Patents by Inventor Lance Boling
Lance Boling 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: 20220080106Abstract: A system for intravascular oxygenation may include a catheter shaft, a vibratory member, and an oxygen source. The catheter shaft may have a wall that extends from a proximal end to a distal end along a longitudinal axis to form a lumen. The distal end may terminate in an atraumatic tip that seals off an interior space of the lumen from an adjacent exterior space. The distal end may include a coiled spring whose coils are tightly disposed against adjacent coils. The vibratory member may be configured to produce and transmit via the wall, to the coiled spring, mechanical vibration or high-frequency acoustic energy. The oxygen source may be configured to be coupled to the proximal end and to deliver a flow of oxygen to an interior space for communication to the exterior space, through gaps that exist or are created between adjacent coils of the coiled spring.Type: ApplicationFiled: September 1, 2021Publication date: March 17, 2022Applicant: Agitated Solutions Inc.Inventors: Morgan Evans, Benjamin Arcand, Carl Lance Boling, Jennifer Chmura
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Publication number: 20220047877Abstract: A biostimulator, such as a leadless cardiac pacemaker, including a fixation element to engage tissue and one or more backstop elements to resist back-out from the tissue, is described. The fixation element can be mounted on a housing of the biostimulator such that a helix of the fixation element extends distally to a leading point. The leading point can be located on a distal face of the helix at a position that is proximal from a center of the distal face. The backstop elements can include non-metallic filaments, such as sutures, or can include a pinch point of the biostimulator. The backstop features can grip the tissue to prevent unscrewing of the fixation element. Other embodiments are also described and claimed.Type: ApplicationFiled: October 28, 2021Publication date: February 17, 2022Inventors: Craig E. Mar, Thomas B. Eby, Paul Paspa, Sondra Orts, Matthew G. Fishler, Stephen Lee, Carl Lance Boling, Thomas Robert Luhrs
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Patent number: 11191888Abstract: A device for generating microbubbles may include a syringe having a barrel, a plunger and a syringe tip; a converging nozzle; and an aerator. The converging nozzle may have a coupling end, a converging tip opposite the coupling end, an exterior mating surface adjacent the converging tip, and an interior channel that fluidly couples the syringe tip and converging tip. The interior channel may have a diameter that progressively decreases from the coupling end to the converging tip. The converging nozzle may be coupled to the syringe tip. The aerator may have a retention end, a discharge end, an interior air chamber, an interior circumferential lip, and a discharge channel at the discharge end. The retention end may be coupled to the converging nozzle. The interior circumferential lip may abut the exterior mating surface. One or more air channels may fluidly couple the discharge channel and the interior air chamber.Type: GrantFiled: January 26, 2021Date of Patent: December 7, 2021Assignee: Agitated Solutions Inc.Inventors: Benjamin Arcand, Carl Lance Boling
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Patent number: 11185704Abstract: A biostimulator, such as a leadless cardiac pacemaker, including a fixation element to engage tissue and one or more backstop elements to resist back-out from the tissue, is described. The fixation element can be mounted on a housing of the biostimulator such that a helix of the fixation element extends distally to a leading point. The leading point can be located on a distal face of the helix at a position that is proximal from a center of the distal face. The backstop elements can include non-metallic filaments, such as sutures, or can include a pinch point of the biostimulator. The backstop features can grip the tissue to prevent unscrewing of the fixation element. Other embodiments are also described and claimed.Type: GrantFiled: November 5, 2018Date of Patent: November 30, 2021Assignee: PACESETTER, INC.Inventors: Craig E. Mar, Thomas B. Eby, Paul Paspa, Sondra Orts, Matthew G. Fishler, Stephen Lee, Carl Lance Boling, Thomas Robert Luhrs
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Publication number: 20210361940Abstract: Systems, devices, and methods discussed herein include wireless midfield transmitters and implantable receiver devices. A midfield transmitter can be configured to provide signals outside of tissue that give rise to propagating signals inside of tissue. The present subject matter includes a protection circuit for a transmitter device, a layered transmitter device, an implantable receiver device, implantation and extraction methods, test and assembly methods, and the like. In an example, a protection circuit includes a first control circuit to receive an RF drive signal and conditionally provide an output signal to an antenna. A second control circuit can generate a control signal based on the antenna output signal and/or information about the RF drive signal. A gain circuit can provide the RF drive signal to the first control circuit. The gain circuit can change an amplitude of the RF drive signal based on the control signal from the second control circuit.Type: ApplicationFiled: April 12, 2019Publication date: November 25, 2021Inventors: Alexander Yeh, Hui Zhang, Thomas Burpee Ellsworth, III, Elia Junco, Stephen James Schellenberg, Carl Lance Boling
