supplied to the same.
10 Citations
9 Claims
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1. A device for determining the perfusion factor of a gas carried in blood perfused in animal tissue, the device comprising, in combination, a sensor unit adapted to be placed against the animal tissue, the sensor unit including a metallic reference electrode having a flat surface adapted to be placed against the animal tissue and defining a measuring surface, a sensor electrode located at said measuring surface, means including an electrolyte establishing electrolytic contact between the metallic reference electrode and the sensor electrode, and a metallic diathermy electrode structure including a portion located at said measuring surface;
- polarographic measuring means connected across the reference and sensor electrodes and operative for establishing a potential difference thereacross and performing a polarographic measurement and indication of the concentration of the gas of interest;
a controllable-output-power high-frequency voltage sources means having one output terminal electrically connected to the metallic reference electrode and another output terminal electrically connected to the metallic diathermy electrode structure and operative for establishing between the reference electrode and the diathermy electrode structure a high-frequency dielectric heating field operative for diathermally generating heat within dielectric constituents of the tissue against which the sensor unit is placed;
means operative for sensing the temperature of the metallic reference electrode in order to detect transfer of heat from the diathermally heated tissue to the reference electrode, and in dependence upon the sensed temperature electrode, and in dependence upon the sensed temperature of the reference electrode automatically adjusting the high-frequency voltage source means to maintain the temperature of the reference electrode constant at a predetermined value; and
means for indicating the heating power supplied by the high-frequency voltage source means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- polarographic measuring means connected across the reference and sensor electrodes and operative for establishing a potential difference thereacross and performing a polarographic measurement and indication of the concentration of the gas of interest;
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9. A method for determining the perfusion factor of a gas carried in blood perfused in animal tissue, the method comprising, in combination, the steps of placing against the animal tissue a sensor unit comprised of a metallic reference electrode having a flat surface placed against the tissue and defining a measuring surface, a sensor electrode located at said measuring surface, means including an electrolyte establishing electrolytic contact between the metallic reference electrode and the sensor electrode, and a metallic diathermy electrode structure including a portion located at said measuring surface;
- connecting across the reference and sensor electrodes a polarographic measuring and indicating device and performing a polarographic measurement and an indication of the concentration of the gas of interest;
connecting across the reference electrode and the diathermy electrode structure a high-frequency voltage source and establishing between the diathermy electrode structure and the reference electrode a high-frequency dielectric heating field effecting diathermal generation of heat within dielectric constituents of the tissue against which the sensor unit has been placed;
using a temperature sensor to generate a signal indicating the temperature of the metallic reference electrode and using the signal to adjust the heating power output of the voltage source to maintain the temperature of the reference electrode constant at a predetermined value; and
using an indicator connected to the voltage source for generating an indication of the heating power supplied by the voltage source.
- connecting across the reference and sensor electrodes a polarographic measuring and indicating device and performing a polarographic measurement and an indication of the concentration of the gas of interest;
Specification
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- Resources
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Current AssigneeAlbert Huch
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Original AssigneeL Eschweiler & Company
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InventorsHuch, Albert, Lubbers, Dietrich Werner
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Primary Examiner(s)Michell, Robert W.
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Assistant Examiner(s)Thaler, Michael H.
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Application NumberUS05/704,295Time in Patent Office799 DaysField of Search128/2 E, 128/2.1 E, 204/195 B, 128/2 A, 128/2 G, 128/2 L, 128/2 R, 128/2.05 V, 204/195 P, 204/1 PUS Class Current600/359CPC Class CodesA61B 5/14542 for measuring blood gases A...A61B 5/1477 non-invasiveA61B 5/1491 Heated applicators
