Patents by Inventor Matthew Scott Lake
Matthew Scott Lake 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: 20200113619Abstract: A tool for treating hematoma in the brain, and other tissue in the body, especially suited for use through a cannula. The tool may include a cautery probe for sealing blood vessels in the brain, and a macerating structure for disrupting a hematoma, and aspiration features for removing macerated hematoma debris from the body.Type: ApplicationFiled: August 23, 2019Publication date: April 16, 2020Applicant: Rebound Therapeutics CorporationInventors: Ross Tsukashima, Peter G. Davis, Matthew Scott Lake
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Patent number: 10182932Abstract: Methods, devices and systems for delivering a device assembly into a gastric or other space within the body, allowing the device to expand to occupy volume within the gastric space and, after an effective period of time, delivering a substance or stimulus to begin breakdown of the expanded device so that it may release from the body.Type: GrantFiled: March 9, 2015Date of Patent: January 22, 2019Assignee: Allurion Technologies, Inc.Inventors: Samuel Moss, Matthew Scott Lake, Jonathan Wecker, Shantanu K. Gaur, Samuel G. Levy, Bruce A. Horwitz, Jinyoung Daniel Gwak
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Publication number: 20150196408Abstract: Methods, devices and systems for delivering a device assembly into a gastric or other space within the body, allowing the device to expand to occupy volume within the gastric space and, after an effective period of time, delivering a substance or stimulus to begin breakdown of the expanded device so that it may release from the body.Type: ApplicationFiled: March 9, 2015Publication date: July 16, 2015Applicant: Allurion Technologies, Inc.Inventors: Samuel MOSS, Matthew Scott LAKE, Jonathan WECKER, Shantanu K. GAUR, Samuel G. LEVY, Bruce A. HORWITZ, Jinyoung Daniel GWAK
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Publication number: 20090270989Abstract: Spinal implants are disclosed that can be used for annular repair, facet unloading, disc height preservation, disc decompression, or for sealing a portal through which a nucleus implant was placed. In some embodiments, an implant is placed within the intervertebral disc space, primarily within the region of the annulus fibrosus. In some embodiments, the implant is expandable. In some embodiments, the implant has a sealing tail structure comprising a tail flange and a linkage. In some embodiments, the sealing tail structure limits the extrusion or expulsion of disc material, either annulus fibrosus or nucleus, into the posterior region of the spine where it could impinge on nerves. In some embodiments, the tail structure is retained in place within the annulus fibrosus by means of an anchor. In some embodiments, the anchor is constructed from multiple components.Type: ApplicationFiled: November 19, 2008Publication date: October 29, 2009Applicant: Magellan Spine Technologies, Inc.Inventors: E. Scott Conner, Jay A. Lenker, Khoi Nguyen, Jeffrey J. Valko, Matthew Scott Lake, Peter Gregory Davis
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Publication number: 20090171461Abstract: Spinal implants are disclosed that can be used for annular repair, facet unloading, disc height preservation, disc decompression, or for sealing a portal through which a nucleus an intervertebral implant was placed. In some embodiments, an implant is placed within the intervertebral disc space, primarily within the region of the annulus fibrosus. In some embodiments, the implant is expandable. In some embodiments, the implant has a sealing tail structure comprising a tail flange and a linkage. In some embodiments, the sealing tail structure limits the extrusion or expulsion of disc material, either annulus fibrosus or nucleus, into the posterior region of the spine where it could impinge on nerves. In some embodiments, the tail structure is retained in place within the annulus fibrosus by means of an anchor. In some embodiments, the anchor is constructed from multiple components.Type: ApplicationFiled: November 19, 2008Publication date: July 2, 2009Applicant: Magellan Spine Technologies, Inc.Inventors: E. Scott CONNER, Jay A. Lenker, Khoi Nguyen, Jeffrey J. Valko, Matthew Scott Lake, Peter Gregory Davis
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Publication number: 20090149959Abstract: Spinal implants are disclosed that can be used for annular repair, facet unloading, disc height preservation, disc decompression, or for sealing a portal through which an intervertebral implant was placed. In some embodiments, an implant is placed within the intervertebral disc space, primarily within the region of the annulus fibrosus. In some embodiments, the implant is expandable. In some embodiments, the implant has a sealing tail structure comprising a tail flange and a linkage. In some embodiments, the sealing tail structure limits the extrusion or expulsion of disc material, either annulus fibrosus or nucleus, into the posterior region of the spine where it could impinge on nerves. In some embodiments, the tail structure is retained in place within the annulus fibrosus by means of an anchor. In some embodiments, the anchor is constructed from multiple components.Type: ApplicationFiled: November 19, 2008Publication date: June 11, 2009Applicant: Magellan Spine Technologies, Inc.Inventors: E. Scott Conner, Jay A. Lenker, Khoi Nguyen, Jeffrey J. Valko, Matthew Scott Lake, Peter Gregory Davis
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Publication number: 20090138084Abstract: Spinal implants are disclosed that can be used for annular repair, facet unloading, disc height preservation, disc decompression, or for sealing a portal through which an intervertebral implant was placed. In some embodiments, an implant is placed within the intervertebral disc space, primarily within the region of the annulus fibrosus. In some embodiments, the implant is expandable. In some embodiments, the implant has a sealing tail structure comprising a tail flange and a linkage. In some embodiments, the sealing tail structure limits the extrusion or expulsion of disc material, either annulus fibrosus or nucleus, into the posterior region of the spine where it could impinge on nerves. In some embodiments, the tail structure is retained in place within the annulus fibrosus by means of an anchor. In some embodiments, the anchor is constructed from multiple components.Type: ApplicationFiled: November 19, 2008Publication date: May 28, 2009Applicant: Magellan Spine Technologies, Inc.Inventors: E. Scott CONNER, Jay A. Lenker, Khoi Nguyen, Jeffrey J. Valko, Matthew Scott Lake, Peter Gregory Davis
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Publication number: 20090138015Abstract: Spinal implants are disclosed that can be used for annular repair, facet unloading, disc height preservation, disc decompression, or for sealing a portal through which an intervertebral implant was placed. In some embodiments, an implant is placed within the intervertebral disc space, primarily within the region of the annulus fibrosus. In some embodiments, the implant is expandable. In some embodiments, the implant has a sealing tail structure comprising a tail flange and a linkage. In some embodiments, the sealing tail structure limits the extrusion or expulsion of disc material, either annulus fibrosus or nucleus, into the posterior region of the spine where it could impinge on nerves. In some embodiments, the tail structure is retained in place within the annulus fibrosus by means of an anchor. In some embodiments, the anchor is constructed from multiple components.Type: ApplicationFiled: November 19, 2008Publication date: May 28, 2009Applicant: Magellan Spine Technologies, Inc.Inventors: E. Scott CONNER, Jay A. Lenker, Khoi Nguyen, Jeffrey J. Valko, Matthew Scott Lake, Peter Gregory Davis