Patents by Inventor Riddhi Shah

Riddhi Shah 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).

  • Patent number: 8874198
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Grant
    Filed: January 27, 2014
    Date of Patent: October 28, 2014
    Assignee: Pacesetter, Inc.
    Inventors: Fujian Qu, Riddhi Shah
  • Publication number: 20140276733
    Abstract: An ablation catheter includes an elongated body having a proximal end and a distal end. At least one ablation element is disposed on the body between the proximal end and the distal end and configured to ablate renal tissue to control hypertension. At least one localization sensor is disposed on the body and configured to interact with a magnetic field. The at least one localization sensor aids in determining an appropriate target tissue for ablation.
    Type: Application
    Filed: March 14, 2013
    Publication date: September 18, 2014
    Applicant: St. Jude Medical, Cardiology Division, Inc.
    Inventors: John VanScoy, Ryan Sefkow, Stuart Rosenberg, Allen Keel, Riddhi Shah, Wenbo Hou
  • Publication number: 20140243917
    Abstract: An implantable medical device, comprised of at least one lead configured to be located proximate to a heart, the at least one lead including electrodes, at least a portion of the electrodes configured to sense cardiac activity. A therapy module configured to control delivery of pacing pulses in accordance with a therapy timing and based on the cardiac sensed activity sensed. Cardiac impedance (CI) sensor circuitry configured to be coupled to at least a first combination of the electrodes to sense cardiac impedance (CI), the CI sensor circuitry generating an impedance data stream associated with a corresponding CI sensing vector.
    Type: Application
    Filed: February 25, 2013
    Publication date: August 28, 2014
    Applicant: PACESETTER, INC.
    Inventors: Bruce A. Morley, Gene A. Bornzin, Kritika Gupta, Rupinder Bharmi, Laurence S. Sloman, Edward Karst, Wenbo Hou, Riddhi Shah
  • Patent number: 8812093
    Abstract: Various techniques are provided for use with an implantable medical device for exploiting near-field impedance/admittance. Examples include techniques for assessing heart chamber disequilibrium, detecting chamber volumes and pressures, calibrating near-field-based left atrial pressure (LAP) estimation procedures and for assessing the recovery from injury at the electrode-tissue interface. In one particular example, the implantable device assesses the degree of concordance between the left ventricle (LV) and the right ventricle (RV) by quantifying a degree of scatter between LV and RV near-field admittance values. An increase in RV admittance is indicative of RV failure, an increase in LV admittance is indicative of LV failure, and an increase in both LV and RV admittance is indicative of biventricular failure.
    Type: Grant
    Filed: January 14, 2011
    Date of Patent: August 19, 2014
    Assignee: Pacesetter, Inc.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah
  • Publication number: 20140142449
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Application
    Filed: January 27, 2014
    Publication date: May 22, 2014
    Applicant: Pacesetter, Inc.
    Inventors: Fujian Qu, Riddhi Shah
  • Patent number: 8706239
    Abstract: Techniques are provided for controlling neurostimulation such as spinal cord stimulation (SCS) using a cardiac rhythm management device (CRMD). In various examples described herein, neurostimulation is delivered to a patient while regional cardiac performance of the heart of the patient is assessed by the CRMD. The delivery of further neurostimulation is adjusted or controlled based, at least in part, on the regional cardiac performance, preferably to enhance positive effects on the heart due to the neurostimulation or to mitigate any negative effects. Regional cardiac performance is assessed based on parameters derived from cardiogenic impedance signals detected along various vectors through the heart.
    Type: Grant
    Filed: May 31, 2012
    Date of Patent: April 22, 2014
    Assignee: Pacesetter, Inc.
    Inventors: Rupinder Bharmi, Taraneh Ghaffari Farazi, Ryan Rooke, Stuart Rosenberg, Kritika Gupta, Riddhi Shah, Gene A. Bornzin, Wenbo Hou, Laurence S. Sloman
  • Patent number: 8676306
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Grant
    Filed: July 31, 2012
    Date of Patent: March 18, 2014
    Assignee: PaceSetter, Inc.
    Inventors: Fujian Qu, Riddhi Shah
  • Patent number: 8670820
    Abstract: A new model is provided for understanding and exploiting impedance or admittance values measured by implantable medical devices, such as pacemakers or cardiac resynchronization devices (CRTs.) The device measures impedance along vectors extending through tissues of the patient between various pairs of electrodes. The device then converts the vector-based impedance measurements into near-field individual electrode-based impedance values. This is accomplished, in at least some examples, by converting the vector-based impedance measurements into a set of linear equations to be solved while ignoring far-field contributions to the impedance measurements. The device solves the linear equations to determine the near-field impedance values for the individual electrodes, which are representative of the impedance of tissues in the vicinity of the electrodes.
