Sleeve for a handheld oximetry probe

US 10,722,156 B2
Filed: 04/20/2017
Issued: 07/28/2020
Est. Priority Date: 04/20/2016
Status: Active Grant

First Claim

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1. A probe cover for an oximeter device comprising:

a first portion of the probe cover, wherein the first portion comprises a first open end and a first closed end, opposite to the first open end, and the first closed end comprises a display panel;

a second portion of the probe cover, wherein the second portion comprises a second open end and a second closed end, opposite to the second open end, the second closed end comprises an optical sensor panel, and coupling of the first open end to the second open end forms a sealed probe cover enclosure for the oximeter device,the optical sensor panel is transparent and comprises a thickness of less than about 250 microns,when in the sealed probe cover enclosure, a display of the oximeter device is visible through the display panel of the probe cover, lighted emitted by a probe tip of the oximeter device is transmitted through the optical sensor panel of the probe cover, and light received at the oximeter device is transmitted through the optical sensor panel of the probe cover,the sealed probe cover enclosure prevents contaminants from outside of the enclosure from contacting the oximeter device contained within an interior of the enclosure, andthe second portion of the probe cover comprises a barrier at the second closed end, the barrier is coupled to the optical sensor panel, and the barrier prevents contaminants on a tissue being measured from contacting the oximeter device contained within the interior of the enclosure.

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Abstract

A sleeve includes a body having a top opening. The body covers a handheld oximeter probe or a portion of the probe. The sleeve has a shape that approximately matches the oximeter probe or portion of the probe, which is covered by the sleeve. The sleeve has a top opening that allows a user to slide the oximeter probe into the sleeve. The sleeve is transparent to radiation emitted and collected by the oximeter probe. The sleeve is formed of a material that prevents patient tissue, fluid, viruses, bacteria, and fungus from contacting the covered portions of the oximeter probe. The sleeve leaves the probe relatively sterile after use so that little or no clearing of the probe is required for a subsequent use, such as when the probe is covered with a new, unused sleeve.

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43 Claims

1. A probe cover for an oximeter device comprising:
- a first portion of the probe cover, wherein the first portion comprises a first open end and a first closed end, opposite to the first open end, and the first closed end comprises a display panel;
  
  a second portion of the probe cover, wherein the second portion comprises a second open end and a second closed end, opposite to the second open end, the second closed end comprises an optical sensor panel, and coupling of the first open end to the second open end forms a sealed probe cover enclosure for the oximeter device,the optical sensor panel is transparent and comprises a thickness of less than about 250 microns,when in the sealed probe cover enclosure, a display of the oximeter device is visible through the display panel of the probe cover, lighted emitted by a probe tip of the oximeter device is transmitted through the optical sensor panel of the probe cover, and light received at the oximeter device is transmitted through the optical sensor panel of the probe cover,the sealed probe cover enclosure prevents contaminants from outside of the enclosure from contacting the oximeter device contained within an interior of the enclosure, andthe second portion of the probe cover comprises a barrier at the second closed end, the barrier is coupled to the optical sensor panel, and the barrier prevents contaminants on a tissue being measured from contacting the oximeter device contained within the interior of the enclosure.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The probe cover of claim 1 wherein the optical sensor panel passes light in a wavelength range from about 650 nanometers to about 900 nanometers without attenuation that would affect an oximeter measurement.
  - 3. The probe cover of claim 1 wherein the thickness is less than about 150 microns.
  - 4. The probe cover of claim 1 wherein the thickness is less than about 100 microns.
  - 5. The probe cover of claim 1 wherein the thickness is less than about 50 microns.
  - 6. The probe cover of claim 1 wherein the thickness of the optical sensor panel comprises a uniform thickness.
  - 7. The probe cover of claim 1 wherein a first surface of the optical sensor panel conforms to a surface of a sensor of the probe tip of the oximeter device, and the first surface is configured to be flush against the sensor of the probe tip without any gaps.
  - 8. The probe cover of claim 1 wherein the probe cover comprises polycarbonate.
  - 9. The probe cover of claim 1 wherein the probe cover comprises a rigid polymer.
  - 10. The probe cover of claim 1 wherein the optical sensor panel comprises polycarbonate.
  - 11. The probe cover of claim 1 wherein the second portion of the probe cover comprises rigid polymer and the optical sensor panel comprise a flexible polymer, in relation to the rigid polymer.
  - 12. The probe cover of claim 1 wherein the second portion of the probe cover comprises flexible polymer and the optical sensor panel comprise a rigid polymer, in relation to the flexible polymer.
  - 13. The probe cover of claim 1 wherein the optical sensor panel comprises a disk.
  - 14. The probe cover of claim 13 wherein the second portion of the probe cover conforms to a shape of one or more portions of the oximeter device contained within the interior of the enclosure.
  - 15. The probe cover of claim 1 wherein a first index of refraction of the optical sensor panel differs from a second index of refraction of a sensor of the probe tip of the oximeter device by less than 50 percent.
  - 16. The probe cover of claim 1 wherein the coupling of the first open end to the second open end of the probe cover is by way of a fluid seal.
  - 17. The probe cover of claim 16 wherein the optical sensor panel of the probe cover comprises a rigid disk.
  - 18. The probe cover of claim 1 wherein the oximeter probe comprises:
    - a body portion comprising;
      
