Patents by Inventor Gregory B. Arcenio
Gregory B. Arcenio 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: 20240000609Abstract: An apparatus massages an eyelid to move meibum unidirectionally through a meibomian gland duct toward a gland duct orifice at the eyelid margin in order to clear meibum blockage in the gland duct. The apparatus is configured to cyclically apply pressure to an application area of the eyelid, to move the applied pressure in a flow direction toward the gland duct orifice, and release the pressure applied to the application area of the eyelid. The apparatus includes an elongated massage arm configured to support a massage tip, which is configured to apply the pressure to the application area of the eyelid. A cam is rotatable about an axis of rotation and includes a cam surface. A follower includes a follower surface in sliding engagement with the cam surface. The follower is configured to impart massaging motion to the massage arm in response to rotation of the cam. The cam surface has a constant width curve configuration.Type: ApplicationFiled: June 29, 2023Publication date: January 4, 2024Inventors: Timothy Stowe, Marty Sheridan, Gregory B. Arcenio
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Patent number: 11382647Abstract: Described herein are devices, systems and methods for treating target tissue in a patient's spine. In general, the methods include the steps of advancing a wire into the patient from a first location, through a neural foramen, and out of the patient from a second location; connecting a tissue modification device to the wire; positioning the tissue modification device through the neural foramen using the wire; modifying target tissue in the spine by moving the tissue modification device against the target tissue; and delivering an agent to modified target tissue, wherein the agent is configured to inhibit blood flow from the modified target tissue. In some embodiments, the step of modifying target tissue comprises removing target tissue located ventral to the superior articular process while avoiding non-target tissue located lateral to the superior articular process.Type: GrantFiled: June 27, 2018Date of Patent: July 12, 2022Assignee: Spinal Elements, Inc.Inventors: Michael P. Wallace, Robert Garabedian, Gregory B. Arcenio, Jeffery L. Bleich, Vahid Saadat, Winnie Chung
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Publication number: 20180303508Abstract: Described herein are devices, systems and methods for treating target tissue in a patient's spine. In general, the methods include the steps of advancing a wire into the patient from a first location, through a neural foramen, and out of the patient from a second location; connecting a tissue modification device to the wire; positioning the tissue modification device through the neural foramen using the wire; modifying target tissue in the spine by moving the tissue modification device against the target tissue; and delivering an agent to modified target tissue, wherein the agent is configured to inhibit blood flow from the modified target tissue. In some embodiments, the step of modifying target tissue comprises removing target tissue located ventral to the superior articular process while avoiding non-target tissue located lateral to the superior articular process.Type: ApplicationFiled: June 27, 2018Publication date: October 25, 2018Inventors: Michael P. Wallace, Robert Garabedian, Gregory B. Arcenio, Jeffery L. Bleich, Vahid Saadat, Winnie Chung
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Patent number: 10052116Abstract: Described herein are devices, systems and methods for treating target tissue in a patient's spine. In general, the methods include the steps of advancing a wire into the patient from a first location, through a neural foramen, and out of the patient from a second location; connecting a tissue modification device to the wire; positioning the tissue modification device through the neural foramen using the wire; modifying target tissue in the spine by moving the tissue modification device against the target tissue; and delivering an agent to modified target tissue, wherein the agent is configured to inhibit blood flow from the modified target tissue. In some embodiments, the step of modifying target tissue comprises removing target tissue located ventral to the superior articular process while avoiding non-target tissue located lateral to the superior articular process.Type: GrantFiled: July 2, 2015Date of Patent: August 21, 2018Assignee: Amendia, Inc.Inventors: Michael P. Wallace, Robert Garabedian, Gregory B. Arcenio, Jeffery L. Bleich, Vahid Saadat, Winnie Chung