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Publication number: 20210361257Abstract: A method may include intravenously directing first bubbles into a patient's venous circulatory system and to a right side of the patient's heart. The first bubbles may have sizes that fall within a first range. The method may further include monitoring the patient's heart, with ultrasound imaging, to detect presence of the first bubbles on a left side of the patient's heart. Upon detecting the first bubbles on the left side of the patient's heart, the method may further include intravenously directing second bubbles into the patient's venous circulatory system and to the right side of the patient's heart. The second bubbles may have sizes that fall within a second range that is different than the first range. Upon detecting the second bubbles on the left side of the patient's heart, the method may further include initiating treatment to minimize risk of stroke in the patient.Type: ApplicationFiled: May 17, 2021Publication date: November 25, 2021Applicant: Agitated Solutions Inc.Inventors: Micah J Eimer, Morgan Evans, Benjamin Arcand, Jennifer Chmura, C. Lance Boling
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Publication number: 20210353257Abstract: A device for generating microbubbles may include a syringe having a barrel, a plunger and a syringe tip; a converging nozzle; and an aerator. The converging nozzle may have a coupling end, a converging tip opposite the coupling end, an exterior mating surface adjacent the converging tip, and an interior channel that fluidly couples the syringe tip and converging tip. The interior channel may have a diameter that progressively decreases from the coupling end to the converging tip. The converging nozzle may be coupled to the syringe tip. The aerator may have a retention end, a discharge end, an interior air chamber, an interior circumferential lip, and a discharge channel at the discharge end. The retention end may be coupled to the converging nozzle. The interior circumferential lip may abut the exterior mating surface. One or more air channels may fluidly couple the discharge channel and the interior air chamber.Type: ApplicationFiled: January 26, 2021Publication date: November 18, 2021Applicant: Agitated Solutions Inc.Inventors: Benjamin Arcand, Carl Lance Boling
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Publication number: 20210113718Abstract: A method for generating microbubbles may include providing a syringe having a barrel defining an interior volume, a plunger, a tip and a check valve assembly. The check valve assembly may have an inlet port; a check valve that is configured to open when the plunger is drawn back by a user; and a nozzle in fluid communication with the interior volume and, when the check valve is open, in fluid communication with the inlet port. The method may include drawing liquid into the interior volume; removing a seal from the inlet port and drawing gas adjacent the inlet ports into the interior volume to form microbubbles in the liquid already drawn in; coupling the tip to an intravenous line associated with a patient undergoing a bubble study; and depressing the plunger to force the liquid and the formed microbubbles into the intravenous line.Type: ApplicationFiled: October 15, 2020Publication date: April 22, 2021Applicant: Agitated Solutions Inc.Inventors: Benjamin Arcand, Carl Lance Boling, Morgan Clyburn, Micah J. Eimer, Jennifer Chmura
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Publication number: 20200237977Abstract: A fluid exchange system may include a control unit comprising a processor; a tube set attachment removably connected to the control unit, the tube set attachment comprising a tube set fluidly connected to a fluid source and a drainage receptacle; a catheter fluidly connected to the tube set; and at least one sensor positioned on at least one of the control unit and the tube set attachment, wherein the control unit may be configured to supply fluid to a patient through the tube set and drain fluid from the patient via the tube set, and wherein the control unit may be configured to receive measurements from the at least one sensor to adjust the supply of the fluid to the patient and the drainage of the fluid from the patient.Type: ApplicationFiled: March 19, 2018Publication date: July 30, 2020Inventors: Christos Panotopoulos, Lance Boling, Timothy Kovac, Kleanthis Xanthopoulos
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Publication number: 20200206457Abstract: A catheter for use in a fluid exchange system, including: an external catheter wall extending between a proximal end and a distal end of the catheter; a fluid column chamber at a distal region of the catheter, with the fluid column chamber including a plurality of fluid exchange apertures disposed in the external catheter wall; a first lumen in fluid communication with the fluid column chamber and adapted for aspirating fluid from the fluid column chamber; a second lumen in fluid communication with the fluid column chamber and adapted for irrigating fluid into the fluid column chamber; and a first sensor positioned to measure a fluid pressure within a fluid column of the fluid column chamber, with the first sensor disposed at a distal end of a lead, and the lead extending through a first dedicated lumen formed within the catheter or on an exterior of the catheter.Type: ApplicationFiled: December 30, 2019Publication date: July 2, 2020Inventor: Lance Boling
