Patents by Inventor Zhenyi Ma
Zhenyi Ma 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: 20170143414Abstract: Electrode assemblies include segmented electrodes disposed on a catheter. The segmented electrodes can be constructed at the tip of the catheter. Tip electrodes can be constructed from an electrically insulative substrate comprising an inner lumen, an external tip surface, and a plurality of channels extending from the inner lumen to the external tip surface, a plurality of segmented electrodes, and a plurality of spot electrodes. Each of the plurality of segmented electrodes and each of the plurality of spot electrodes can be laterally separated from each other by an electrically non-conductive substrate portion and each of the spot electrodes and each of the segmented electrodes can be electrically coupled to at least one wire or conductor trace.Type: ApplicationFiled: November 18, 2016Publication date: May 25, 2017Inventors: John W. Sliwa, Zhenyi Ma, Stephen A. Morse, John A. Hauck, Don Curtis Deno
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Publication number: 20160317842Abstract: A focused ultrasound transducer includes a first ultrasonic emitter and at least one metallic ultrasonic lens acoustically coupled thereto. The emitter generates ultrasonic energy that propagates along a beam path projecting therefrom. The at least one metallic ultrasonic lens is positioned at least partially in the beam path so that it can direct (e.g., focus, defocus, and/or collimate) in at least one direction (or along at least one plane) at least some of the ultrasonic energy propagating from the emitter. The metallic lens may be formed by extrusion, by molding (e.g., diecast molding or thermoforming), or by sintering (e.g., powder metallurgy). The metallic lens also advantageously functions as a heat sink, improving thermal performance of the ultrasound transducer.Type: ApplicationFiled: June 23, 2016Publication date: November 3, 2016Inventors: John W. Sliwa, John P. Goetz, Zhenyi Ma
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Publication number: 20160303345Abstract: A tip for a medical device includes a hollow body having a window, a sensor positioned within the hollow body and oriented such that its active surface is pointed towards the window, and a membrane positioned within a beam path of the sensor. The membrane passes energy without preventing an outer surface of the hollow body of the tip from coming in contact with tissue, thus allowing the hollow body to deliver therapy to an adjacent tissue and/or diagnose adjacent tissue. The membrane can cover the window or the sensor. The membrane is desirably permeable to an irrigant, such that a suitable level of irrigant outflow from the window is maintained, and thin enough that it minimizes attenuation of energy passing to and/or from the sensor.Type: ApplicationFiled: December 19, 2014Publication date: October 20, 2016Inventors: John W. Sliwa, Zhenyi Ma, Stephen A. Morse
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Publication number: 20160228180Abstract: Medical devices for diagnosis or treatment of tissue in a body. Representative devices include an elongate shaft having a proximal portion and a distal portion configured for movement relative to the proximal portion. A flexible member having a predetermined stiffness is disposed between the proximal and distal portions. One or more coils and an electrically passive element are disposed within the shaft with either the coils or element configured for movement with the distal portion. The element comprises a material effecting an electrical characteristic of the coils. Movement of the distal portion in response to its contact with the tissue and relative movement of the coils and element causes a change in the electrical characteristic in at least one of the coils indicative of at least a contact force magnitude between the distal portion and the tissue. Several embodiments allow determination of both force magnitude and force vector direction.Type: ApplicationFiled: November 6, 2014Publication date: August 11, 2016Applicant: St. Jude Medical, Cardiology Division, Inc.Inventors: John W. Sliwa, Alon Izmirli, Zhenyi Ma, Troy T. Tegg
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Publication number: 20150209106Abstract: An ablation catheter comprises an elongated catheter body; at least one ablation element disposed in a distal portion which is adjacent the distal end of the catheter body; an illumination optical element disposed in the distal portion, the illumination optical element being light-transmissive to emit light from the illumination optical element to the targeted tissue region; and a collection optical element disposed in the distal portion, the collection optical element being light-transmissive to collect one or more of returned, backscattered or newly excited light from the targeted tissue region. The illumination or excitation optical element and the collection optical element are axially spaced from one another and axially optically isolated from one another within the distal portion to substantially prevent light from traveling between the illumination optical element and the collection optical element along a path within the distal portion.Type: ApplicationFiled: March 6, 2015Publication date: July 30, 2015Inventors: John W. Sliwa, Stephen A. Morse, Zhenyi Ma