      a portion comprising a front side surface and a back side surface, coupled together by first and second side surfaces; and
      
      a tip portion comprising;
      
      a front tip surface;
      
      a bottom face surface, coupled to the front tip surface, wherein the bottom face surface extends at a first angle in a first turn direction relative to the front tip surface, and the bottom face surface comprises an opening which will retain a sensor head of the device;
      
      a back side surface coupled to the bottom face surface;
      
      a finger rest surface, coupled to the back side surface, wherein the finger rest surface is a concave surface that extends at a second angle in the first turn direction relative to the back side surface, wherein the first and second angles are different angles; and
      
      a back tip surface, coupled between the finger rest surface and the bottom face surface.
  - 19. The probe cover of claim 1 wherein a first index of refraction of a first material of the optical sensor panel differs from a second index of refraction of a second material of the probe tip of the oximeter device by less than 50 percent.

20. A kit comprising:
- an oximeter device comprising;
  
  a body portion comprising;
  
  a rectangular tubular portion comprising a front side surface and a back side surface, coupled together by first and second side surfaces; and
  
  a tip portion comprising;
  
  a first finger rest surface, coupled to the front side surface, wherein the first finger rest surface is a convex surface that extends at a first angle in a first turn direction relative to the front side surface;
  
  a front tip surface, coupled to the first finger rest surface, wherein the front tip surface extends at a second angle in a second turn direction relative to the first finger rest surface;
  
  a bottom face surface, coupled to the front tip surface, wherein the bottom face surface extends at a third angle in the second turn direction relative to the first finger rest surface, and the bottom face surface comprises an opening which will retain a sensor head of the device;
  
  a second finger rest surface, coupled to the back side surface, wherein the second finger rest surface is a concave surface that extends at a fourth angle in the first turn direction relative to the back side surface; and
  
  a back tip surface, coupled between the second finger rest surface and the bottom face surface, wherein the back tip surface is a convex surface that extends at a fifth angle in the first turn direction relative to the second finger rest surface; and
  
  a probe cover that conforms to a shape of one or more portions of the oximeter device comprising;
  
  an open end into which a probe tip of the oximeter device is inserted in the probe cover, wherein the probe tip comprises an optical sensor, and when the probe tip is fully inserted in the probe cover;
  
  an optical interface portion, wherein the optical interface portion is positioned against the optical sensor or the probe tip of the oximeter device when the probe tip is in the probe cover; and
  
