Patents by Inventor Joseph Tartaglia
Joseph Tartaglia 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: 20190083318Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: ApplicationFiled: November 19, 2018Publication date: March 21, 2019Applicant: Tusker Medical, Inc.Inventors: Aaron V. KAPLAN, Joseph TARTAGLIA, Robert VAUGHAN, Christopher JONES
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Patent number: 10130515Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: GrantFiled: March 18, 2015Date of Patent: November 20, 2018Assignee: Tusker Medical, Inc.Inventors: Aaron V. Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Publication number: 20150305944Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: ApplicationFiled: March 18, 2015Publication date: October 29, 2015Inventors: Aaron V. Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Patent number: 8998927Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: GrantFiled: April 5, 2010Date of Patent: April 7, 2015Assignee: Acclarnet, Inc.Inventors: Aaron V. Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Publication number: 20100256653Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: ApplicationFiled: April 5, 2010Publication date: October 7, 2010Applicant: ACCLARENT, INC.Inventors: Aaron V. Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Patent number: 7704259Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: GrantFiled: May 6, 2004Date of Patent: April 27, 2010Assignee: Acclarent, Inc.Inventors: Aaron V. Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Publication number: 20070043259Abstract: An endoscope having a guide tube is described herein. The assembly has an endoscope which is slidably insertable within the lumen of a guide tube. The guide tube is configured to be rigidizable along its entire length from a relaxed configuration. The endoscope has a steerable distal portion to facilitate the steering of the device through tortuous paths. In the relaxed configuration, a portion of the guide tube is able to assume the shape or curve defined by the controllable distal portion of the endoscope. Having assumed the shape or curve of the endoscope, the guide tube may be rigidized by the physician or surgeon to maintain that shape or curve while the endoscope is advanced distally through the tortuous path without having to place any undue pressure against the tissue walls.Type: ApplicationFiled: October 30, 2006Publication date: February 22, 2007Inventors: Ross Jaffe, Joseph Tartaglia, Amir Belson
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Publication number: 20060155304Abstract: Devices, systems, methods, and kits for treating the tissue structures of the ear make use of a guide structure that can mechanically register a treatment probe with a target region of a target tissue, the guide structure being fittingly received in an auditory canal and often comprising a conformable body such as a compressible foam, or the like. The guide structure may include an articulating mechanism for selectively orienting the treatment probe toward the target region of, for example, a tympanic membrane. The guide structure may also support a videoscopic image capture device, illumination transmitting optical fibers, an aiming beam transmitter, and the like. Such structures facilitate myringotomy, tympanostomy tube placement, and the like, under local anesthesia in a doctor's office.Type: ApplicationFiled: May 6, 2004Publication date: July 13, 2006Applicant: Fenestra Medical, Inc.Inventors: Aaron Kaplan, Joseph Tartaglia, Robert Vaughan, Christopher Jones
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Publication number: 20060089529Abstract: An endoscope with guiding apparatus is described herein. A steerable endoscope is described having an elongate body with a manually or selectively steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable tracking rod or guide. The tracking rod or guide is positioned within a guide channel within the endoscope and slides relative to the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once set, the endoscope can be advanced over the rigidized guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: September 14, 2005Publication date: April 27, 2006Inventors: Joseph Tartaglia, Amir Belson, Robert Ohline
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Publication number: 20060089528Abstract: An endoscope with guiding apparatus is described herein. A steerable endoscope is described having an elongate body with a manually or selectively steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable tracking rod or guide. The tracking rod or guide is positioned within a guide channel within the endoscope and slides relative to the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once set, the endoscope can be advanced over the rigidized guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: September 14, 2005Publication date: April 27, 2006Inventors: Joseph Tartaglia, Amir Belson, Robert Ohline
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Publication number: 20060089531Abstract: An endoscope with guiding apparatus is described herein. A steerable endoscope is described having an elongate body with a manually or selectively steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable tracking rod or guide. The tracking rod or guide is positioned within a guide channel within the endoscope and slides relative to the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once set, the endoscope can be advanced over the rigidized guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: September 14, 2005Publication date: April 27, 2006Inventors: Joseph Tartaglia, Amir Belson, Robert Ohline
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Publication number: 20060089532Abstract: An endoscope with guiding apparatus is described herein. A steerable endoscope is described having an elongate body with a manually or selectively steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable tracking rod or guide. The tracking rod or guide is positioned within a guide channel within the endoscope and slides relative to the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once set, the endoscope can be advanced over the rigidized guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: September 14, 2005Publication date: April 27, 2006Inventors: Joseph Tartaglia, Amir Belson, Robert Ohline