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Publication number: 20180078276Abstract: Various embodiments of a tissue cutting device and methods for using are described. In some variations devices include an elongate tube having a proximal end and a distal end and a central axis extending from the proximal end to the distal end; a first annular element at the distal end of the elongate tube, the first annular element having a cutting portion at its distal; and a second annular element at the distal end of the elongate tube and concentric with the first annular element, the second annular element having a cutting portion at its distal end, the first and second annular elements being rotatable relative to one another to cause the first annular element and the second annular element to pass each other to shear tissue.Type: ApplicationFiled: September 28, 2017Publication date: March 22, 2018Applicant: Microfabrica Inc.Inventors: Richard T. Chen, Ming Ting Wu, Arun S. Veeramani, Vacit Arat, Gregory P. Schmitz, Juan Diego Perea, Ronald Leguidleguid, Gregory B. Arcenio, Eric C. Miller
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Publication number: 20180078274Abstract: The present disclosure relates generally to the field of tissue removal and more particularly to methods and devices for use in medical applications involving selective tissue removal. One exemplary method includes the steps of providing a tissue cutting instrument capable of distinguishing between target tissue to be removed and non-target tissue, urging the instrument against the target tissue and the non-target tissue, and allowing the instrument to cut the target tissue while automatically avoiding cutting of non-target tissue. Various tools for carrying out this method are also described.Type: ApplicationFiled: September 28, 2017Publication date: March 22, 2018Applicant: Microfabrica Inc.Inventors: Michael S. Lockard, Uri Frodis, Adam L. Cohen, Richard T. Chen, Gregory P. Schmitz, Eric C. Miller, Ming Ting Wu, Arun S. Veeramani, Juan Diego Perea, Ronald Leguidleguid, Gregory B. Arcenio
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Patent number: 9814484Abstract: A bendable medical device such as for removing tissue from a subject is provided with a distal housing, an outer support tube, an inner drive tube, a coupler and a commutator portion. The coupler and commutator portion serve to axially constrain a distal end of the inner drive tube during bending, and to supply fluid for lubricating, cooling and irrigating the distal end of the device.Type: GrantFiled: December 13, 2012Date of Patent: November 14, 2017Assignee: Microfabrica Inc.Inventors: Gregory P. Schmitz, Gregory B. Arcenio, Ronald Leguidleguid, Juan Diego Perea
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Patent number: 9320618Abstract: Described herein are methods and systems for precisely placing and/or manipulating devices within the body by first positioning a guidewire or pullwire. The device to be positioned within the body is coupled to the proximal end of the guidewire, and the device is pulled into the body by pulling on the distal end of the guidewire that extends from the body. The device may be bimanually manipulated by pulling the guidewire distally, and an attachment to a device that extends proximally, allowing control of both the proximal and the distal ends. In this manner devices (and particularly implants such as innerspinous distracters, stimulating leads, and disc slings) may be positioned and/or manipulated within the body. Guidewire exchange systems, devices and methods are also described. A guidewire may be exchanged between different surgical devices and may be releaseably or permanently coupled.Type: GrantFiled: October 25, 2013Date of Patent: April 26, 2016Assignee: Amendia, Inc.Inventors: Gregory P. Schmitz, Michael P. Wallace, Winnie Tang, Amie R. Borgstrom, Jeffery L. Bleich, Gregory B. Arcenio, Ronald Leguidleguid, Roy Leguidleguid, Jefferey Bleam
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Publication number: 20150306348Abstract: Described herein are devices, systems and methods for treating target tissue in a patient's spine. In general, the methods include the steps of advancing a wire into the patient from a first location, through a neural foramen, and out of the patient from a second location; connecting a tissue modification device to the wire; positioning the tissue modification device through the neural foramen using the wire; modifying target tissue in the spine by moving the tissue modification device against the target tissue; and delivering an agent to modified target tissue, wherein the agent is configured to inhibit blood flow from the modified target tissue. In some embodiments, the step of modifying target tissue comprises removing target tissue located ventral to the superior articular process while avoiding non-target tissue located lateral to the superior articular process.Type: ApplicationFiled: July 2, 2015Publication date: October 29, 2015Applicant: AMENDIA, INC.Inventors: Michael P. Wallace, Robert Garabedian, Gregory B. Arcenio, Jeffery L. Bleich, Vahid Saadat, Winnie Chung
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Publication number: 20150265336Abstract: A method for removing a volume of tissue from a tongue in a patient to treat sleep apnea may involve cutting tissue from the tongue using a tissue cutting device having a shaft and at least one moveable cutting member attached to the shaft at a distal end of the tissue cutting device and moving the cut tissue through a channel of the shaft in a direction from the distal end of the tissue cutting device toward a proximal end of the device. A device for removing a volume of tissue from a tongue in a patient to treat sleep apnea may include a shaft, at least one moveable cutting member disposed at a distal end of a distal tip of the shaft, a handle coupled with a proximal portion of the shaft, and an actuator.Type: ApplicationFiled: November 20, 2013Publication date: September 24, 2015Inventors: Gregory P. Schmitz, Gregory B. Arcenio, Eric C. Miller
