Patents by Inventor Jeffery Bleich
Jeffery Bleich 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: 20120078253Abstract: A device for modifying one or more tissues in a patient's spine may include: an elongate, at least partially flexible body having a proximal portion and a distal portion, wherein at least the distal portion has dimensions that allow it to be passed into an epidural space and between target and non-target tissues of the spine; at least one movable blade disposed along one side of the elongate body; at least one actuator coupled with the at least one blade and disposed at or near the proximal or distal portion of the body for moving the blade(s) to modify one or more target tissues, wherein the at least one actuator is configured to move the blade(s) without significantly translating the elongate body proximally or distally; and means at or near the proximal and distal portions of the elongate body for facilitating application of at least one of anchoring force and tensioning force to the body to urge the at least one blade against the target tissue.Type: ApplicationFiled: April 17, 2006Publication date: March 29, 2012Inventors: Jeffery Bleich, Vahid Saadat, Roy Leguidleguid, Jefferey Bleam
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Publication number: 20110130758Abstract: Methods and devices are described for modifying tissue in a spine of a patient to treat or alleviate spinal stenosis. In one embodiment, a method may include: advancing at least a distal portion of an elongate tissue modification device into an epidural space and between target tissue and non-target tissue in the spine; positioning the tissue modification device so that at least one abrasive surface of the device faces target tissue and at least one non-abrasive surface faces non-target tissue; applying tensioning force at or near separate distal and proximal portions of the tissue modification device; and translating the tissue modification device back and forth while maintaining at least some tensioning force to abrade at least a portion of the target tissue with the at least one abrasive surface. Unwanted damage to the non-target tissue may be prevented via the at least one non-abrasive surface.Type: ApplicationFiled: May 4, 2006Publication date: June 2, 2011Applicant: Baxano, Inc.Inventors: Jeffery Bleich, Edwin Hlavka
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Publication number: 20110098708Abstract: A device for modifying tissue in a spine may include: a shaft having a proximal portion and a distal portion, the distal portion having dimensions which allow it to be passed into an epidural space of the spine and between target and non-target tissues; at least one distal force application member extending from the distal portion of the shaft and configured to facilitate application of at least one of anchoring force and tensioning force to the shaft; at least one movable tissue modifying member coupled with the shaft at or near its distal portion; at least one drive member coupled with the at least one tissue modifying member to activate the at least one tissue modifying member; and at least one power transmission member coupled with the at least one drive member to deliver power to the at least one drive member.Type: ApplicationFiled: April 17, 2006Publication date: April 28, 2011Inventors: Vahid Saadat, Jeffery Bleich, Kenneth Michlitsch, John Ashley
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Publication number: 20080103504Abstract: A method for percutaneously removing ligamentum flavum tissue in a spine to treat spinal stenosis may involve percutaneously advancing a distal portion of a tissue removal cannula into the ligamentum flavum tissue, uncovering a side-opening aperture disposed on the distal portion of the cannula to expose a tissue cutter disposed in the cannula, and cutting ligamentum flavum tissue using the tissue cutter while the aperture is uncovered. A device for percutaneously removing ligamentum flavum tissue in a spine to treat spinal stenosis may include a cannula including a side-facing aperture, an aperture cover slidably coupled with the cannula and configured to advance and retract to cover and uncover the aperture, and a tissue cutter slidably disposed within the cannula and configured to extend through the aperture to cut ligamentum flavum tissue.Type: ApplicationFiled: October 10, 2007Publication date: May 1, 2008Inventors: Gregory SCHMITZ, Jeffery Bleich, Eric Miller, Scott Smith
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Publication number: 20070260252Abstract: A device for modifying tissue in a patient may include: an elongate body having a rigid proximal portion and a flexible distal portion having first and second major surfaces; a proximal handle coupled with the proximal portion of the body; one or more tissue modifying members disposed along the first major surface of the distal portion of the body; a guidewire coupled with and extending from the distal portion of the body; and a distal handle removably couplable with the guidewire outside the patient.Type: ApplicationFiled: March 16, 2007Publication date: November 8, 2007Applicant: BAXANO, INC.Inventors: Gregory Schmitz, Jeffery Bleich, Steven Spisak, Roy Leguidleguid, Jefferey Bleam
