Oximetry sensor with offset emitters and detector
First Claim
Patent Images
1. An oximeter sensor comprising:
- a first member configured to contact a first side of a tissue region of a patient;
at least one emitter mounted in said first member;
at least one detector mounted to contact said tissue region on a second side;
an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; and
a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset.
1 Assignment
0 Petitions
Accused Products
Abstract
An improved oximeter sensor structure for attaching to an appendage of a patient. The emitters and the detector are offset from each other, so that they are not directly opposite each other. This causes the light emitted by the emitters to pass through more blood-perfused tissue to reach the detector than it would on the direct path through the appendage if the emitters and detector were opposite each other.
187 Citations
21 Claims
-
1. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; and a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
-
12. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; and a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset; wherein said reflective surface comprises a partially reflective black and white pattern.
-
-
13. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on said first side or a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; and a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset; wherein said reflective surface reflects different amounts of light at each wavelength emitted by the emitter.
-
-
14. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on said first side or a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset; and a second reflective surface mounted to said tissue region on an opposite side from said first reflective surface in a region of said offset.
-
-
15. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; wherein at least one emitter has a different offset distance to at least one other emitter; at least one detector mounted to contact said tissue region on said first side or a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; and a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset.
-
-
16. A reflectance oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted on said first side of said tissue region; an attachment structure configured to attach said sensor to said tissue region so that said emitter and said detector are offset from a shortest path through said tissue region said offset being at least twice said shortest path; a first reflective surface mounted to attach to said tissue region in a region of said offset; and a second reflective surface mounted to said tissue region on an opposite side from said first reflective surface in a region of said offset.
-
-
17. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region, on said first side or a second side of said tissue region, at a distance from said emitter that is greater than a shortest path through said tissue region from said emitter; an attachment structure configured to attach said sensor to said tissue region; a first reflective surface mounted to attach to said tissue region in region between said emitter and said detector; and a shunt barrier between said emitter and said detector in said first member. - View Dependent Claims (18)
-
-
19. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on said first side or a second side; and an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; wherein at least one of said attachment structure and said first member is configured to apply less pressure to said tissue region in a first region between said emitter and said detector than a pressure applied to a second region of said tissue region outside said first region.
-
-
20. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region on said first side or a second side; an attachment structure configured to attach said sensor to said tissue region so that said detector is offset from a shortest path through said tissue region from said emitter; a first diffuse or specular reflecting surface mounted to attach to said tissue region in a region of said offset; and a shunt barrier between said emitter and said detector in said first member.
-
-
21. An oximeter sensor comprising:
-
a first member configured to contact a first side of a tissue region of a patient; at least one emitter mounted in said first member; at least one detector mounted to contact said tissue region, on said first side or a second side of said tissue region, at a distance from said emitter that is at least twice as great as a shortest path through said tissue region from said emitter; an attachment structure configured to attach said sensor to said tissue region; and a shunt barrier between said emitter and said detector in said first member.
-
Specification