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Publication number: 20200129763Abstract: A biostimulator, such as a leadless cardiac pacemaker, including an electrical feedthrough assembly mounted on a housing, is described. An electronics compartment of the housing can contain an electronics assembly to generate a pacing impulse, and the electrical feedthrough assembly can include an electrode tip to deliver the pacing impulse to a target tissue. A monolithically formed electrode body can have a pin integrated with a cup. The pin can be electrically connected to the electronics assembly, and the cup can be electrically connected to the electrode tip. Accordingly, the biostimulator can transmit the pacing impulse through the monolithic pin and cup to the target tissue. The cup can hold a filler having a therapeutic agent for delivery to the target tissue and may include retention elements for maintaining the filler at a predetermined location within the cup.Type: ApplicationFiled: October 24, 2019Publication date: April 30, 2020Applicant: Pacesetter, Inc.Inventors: Paul Paspa, Thomas B. Eby, Matthew G. Fishler, Carl Lance Boling, Thomas Robert Luhrs, Russell Klehn, Tyler J. Strang, Arees Garabed, Kavous Sahabi, Brett Villavicencio, Wes Alleman, Alex Soriano, Matthew R. Malone, Conor P. Foley
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Patent number: 10441783Abstract: A medical tool includes a rotation mechanism that further includes a warning feature. The warning feature provides an indication when the rotation mechanism has achieved a number of rotations.Type: GrantFiled: August 18, 2017Date of Patent: October 15, 2019Assignee: Pacesetter, Inc.Inventors: Peter Nee, Bradley Knippel, Daniel Coyle, Jennifer Heisel, Bernhard Arnar, Brett Hillukka, Tracee Eidenschink, Thomas B. Eby, Paul Paspa, Joseph Ramon Callol, Thomas Robert Luhrs, Carl Lance Boling
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Patent number: 10376237Abstract: In some embodiments, a method includes releasably attaching an image capture assembly to a distal portion of a TEE device. Next, the TEE device coupled to the image capture assembly is inserted into an oral cavity of the patient. With the image capture assembly releasably attached to the distal portion of the TEE device, image data of an esophagus of the patient captured by the image capture assembly is displayed. While viewing the display of image data, the TEE device coupled to the image capture assembly can be moved within the esophagus. With both the TEE device and the image capture assembly disposed within the esophagus, the image capture assembly is detached from the TEE device. With the image capture assembly detached from the TEE device, and with the TEE device disposed at least in part within the esophagus, the image capture assembly is removed from the patient.Type: GrantFiled: December 7, 2017Date of Patent: August 13, 2019Assignee: Visura Technologies, Inc.Inventors: David B. Marmor, Morgan Clyburn, C. Lance Boling
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Publication number: 20190134413Abstract: A biostimulator, such as a leadless cardiac pacemaker, including a fixation element to engage tissue and one or more backstop elements to resist back-out from the tissue, is described. The fixation element can be mounted on a housing of the biostimulator such that a helix of the fixation element extends distally to a leading point. The leading point can be located on a distal face of the helix at a position that is proximal from a center of the distal face. The backstop elements can include non-metallic filaments, such as sutures, or can include a pinch point of the biostimulator. The backstop features can grip the tissue to prevent unscrewing of the fixation element. Other embodiments are also described and claimed.Type: ApplicationFiled: November 5, 2018Publication date: May 9, 2019Inventors: Craig E. Mar, Thomas B. Eby, Paul Paspa, Sondra Orts, Matthew G. Fishler, Stephen Lee, Carl Lance Boling, Thomas Robert Luhrs
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Patent number: 10105536Abstract: A leadless pulse generator is disclosed herein. The leadless pulse generator has a body, a helical anchor, an electrode, and a sleeve. The body includes a distal end and a proximal end opposite the distal end. The helical anchor distally extends from the distal end. The electrode is at the distal end. The sleeve distally extends from the distal end and has a proximal face and a distal face opposite the proximal face. The proximal face is adjacent the body. The sleeve coaxially extends about the helical anchor and further has a biased state wherein the distal face is near a distal tip of the helical anchor. The sleeve is configured to compress such that the distal face displaces proximally towards the proximal face upon the distal face being forced against the cardiac tissue in the course of the helical anchor screwing into the cardiac tissue.Type: GrantFiled: January 16, 2018Date of Patent: October 23, 2018Assignee: PACESETTER, INC.Inventors: Sondra Orts, Carl Lance Boling, Matthew G. Fishler, Benjamin F. James, IV, Xiangqun Chen
