Chinchoy
Ed Chinchoy, Studio City, CA US
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20160135843 | INTRAUTERINE BALLOON APPARATUS, SYSTEM, AND METHOD FOR AUGMENTING UTERINE BIRTHING FORCES DURING PARTURITION - An intrauterine balloon apparatus to augment uterine birthing forces and assist fetal descent during parturition is provided. The body of the balloon apparatus begins packaged in a compressed state minimizing volume, enabling delivery through the birth canal. The apparatus is advanced to a proximal uterine location and deployed for operation by introducing a pressurized agent through its conduit, causing the body to expand and apply directional forces towards the infant and birth canal. The balloon body is shaped to apply pressures dispersed towards the infant and the bidirectional conduit enables fluid conduction as the infant descends. After the infant has successfully descended and been delivered through the birth canal, pressure within the balloon body is relieved through the conduit thereby collapsing the volume of the balloon body and enabling refraction through the birth canal. | 05-19-2016 |
20160135844 | INTRAUTERINE ACCESS CATHETER FOR DELIVERING AND FACILITATING OPERATION OF A MEDICAL APPARATUS FOR ASSISTING PARTURITION - A catheter to access and navigate the uterine cavity through the cervical canal for delivering, deploying, and facilitating operation of a peripheral intrauterine medical apparatus during parturition includes an elongated, flexible tubular catheter body with a handle at the proximal end controlling a steering mechanism and deflecting the distal tip. The catheter includes a lumen that extends the length of catheter body to a distal end region of the catheter. The peripheral medical apparatus is located in the distal end region and is configured to deploy from the distal tip of the catheter into the uterine cavity. A soft catheter tip reduces the likelihood of injury during intrauterine navigation and placement, and sensors associated with the catheter body provide signals that allow for the monitoring of infant, umbilical cord, placenta and uterine muscle activity during labor to assist operation of the peripheral medical apparatus. | 05-19-2016 |
Edward Chinchoy, Minneapolis, MN US
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20100114229 | METHOD AND APPARATUS FOR ASSESSING LEFT VENTRICULAR FUNCTION AND OPTIMIZING CARDIAC PACING INTERVALS BASED ON LEFT VENTRICULAR WALL MOTION - A system and method for monitoring left ventricular (LV) lateral wall motion and for optimizing cardiac pacing intervals based on left ventricular lateral wall motion is provided. The system includes an implantable or external cardiac stimulation device in association with a set of leads including a left ventricular epicardial or coronary sinus lead equipped with a motion sensor electromechanically coupled to the lateral wall of the left ventricle. The device receives and processes wall motion sensor signals to determine a signal characteristic indicative of systolic LV lateral wall motion or acceleration. An automatic pacing interval optimization method evaluates the LV lateral wall motion during varying pacing interval settings, including atrial-ventricular intervals and inter-ventricular intervals and selects the pacing interval setting(s) that correspond to LV lateral wall motion associated with improved cardiac synchrony and hemodynamic performance. | 05-06-2010 |
20110288408 | DIASTOLIC CORONARY PERFUSION DETECTION FOR TIMED DELIVERY OF THERAPEUTIC AND/OR DIAGNOSTIC AGENTS - During diastolic coronary perfusion, blood perfuses through the heart via the coronary arteries. Delivery of a therapeutic and/or diagnostic agent to the heart during diastolic coronary perfusion allows the therapeutic and/or diagnostic agent to efficiently perfuse through the heart. A medical device according to the invention detects closure of the aortic valve of a heart, and initiates delivery of a therapeutic and/or diagnostic agent upon detection of aortic valve closure. The medical device detects aortic valve closure by processing a signal. Exemplary signals used by the medical device to detect aortic valve closure include left or right ventricular accelerometer signals, left or right ventricular flow signals, left or right ventricular pressure signals, aortic pressure signals, pulse pressure signals, systemic arterial pressure signals, electrogram signals, and phonocardiogram signals | 11-24-2011 |
Edward Chinchoy, Golden Valley, MN US
Patent application number | Description | Published |
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20080234771 | MECHANICAL VENTRICULAR PACING CAPTURE DETECTION FOR A POST EXTRASYSTOLIC POTENTIATION (PESP) PACING THERAPY USING AT LEAST ONE LEAD-BASED ACCELEROMETER - A system and method for monitoring at least one chamber of a heart (e.g., a left ventricular chamber) during delivery of extrasystolic stimulation to determine if the desired extra-systole (i.e., ventricular mechanical capture following refractory period expiration) occurs. The system includes an implantable or external cardiac stimulation device in association with a set of leads such as epicardial, endocardial, and/or coronary sinus leads equipped with motion sensor(s). The device receives and processes acceleration sensor signals to determine a signal characteristic indicative of chamber capture resulting from one or more pacing stimulus delivered closely following expiration of the refractory period. A threshold optimization method optionally evaluates capture and at least one of: runs an iterative routine to establish or re-establish chamber capture for the PESP therapy, sets a logical flag relating to chamber capture status and stores parameter(s) relating to successful chamber capture for one or more subsequent cardiac cycles. | 09-25-2008 |
20080269825 | Mechanical Ventricular Pacing Non-Capture Detection for a Refractory Period Stimulation (RPS) Pacing Therapy Using at Least One Lead-Based Accelerometer - A system and method for monitoring at least one chamber of a heart (e.g., a left ventricular chamber) during delivery of a refractory period stimulation (RPS) therapy to determine if the desired non-capture (i.e., lack of ventricular mechanical capture due to refractory period stimulation) occurs. The system includes an implantable or external cardiac stimulation device in association with a set of leads such as epicardial, endocardial, and/or coronary sinus leads equipped with motion sensor(s). The device receives and processes acceleration sensor signals to determine a signal characteristic indicative of chamber capture due to pacing stimulus delivery, non-capture due to RPS therapy delivery, and/or contractile status based on the qualities of evoked response to pacing stimulation. | 10-30-2008 |
20100023081 | Comprehensive System for Detection of Coronary Syndrome, Cardiac Ischemia and Myocardial Infarction - Heart-monitoring systems, apparatus, and methods adapted to detect CS, CI and/or MI. In one embodiment, a system comprising at least two first-tier sensors capable of measuring and converting into signals at least two aspects related to cardiac function, at least one second-tier sensor that is also a first-tier sensor, at least one signal processor capable of transmitting a first-tier and second-tier trigger signal when coronary syndrome, cardiac ischemia or myocardial infarction has been detected, at least one communication device capable of communicating, at least one control element adapted to produce a first-tier and second-tier trigger signal when at least one first-tier sensor exceeds its threshold signal level, to exclude the signal from the first-tier sensor that exceeded its threshold and lower at least one threshold of the at least one first-tier sensor is provided. | 01-28-2010 |