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Patent number: 9101386Abstract: Described herein are devices, systems and methods for treating target tissue in a patient's spine. In general, the methods include the steps of advancing a wire into the patient from a first location, through a neural foramen, and out of the patient from a second location; connecting a tissue modification device to the wire; positioning the tissue modification device through the neural foramen using the wire; modifying target tissue in the spine by moving the tissue modification device against the target tissue; and delivering an agent to modified target tissue, wherein the agent is configured to inhibit blood flow from the modified target tissue. In some embodiments, the step of modifying target tissue comprises removing target tissue located ventral to the superior articular process while avoiding non-target tissue located lateral to the superior articular process.Type: GrantFiled: October 25, 2010Date of Patent: August 11, 2015Assignee: Amendia, Inc.Inventors: Michael P. Wallace, Robert Garabedian, Gregory B. Arcenio, Jeffery L. Bleich, Vahid Saadat, Winnie Chung
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Patent number: 8795365Abstract: Disclosed are devices and methods for emplacement of an expandable device in a body part of interest in human and animal subjects. In one embodiment, the expandable device comprises a cage that may be emplaced in the intervertebral disc for use in spine fusion techniques. The device is fashioned so that it may be delivered to the intervertebral disc by percutaneous means, such as via a cannula. Additionally disclosed are systems and kits employing the devices of the invention as well as methods of manufacturing the devices of the invention.Type: GrantFiled: March 24, 2008Date of Patent: August 5, 2014Assignee: Warsaw Orthopedic, IncInventors: Gregory B. Arcenio, Christopher U. Phan
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Publication number: 20140148835Abstract: A bendable medical device such as for removing tissue from a subject is provided with a distal housing, an outer support tube, an inner drive tube, a coupler and a commutator portion. The coupler and commutator portion serve to axially constrain a distal end of the inner drive tube during bending, and to supply fluid for lubricating, cooling and irrigating the distal end of the device.Type: ApplicationFiled: December 13, 2012Publication date: May 29, 2014Inventors: Gregory P. Schmitz, Gregory B. Arcenio, Ronald Leguidleguid, Juan Diego Perea
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Publication number: 20140148836Abstract: A medical device such as for removing tissue from a subject is provided with a distal housing configured with a tissue cutter assembly, an elongate member coupled to the distal housing and having an outer tube and an inner drive tube with a crown gear located on a distal end thereof, first and second rotatable members each rotatably mounted to the tissue cutter assembly, a first drive gear train coupled between the crown gear and the first rotatable member, and a second drive gear train coupled between the crown gear and the second rotatable member. The first and second drive gear trains are configured to drive the first and second rotatable members, respectively, in opposite directions. Concave and convex gear tooth profiles are also disclosed for improved performance of the first and second drive gear trains.Type: ApplicationFiled: March 15, 2013Publication date: May 29, 2014Inventors: Gregory P. Schmitz, Ronald Leguidleguid, Ming-Ting Wu, Juan Diego Perea, Gregory B. Arcenio
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Publication number: 20140148729Abstract: A method for removing at least part of a brain tumor may first involve contacting a forward-facing tissue cutter disposed at the distal end of a tissue removal device with the brain tumor. The tissue removal device may include a shaft having a diameter no greater than about 10 mm, and in some embodiments the tissue cutter does not extend laterally beyond the diameter of the shaft. The method may next involve cutting tissue from the brain tumor, using the tissue cutter. The method may then involve moving the cut tissue through a channel of the shaft in a direction from the distal end of the tissue removal device toward a proximal end of the device.Type: ApplicationFiled: September 20, 2013Publication date: May 29, 2014Inventors: Gregory P. Schmitz, Juan Diego Perea, Ronald Leguidleguid, Ming-Ting Wu, Gregory B. Arcenio
