Single use pulse oximeter
First Claim
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1. A method of determining whether a patient is in shock, comprising the steps of:
- a) attaching at least two oximeters of common design to different areas of the patient, wherein each of said oximeters comprises a patch adaptable to be attached to the patient, the patch having mounted thereto a light emitter and a light detector, an electronic circuit, a transceiver and attachment means, said light detector detecting the light from said light emitter passing through or reflected from the patient and acquiring data relating to at least the blood perfusion rate of the patient at the area of the patient where the patch is attached, the electronic circuit effects the operation of said light emitter and said light detector and calculates from the acquired data at least the blood perfusion rate of the patient at the area where the patch is attached, the transceiver enables the patch to communicate with a remote device or the other oximeter attached to the patient, and the attachment means enables the patch to be removably attachable to the patient;
b) determining a differential of the blood perfusion rate of the patient as measured by the at least two oximeters attached to the different areas of the patient; and
c) comparing the determined differential with a predetermined condition to decide whether the patient is in shock.
1 Assignment
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Accused Products
Abstract
A single use, self-contained, self-powered disposable oximeter, in the form of a patch or a bandage strip, has mounted thereto a light emitter and a light sensor to measure the SpO2 of the patient. Mounted to an electronics layer of the patch is an application specific integrated circuit (ASIC) that has electronics integrated thereto that controls the operation of the light emitter and light sensor, and the algorithm for calculating from the data collected by the sensor at least the SpO2 of the patient. The patch oximeter may also be equipped with a transceiver, and the appropriate electronics, for wirelessly transceiving information to/from a remote device or another wireless patch oximeter.
74 Citations
9 Claims
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1. A method of determining whether a patient is in shock, comprising the steps of:
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a) attaching at least two oximeters of common design to different areas of the patient, wherein each of said oximeters comprises a patch adaptable to be attached to the patient, the patch having mounted thereto a light emitter and a light detector, an electronic circuit, a transceiver and attachment means, said light detector detecting the light from said light emitter passing through or reflected from the patient and acquiring data relating to at least the blood perfusion rate of the patient at the area of the patient where the patch is attached, the electronic circuit effects the operation of said light emitter and said light detector and calculates from the acquired data at least the blood perfusion rate of the patient at the area where the patch is attached, the transceiver enables the patch to communicate with a remote device or the other oximeter attached to the patient, and the attachment means enables the patch to be removably attachable to the patient; b) determining a differential of the blood perfusion rate of the patient as measured by the at least two oximeters attached to the different areas of the patient; and c) comparing the determined differential with a predetermined condition to decide whether the patient is in shock. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of determining whether a subject is in shock by using a plurality of patch oximeters of common design, wherein each of the plurality of patch oximeters comprises a patch adapted to be attached to the subject and whereon are mounted a light emitter and a light detector, an electronic circuit, and a transceiver, the light detector detecting the light from the light emitter passing through or reflected from the subject and acquiring data relating to at least the blood perfusion rate of the subject at the area of the subject where the patch is attached, the electronic circuit effects the operation of the light emitter and the light detector and calculates from the acquired data at least the blood perfusion rate of the subject at the area where the patch is attached, the transceiver enables the patch to communicate with a remote device or another patch oximeter, the method comprising the steps of:
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a) attaching a first patch oximeter to a first area of a subject to measure at least the blood perfusion rate of the subject at the first area; b) attaching at least a second patch oximeter to another area of the subject remote from the first patch oximeter to measure at least the blood perfusion rate of the subject at the second area; c) determining a differential in the respective blood perfusion rates of the subject as measured by the at least first and second patch oximeters; and d) comparing the determined differential with a predetermined condition to decide whether the subject is in shock. - View Dependent Claims (8, 9)
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Specification
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Current AssigneeSmiths Medical ASD, Inc. (Smiths Group International Holdings Ltd.)
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Original AssigneeSmiths Medical ASD, Inc. (Smiths Group International Holdings Ltd.)
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InventorsSweitzer, Robert, Smith, Guy
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Primary Examiner(s)WINAKUR, ERIC FRANK
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Application NumberUS13/612,962Publication NumberTime in Patent Office810 DaysField of Search600/310, 600/322, 600/323, 600/324, 600/500, 600/502, 600/504US Class Current600/324CPC Class CodesA61B 2560/0219 of externally powered impla...A61B 2560/0285 Apparatus for single useA61B 2560/0412 Low-profile patch shaped ho...A61B 5/0002 Remote monitoring of patien...A61B 5/14551 for measuring blood gasesA61B 5/6833 Adhesive patches
