Patents by Inventor Stephen J. Kleshinski
Stephen J. Kleshinski 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: 20230346536Abstract: An embolic filter positioning system includes a vascular delivery sheath, a filter catheter, a self-expanding embolic filter attached to a distal end of the filter catheter, and an elongate dilator having a tapered dilator tip. The elongate dilator is slidably received in a central lumen of the filter catheter, and the filter catheter is slidably received in the open lumen of the vascular delivery sheath. The tapered dilator tip is positioned distally of the distal end of the vascular delivery sheath, and the self-expanding embolic filter is radially constrained in a proximal portion of the open lumen of the vascular delivery sheath. The tapered dilator tip has an expanded configuration where it covers the open distal end of the vascular delivery sheath and facilitates entry though an arteriotomy and a contracted configuration where it can be retracted through the central lumen of the filter catheter.Type: ApplicationFiled: June 30, 2023Publication date: November 2, 2023Applicant: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Masao Drexel, Amir Belson, Eric Storne, Matthew Davis
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Publication number: 20230293282Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: ApplicationFiled: May 30, 2023Publication date: September 21, 2023Applicant: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Publication number: 20230210650Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: ApplicationFiled: March 13, 2023Publication date: July 6, 2023Applicant: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Publication number: 20230091397Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: ApplicationFiled: July 6, 2022Publication date: March 23, 2023Applicant: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Publication number: 20220265414Abstract: A prosthetic heart valve delivery catheter includes an embolic filter to provide integrated embolic protection to inhibit the release of emboli into the aorta, the aortic arch or branch vessels, and other vasculature during transvascular heart valve replacement procedures. The embolic filter will usually be fixedly or movably attached to a shaft of the delivery catheter proximal of the prosthetic heart valve.Type: ApplicationFiled: March 14, 2022Publication date: August 25, 2022Applicant: Emboline, Inc.Inventors: Scott M. Russell, Amir Belson, Stephen J. Kleshinski, Masao Drexel
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Patent number: 11399927Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: GrantFiled: March 4, 2020Date of Patent: August 2, 2022Assignee: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Patent number: 11304792Abstract: A prosthetic heart valve delivery catheter includes an embolic filter to provide integrated embolic protection to inhibit the release of emboli into the aorta, the aortic arch or branch vessels, and other vasculature during transvascular heart valve replacement procedures. The embolic filter will usually be fixedly or movably attached to a shaft of the delivery catheter proximal of the prosthetic heart valve.Type: GrantFiled: February 13, 2020Date of Patent: April 19, 2022Assignee: Emboline, Inc.Inventors: Scott M. Russell, Amir Belson, Stephen J. Kleshinski, Masao Drexel
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Patent number: 11071672Abstract: A method and wearable system and for enhancing human balance and gait and preventing foot injury through neurological stimulation of the foot and the ankle. Subthreshold stimulation for neurosensory enhancement is provided via electrodes or vibrational actuators, or combination thereof, disposed in or on a wearable a platform, such as an insole, sock shoe, removable shoe insert, or applied without the support of a platform, to the skin surface of an individual. Suprathreshold stimulation for therapeutic purposes, such as improving blood flow, is also provided by the vibrational actuators. The actuators and electrodes are driven by bias signals generated by a bias signal generator that is coupled to a controller. The signal generator under the control of the controller is adapted to generate a non-deterministic random signal, a repetitive pattern or series of patterns.Type: GrantFiled: August 21, 2018Date of Patent: July 27, 2021Assignee: TRUSTEES OF BOSTON UNIVERSITYInventors: Jason D. Harry, James J. Collins, James B. Niemi, Attila A. Priplata, Stephen J. Kleshinski
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Patent number: 10743882Abstract: Vascular delivery systems configured to deliver an implant to a location within a vasculature can include one or more control wires controllable by a user to detach the implant from the delivery system. Control wires can cause a feature of the delivery system to mechanically engage a hub at a proximal end of an implant. Proximal or distal movement of the control wire can allow the feature to disengage from the hub, thereby allowing release of the implant.Type: GrantFiled: August 14, 2018Date of Patent: August 18, 2020Assignee: COVIDIEN LPInventors: Stephen J. Kleshinski, Karl S. Halden
