Patents by Inventor Wanchun Tang
Wanchun Tang 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: 20220175823Abstract: A method for resuscitation of the heart in a subject in need thereof, comprising administering to the subject a therapeutically effective amount of a solution comprising polyethylene glycol (PEG) having a molecular weight of 8-100 kDa is provided.Type: ApplicationFiled: March 27, 2020Publication date: June 9, 2022Inventors: Martin J. MANGINO, Joseph OMATO, Wanchun TANG, Jennifer BRADLEY
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Patent number: 9913776Abstract: A chest compressor includes a piston (14) that moves in downward and upward strokes within a cylinder (12), with the piston undergoing a smooth reversal at the bottom of the downward stroke. A compression spring, such as a wave spring (60), is positioned to engage the piston only near the end of its downward stroke, to smoothly reverse the piston motion, limit downward force on the patient at the end of the stroke, and avoid a downward pulse due to the momentum of the downwardly-moving piston. A stop (90, 92) is latchable in an inward position to allow reduction in the piston stroke by engaging an outward flange (52) on the piston before the piston has moved fully downward.Type: GrantFiled: July 28, 2014Date of Patent: March 13, 2018Assignee: SUNLIFE SCIENCE INC.Inventors: Wanchun Tang, Max Harry Weil, Joe Bisera, Carlos Castillo
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Patent number: 8841292Abstract: Sudden cardiac arrest is treated by reducing blood temperature from about 37° C. to 33° C., following resuscitation, by injecting hypothermia inducing drugs such as a cannabinoid type into the patient's body, preferably in combination with physical surface body cooling.Type: GrantFiled: August 18, 2011Date of Patent: September 23, 2014Assignee: Weil Institute of Critical Care MedicineInventors: Wanchun Tang, Shijie Sun
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Patent number: 8790285Abstract: A chest compressor includes a piston (14) that moves in downward and upward strokes, with the piston undergoing a smooth reversal at the bottom of the downward stroke. A compression spring such as a wave spring (60), is positioned to engage the piston only near the end of its downward stroke, to smoothly reverse the piston motion, limit downward force on the patient at the end of the stroke, and avoid a downward pulse due to the momentum of the downwardly-moving piston. A stop (90, 92) is latchable in an inward position to allow reduction in the piston stroke by engaging an outward flange (56) on the piston before the piston has moved fully downward.Type: GrantFiled: May 18, 2007Date of Patent: July 29, 2014Assignee: Weil Institute of Critical Care MedicineInventors: Joe Bisera, Max Harry Weil, Wanchun Tang, Carlos Castillo
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Patent number: 8626528Abstract: A patient in intensive care is monitored by connecting the outputs of a plurality of sensors to a computer, where the sensors all relate to one mode of functioning such as heart beating, respiration, infusion of a liquid into the patient, etc. The sensor outputs are delivered to a computer that sounds an alarm, only if all sensors that indicate one function (e.g. heart beating) indicate dangerously low operation of that function. This avoids many false alarms caused by one sensor having a low output such as due to accidental disconnection of a wire.Type: GrantFiled: August 17, 2011Date of Patent: January 7, 2014Assignee: Weil Institute of Critical Care MedicineInventors: Joe Bisera, Wanchun Tang
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Patent number: 8491507Abstract: An automatic chest compressor (10) for repeatedly compressing the chest of a patient, is constructed to have a small thickness (H) and light weight so it can be readily carried by an emergency worker. The chest compressor includes a piston support (34) at the top, a pressing part (40) at the bottom that presses towards the chest of the patient, and piston side walls (36) that repeatedly elongate to depress the pressing part. The piston side wall are flexible material that is repeatedly curled and uncurled as the side walls move the pressing part respectively up and down.Type: GrantFiled: March 22, 2007Date of Patent: July 23, 2013Assignee: Institute of Critical Care MedicineInventors: Wanchun Tang, Carlos Castillo, Max Harry Weil, Joe Bisera
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Publication number: 20130045971Abstract: Sudden cardiac arrest is treated by reducing blood temperature from about 37° C. to 33° C., following resuscitation, by injecting hypothermia inducing drugs such as a cannabinoid type into the patient's body, preferably in combination with physical surface body cooling.Type: ApplicationFiled: August 18, 2011Publication date: February 21, 2013Inventors: Wanchun Tang, Shijie Sun
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Publication number: 20130046158Abstract: A patient in intensive care is monitored by connecting the outputs of a plurality of sensors to a computer, where the sensors all relate to one mode of functioning such as heart beating, respiration, infusion of a liquid into the patient, etc. The sensor outputs are delivered to a computer that sounds an alarm, only if all sensors that indicate one function (e.g. heart beating) indicate dangerously low operation of that function. This avoids many false alarms caused by one sensor having a low output such as due to accidental disconnection of a wire.Type: ApplicationFiled: August 17, 2011Publication date: February 21, 2013Inventors: Joe Bisera, Wanchun Tang
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Patent number: 8214023Abstract: An image is created of blood circulation deep (e.g. a plurality of millimeters) below the surface of living tissue to aid in evaluating a patient. A first beam (26) of circularly polarized light is directed forwardly (F) against an outer surface (14) of the tissue. Light that has penetrated to only a shallow depth before moving rearwardly and out of the tissue remains polarized and is blocked by a filter (38). Light that has penetrated to greater depths (12), is scattered more and becomes depolarized, and a portion of it passes through the depolarizing filter (38) and is focused on a photodetector (48) to create an image. Light spots (54) on the image that move, represent spaces between blood platelets (52) that are moving through a capillary, and indicates the velocity of blood through the capillary.Type: GrantFiled: September 21, 2006Date of Patent: July 3, 2012Assignee: Institute of Critical Care MedicineInventors: Alain L. Fymat, Max Harry Weil, Wanchun Tang, Joe Bisera, Giuseppe Ristagno
