Patents by Inventor Dean Carson
Dean Carson 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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Patent number: 9339275Abstract: A delivery apparatus for a lumen occlusion device includes a pusher configured for releasably coupling with and pushing and pulling a proximal end of the occlusion device in a distal or proximal direction and a distal control wire capable of releasably coupling with the distal end and the proximal end of the occlusion device. The control wire may be configured for moving the distal end of the occlusion device in both proximal and distal directions allowing precise simultaneous control of both proximal and distal ends of the occlusion device. Control of both ends provides for placing the occlusion device in tension during delivery through a delivery catheter, thereby reducing delivery forces, achieving greater compaction of the occlusion device in the lumen, and precisely locating both distal and proximal ends of the occlusion device within the lumen.Type: GrantFiled: January 25, 2013Date of Patent: May 17, 2016Assignee: ENDOSHAPE, INC.Inventors: Julie Trommeter, Charles Barkenbus, Jeffrey Castleberry, William Aldrich, Jon Page, Paul Burek, Stan Needle, Frank Becking, Dean Carson, Jessi Watson
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Publication number: 20160067109Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: July 8, 2015Publication date: March 10, 2016Inventors: EUGENE DE JUAN, JR., CARY J. REICH, YAIR ALSTER, K. ANGELA MACFARLANE, DOUG RIMER, DOUGLAS SUTTON, DEAN CARSON, ENRIQUE BARRAGAN, MATT CLARKE, ASHLEY TUAN, BRIAN LEVY
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Publication number: 20160031344Abstract: Improvements in a moveable stanchion pole for a wheel chair position in a transit bus to provide a connection to a seat or bench. The seat is pivotably secured to a side wall of the transportation vehicle. The pole rotates and or pivots as the seat or bench is moved. The stanchion pole allows a person to hold onto the pole while they are standing. When the pole is rotated the pole rotates to provide clearance to the area. The stanchion pole is connected to the front of the chair and lifts the stanchion pole as the chair is rotated. This requires the stanchion pole to both hinge and rotate with the bench. The movement of the chair and pole clears the occupied space of the seat and stanchion pole to allow for a wheelchair to occupy the same place where the chair previously existed.Type: ApplicationFiled: July 31, 2014Publication date: February 4, 2016Inventors: Dale Elliott Carson, Bradley Dean Carson, Macy Masoud Neshati
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Patent number: 9241837Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10?4 Pa*m3 to about 5×10?4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: GrantFiled: May 23, 2014Date of Patent: January 26, 2016Assignee: NexisVision, Inc.Inventors: Eugene de Juan, Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Patent number: 9107773Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: GrantFiled: July 20, 2012Date of Patent: August 18, 2015Assignee: NexisVision, Inc.Inventors: Eugene de Juan, Jr., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Patent number: 8926096Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: GrantFiled: May 14, 2013Date of Patent: January 6, 2015Assignee: NexisVision, Inc.Inventors: Eugene de Juan, Jr., Cary J. Reich, Yair Alster, K. Angela MacFarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20140343601Abstract: Systems and methods for treating internal tissue defects, such as septal defects, with clip-based devices are provided. An exemplary clip-based device includes a tubular body having at least a first and a second deflectable member coupled thereto. The first and second members are coupled on opposite ends of the tubular body and configured to deflect between an undeployed configuration and a deployed configuration. In the deployed configuration, each member extends outwardly away from the tubular body in a position configured to abut a tissue surface. The first and second members are preferably configured to maintain a tissue wall therebetween and at least partially close any opening in the tissue wall.Type: ApplicationFiled: April 7, 2014Publication date: November 20, 2014Applicant: PROMED, INC.Inventors: Ryan Abbott, W. Martin Belef, Dean Carson, Peter Fitzgerald, Ronald J. Jabba, James Nielson, Peter Thornton
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Publication number: 20140251347Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10?4 Pa*m3 to about 5×10?4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: May 23, 2014Publication date: September 11, 2014Applicant: NexisVision, Inc.Inventors: Eugene de Juan, Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20140236205Abstract: Systems and methods for treating internal tissue defects, such as septal defects, with implantable devices are provided. An exemplary clip-based device includes a tubular body having at least a deflectable anchors coupled thereto. The anchors can be coupled on opposite ends of the tubular body and configured to deflect between an undeployed configuration and a deployed configuration. In the deployed configuration, each anchor extends outwardly away from the tubular body in a position configured to abut a tissue surface. The anchors are preferably configured to maintain a tissue wall therebetween and at least partially close any opening in the tissue wall. Also provided are delivery devices for delivering the implantable closure device and methods for using the various devices.Type: ApplicationFiled: September 13, 2013Publication date: August 21, 2014Applicant: PROMED, INC.Inventors: Ronald J. Jabba, Ryan Abbott, Dean Carson, James Nielson, W. Martin Belef
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Patent number: 8758401Abstract: A system for treating a septal defect having an implantable treatment apparatus and devices for delivering the implantable treatment apparatus and methods for treating a septal defect are provided. The implantable treatment apparatus is preferably implantable through a septal wall or portion thereof. The treatment system can include a flexible elongate body member, a delivery device configured to deliver the implantable apparatus, a stabilization device configured to stabilize the body member and a positioning device configured to position the delivery device in a desired location.Type: GrantFiled: September 30, 2011Date of Patent: June 24, 2014Assignee: Promed, Inc.Inventors: Ryan Abbott, W. Martin Belef, Dean Carson, Rajiv Doshi, Ronald J. Jabba
