Stacked adhesive optical sensor
First Claim
Patent Images
1. A sensor comprising:
- a reflectance type sensor body;
an emitter and a detector coupled to the reflectance type sensor body, wherein the emitter and the detector are positioned at a substantially fixed distance relative to one another when the sensor is applied to a patient; and
a semi-rigid optical mount coupled to the reflectance type sensor body, wherein the semi-rigid optical mount is configured to surround the emitter and the detector in order to hold the emitter and the detector at the substantially fixed distance, wherein the semi-rigid optical mount comprises a first aperture and a second aperture sized to hold the emitter and the detector, respectively.
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Abstract
An optical sensor having a cover layer, an emitter disposed on a first side of the cover, a detector disposed on the first side of said cover, and a plurality of stacked independent adhesive layers disposed on the same first side of the cover, wherein the top most exposed adhesive layer is attached to a patient'"'"'s skin. Thus, when the sensor is removed to perform a site check of the tissue location, one of the adhesive layers may also be removed and discarded, exposing a fresh adhesive surface below for reattachment to a patient'"'"'s skin. The independent pieces of the adhesive layers can be serially used to extend the useful life of the product.
788 Citations
21 Claims
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1. A sensor comprising:
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a reflectance type sensor body; an emitter and a detector coupled to the reflectance type sensor body, wherein the emitter and the detector are positioned at a substantially fixed distance relative to one another when the sensor is applied to a patient; and a semi-rigid optical mount coupled to the reflectance type sensor body, wherein the semi-rigid optical mount is configured to surround the emitter and the detector in order to hold the emitter and the detector at the substantially fixed distance, wherein the semi-rigid optical mount comprises a first aperture and a second aperture sized to hold the emitter and the detector, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A sensor comprising:
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a non-rigid reflectance type sensor body; an emitter and a detector, wherein the emitter and the detector are sized to be disposed within a first aperture and a second aperture of a semi-rigid optical mount; and the semi-rigid optical mount coupled to the non-rigid reflectance type sensor body, wherein the semi-rigid optical mount surrounds the emitter and the detector in order to hold the emitter and the detector at a substantially fixed distance relative to one another when the sensor is applied to a patient and wherein the semi-rigid optical mount is configured to maintain the emitter and detector in a fixed orientation that resists motion-induced flexing. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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20. A method comprising:
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applying a reflectance type sensor to a patient, wherein the reflectance type sensor comprises, a non-rigid sensor body, an optical emitter and a photodetector disposed a fixed distance apart such that the patient'"'"'s movements do not alter the fixed distance, and; a semi-rigid optical mount coupled to the non-rigid sensor body, wherein the semi-rigid optical mount surrounds the optical emitter and the photodetector in order to hold the optical emitter and the photodetector at the fixed distance, and wherein the optical emitter and the photodetector are sized to be disposed within a first aperture and a second aperture of the semi-rigid optical mount.
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21. A method of manufacturing a pulse oximetry sensor, comprising:
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providing a flexible reflectance type sensor body to which an emitter and a detector are coupled, wherein the reflectance type sensor body is a non-rigid sensor body configured to hold the emitter and the detector at a substantially fixed distance relative to one another, and providing a semi-rigid optical mount coupled to the non-rigid sensor body, wherein the semi-rigid optical mount surrounds the emitter and the detector in order to hold the emitter and the detector at the substantially fixed distance, and wherein the emitter and the detector are sized to be disposed within a first aperture and a second aperture of the semi-rigid optical mount.
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Specification