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Publication number: 20140107709Abstract: Described herein are methods and systems for precisely placing and/or manipulating devices within the body by first positioning a guidewire or pullwire. The device to be positioned within the body is coupled to the proximal end of the guidewire, and the device is pulled into the body by pulling on the distal end of the guidewire that extends from the body. The device may be bimanually manipulated by pulling the guidewire distally, and an attachment to a device that extends proximally, allowing control of both the proximal and the distal ends. In this manner devices (and particularly implants such as innerspinous distracters, stimulating leads, and disc slings) may be positioned and/or manipulated within the body. Guidewire exchange systems, devices and methods are also described. A guidewire may be exchanged between different surgical devices and may be releaseably or permanently coupled.Type: ApplicationFiled: October 25, 2013Publication date: April 17, 2014Inventors: Gregory P. SCHMITZ, Michael P. WALLACE, Winnie CHUNG, Amie R. BORGSTROM, Jeffery L. BLEICH, Gregory B. ARCENIO, Ronald LEGUIDLEGUID, Roy LEGUIDLEGUID, Jefferey BLEAM
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Publication number: 20140100558Abstract: A medical device for removing or manipulating tissue of a subject is provided with a distal housing having an end effector, and an elongate member configured to introduce the distal housing to a target tissue site of the subject. The elongate member may have proximal and distal portions interconnected by a joint mechanism that is configured to allow the two portions to articulate relative to one another. In some embodiments, the joint mechanism includes one or more nested crown gear(s) configured to drive associated spur gear(s) to accomplish the articulation. In some embodiments, the end effector is a powered scissors device.Type: ApplicationFiled: April 2, 2013Publication date: April 10, 2014Inventors: Gregory P. Schmitz, Juan Diego Perea, Ronald Leguidleguid, Gregory B. Arcenio
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Patent number: 8568416Abstract: Described herein are methods and systems for precisely placing and/or manipulating devices within the body by first positioning a guidewire or pullwire. The device to be positioned within the body is coupled to the proximal end of the guidewire, and the device is pulled into the body by pulling on the distal end of the guidewire that extends from the body. The device may be bimanually manipulated by pulling the guidewire distally, and an attachment to a device that extends proximally, allowing control of both the proximal and the distal ends. In this manner devices (and particularly implants such as innerspinous distracters, stimulating leads, and disc slings) may be positioned and/or manipulated within the body. Guidewire exchange systems, devices and methods are also described. A guidewire may be exchanged between different surgical devices and may be releaseably or permanently coupled.Type: GrantFiled: August 17, 2012Date of Patent: October 29, 2013Assignee: Baxano Surgical, Inc.Inventors: Gregory P. Schmitz, Michael P. Wallace, Winnie Chung, Amie R. Borgstrom, Jeffery L. Bleich, Gregory B. Arcenio, Ronald Leguidleguid, Roy Leguidleguid, Jefferey Bleam
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Publication number: 20130178904Abstract: Described herein are methods, devices and systems for performing an interspinous fusion, in particular for performing an interspinous fusion unilaterally. In general an interspinous fusion system may include a first fixation plate configured to couple to a first lateral side of a spinous process, a rod extending from the first fixation plate at a joint such that the rod is pivotable with respect to the first fixation plate, and a second fixation plate configured to couple to a second lateral side of a spinous process opposite from the first fixation plate.Type: ApplicationFiled: March 1, 2013Publication date: July 11, 2013Inventors: Gregory B. ARCENIO, Anthony J. RECUPERO, Michael P. WALLACE, Glenn R. DAVIS
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Patent number: 8394102Abstract: Described herein are pullwire handle devices for securing to a tissue-penetrating pullwire. In some embodiments, the device includes a handle body, a pullwire lock configured to removably lock the pullwire handle device onto a pullwire within the handle body, and a tip containment element configured to retain the distal tip of the pullwire. In some embodiments, the handle body further comprises a storage chamber configured to store a distal portion of the pullwire. Also described herein are methods for capturing a pullwire using a pullwire handle device. In some embodiments, the method includes the steps of inserting the distal end of a pullwire into the pullwire handle device, advancing the pullwire further into the pullwire handle device while the distal portion of the pullwire is contained within the pullwire handle device, and locking the distal portion of the pullwire within the pullwire handle device.Type: GrantFiled: June 25, 2010Date of Patent: March 12, 2013Assignee: Baxano, Inc.Inventors: Robert Garabedian, Amie R. Borgstrom, Gregory B. Arcenio, Ronald Leguidleguid, Michael P. Wallace, Bryan Knodel