Patents by Inventor Yanting Dong
Yanting Dong 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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Patent number: 9126052Abstract: Approaches for rate initialization and overdrive pacing used during capture threshold testing are described. Cardiac cycles are detected and the cardiac events of a cardiac chamber that occur during the cardiac cycles are monitored. The number of intrinsic beats in the cardiac events is counted. Initialization for a capture threshold test involves maintaining a pre-test pacing rate for the capture threshold test if the number of intrinsic beats in the cardiac events is less than a threshold. The pacing rate is increased for the capture threshold test if the number of intrinsic beats in the cardiac events is greater than the threshold.Type: GrantFiled: March 24, 2014Date of Patent: September 8, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Eric K. Enrooth, Sunipa Saha, Clayton S. Foster, Yanting Dong
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Publication number: 20150134025Abstract: Various techniques are disclosed for quickly and efficiently determining cardiac pacing vectors that minimize phrenic nerve stimulation.Type: ApplicationFiled: January 21, 2015Publication date: May 14, 2015Inventors: Deepa Mahajan, Yanting Dong, Sunipa Saha, Holly Rockweiler, Kenneth N. Hayes, Krzysztof Z. Siejko, Clayton S. Foster
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Patent number: 9031651Abstract: In an example, a system includes a cardiac pulse generator configured to generate cardiac paces to pace the heart, a sensor configured to sense a physiological signal for use in detecting pace-induced phrenic nerve stimulation where the pace-induced phrenic nerve stimulation is phrenic nerve stimulation induced by electrical cardiac pace signals, and a phrenic nerve stimulation detector configured to analyze the sensed physiological signal to detect PS beats where the PS beats are cardiac paces that induce phrenic nerve stimulation. The detector may be configured to correlate signal data for sensed beat signals to a PS template to detect PS beats, or may be configured to analyze morphological features of sensed beat signals to detect PS beats, or may be configured to detect PS beats using a combination that both correlates signal data for sensed beat signals to a PS template and analyzes morphological features of sensed beat signals.Type: GrantFiled: February 28, 2013Date of Patent: May 12, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Holly Rockweiler, Sunipa Saha, Yanting Dong
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Patent number: 9020596Abstract: An improved technique is described for dealing with the detection of fusion beats when capture verification is performed by a cardiac pacing device such as during a capture threshold determination procedure. Schemes for classifying heart beats may misclassify beats as fusion beats due to feature/morphology changes in the test electrogram waveform that may occur even when capture is achieved.Type: GrantFiled: July 11, 2012Date of Patent: April 28, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Shibaji Shome, Yanting Dong, Aaron R. McCabe
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Patent number: 9008771Abstract: Cardiac devices and methods discriminate non-captured intrinsic beats during evoked response detection and classification by comparing the features of a post-pace cardiac signal with expected features associated with a non-captured response with intrinsic activation. Detection of a non-captured response with intrinsic activation may be based on the peak amplitude and timing of the cardiac signal. The methods may be used to discriminate between a fusion or capture beat and a non-captured intrinsic beat. Discriminating between possible cardiac responses to the pacing pulse may be useful, for example, during automatic capture verification and/or a capture threshold test.Type: GrantFiled: March 5, 2012Date of Patent: April 14, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Scott A. Meyer, Kevin John Stalsberg
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Patent number: 9008760Abstract: A system and method for performing off-line analysis of cardiac electrogram data, comprising: retrieving an electrogram from a memory location; identifying a first-channel group of candidate beats from at least a first channel of the electrogram; and identifying a second-channel group of candidate beats from at least a second channel of an electrogram. For each first-channel beat candidate near a second-channel beat candidate, the amplitude of the first-channel beat candidate is compared with the amplitude of a previous beat and the amplitude of a next beat on the first electrogram channel, and first-channel beat candidates that are outside of a first pre-determined range from either the previous or next beat are removed. Then first-channel beat candidates that are outside of a second pre-determined range from either the previous or next beat candidate are removed.Type: GrantFiled: May 30, 2012Date of Patent: April 14, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Shijie Zhang, Deepa Mahajan, Chenguang Liu, Dan Li, Yayun Lin, Derek D. Bohn
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Patent number: 8965507Abstract: Various techniques are disclosed for quickly and efficiently determining cardiac pacing vectors that minimize phrenic nerve stimulation.Type: GrantFiled: June 24, 2013Date of Patent: February 24, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Deepa Mahajan, Yanting Dong, Sunipa Saha, Holly Rockweiler, Kenneth N. Hayes, Krzysztof Z. Siejko, Clayton S. Foster
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Patent number: 8958876Abstract: In an example of a method, the method includes testing for phrenic nerve stimulation (PS) threshold. If PS beats are detected at the pacing output level, analyzing the detected PS beats using criteria to determine if the pacing output level can be declared to be the PS threshold. If the pacing output level cannot be declared to be the PS threshold based on the analysis of the PS beat at the pacing output level, performing a PS beat confirmation procedure. The PS beat confirmation procedure may include delivering additional cardiac paces at the pacing output level to generate additional PS beats, and analyzing the detected PS beats using other criteria to determine if the pacing output level can be confirmed as the PS threshold.Type: GrantFiled: February 28, 2013Date of Patent: February 17, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Sunipa Saha, Holly Rockweiler