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Patent number: 8986292Abstract: An ablation catheter comprises an elongated catheter body; at least one ablation element disposed in a distal portion which is adjacent the distal end of the catheter body; an illumination optical element disposed in the distal portion, the illumination optical element being light-transmissive to emit light from the illumination optical element to the targeted tissue region; and a collection optical element disposed in the distal portion, the collection optical element being light-transmissive to collect one or more of returned, backscattered or newly excited light from the targeted tissue region. The illumination or excitation optical element and the collection optical element are axially spaced from one another and axially optically isolated from one another within the distal portion to substantially prevent light from traveling between the illumination optical element and the collection optical element along a path within the distal portion.Type: GrantFiled: April 13, 2011Date of Patent: March 24, 2015Assignee: St. Jude Medical, Inc.Inventors: John Sliwa, Stephen Morse, Zhenyi Ma
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Publication number: 20150066014Abstract: An ablation catheter comprises: an elongated catheter body extending longitudinally between a proximal end and a distal end along a longitudinal axis; a distal member disposed adjacent the distal end, the distal member including an ablation element to ablate a biological member; one or more acoustic transducers disposed in the distal member and each configured to direct an acoustic signal toward a respective target ablation region and receive reflection echoes therefrom; and an acoustic redirection member disposed in the distal member to at least partially redirect the acoustic signal from at least one of the acoustic transducers toward a tissue target. The distal member includes a most-distal portion, a proximal portion, and a deflectable portion between the most-distal portion and proximal portion to permit deflection between the most-distal portion and proximal portion of the distal member. The transducers and redirection member are mounted on opposite sides of the deflectable portion.Type: ApplicationFiled: March 15, 2013Publication date: March 5, 2015Inventors: John Sliwa, Zhenyi Ma, Stephen Morse
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Publication number: 20140276006Abstract: A force-sensing tip assembly for a catheter comprises a tip shell, an acoustic transducer, a first target, and a first spring. The tip shell is for joining to the catheter. The acoustic transducer is disposed within the tip shell and is capable of generating an acoustic ping. The first target is spaced from the acoustic transducer within the tip shell. The first spring is in the tip shell and configured to allow a relative position between the acoustic transducer and the first target to change over a range. The first target is shaped and positioned to reflect at least a portion of the acoustic ping back to the acoustic transducer as a first echo over at least a portion of the range.Type: ApplicationFiled: March 14, 2014Publication date: September 18, 2014Inventors: John W. Sliwa, Stephen A. Morse, Zhenyi Ma
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Publication number: 20140276692Abstract: The present disclosure relates generally to systems and methods for aligning directionally operable medical devices with and upon target tissue. In particular, the instant disclosure relates to systems and methods for aligning medical devices such as directional ablation catheters to and upon target tissue by monitoring irrigant backpressure.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Inventors: John W. Sliwa, Zhenyi Ma, Stephen A. Morse
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Patent number: 8814852Abstract: A medical device comprising a cell including an ablation element and a carrier configured to receive at least a portion of said ablation element is disclosed. The medical device further comprises a tube enclosing the cell. At least a portion of the tube includes a membrane and the tube includes at least one hole proximate the ablation element for facilitating fluid flow. The medical device further comprises a fluid inlet for providing fluid to the interior of the tube. A method of using the medical device is also disclosed.Type: GrantFiled: October 3, 2013Date of Patent: August 26, 2014Assignee: St. Jude Medical, Atrial Fibrillation Division, Inc.Inventors: Zhenyi Ma, Gleb V. Klimovitch, John W. Sliwa