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Publication number: 20060089530Abstract: An endoscope with guiding apparatus is described herein. A steerable endoscope is described having an elongate body with a manually or selectively steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable tracking rod or guide. The tracking rod or guide is positioned within a guide channel within the endoscope and slides relative to the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once set, the endoscope can be advanced over the rigidized guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: September 14, 2005Publication date: April 27, 2006Inventors: Joseph Tartaglia, Amir Belson, Robert Ohline
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Publication number: 20060015010Abstract: An endoscope having a guide tube is described herein. The assembly has an endoscope which is slidably insertable within the lumen of a guide tube. The guide tube is configured to be rigidizable along its entire length from a relaxed configuration. The endoscope has a steerable distal portion to facilitate the steering of the device through tortuous paths. In the relaxed configuration, a portion of the guide tube is able to assume the shape or curve defined by the controllable distal portion of the endoscope. Having assumed the shape or curve of the endoscope, the guide tube may be rigidized by the physician or surgeon to maintain that shape or curve while the endoscope is advanced distally through the tortuous path without having to place any undue pressure against the tissue walls.Type: ApplicationFiled: September 14, 2005Publication date: January 19, 2006Inventors: Ross Jaffe, Joseph Tartaglia, Amir Belson
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Publication number: 20060015009Abstract: An endoscope having a guide tube is described herein. The assembly has an endoscope which is slidably insertable within the lumen of a guide tube. The guide tube is configured to be rigidizable along its entire length from a relaxed configuration. The endoscope has a steerable distal portion to facilitate the steering of the device through tortuous paths. In the relaxed configuration, a portion of the guide tube is able to assume the shape or curve defined by the controllable distal portion of the endoscope. Having assumed the shape or curve of the endoscope, the guide tube may be rigidized by the physician or surgeon to maintain that shape or curve while the endoscope is advanced distally through the tortuous path without having to place any undue pressure against the tissue walls.Type: ApplicationFiled: September 14, 2005Publication date: January 19, 2006Inventors: Ross Jaffe, Joseph Tartaglia, Amir Belson
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Publication number: 20060009678Abstract: An endoscope having a guide tube is described herein. The assembly has an endoscope which is slidably insertable within the lumen of a guide tube. The guide tube is configured to be rigidizable along its entire length from a relaxed configuration. The endoscope has a steerable distal portion to facilitate the steering of the device through tortuous paths. In the relaxed configuration, a portion of the guide tube is able to assume the shape or curve defined by the controllable distal portion of the endoscope. Having assumed the shape or curve of the endoscope, the guide tube may be rigidized by the physician or surgeon to maintain that shape or curve while the endoscope is advanced distally through the tortuous path without having to place any undue pressure against the tissue walls.Type: ApplicationFiled: September 14, 2005Publication date: January 12, 2006Inventors: Ross Jaffe, Joseph Tartaglia, Amir Belson
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Publication number: 20050154261Abstract: A steerable, tendon-driven endoscope is described herein. The endoscope has an elongated body with a manually or selectively steerable distal portion and an automatically controlled, segmented proximal portion. The steerable distal portion and the segment of the controllable portion are actuated by at least two tendons. As the endoscope is advanced, the user maneuvers the distal portion, and a motion controller actuates tendons in the segmented proximal portion so that the proximal portion assumes the selected curve of the selectively steerable distal portion. By this method the selected curves are propagated along the endoscope body so that the endoscope largely conforms to the pathway selected. When the endoscope is withdrawn proximally, the selected curves can propagate distally along the endoscope body. This allows the endoscope to negotiate tortuous curves along a desired path through or around and between organs within the body.Type: ApplicationFiled: December 20, 2004Publication date: July 14, 2005Inventors: Robert Ohline, Joseph Tartaglia, Amir Belson, Alex Roth, Wade Keller, Scott Anderson, Chris Julian
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Publication number: 20050154258Abstract: An endoscope with guiding apparatus is provided. The endoscope has an elongate body with a steerable distal portion, an automatically controlled portion, a flexible and passively manipulated proximal portion, and an externally controlled and manipulatable guiding apparatus. The guiding apparatus may be positioned within the endoscope or may be positioned adjacent to the endoscope. An interlocking device is provided to slidably interlock the guiding apparatus and the endoscope. When the guide is in a flexible state, it can conform to a curve or path defined by the steerable distal portion and the automatically controlled portion. The guide can then be selectively rigidized to assume that curve or path. Once rigidized, the endoscope can be advanced along the guide in a monorail or “piggy-back” fashion so that the flexible proximal portion follows the curve held by the guide until the endoscope reaches a next point of curvature within a body lumen.Type: ApplicationFiled: December 20, 2004Publication date: July 14, 2005Inventors: Joseph Tartaglia, Wade Keller, Amir Belson, Arthur Ratchford
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Patent number: D595349Type: GrantFiled: November 13, 2007Date of Patent: June 30, 2009Inventor: John Joseph Tartaglia
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Patent number: D626337Type: GrantFiled: February 16, 2010Date of Patent: November 2, 2010Inventor: John Joseph Tartaglia