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Patent number: 8942791Abstract: A system and method for performing independent, off-line evaluation of event sensing for collected electrograms, comprising: sensing an electrogram using an implantable medical device (IMD); determining locations of heart beats on at least one channel of the electrogram using a multi-pass process, resulting in a group of multi-pass beat locations; storing the electrogram and device-identified beat locations in a memory location; and retrieving the electrogram and device-identified beat locations from the memory location. The multi-pass process determines locations of heart beats on at least a first channel of the electrogram. The device-identified group of beat locations are then compared to the multi-pass group of beat locations identified using the multi-pass method. Based on the comparing step, oversensing of beats, undersensing of beats, or noise from the device can be detected.Type: GrantFiled: May 30, 2012Date of Patent: January 27, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Shijie Zhang, Deepa Mahajan, Chenguang Liu, Dan Li, Yayun Lin, Derek D. Bohn
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Patent number: 8929983Abstract: Cardioprotective pre-excitation pacing may be applied to stress or de-stress a particular myocardial region delivering of pacing pulses in a manner that causes a dyssynchronous contraction. Such dyssynchronous contractions are responsible for the desired cardioprotective effects of pre-excitation pacing. A method and device for applying reverse hysteresis and mode switching to the delivery of such cardioprotective pacing are described.Type: GrantFiled: November 9, 2009Date of Patent: January 6, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Shantha Arcot-Krishnamurthy, Gary T. Seim, Kent Lee, Yanting Dong, Allan C. Shuros, David L. Whitehouse
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Patent number: 8923966Abstract: An apparatus comprises a cardiac signal sensing circuit, a pacing therapy circuit, and a controller circuit. The controller circuit includes a safety margin calculation circuit. The controller circuit initiates delivery of pacing stimulation energy to the heart using a first energy level, changes the energy level by at least one of: a) increasing the energy from the first energy level until detecting that the pacing stimulation energy induces stable capture, or b) reducing the energy from the first energy level until detecting that the stimulation energy fails to induce capture, and continues changing the stimulation energy level until confirming stable capture or the failure of capture. The safety margin calculation circuit calculates a safety margin of pacing stimulation energy using at least one of a determined stability of a parameter associated with evoked response and a determined range of energy levels corresponding to stable capture or intermittent failure of capture.Type: GrantFiled: September 19, 2013Date of Patent: December 30, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Amy Jean Brisben, Shibaji Shome, Kenneth N. Hayes, Yanting Dong, Aaron R. McCabe, Scott A. Meyer, Kevin John Stalsberg
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Patent number: 8849682Abstract: In an example, a medical device includes a physiological data monitor (PDM), a memory, and a processor. The PDM is configured to monitor a physiological data parameter. The memory circuit is configured to store data collected by the PDM. The processor is configured to detect a data capture event and capture a first segment of physiological data associated with the data capture event. The processor is also configured to determine an amount of memory storage space available and determine a first priority level for the first segment of physiological data. The processor is further configured to determine a second priority level for a second segment of physiological data stored previously and select a processing scheme using the first and second priority levels. Finally, the processor is configured to process, using the processing scheme, the first and second segments of physiological data and store the first segment of physiological data.Type: GrantFiled: September 22, 2010Date of Patent: September 30, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Deepa Mahajan, Yanting Dong, David L. Perschbacher
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Patent number: 8827895Abstract: An apparatus comprises an implantable cardiac signal sensing circuit and a controller circuit. The implantable cardiac signal sensing circuit provides a sensed depolarization signal from a ventricle and a sensed depolarization signal from an atrium. The controller circuit includes a one-to-one detector circuit and a tachyarrhythmia discrimination circuit. The one-to-one detector circuit measures cardiac depolarization intervals of the atrium and the ventricle and determines whether a relationship of atrial depolarizations to ventricular depolarizations is substantially one-to-one. The tachyarrhythmia discrimination circuit classifies the episode as VT when detecting a shortening or prolonging of a V-V interval that immediately precedes the same shortening or prolonging of an A-A interval.Type: GrantFiled: February 12, 2013Date of Patent: September 9, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Deepa Mahajan, Yanting Dong, David L. Perschbacher