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Patent number: 10744012Abstract: A stent includes a first section and a second section. The second section is aligned with the first section along a longitudinal axis of the stent. Each section includes a plurality of expandable modules and a plurality of bridging modules. Each expandable module includes a plurality of strut elements that join together at a plurality of apices. Each bridging module includes bridging elements that connect an apex of a first module with an apex of a second module. The plurality of expandable modules or the plurality of bridging modules in the first section are more radially stiff than the plurality of expandable modules or the plurality of bridging modules in the second section such that at least a portion of the first section is configured to be placed in a region of a vein subjected to physiologic compression.Type: GrantFiled: May 15, 2017Date of Patent: August 18, 2020Assignee: BOSTON SCIENTIFIC SCIMED, INC.Inventors: Craig L. Bonsignore, Stephen J. Kleshinski, Andrea Seba Les
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Publication number: 20200253709Abstract: A prosthetic heart valve delivery catheter includes an embolic filter to provide integrated embolic protection to inhibit the release of emboli into the aorta, the aortic arch or branch vessels, and other vasculature during transvascular heart valve replacement procedures. The embolic filter will usually be fixedly or movably attached to a shaft of the delivery catheter proximal of the prosthetic heart valve.Type: ApplicationFiled: February 13, 2020Publication date: August 13, 2020Applicant: Emboline, Inc.Inventors: Scott M. Russell, Amir Belson, Stephen J. Kleshinski, Masao Drexel
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Publication number: 20200197151Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: ApplicationFiled: March 4, 2020Publication date: June 25, 2020Applicant: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Patent number: 10617509Abstract: An embolic protection device comprises a tubular filter body attached to a sheath. The tubular filter body has an open upstream end and a generally closed downstream end for capturing emboli. A self-opening passage through the emboli capture end of the tubular filter body allows multiple catheters to be advanced from the sheath or otherwise into the filter body simultaneously or sequentially. The sheath is attached to a peripheral support structure near the emboli capture end of the filter body to facilitate deployment and retrieval of the filter body through a restraining delivery catheter.Type: GrantFiled: April 25, 2016Date of Patent: April 14, 2020Assignee: Emboline, Inc.Inventors: Stephen J. Kleshinski, Scott M. Russell, Amir Belson
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Publication number: 20190110913Abstract: A stent includes a first section and a second section. The first section and the second section each include a plurality of expandable modules and a plurality of bridging modules. Each expandable module includes a plurality of strut elements that join together at a plurality of apices, and each bridging module includes bridging elements that connect an apex of a first module with an apex of a second module. In some aspects, the first section is more flexible along the longitudinal axis of the stent than the second section and is configured to be placed in a specific region of a vessel that requires flexibility to accommodate surrounding anatomy. In some aspects, the first section is more radially stiff than the second section and is configured to be placed in a specific region of the vessel that requires radial stiffness to counteract crushing force caused by surrounding anatomy.Type: ApplicationFiled: September 6, 2018Publication date: April 18, 2019Inventors: Craig BONSIGNORE, Stephen J. KLESHINSKI
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Publication number: 20180368854Abstract: Vascular delivery systems configured to deliver an implant to a location within a vasculature can include one or more control wires controllable by a user to detach the implant from the delivery system. Control wires can cause a feature of the delivery system to mechanically engage a hub at a proximal end of an implant. Proximal or distal movement of the control wire can allow the feature to disengage from the hub, thereby allowing release of the implant.Type: ApplicationFiled: August 14, 2018Publication date: December 27, 2018Inventors: Stephen J. Kleshinski, Karl S. Halden