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Patent number: 8777857Abstract: An ablation catheter comprises: an elongated catheter body extending along a longitudinal axis; at least one ablation element disposed in a distal portion which is adjacent the distal end of the catheter body to ablate a targeted tissue region outside the catheter body; a single pulse-echo ultrasonic transducer disposed in the distal portion and arranged to emit and receive an acoustic beam along a centroid in a beam direction, at a transducer angle of about 30-60 degrees relative to a distal direction of the longitudinal axis at a location of intersection between the longitudinal axis and the beam direction of the centroid of the acoustic beam; and a mechanism to manipulate the distal portion in movement including rotation of at least the distal portion around the longitudinal axis. The single ultrasonic transducer emits and receives acoustic pulses to provide lesion information in the targeted tissue region being ablated.Type: GrantFiled: April 14, 2011Date of Patent: July 15, 2014Assignee: St. Jude Medical, Inc.Inventors: John Sliwa, Zhenyi Ma, Stephen Morse
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Publication number: 20140031806Abstract: A medical device comprising a cell including an ablation element and a carrier configured to receive at least a portion of said ablation element is disclosed. The medical device further comprises a tube enclosing the cell. At least a portion of the tube includes a membrane and the tube includes at least one hole proximate the ablation element for facilitating fluid flow. The medical device further comprises a fluid inlet for providing fluid to the interior of the tube. A method of using the medical device is also disclosed.Type: ApplicationFiled: October 3, 2013Publication date: January 30, 2014Applicant: St. Jude Medical, Atrial Fibrillation Division, Inc.Inventors: Zhenyi Ma, Gleb V. Klimovitch, John W. Sliwa
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Patent number: 8628473Abstract: An ablation catheter with acoustic monitoring comprises an elongated catheter body; a distal member disposed adjacent a distal end and including an ablation element to ablate a biological member at a target region outside the catheter body; and one or more acoustic transducers each configured to direct an acoustic beam toward a respective target ablation region and receive reflection echoes therefrom. The distal member includes a transducer housing in which the acoustic transducers are disposed, the transducer housing including at least one transducer window which is the only portion in the distal member through which the acoustic beam passes, at least the at least one transducer window portion of the distal member being made of a material comprising at least 50% carbon by volume, the transducer window material having an acoustic impedance between that of the acoustic transducers and that of the biological member.Type: GrantFiled: April 13, 2011Date of Patent: January 14, 2014Assignee: St. Jude Medical, Inc.Inventors: John Sliwa, Zhenyi Ma, Stephen Morse
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Patent number: 8551087Abstract: A medical device comprising a cell including an ablation element and a carrier configured to receive at least a portion of said ablation element is disclosed. The medical device further comprises a tube enclosing the cell. At least a portion of the tube includes a membrane and the tube includes at least one hole proximate the ablation element for facilitating fluid flow. The medical device further comprises a fluid inlet for providing fluid to the interior of the tube. A method of using the medical device is also disclosed.Type: GrantFiled: August 23, 2012Date of Patent: October 8, 2013Assignee: St. Jude Medical, Atrial Fibrillation Division, Inc.Inventors: Zhenyi Ma, Gleb V. Klimovitch, John W. Sliwa
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Patent number: 8545409Abstract: A system for ablation with acoustic feedback comprises: a catheter which includes an elongated catheter body; at least one ablation element to ablate a targeted tissue region; and a pulse-echo ultrasonic transducer arranged to emit and receive an acoustic beam along a centroid in a beam direction, at a transducer beam angle of between about 30 degrees and about 60 degrees relative to a distal direction of the longitudinal axis at a location of intersection between the longitudinal axis and the beam direction of the centroid of the acoustic beam of the ultrasonic transducer, wherein the transducer transmits and receives acoustic pulses to provide lesion information in the targeted tissue region; an ablation power subsystem; an ultrasonic transmit and receive subsystem to operate the ultrasonic transducer; a control subsystem to control operation of the ablation power subsystem and the ultrasonic transmit and receive subsystem; and a display.Type: GrantFiled: July 27, 2011Date of Patent: October 1, 2013Assignee: St. Jude Medical, Inc.Inventors: John Sliwa, Tho Hoang Nguyen, Zhenyi Ma, Stephen Morse