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Publication number: 20140069438Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: May 14, 2013Publication date: March 13, 2014Inventors: Eugene de Juan, JR., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20140039542Abstract: A delivery apparatus for a lumen occlusion device includes a pusher configured for releasably coupling with and pushing and pulling a proximal end of the occlusion device in a distal or proximal direction and a distal control wire capable of releasably coupling with the distal end and the proximal end of the occlusion device. The control wire may be configured for moving the distal end of the occlusion device in both proximal and distal directions allowing precise simultaneous control of both proximal and distal ends of the occlusion device. Control of both ends provides for placing the occlusion device in tension during delivery through a delivery catheter, thereby reducing delivery forces, achieving greater compaction of the occlusion device in the lumen, and precisely locating both distal and proximal ends of the occlusion device within the lumen.Type: ApplicationFiled: January 25, 2013Publication date: February 6, 2014Applicant: EndoShape, Inc.Inventors: Julie Trommeter, Charles Barkenbus, Jeffrey Castleberry, William Aldrich, Jon Page, Paul Burek, Stan Needle, Frank Becking, Dean Carson, Jessi Watson
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Patent number: 8579936Abstract: A system for treating a septal defect having an implantable treatment apparatus and devices for delivering the implantable treatment apparatus, devices for controlling delivery of the treatment apparatus and methods for treating a septal defect are provided. The implantable treatment apparatus is preferably implantable through a septal wall or portion thereof. The treatment system can include a flexible elongate body member, a delivery device configured to deliver the implantable apparatus, and a proximal control device for controlling delivery of the implantable apparatus, among others.Type: GrantFiled: June 21, 2010Date of Patent: November 12, 2013Assignee: ProMed, Inc.Inventors: Ryan Abbott, W. Martin Belef, Dean Carson, Taylor A. Heanue, Ronald J. Jabba, Anthony J. Pantages
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Patent number: 8459793Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: GrantFiled: September 13, 2012Date of Patent: June 11, 2013Assignee: NexisVision, Inc.Inventors: Eugene de Juan, Jr., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20130070200Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10?4 Pa*m3 to about 5×10?4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: October 25, 2010Publication date: March 21, 2013Applicant: NexisVision, Inc.Inventors: Eugene de Juan, JR., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20130025606Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10?4 Pa*m3 to about 5×10?4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: September 13, 2012Publication date: January 31, 2013Applicant: NexisVision, Inc.Inventors: Eugene de Juan, JR., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20120310133Abstract: A conformable covering comprises an outer portion with rigidity to resist movement on the cornea and an inner portion to contact the cornea and provide an environment for epithelial regeneration. The inner portion of the covering can be configured in many ways so as to conform at least partially to an ablated stromal surface so as to correct vision. The conformable inner portion may have at least some rigidity so as to smooth the epithelium such that the epithelium regenerates rapidly and is guided with the covering so as to form a smooth layer for vision. The inner portion may comprise an amount of rigidity within a range from about 1×10-4 Pa*m3 to about 5×10-4 Pa*m3 so as to deflect and conform at least partially to the ablated cornea and smooth an inner portion of the ablation with an amount of pressure when deflected.Type: ApplicationFiled: July 20, 2012Publication date: December 6, 2012Applicant: NixisVision, Inc.Inventors: Eugene De Juan, JR., Cary J. Reich, Yair Alster, K. Angela Macfarlane, Doug Rimer, Douglas Sutton, Dean Carson, Enrique Barragan, Matt Clarke, Ashley Tuan, Brian Levy
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Publication number: 20120245599Abstract: Systems, devices and methods for treating internal tissue defects, such as septal defects, are provided. An exemplary method of treating an internal tissue defect, specifically a method of closing a patent foramen ovale (PFO), can include passing a closure element from a right atrium through a septal wall in a first location and into the left atrium. A capture device, which can be configured as a snare-like device, can be used to capture the closure element in the left atrium and pull the closure element back through the septal wall in a different, second location, such that the closure element is routed over the PFO. The closure element can then be anchored and/or locked against the septal wall such that the PFO is at least partially closed.Type: ApplicationFiled: May 8, 2012Publication date: September 27, 2012Inventors: Ryan Abbott, W. Martin Belef, Dean Carson, Ronald J. Jabba, David Moore, James Nielsen
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Publication number: 20120150220Abstract: A system for treating a septal defect having an implantable treatment apparatus and devices for delivering the implantable treatment apparatus, devices for controlling delivery of the treatment apparatus and methods for treating a septal defect are provided. The implantable treatment apparatus is preferably implantable through a septal wall or portion thereof. The treatment system can include a flexible elongate body member, a delivery device configured to deliver the implantable apparatus, and a proximal control device for controlling delivery of the implantable apparatus, among others.Type: ApplicationFiled: February 15, 2012Publication date: June 14, 2012Inventors: Taylor A. Heanue, Ryan Abbott, W. Martin Belef, Dean Carson, Richard S. Ginn, Ronald J. Jabba, Anthony J. Pantages
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Publication number: 20120123468Abstract: Systems, devices and methods for treating internal tissue defects, such as septal defects, with implantable devices are provided. In some exemplary embodiments, these devices include one or more wires coupled together. The device can include deflectable anchors for engaging the septal tissue.Type: ApplicationFiled: January 25, 2012Publication date: May 17, 2012Inventors: W. Martin Belef, Dean Carson, Ronald J. Jabba, Anthony J. Pantages, Taylor A. Heanue