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Publication number: 20180353365Abstract: A method and wearable system and for enhancing human balance and gait and preventing foot injury through neurological stimulation of the foot and the ankle. Subthreshold stimulation for neurosensory enhancement is provided via electrodes or vibrational actuators, or combination thereof, disposed in or on a wearable a platform, such as an insole, sock shoe, removable shoe insert, or applied without the support of a platform, to the skin surface of an individual. Suprathreshold stimulation for therapeutic purposes, such as improving blood flow, is also provided by the vibrational actuators. The actuators and electrodes are driven by bias signals generated by a bias signal generator that is coupled to a controller. The signal generator under the control of the controller is adapted to generate a non-deterministic random signal, a repetitive pattern or series of patterns.Type: ApplicationFiled: August 21, 2018Publication date: December 13, 2018Inventors: Jason D. Harry, James J. Collins, James B. Niemi, Attila A. Priplata, Stephen J. Kleshinski
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Patent number: 10092427Abstract: A stent includes a first section and a second section. The first section and the second section each include a plurality of expandable modules and a plurality of bridging modules. Each expandable module includes a plurality of strut elements that join together at a plurality of apices, and each bridging module includes bridging elements that connect an apex of a first module with an apex of a second module. In some aspects, the first section is more flexible along the longitudinal axis of the stent than the second section and is configured to be placed in a specific region of a vessel that requires flexibility to accommodate surrounding anatomy. In some aspects, the first section is more radially stiff than the second section and is configured to be placed in a specific region of the vessel that requires radial stiffness to counteract crushing force caused by surrounding anatomy.Type: GrantFiled: November 4, 2010Date of Patent: October 9, 2018Assignee: Confluent Medical Technologies, Inc.Inventors: Craig Bonsignore, Stephen J. Kleshinski
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Patent number: 10076336Abstract: Vascular delivery systems configured to deliver an implant to a location within a vasculature can include one or more control wires controllable by a user to detach the implant from the delivery system. Control wires can cause a feature of the delivery system to mechanically engage a hub at a proximal end of an implant. Proximal or distal movement of the control wire can allow the feature to disengage from the hub, thereby allowing release of the implant.Type: GrantFiled: March 14, 2014Date of Patent: September 18, 2018Assignee: Covidien LPInventors: Stephen J. Kleshinski, Karl S. Halden
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Patent number: 10076460Abstract: A method and wearable system and for enhancing human balance and gait and preventing foot injury through neurological stimulation of the foot and the ankle. Subthreshold stimulation for neurosensory enhancement is provided via electrodes or vibrational actuators, or combination thereof, disposed in or on a wearable a platform, such as an insole, sock shoe, removable shoe insert, or applied without the support of a platform, to the skin surface of an individual. Suprathreshold stimulation for therapeutic purposes, such as improving blood flow, is also provided by the vibrational actuators. The actuators and electrodes are driven by bias signals generated by a bias signal generator that is coupled to a controller. The signal generator under the control of the controller is adapted to generate a non-deterministic random signal, a repetitive pattern or series of patterns.Type: GrantFiled: November 12, 2012Date of Patent: September 18, 2018Assignee: Trustees of Boston UniversityInventors: Jason D. Harry, James J. Collins, James B. Niemi, Attila A. Priplata, Stephen J. Kleshinski
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Publication number: 20180092764Abstract: A stent includes a first section and a second section. The second section is aligned with the first section along a longitudinal axis of the stent. Each section includes a plurality of expandable modules and a plurality of bridging modules. Each expandable module includes a plurality of strut elements that join together at a plurality of apices. Each bridging module includes bridging elements that connect an apex of a first module with an apex of a second module. The plurality of expandable modules or the plurality of bridging modules in the first section are more radially stiff than the plurality of expandable modules or the plurality of bridging modules in the second section such that at least a portion of the first section is configured to be placed in a region of a vein subjected to physiologic compression.Type: ApplicationFiled: May 15, 2017Publication date: April 5, 2018Inventors: Craig L. BONSIGNORE, Stephen J. KLESHINSKI, Andrea Seba LES