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Patent number: 10098662Abstract: A surgical tool configured to facilitate delivery of a neurostimulator to a craniofacial region of a subject includes a handle portion, an elongate shaft having a contoured distal portion, and an insertion groove on the elongate shaft. The elongate shaft is configured to be advanced under a zygomatic bone along a maxillary tuberosity towards a pterygopalatine fossa. The distal portion includes a distal dissecting tip. The insertion groove is configured to receive, support, and guide a medical device or instrument.Type: GrantFiled: November 30, 2015Date of Patent: October 16, 2018Assignees: The Cleveland Clinic Foundation, Autonomic Technologies, Inc.Inventors: Carl Lance Boling, Anthony V. Caparso, Francis A. Papay, Ryan Powell, Jennifer Teng, Morgan Clyburn
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Patent number: 10045758Abstract: In some embodiments, a method includes releasably attaching an image capture assembly to a distal portion of a TEE device. Next, the TEE device coupled to the image capture assembly is inserted into an oral cavity of the patient. With the image capture assembly releasably attached to the distal portion of the TEE device, image data of an esophagus of the patient captured by the image capture assembly is displayed. While viewing the display of image data, the TEE device coupled to the image capture assembly can be moved within the esophagus. With both the TEE device and the image capture assembly disposed within the esophagus, the image capture assembly is detached from the TEE device. With the image capture assembly detached from the TEE device, and with the TEE device disposed at least in part within the esophagus, the image capture assembly is removed from the patient.Type: GrantFiled: May 25, 2016Date of Patent: August 14, 2018Assignee: Visura Technologies, LLCInventors: David B. Marmor, Morgan Clyburn, C. Lance Boling
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Publication number: 20180133465Abstract: A leadless pulse generator is disclosed herein. The leadless pulse generator has a body, a helical anchor, an electrode, and a sleeve. The body includes a distal end and a proximal end opposite the distal end. The helical anchor distally extends from the distal end. The electrode is at the distal end. The sleeve distally extends from the distal end and has a proximal face and a distal face opposite the proximal face. The proximal face is adjacent the body. The sleeve coaxially extends about the helical anchor and further has a biased state wherein the distal face is near a distal tip of the helical anchor. The sleeve is configured to compress such that the distal face displaces proximally towards the proximal face upon the distal face being forced against the cardiac tissue in the course of the helical anchor screwing into the cardiac tissue.Type: ApplicationFiled: January 16, 2018Publication date: May 17, 2018Inventors: Sondra Orts, Carl Lance Boling, Matthew G. Fishler, Benjamin F. James, IV, Xiangqun Chen
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Publication number: 20180092625Abstract: In some embodiments, a method includes releasably attaching an image capture assembly to a distal portion of a TEE device. Next, the TEE device coupled to the image capture assembly is inserted into an oral cavity of the patient. With the image capture assembly releasably attached to the distal portion of the TEE device, image data of an esophagus of the patient captured by the image capture assembly is displayed. While viewing the display of image data, the TEE device coupled to the image capture assembly can be moved within the esophagus. With both the TEE device and the image capture assembly disposed within the esophagus, the image capture assembly is detached from the TEE device. With the image capture assembly detached from the TEE device, and with the TEE device disposed at least in part within the esophagus, the image capture assembly is removed from the patient.Type: ApplicationFiled: December 7, 2017Publication date: April 5, 2018Applicant: Visura Technologies, LLCInventors: David B. MARMOR, Morgan CLYBURN, C. Lance BOLING
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Patent number: 9907953Abstract: A leadless pulse generator is disclosed herein. The leadless pulse generator has a body, a helical anchor, an electrode, and a sleeve. The body includes a distal end and a proximal end opposite the distal end. The helical anchor distally extends from the distal end. The electrode is at the distal end. The sleeve distally extends from the distal end and has a proximal face and a distal face opposite the proximal face. The proximal face is adjacent the body. The sleeve coaxially extends about the helical anchor and further has a biased state wherein the distal face is near a distal tip of the helical anchor. The sleeve is configured to compress such that the distal face displaces proximally towards the proximal face upon the distal face being forced against the cardiac tissue in the course of the helical anchor screwing into the cardiac tissue.Type: GrantFiled: October 15, 2015Date of Patent: March 6, 2018Assignee: PACESETTER, INC.Inventors: Sondra Orts, Carl Lance Boling, Matthew G. Fishler, Benjamin F. James, IV, Xiangqun Chen