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Publication number: 20070213735Abstract: A device for modifying tissue in a spine may include: a shaft having a proximal portion and a distal portion, the distal portion having dimensions which allow it to be passed into an epidural space of the spine and between target and non-target tissues; at least one distal force application member extending from the distal portion of the shaft and configured to facilitate application of at least one of anchoring force and tensioning force to the shaft; at least one movable tissue modifying member coupled with the shaft at or near its distal portion; at least one drive member coupled with the at least one tissue modifying member to activate the at least one tissue modifying member; and at least one power transmission member coupled with the at least one drive member to deliver power to the at least one drive member.Type: ApplicationFiled: April 17, 2006Publication date: September 13, 2007Inventors: Vahid Saadat, Jeffery Bleich, Kenneth Michlitsch, John Ashley
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Publication number: 20070213734Abstract: A method for preventing unwanted damage to tissue in a spine of a patient during a tissue modification procedure may involve: advancing at least a distal portion of at least one barrier member over at least one guide member into an epidural space of the patient's spine; positioning at least an expanded portion of the barrier member between target tissue and non-target tissue; and performing at least one tissue modification procedure on the target tissue, using at least one tissue modification device. Generally, at least part of the barrier member may be disposed between the tissue modification device and the non-target tissue to prevent unwanted damage to the non-target tissue. In various embodiments, at least part of a barrier member may be advanced through a sheath- or catheter-like delivery device and may either automatically expand or be expandable from a collapsed configuration to an expanded configuration.Type: ApplicationFiled: April 17, 2006Publication date: September 13, 2007Inventors: Jeffery Bleich, Steven Spisak, Vahid Saadat, Ronald Leguidleguid, Jeffery Bleam, Michael Drews, James Yurchenco
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Publication number: 20070213733Abstract: A device for modifying one or more tissues in a patient's spine may include: an elongate, at least partially flexible body having a proximal portion and a distal portion, wherein at least the distal portion has dimensions that allow it to be passed into an epidural space and between target and non-target tissues of the spine; at least one movable blade disposed along one side of the elongate body; at least one actuator coupled with the at least one blade and disposed at or near the proximal or distal portion of the body for moving the blade(s) to modify one or more target tissues, wherein the at least one actuator is configured to move the blade(s) without significantly translating the elongate body proximally or distally; and means at or near the proximal and distal portions of the elongate body for facilitating application of at least one of anchoring force and tensioning force to the body to urge the at least one blade against the target tissue.Type: ApplicationFiled: April 17, 2006Publication date: September 13, 2007Inventors: Jeffery Bleich, Vahid Saadat, Roy Leguidleguid, Jeffery Bleam
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Publication number: 20070123888Abstract: Methods and devices are described for modifying tissue in a spine of a patient to treat or alleviate spinal stenosis. In one embodiment, a method may include: advancing at least a distal portion of an elongate tissue modification device into an epidural space and between target tissue and non-target tissue in the spine; positioning the tissue modification device so that at least one abrasive surface of the device faces target tissue and at least one non-abrasive surface faces non-target tissue; applying tensioning force at or near separate distal and proximal portions of the tissue modification device; and translating the tissue modification device back and forth while maintaining at least some tensioning force to abrade at least a portion of the target tissue with the at least one abrasive surface. Unwanted damage to the non-target tissue may be prevented via the at least one non-abrasive surface.Type: ApplicationFiled: May 4, 2006Publication date: May 31, 2007Applicant: Baxano, Inc.Inventors: Jeffery Bleich, Edwin Hlavka