  a barrier coupled to the optical interface portion, wherein the barrier is a barrier for contaminants on a tissue being measured by the oximeter device from contacting the probe tip while allowing optical energy emitted by the optical sensor to pass through the optical interface portion of the probe cover to the tissue and allowing optical energy reflected by the tissue to pass through the optical interface portion of the probe cover to the optical sensor, wherein the optical interface portion comprises a thickness of less than about 250 microns.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
- - 21. The kit of claim 20 wherein a first index of refraction of the optical interface portion differs from a second index of refraction for the optical sensor by less than 50 percent.
  - 22. The kit of claim 20 wherein the optical interface portion is between a first surface and a second surface, the first surface configured to be positioned against the optical sensor, and the second surface configured to be positioned against the tissue, and the first surface and second surface are parallel to each other.
  - 23. The kit of claim 20 wherein the optical interface portion passes light in a wavelength range from about 650 nanometers to about 900 nanometers without attenuation that would affect an oximeter measurement.
  - 24. The kit of claim 20 wherein the thickness is less than about 150 microns.
  - 25. The kit of claim 20 wherein the thickness is less than about 100 microns.
  - 26. The kit of claim 20 wherein the thickness is less than about 50 microns.
  - 27. The kit of claim 20 wherein the thickness of the optical interface portion comprises a uniform thickness.
  - 28. The kit of claim 22 wherein the first surface conforms to a surface of the optical sensor, so the first surface is configured to be flush against the optical sensor without any gaps.
  - 29. The kit of claim 20 wherein the probe cover comprises polycarbonate.
  - 30. The kit of claim 20 wherein the probe cover comprises a rigid polymer.
  - 31. The kit of claim 20 wherein the optical interface portion comprises polycarbonate.
  - 32. The kit of claim 20 wherein the barrier comprises rigid polymer and the optical interface portion comprise a flexible polymer, in relation to the rigid polymer.
  - 33. The kit of claim 20 wherein the barrier comprises flexible polymer and the optical interface portion comprise a rigid polymer, in relation to the flexible polymer.
  - 34. The kit of claim 20 wherein the optical interface portion is a disk.
  - 35. The kit of claim 34 wherein the disk is rigid.
  - 36. The kit of claim 35 wherein the barrier is to allow optical energy emitted by the optical sensor to pass through the disk of the probe cover to the tissue and allow optical energy reflected by the tissue to pass through the disk of the probe cover to the optical sensor.
  - 37. The kit of claim 20 wherein the barrier is to allow optical energy emitted by the optical sensor to pass through the optical interface portion of the probe cover to the tissue and allow optical energy reflected back by the tissue to pass through the optical interface portion of the probe cover to the optical sensor.
  - 38. The probe cover of claim 37 wherein the optical interface portion of the probe cover is a rigid disk.

39. A method comprising:
- forming a sleeve comprising;
  
  forming an open end of the sleeve into which a probe tip of an oximeter device is insertable in the sleeve, wherein the probe tip comprises an optical sensor and the optical sensor comprises a sensor material;
  
  forming an optical interface portion comprising an optical interface material having a first rigidity, wherein the optical interface portion comprises a disk of the optical interface material and is positioned against the optical sensor or the probe tip of the oximeter device when the probe tip is inserted in the sleeve;
  
  forming a barrier coupled to the optical interface portion, wherein the barrier comprises a barrier material having a second rigidity, less than the first rigidity, the barrier is a barrier for contaminants on a tissue being measured by the oximeter device from contacting the probe tip while allowing optical energy emitted by the optical sensor to pass through the optical interface portion of the sleeve to the tissue and allowing optical energy reflected by the tissue to pass through the optical interface portion of the sleeve to the optical sensor;
  
  forming the optical interface portion having a thickness of less than about 250 microns;
  
  forming a first index of refraction of a second material of the optical interface portion to differ from a second index of refraction for the second material of the optical sensor by less than 50 percent;
  
  forming the optical interface portion to be between a first surface and a second surface, wherein the first surface is configured to be positioned against the optical sensor and the second surface configured to be positioned against the tissue, andthe first surface and second surface are parallel to each other.
- View Dependent Claims (40, 41, 42, 43)
- - 40. The method of claim 39 further comprising forming the optical interface portion to pass light in a wavelength range from about 650 nanometers to about 900 nanometers without substantial attenuation.
  - 41. The method of claim 39 wherein the thickness is less than about 150 microns.
  - 42. The method of claim 39 further comprising forming the thickness of the optical interface portion to have a uniform thickness.
  - 43. The method of claim 39 wherein the first surface conforms to a surface of the optical sensor, so the first surface is configured to be flush against the optical sensor without any gaps.

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Current Assignee
ViOptix, Inc.
Original Assignee
ViOptix, Inc.
Inventors
Lonsinger, Mark, Coleridge, Scott, Bechtel, Kate LeeAnn, Welch, William
Primary Examiner(s)
Winakur, Eric F
Assistant Examiner(s)
Liu, Chu Chuan

Application Number

US15/493,121
Publication Number

US 20170303833A1
Time in Patent Office

1,195 Days
Field of Search
US Class Current
CPC Class Codes

A61B 2560/0214   of power generation or supply

A61B 2560/0425   Ergonomically shaped housin...

A61B 2562/242   Packaging, i.e. for packagi...

A61B 2562/247   Hygienic covers, i.e. for c...

A61B 5/1075   for measuring dimensions by...

A61B 5/14551   for measuring blood gases

A61B 5/14552   Details of sensors speciall...

A61B 5/6887   mounted on external non-wor...

A61B 5/7235   Details of waveform analysi...

Sleeve for a handheld oximetry probe

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

27 Citations

43 Claims

Specification

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Sleeve for a handheld oximetry probe

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

27 Citations

43 Claims

Specification

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Solutions

Use Cases

Quick Links