    Type: Grant
    Filed: August 9, 2010
    Date of Patent: March 11, 2014
    Assignee: Pacesetter, Inc.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah, Andreas Blomqvist
  • Publication number: 20130325083
    Abstract: Techniques are provided for controlling neurostimulation such as spinal cord stimulation (SCS) using a cardiac rhythm management device (CRMD). In various examples described herein, neurostimulation is delivered to a patient while regional cardiac performance of the heart of the patient is assessed by the CRMD. The delivery of further neurostimulation is adjusted or controlled based, at least in part, on the regional cardiac performance, preferably to enhance positive effects on the heart due to the neurostimulation or to mitigate any negative effects. Regional cardiac performance is assessed based on parameters derived from cardiogenic impedance signals detected along various vectors through the heart.
    Type: Application
    Filed: May 31, 2012
    Publication date: December 5, 2013
    Applicant: PACESETTER, INC.
    Inventors: Rupinder Bharmi, Taraneh Ghaffari Farazi, Ryan Rooke, Stuart Rosenberg, Kritika Gupta, Riddhi Shah, Gene A. Bornzin, Wenbo Hou, Laurence S. Sloman
  • Patent number: 8600500
    Abstract: Methods and systems are provided to deliver a neural stimulation (NS) therapy utilizing a first NS operating configuration to assist anti-tachycardia pacing (ATP) therapy in response to a detected tachyarrhythmia. Before and after delivering of the NS therapy, characteristic values are measured for a rate-related physiologic characteristic (rate RPC) and a stability-related physiologic characteristic (stability RPC). The rate RPC is indicative of a frequency of a reentrant circuit within the tachyarrhythmia. The stability RPC is indicative of a hemodynamic stability of the reentrant circuit. The pre-NS and post-NS characteristic values for the rate and stability RPCs are analyzed to determine a rate RPC difference and a stability RPC difference. Different ATP therapies are delivered based on the type associated with the tachyarrhythmia, the rate RPC difference and the stability RPC difference.
    Type: Grant
    Filed: December 11, 2012
    Date of Patent: December 3, 2013
    Assignee: Pacesetter, Inc.
    Inventors: Stuart Rosenberg, Taraneh Ghaffari Farazi, Rupinder Bharmi, Kyungmoo Ryu, Edward Karst, Yelena Nabutovsky, Allen Keel, Riddhi Shah, Fujian Qu, Ryan Rooke
  • Publication number: 20130041274
    Abstract: Techniques are provided for detecting and distinguishing stroke and cardiac ischemia based on electrocardiac signals. In one example, the device senses atrial and ventricular signals within the patient along a set of unipolar sensing vectors and identifies certain morphological features within the signals such as PR intervals, ST intervals, QT intervals, T-waves, etc. The device detects changes, if any, within the morphological features such as significant shifts in ST interval elevation or an inversion in T-wave shape, which are indicative of stroke or cardiac ischemia. By selectively comparing changes detected along different unipolar sensing vectors, the device distinguishes or discriminates stroke from cardiac ischemia within the patient. The discrimination may be corroborated using various physiological and hemodynamic parameters. In some examples, the device further identifies the location of the ischemia within the heart.
    Type: Application
    Filed: August 10, 2011
    Publication date: February 14, 2013
    Applicant: PACESETTER, INC.
    Inventors: Jong Gill, Rupinder Bharmi, Edward Karst, Ryan Rooke, Riddhi Shah, Fujian Qu, Gene A. Bornzin, Taraneh Ghaffari Farazi, Euljoon Park
  • Publication number: 20130030313
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Application
    Filed: July 31, 2012
    Publication date: January 31, 2013
    Inventors: Fujian Qu, Riddhi Shah
  • Patent number: 8255043
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Grant
    Filed: June 18, 2009
    Date of Patent: August 28, 2012
    Assignee: Pacesetter, Inc.
    Inventors: Fujian Qu, Riddhi Shah
  • Publication number: 20120184859
    Abstract: Various techniques are provided for assessing the reliability of left atrial pressure (LAP) estimates made by an implantable medical device based on impedance values or related electrical values. In one example, various cardioelectric and cardiomechanical parameters are used to corroborate LAP estimation in circumstances where the LAP estimates deviate from an acceptable, satisfactory or otherwise healthy range. The cardioelectric parameters include, e.g.: ST elevation; heart rate (HR); heart rate variability (HRV); T-wave alternans (TWA); QRS waveform parameters; P-wave duration; evoked response (ER) parameters; and intrinsic PV/AV/VV conduction delays. The cardiomechanical parameters include, e.g.: heart rate turbulence (HRT); cardiogenic impedance signals; heart sounds; and non-LAP blood pressure measurements, such as aortic pressure measurements.
