`Filing Date:
`
`16/835772
`March 31, 2020
`
`AMENDMENTSTO THE SPECIFICATION
`
`Please amendthe originally filed specification as set forth below.
`
`Please amend Paragraph [0020] as follows:
`
`[0020]
`
`FIG.
`
`1
`
`illustrates a conventional approach to [[2D]]two-dimensional pulse
`
`oximetry in which the emitter is configured to emit optical radiation as a point optical source.
`
`Please amend Paragraph [0021] as follows:
`
`[0021]
`
`FIG. 2 illustrates the disclosed [[3D]]three-dimensional approach to pulse
`
`oximetry in which the emitted light irradiates a substantially larger volume of tissue as compared
`
`to the point source approach described with respect to HG-2AHIG. 1.
`
`Please amend Paragraph [0022] as follows:
`
`[0022]
`
`FIG. 3 illustrates schematically a side view of a [[3D]]three-dimensional pulse
`
`oximetry sensor according to an embodimentofthe present disclosure.
`
`Please amend Paragraph [0023] as follows:
`
`[0023]
`
`FIG. 4A is a top view of a portion of a [[3D]]three-dimensional pulse
`
`oximetry sensor according to an embodimentofthe present disclosure.
`
`Please amend Paragraph [0024] as follows:
`
`[0024]
`
`FIG. 4B illustrates the top view of a portion of the [[3D]]three-dimensional
`
`pulse oximetry sensor shown in FIG. 4A, with the addition of a tissue measurement site in
`
`operational position.
`
`Please amend Paragraph [0025] as follows:
`
`[0025]
`
`FIG. 5 illustrates a top view of a [[3D]]three-dimensional pulse oximetry
`
`sensor according to an embodimentofthe present disclosure.
`
`Please amend Paragraph [0026] as follows:
`
`[0026]
`
`FIG. 6 illustrates a conventional [[2D]]two-dimensional approachto reflective
`
`pulse oximetry in which the emitter is configured to emit optical radiation as a point optical
`
`source.
`
`-2-
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`Please amend Paragraph [0027] as follows:
`
`[0027]
`
`FIG. 7A is a simplified schematic side view illustration of a reflective
`
`[[3D]]three-dimensional pulse oximetry sensor according to an embodiment of the present
`
`disclosure.
`
`Please amend Paragraph [0028] as follows:
`
`[0028]
`
`FIG. 7B is a simplified schematic top view illustration of the [[3D]]three-
`
`dimensional reflective pulse oximetry sensor of FIG. 7A.
`
`Please amend Paragraph [0048] as follows:
`
`[0048]
`
`The light diffuser 704 receives the optical radiation emitted from the emitter
`
`[[302 ]]702and homogenously spreads the optical radiation over a wide, donut-shaped area, such
`
`as the area outlined by the light diffuser 704 as depicted in FIG. 7B. Advantageously, the diffuser
`
`704 can receive emitted light in the form of a 2D point optical source (or any other form) and
`
`spread the light to fit the desired surface area on a plane defined by the surface of the tissue
`
`measurement site 102. In an embodiment, the diffuser 704 is made of ground glass or glass
`
`beads. A skilled artisan will understand that may other materials can be used to makethe light
`
`diffuser 704.
`
`Please amend Paragraph [0049] as follows:
`
`[0049]
`
`The light blocker 706 includes an annular ring having a cover portion 707
`
`sized and shaped to formalight isolation chamberfor the light concentrator 708 and the detector
`
`710. (For purposesof illustration, the light block cover 707 is not illustrated in FIG. 7B.) The
`
`light blocker 706 and the cover 707 can be made of any material that optically isolates the light
`
`concentrator 708 and the detector 710. The light isolation chamber formed bythe light blocker
`
`706 and cover[[708 ]]707ensures that the only light detected by the detector 710 is light that is
`
`reflected from the tissue measurementsite.
`
`Please amend Paragraph [0053] as follows:
`
`[0053]
`
`Referring now to FIG. 7B, a top view of the 3D sensor 700 is illustrated with
`
`both the emitter 702 and the light blocker cover 707 removedfor ease of illustration. The outer
`
`ring illustrates the footprint of the light diffuser 704. As light is emitted from the emitter 702 (not
`
`-3-
`
`
`
`Application No.:
`Filing Date:
`
`16/835772
`March 31, 2020
`
`shown in FIG. 7B), it is diffused homogenously and directed to the tissue measurementsite 102.
`
`The light blocker 706 forms the circular wall of a light isolation chamber to keep incident light
`
`from being sensed by the detector 710. The light blocker cover 707 blocks incidental light from
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`entering the light isolation chamber from above. The light concentrator #49708 collects the
`
`reflected light from the tissue measurement site 102 and funnels it upward toward the detector
`
`710 at the center of the 3D sensor 700.
`
`-4-
`
`
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