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Publication number: 20100174278Abstract: A method for improving the success of resuscitation efforts following cardiac arrest is provided. Return of spontaneous circulation (ROSC) rates following cardiac arrest is directly related to the coronary perfusion pressure during cardiopulmonary resuscitation (CPR). Selective cooling of the nasal cavity, nasopharynx, oral cavity, oropharynx, retrotonsillar space, mouth, neck face, and/or throat of a patient suffering from cardiac arrest, significantly increases the coronary perfusion pressure which improves ROSC rates. Cooling may be initiated before or during resuscitation efforts including chest compressions, defibrillation and/or administering a vasoconstrictor.Type: ApplicationFiled: November 6, 2009Publication date: July 8, 2010Inventors: DENISE BARBUT, Wanchun Tang, Allen Rozenberg
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Patent number: 7570993Abstract: Apparatus is provided for treatment of a victim to reverse cardiac arrest by chest compression and by electrical defibrillation through electrodes applied to the chest area of the victim. The apparatus includes a dielectric layer which is placed on the victim to electrically isolate the rescuer who is performing chest compressions. The protective sheet includes a layer of electrically conductive material sandwiched between two dielectric layers to electrically isolate the rescuer. The sandwiched conductive layer is connected to a location on the body of the victim that is spaced a plurality of inches from each of the electrodes.Type: GrantFiled: September 12, 2001Date of Patent: August 4, 2009Assignee: The Institute of Critical Care MedicineInventors: Max Harry Weil, Wanchun Tang, Joe Bisera
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Publication number: 20080287863Abstract: A chest compressor includes a piston (14) that moves in downward and upward strokes, with the piston undergoing a smooth reversal at the bottom of the downward stroke. A compression spring such as a wave spring (60), is positioned to engage the piston only near the end of its downward stroke, to smoothly reverse the piston motion, limit downward force on the patient at the end of the stroke, and avoid a downward pulse due to the momentum of the downwardly-moving piston. A stop (90, 92) is latchable in an inward position to allow reduction in the piston stroke by engaging an outward flange (56) on the piston before the piston has moved fully downward.Type: ApplicationFiled: May 18, 2007Publication date: November 20, 2008Inventors: Joe Bisera, Max Harry Weil, Wanchun Tang, Carlos Castillo
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Publication number: 20080086057Abstract: A real time image is created of blood circulation deep (e.g. a plurality of millimeters) below the surface of living tissue to aid in evaluating a patient. A first beam (26) of circularly polarized light is directed forwardly (F) against an outer surface (14) of the tissue, the circularly polarized beam penetrating into a deep region (12) of the tissue. Along shallow depths (42), light of the first beam is scattered a minimum amount from tissue and a portion of such light that passes rearwardly and out of the tissue remains polarized. Along greater depths (12), light of the first beam is scattered much more and becomes depolarized, and a portion of that deep light travels rearwardly (R) and back illuminates the overlying tissue. Light emerging from the outer surface of the tissue and traveling rearwardly, which constitutes a second beam (36), is passed through a depolarizing filter (24) that passes primarily only unpolarized light, so light from a shallow depth is largely blocked.Type: ApplicationFiled: September 21, 2006Publication date: April 10, 2008Inventors: Alain L. Fymat, Max Harry Weil, Wanchun Tang, Joe Bisera, Giuseppe Ristagno
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Publication number: 20070249973Abstract: An automatic chest compressor (10) for repeatedly compressing the chest of a patient, is constructed to have a small thickness (H) and light weight so it can be readily carried by an emergency worker. The chest compressor includes a piston support (34) at the top, a pressing part (40) at the bottom that presses towards the chest of the patient, and piston side walls (36) that repeatedly elongate to depress the pressing part. The piston side wall are flexible material that is repeatedly curled and uncurled as the side walls move the pressing part respectively up and down.Type: ApplicationFiled: March 22, 2007Publication date: October 25, 2007Inventors: Wanchun Tang, Carlos Castillo, Max Weil, Joe Bisera
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Patent number: 7060041Abstract: Apparatus for compressing the chest of a patient to stimulate blood circulation, includes a torso wrap (32) that has a back portion (40) lying at the back of the patient's chest and a front portion (42) lying at the front of the patient's chest, and includes a compressor assembly with an actuator (16) having a pressing member (12) that can apply a series of force pulses to the sternum of the patient to stimulate blood circulation. The actuator is energized by pressured fluid, with a controlled pressured fluid source (20) connected by an elongated flexible hose (24) to the actuator so the pressured fluid source and a control (22) can lie on the ground and only the actuator lies on the torso wrap. The actuator includes a cylinder (66) and a plurality of telescoping piston parts (64, 66) to provide a long stroke in an actuator of small height. A stabilizer (150) that limits tilt of the actuator from the vertical, includes a saucer-shaped member that presses against the front of the patient.Type: GrantFiled: October 4, 2000Date of Patent: June 13, 2006Assignee: Institute of Critical Care MedicineInventors: Max Harry Weil, Joe Bisera, Clayton Young, