Patents by Inventor Rick Payor
Rick Payor has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20230350229Abstract: The stabilized contact lens methods and apparatus disclosed herein provide improved stabilization of a contact lens placed on a cornea of an eye. The contact lens comprises stabilization zones that allow the lens to repeatedly and consistently orient on the cornea such that a sensing zone located on the lower portion of the lens is located inferiorly to engage the lower eyelid. The stabilized contact lens can provide a lower pressure sensing zone with decreased thickness for pressure or other sensing related to the lower eyelid. The decreased thickness has the advantage of improving coupling between forces from an eyelid and a lower chamber of a fluidic module. The improved coupling allows increased amounts of fluid to move between the lower chamber and an upper optical chamber coupled to the lower chamber, such that the upper chamber can increase curvature and optical power in response to pressures of the eyelid.Type: ApplicationFiled: July 11, 2023Publication date: November 2, 2023Applicant: OneFocus Vision, Inc.Inventors: Rick PAYOR, Stephane GOBRON, Ben LUBBERMAN, Steve WAITE
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Patent number: 11703696Abstract: The stabilized contact lens methods and apparatus disclosed herein provide improved stabilization of a contact lens placed on a cornea of an eye. The contact lens comprises stabilization zones that allow the lens to repeatedly and consistently orient on the cornea such that a sensing zone located on the lower portion of the lens is located inferiorly to engage the lower eyelid. The stabilized contact lens can provide a lower pressure sensing zone with decreased thickness for pressure or other sensing related to the lower eyelid. The decreased thickness has the advantage of improving coupling between forces from an eyelid and a lower chamber of a fluidic module. The improved coupling allows increased amounts of fluid to move between the lower chamber and an upper optical chamber coupled to the lower chamber, such that the upper chamber can increase curvature and optical power in response to pressures of the eyelid.Type: GrantFiled: January 22, 2021Date of Patent: July 18, 2023Assignee: OneFocus Vision, Inc.Inventors: Rick Payor, Stephane Gobron, Ben Lubberman, Steve Waite
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Publication number: 20210208423Abstract: The stabilized contact lens methods and apparatus disclosed herein provide improved stabilization of a contact lens placed on a cornea of an eye. The contact lens comprises stabilization zones that allow the lens to repeatedly and consistently orient on the cornea such that a sensing zone located on the lower portion of the lens is located inferiorly to engage the lower eyelid. The stabilized contact lens can provide a lower pressure sensing zone with decreased thickness for pressure or other sensing related to the lower eyelid. The decreased thickness has the advantage of improving coupling between forces from an eyelid and a lower chamber of a fluidic module. The improved coupling allows increased amounts of fluid to move between the lower chamber and an upper optical chamber coupled to the lower chamber, such that the upper chamber can increase curvature and optical power in response to pressures of the eyelid.Type: ApplicationFiled: January 22, 2021Publication date: July 8, 2021Applicant: OneFocus Vision, Inc.Inventors: Rick PAYOR, Stephane GOBRON, Ben LUBBERMAN, Steve WAITE
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Patent number: 10942371Abstract: The stabilized contact lens methods and apparatus disclosed herein provide improved stabilization of a contact lens placed on a cornea of an eye. The contact lens comprises stabilization zones that allow the lens to repeatedly and consistently orient on the cornea such that a sensing zone located on the lower portion of the lens is located inferiorly to engage the lower eyelid. The stabilized contact lens can provide a lower pressure sensing zone with decreased thickness for pressure or other sensing related to the lower eyelid. The decreased thickness has the advantage of improving coupling between forces from an eyelid and a lower chamber of a fluidic module. The improved coupling allows increased amounts of fluid to move between the lower chamber and an upper optical chamber coupled to the lower chamber, such that the upper chamber can increase curvature and optical power in response to pressures of the eyelid.Type: GrantFiled: May 8, 2018Date of Patent: March 9, 2021Assignee: OneFocus Vision, Inc.Inventors: Rick Payor, Stephane Gobron, Ben Lubberman, Steve Waite
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Publication number: 20190049749Abstract: The stabilized contact lens methods and apparatus disclosed herein provide improved stabilization of a contact lens placed on a cornea of an eye. The contact lens comprises stabilization zones that allow the lens to repeatedly and consistently orient on the cornea such that a sensing zone located on the lower portion of the lens is located inferiorly to engage the lower eyelid. The stabilized contact lens can provide a lower pressure sensing zone with decreased thickness for pressure or other sensing related to the lower eyelid. The decreased thickness has the advantage of improving coupling between forces from an eyelid and a lower chamber of a fluidic module. The improved coupling allows increased amounts of fluid to move between the lower chamber and an upper optical chamber coupled to the lower chamber, such that the upper chamber can increase curvature and optical power in response to pressures of the eyelid.Type: ApplicationFiled: May 8, 2018Publication date: February 14, 2019Inventors: Rick Payor, Stephane Gobron, Ben Lubberman, Steve Waite
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Patent number: 10156737Abstract: Sets, kits or stocks of anti-myopia lenses and methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6D central refractive error. For example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets each with a compartmented container with lenses arranged according to increments of central corrective power. The lenses of the first part have four steps of peripheral power or defocus to provide therapeutic effect and, while the lenses of the second part also have four steps, the level of therapeutic effect is higher. Other examples of sets, kits and stocks, as well as examples of lenses themselves, are disclosed together with methods of use.Type: GrantFiled: January 26, 2017Date of Patent: December 18, 2018Assignees: Novartis AG, Brien Holden Vision InstituteInventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid
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Publication number: 20170146824Abstract: Sets, kits or stocks of anti-myopia contact or spectacle lenses, along with methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Extensive surveys have shown that lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6D central refractive error. In one example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets (52, 54) each comprising a compartmented container (56a, 56b) with lenses (58a, 58b) arranged according to increments of central corrective power (59a, 59b). The lenses (58a) of the first part (52) have four steps (60a, 61a, 62a, 64a) of peripheral power or defocus to provide therapeutic effect and, while the lenses (58b) of the second part (54) also have four steps (60b, 61b, 62b, 64b), the level of therapeutic effect is higher.Type: ApplicationFiled: January 26, 2017Publication date: May 25, 2017Inventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid
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Publication number: 20170131571Abstract: A method to manufacture an accommodating contacting lens is provided. A soft contact lens material precursor is placed into a container and cured. The cured contact lens material is machined to form an intermediate surface over which an accommodating lens module is placed. Further precursor is placed onto the intermediate surface and surrounding the lens module. This further precursor is cured. Afterwards, the surface of the cured precursor or soft contact lens material is machined to form a first surface of the accommodating contact lens. Then, the opposite surface is machined to form a second surface of the accommodating contact lens, thereby forming the accommodating contact lens with the module disposed in the interior. The first and second surfaces may be a posterior and anterior surface, respectively, of the accommodating contact lens.Type: ApplicationFiled: January 24, 2017Publication date: May 11, 2017Inventors: Steve WAITE, Amitava GUPTA, Rick PAYOR, Richard CHRIST, Marie Dvorak CHRIST
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Patent number: 9594257Abstract: Sets, kits or stocks of anti-myopia contact or spectacle lenses, along with methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Extensive surveys have shown that lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6D central refractive error. In one example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets (52, 54) each comprising a compartmented container (56a, 56b) with lenses (58a, 58b) arranged according to increments of central corrective power (59a, 59b). The lenses (58a) of the first part (52) have four steps (60a, 61a, 62a, 64a) of peripheral power or defocus to provide therapeutic effect and, while the lenses (58b) of the second part (54) also have four steps (60b, 61b, 62b, 64b), the level of therapeutic effect is higher.Type: GrantFiled: January 21, 2014Date of Patent: March 14, 2017Assignees: Novartis AG, Brien Holden Vision InstituteInventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid
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Publication number: 20140132933Abstract: Sets, kits or stocks of anti-myopia contact or spectacle lenses, along with methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Extensive surveys have shown that lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6D central refractive error. In one example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets (52, 54) each comprising a compartmented container (56a, 56b) with lenses (58a, 58b) arranged according to increments of central corrective power (59a, 59b). The lenses (58a) of the first part (52) have four steps (60a, 61a, 62a, 64a) of peripheral power or defocus to provide therapeutic effect and, while the lenses (58b) of the second part (54) also have four steps (60b, 61b, 62b, 64b), the level of therapeutic effect is higher.Type: ApplicationFiled: January 21, 2014Publication date: May 15, 2014Applicants: Brien Holden Vision Institute, Novartis AGInventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid
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Patent number: 8672473Abstract: Sets, kits or stocks of anti-myopia contact or spectacle lenses, along with methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Extensive surveys have shown that lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6 D central refractive error. In one example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets (52, 54) each comprising a compartmented container (56a, 56b) with lenses (58a, 58b) arranged according to increments of central corrective power (59a, 59b). The lenses (58a) of the first part (52) have four steps (60a, 61a, 62a, 64a) of peripheral power or defocus to pro vide therapeutic effect and, while the lenses (58b) of the second part (54) also have four steps (60b, 61b, 62b, 64b), the level of therapeutic effect is higher.Type: GrantFiled: April 20, 2009Date of Patent: March 18, 2014Assignees: Novartis AG, Brien Holden Vision InstituteInventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid
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Publication number: 20110051079Abstract: Sets, kits or stocks of anti-myopia contact or spectacle lenses, along with methods for their use, that do not require a clinician to measure peripheral refractive error in the eyes of myopic patients. Extensive surveys have shown that lenses having peripheral powers or defocus set in accordance with central corrective power will cover almost all normal myopes not worse than ?6D central refractive error. In one example, a kit or set of lenses (50, FIG. 15) can have multiple parts or sub-sets (52, 54) each comprising a compartmented container (56a, 56b) with lenses (58a, 58b) arranged according to increments of central corrective power (59a, 59b). The lenses (58a) of the first part (52) have four steps (60a, 61a, 62a, 64a) of peripheral power or defocus to pro vide therapeutic effect and, while the lenses (58b) of the second part (54) also have four steps (60b, 61b, 62b, 64b), the level of therapeutic effect is higher.Type: ApplicationFiled: April 20, 2009Publication date: March 3, 2011Inventors: Aldo Abraham Martinez, Arthur Ho, Padmaja Rajagopal Sankaridurg, Percy Fabian Lazon, Brien Anthony Holden, Rick Payor, Gregor F. Schmid