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Patent number: 8831727Abstract: Methods and systems for detecting noise in cardiac pacing response classification processes involve determining that a cardiac response classification is possibly erroneous if unexpected signal content is detected. The unexpected signal content may comprise signal peaks that have polarity opposite to the polarity of peaks used to determine the cardiac response to pacing. Fusion/noise management processes include pacing at a relatively high energy level until capture is detected after a fusion, indeterminate, or possibly erroneous pacing response classification is made. The relatively high energy pacing pulses may be delivered until capture is detected or until a predetermined number of paces are delivered.Type: GrantFiled: September 14, 2012Date of Patent: September 9, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Kevin John Stalsberg, Yanting Dong, Scott A. Meyer, John Michael Voegele, Derek Daniel Bohn, Eric Keith Enrooth, Clayton Scott Foster, David William Yost
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Patent number: 8805497Abstract: Cardioprotective pre-excitation pacing may be applied to stress or de-stress a particular myocardial region delivering of pacing pulses in a manner that causes a dyssynchronous contraction. Such dyssynchronous contractions are responsible for the desired cardioprotective effects of pre-excitation pacing but may also be hazardous. Described herein is a method and system that uses measures of a patient's heart rate or exertion level to control the duty cycles of intermittent pre-excitation pacing.Type: GrantFiled: October 5, 2009Date of Patent: August 12, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Shantha Arcot-Krishnamurthy, Allan C. Shuros, David L. Whitehouse
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Publication number: 20140194943Abstract: Approaches for rate initialization and overdrive pacing used during capture threshold testing are described. Cardiac cycles are detected and the cardiac events of a cardiac chamber that occur during the cardiac cycles are monitored. The number of intrinsic beats in the cardiac events is counted. Initialization for a capture threshold test involves maintaining a pre-test pacing rate for the capture threshold test if the number of intrinsic beats in the cardiac events is less than a threshold. The pacing rate is increased for the capture threshold test if the number of intrinsic beats in the cardiac events is greater than the threshold.Type: ApplicationFiled: March 24, 2014Publication date: July 10, 2014Inventors: Eric K. Enrooth, Sunipa Saha, Clayton S. Foster, Yanting Dong
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Patent number: 8768466Abstract: A remote external interface for an implantable cardiac function management device is configured to be communicatively coupled to the implantable cardiac function management device via a network to a local external interface and via telemetry between the local external interface and the implantable cardiac function management device. The remote external interface includes a communication circuit and a processor circuit. The communication circuit is configured to communicate with the implantable cardiac function management device. The processor circuit is configured to perform an analysis of physiologic data received from the implantable cardiac function management device in response to operation of the implantable cardiac function management device using a plurality of therapy control parameter sets. The processor circuit can be further configured to select a particular therapy control parameter set using the analysis.Type: GrantFiled: October 10, 2008Date of Patent: July 1, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, Xuan Wei, Ankur Garg, Quan Ni
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Publication number: 20140155958Abstract: Monitoring physiological parameter using an implantable physiological monitor in order to detect a condition predictive of a possible future pathological episode and collecting additional physiological data associated with the condition predictive of a possible future pathological episode. Monitoring another physiological parameter in order to detect a condition indicative of the beginning of a present pathological episode and collecting additional pathological data in response to the condition. Determining that the condition predictive of a future episode and the condition indicative of a present episode are associated and, in response thereto, storing all the collected physiological data.Type: ApplicationFiled: February 5, 2014Publication date: June 5, 2014Applicant: Cardiac Pacemakers, Inc.Inventors: Yanting Dong, David L. Perschbacher, Jeffrey E. Stahmann, Dan Li, Deepa Mahajan
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Patent number: 8744556Abstract: An apparatus comprises a primary cardiac signal sensing circuit configured to sense at least a first cardiac signal, a secondary cardiac signal sensing circuit configured to sense a secondary cardiac signal, and a control circuit. The control circuit includes a noise detection circuit that has an alignment circuit. The alignment circuit is configured to align a segment of the sensed first cardiac signal with a segment of the sensed secondary cardiac signal. The noise detection circuit configured to determine a number of turns in the first cardiac signal segment, determine a number of turns in the secondary cardiac signal segment, generate an indication of noise in the first and secondary cardiac signals according to the determined number of turns, and provide the indication of noise to a user or process.Type: GrantFiled: January 24, 2012Date of Patent: June 3, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Deepa Mahajan, David L. Perschbacher, LeAnne M. Eberle, Yanting Dong, Vijay Aditya Tadipatri
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Patent number: 8725261Abstract: Approaches for rate initialization and overdrive pacing used during capture threshold testing are described. Cardiac cycles are detected and the cardiac events of a cardiac chamber that occur during the cardiac cycles are monitored. The number of intrinsic beats in the cardiac events is counted. Initialization for a capture threshold test involves maintaining a pre-test pacing rate for the capture threshold test if the number of intrinsic beats in the cardiac events is less than a threshold. The pacing rate is increased for the capture threshold test if the number of intrinsic beats in the cardiac events is greater than the threshold.Type: GrantFiled: November 29, 2011Date of Patent: May 13, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Eric K. Enrooth, Sunipa Saha, Clayton S. Foster, Yanting Dong