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Patent number: 8545408Abstract: An ablation system comprises a catheter including a pulse-echo ultrasonic transducer disposed in a distal portion and arranged to emit and receive an acoustic beam. The transducer emits and receives acoustic pulses to provide transducer detected information regarding the targeted tissue region being ablated. A rotation mechanism rotates at least the distal portion around a longitudinal axis of the catheter. A control and interface system processes the transducer detected information and provides feedback to a user via a user interface and/or the control and interface system to be used to control ablation. The transducer detected information includes a detected lesion depth along a beam emanation direction. The control and interface system includes a lesion depth correction module which converts the detected lesion depth along the beam direction to a corrected lesion depth in a normal direction which is perpendicular to the tissue surface in contact with the ablation element.Type: GrantFiled: May 23, 2011Date of Patent: October 1, 2013Assignee: St. Jude Medical, Inc.Inventors: John Sliwa, Zhenyi Ma, Stephen Morse
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Patent number: 8382689Abstract: A high intensity focused ultrasound transducer includes an ultrasonic emitter having a surface that emits ultrasonic energy along a beam path, at least one low attenuation polymeric ultrasonic lens acoustically coupled to the surface in the beam path of the ultrasonic energy, such that the lens can direct the ultrasonic energy in at least one direction, and at least one stress mitigation feature, such as a kerf, a heat sink, or an acoustic matching layer, to mitigate thermal expansion mismatch stresses within the transducer. For manufacturing simplicity, the first surface is typically either flat or monotonically curvilinear. The lens may take a variety of shapes, including Fresnel features, and may focus, collimate, or defocus the ultrasonic energy. Any orientation and positioning of the at least one ultrasonic lens relative to the first ultrasonic emitter is contemplated. Manufacture is further simplified by molding, casting, or thermoforming the lens.Type: GrantFiled: February 8, 2007Date of Patent: February 26, 2013Assignee: St. Jude Medical, Atrial Fibrillation Division, Inc.Inventors: John W. Sliwa, Peter Goetz, Zhenyi Ma, Jennifer Teng, Stephen Morse, Frank Callaghan, Timothy E. Ciciarelli
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Publication number: 20130046320Abstract: A medical device comprising a cell including an ablation element and a carrier configured to receive at least a portion of said ablation element is disclosed. The medical device further comprises a tube enclosing the cell. At least a portion of the tube includes a membrane and the tube includes at least one hole proximate the ablation element for facilitating fluid flow. The medical device further comprises a fluid inlet for providing fluid to the interior of the tube. A method of using the medical device is also disclosed.Type: ApplicationFiled: August 23, 2012Publication date: February 21, 2013Inventors: Zhenyi Ma, Gleb V. Kimovitch, John W. Sliwa
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Publication number: 20120302882Abstract: An ablation system comprises a catheter including a pulse-echo ultrasonic transducer disposed in a distal portion and arranged to emit and receive an acoustic beam. The transducer emits and receives acoustic pulses to provide transducer detected information regarding the targeted tissue region being ablated. A rotation mechanism rotates at least the distal portion around a longitudinal axis of the catheter. A control and interface system processes the transducer detected information and provides feedback to a user via a user interface and/or the control and interface system to be used to control ablation. The transducer detected information includes a detected lesion depth along a beam emanation direction. The control and interface system includes a lesion depth correction module which converts the detected lesion depth along the beam direction to a corrected lesion depth in a normal direction which is perpendicular to the tissue surface in contact with the ablation element.Type: ApplicationFiled: May 23, 2011Publication date: November 29, 2012Applicant: ST. JUDE MEDICAL, INC.Inventors: John SLIWA, Zhenyi MA, Stephen MORSE
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Publication number: 20120265192Abstract: A system for ablation with acoustic feedback comprises: a catheter which includes an elongated catheter body; at least one ablation element to ablate a targeted tissue region; and a pulse-echo ultrasonic transducer arranged to emit and receive an acoustic beam along a centroid in a beam direction, at a transducer beam angle of between about 30 degrees and about 60 degrees relative to a distal direction of the longitudinal axis at a location of intersection between the longitudinal axis and the beam direction of the centroid of the acoustic beam of the ultrasonic transducer, wherein the transducer transmits and receives acoustic pulses to provide lesion information in the targeted tissue region; an ablation power subsystem; an ultrasonic transmit and receive subsystem to operate the ultrasonic transducer; a control subsystem to control operation of the ablation power subsystem and the ultrasonic transmit and receive subsystem; and a display.Type: ApplicationFiled: July 27, 2011Publication date: October 18, 2012Applicant: ST. JUDE MEDICAL, INC.Inventors: John SLIWA, Tho Hoang NGUYEN, Zhenyi MA, Stephen MORSE