    Type: Application
    Filed: January 14, 2011
    Publication date: July 19, 2012
    Applicant: PACESETTER, INC.
    Inventors: Riddhi Shah, Fujian Qu, Yelena Nabutovsky, Dan E. Gutfinger, Ryan Rooke, Alex Soriano
  • Patent number: 8135468
    Abstract: Various techniques are provided for use with an implantable medical device for estimating cardiac pressure within a patient based on admittance (or related electrical values such as impedance or conductance) that takes into account the presence of acute MR within the patient. Briefly, the device detects an indication of acute MR, if occurring within the patient. The device also applies electrical fields to tissues of the patient and measures electrical parameters influenced by the electrical field, such as admittance, impedance or conductance. The device then estimates cardiac pressure within the patient based on the measured electrical parameter and the indication of acute MR. In one example, different linear correlation functions are used to convert admittance values to left atrial pressure (LAP) values depending upon the presence or absence of acute MR within the patient.
    Type: Grant
    Filed: August 9, 2010
    Date of Patent: March 13, 2012
    Assignee: Pacesetter, Inc.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah
  • Publication number: 20120035681
    Abstract: Various techniques are provided for use with an implantable medical device for estimating cardiac pressure within a patient based on admittance (or related electrical values such as impedance or conductance) that takes into account the presence of acute MR within the patient. Briefly, the device detects an indication of acute MR, if occurring within the patient. The device also applies electrical fields to tissues of the patient and measures electrical parameters influenced by the electrical field, such as admittance, impedance or conductance. The device then estimates cardiac pressure within the patient based on the measured electrical parameter and the indication of acute MR. In one example, different linear correlation functions are used to convert admittance values to left atrial pressure (LAP) values depending upon the presence or absence of acute MR within the patient.
    Type: Application
    Filed: August 9, 2010
    Publication date: February 9, 2012
    Applicant: PACESETTER, INC.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah
  • Publication number: 20120035495
    Abstract: Various techniques are provided for use with an implantable medical device for exploiting near-field impedance/admittance. Examples include techniques for assessing heart chamber disequilibrium, detecting chamber volumes and pressures, calibrating near-field-based left atrial pressure (LAP) estimation procedures and for assessing the recovery from injury at the electrode-tissue interface. In one particular example, the implantable device assesses the degree of concordance between the left ventricle (LV) and the right ventricle (RV) by quantifying a degree of scatter between LV and RV near-field admittance values. An increase in RV admittance is indicative of RV failure, an increase in LV admittance is indicative of LV failure, and an increase in both LV and RV admittance is indicative of biventricular failure.
    Type: Application
    Filed: January 14, 2011
    Publication date: February 9, 2012
    Applicant: PACESETTER, INC.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah
  • Publication number: 20120035493
    Abstract: A new model is provided for understanding and exploiting impedance or admittance values measured by implantable medical devices, such as pacemakers or cardiac resynchronization devices (CRTs.) The device measures impedance along vectors extending through tissues of the patient between various pairs of electrodes. The device then converts the vector-based impedance measurements into near-field individual electrode-based impedance values. This is accomplished, in at least some examples, by converting the vector-based impedance measurements into a set of linear equations to be solved while ignoring far-field contributions to the impedance measurements. The device solves the linear equations to determine the near-field impedance values for the individual electrodes, which are representative of the impedance of tissues in the vicinity of the electrodes.
    Type: Application
    Filed: August 9, 2010
    Publication date: February 9, 2012
    Applicant: PACESETTER, INC.
    Inventors: Dan E. Gutfinger, Fujian Qu, Alex Soriano, Ryan Rooke, Yelena Nabutovsky, Riddhi Shah, Andreas Blomqvist
  • Publication number: 20090318822
    Abstract: Embodiments of the present invention relate to implantable systems, and methods for use therein, that can detect T-wave alternans and analyze the detected alternans to provide information regarding cardiac instabilities and predict impending arrhythmias.
    Type: Application
    Filed: June 18, 2009
    Publication date: December 24, 2009
    Applicant: Pacesetter, Inc.
    Inventors: Fujian Qu, Riddhi Shah