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Publication number: 20060241648Abstract: A method for modifying tissue in a patient may involve one or more of the following steps: advancing at least a distal portion of at least one elongate, at least partially flexible tissue modification device into a patient and between one or more target tissues and one or more non-target tissues; positioning at least one tissue modifying member of the tissue modification device adjacent the target tissue such that the tissue modifying member(s) face the target tissue and do not face the non-target tissue; applying an anchoring force to the tissue modification device at or near the distal portion or a proximal portion of the device; applying a tensioning force to the tissue modification device at or near an opposite end of the device relative to the end to which anchoring force is applied, while maintaining the anchoring force, to urge the tissue modifying member(s) against the target tissue; and modifying the target tissue, using the tissue modifying member(s), while preventing the tissue modifying member(s)Type: ApplicationFiled: March 13, 2006Publication date: October 26, 2006Inventors: Jeffery Bleich, Vahid Saadat, Steven Spisak, John Ashley
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Publication number: 20060135882Abstract: Methods and apparatus are provided for selective surgical removal of tissue. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. The sharp tip of the needle in the epidural space, can be converted to a blunt tipped instrument for further safe advancement. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. A nerve stimulator may be provided to reduce a risk of inadvertent neural abrasion.Type: ApplicationFiled: October 15, 2005Publication date: June 22, 2006Inventor: Jeffery Bleich
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Publication number: 20060122458Abstract: Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument.Type: ApplicationFiled: October 15, 2005Publication date: June 8, 2006Inventor: Jeffery Bleich
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Publication number: 20060100651Abstract: Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument.Type: ApplicationFiled: October 15, 2005Publication date: May 11, 2006Inventor: Jeffery Bleich
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Publication number: 20060095028Abstract: Methods and apparatus are provided for selective surgical removal of tissue. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. The sharp tip of the needle in the epidural space, can be converted to a blunt tipped instrument for further safe advancement. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. A nerve stimulator may be provided to reduce a risk of inadvertent neural abrasion.Type: ApplicationFiled: October 15, 2005Publication date: May 4, 2006Inventor: Jeffery Bleich
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Publication number: 20060094976Abstract: Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument.Type: ApplicationFiled: October 15, 2005Publication date: May 4, 2006Inventor: Jeffery Bleich
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Publication number: 20060095059Abstract: Methods and apparatus are provided for selective surgical removal of tissue, e.g., for enlargement of diseased spinal structures, such as impinged lateral recesses and pathologically narrowed neural foramen. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. Once the sharp tip of the needle is in the epidural space, it is converted to a blunt tipped instrument for further safe advancement. A specially designed epidural catheter that is used to cover the previously sharp needle tip may also contain a fiberoptic cable. Further embodiments of the current invention include a double barreled epidural needle or other means for placement of a working channel for the placement of tools within the epidural space, beside the epidural instrument.Type: ApplicationFiled: October 15, 2005Publication date: May 4, 2006Inventors: Jeffery Bleich, Edwin Hlavka, Vahid Saadat, Steven Spisak, David Miller, James Yurchenco
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Publication number: 20060089609Abstract: Methods and apparatus are provided for selective surgical removal of tissue. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. The sharp tip of the needle in the epidural space, can be converted to a blunt tipped instrument for further safe advancement. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. A nerve stimulator may be provided to reduce a risk of inadvertent neural abrasion.Type: ApplicationFiled: October 15, 2005Publication date: April 27, 2006Inventors: Jeffery Bleich, Edwin Hlavka
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Publication number: 20060089640Abstract: Methods and apparatus are provided for selective surgical removal of tissue. In one variation, tissue may be ablated, resected, removed, or otherwise remodeled by standard small endoscopic tools delivered into the epidural space through an epidural needle. The sharp tip of the needle in the epidural space, can be converted to a blunt tipped instrument for further safe advancement. The current invention includes specific tools that enable safe tissue modification in the epidural space, including a barrier that separates the area where tissue modification will take place from adjacent vulnerable neural and vascular structures. A nerve stimulator may be provided to reduce a risk of inadvertent neural abrasion.Type: ApplicationFiled: October 15, 2005Publication date: April 27, 2006Inventors: Jeffery Bleich, Edwin Hlavka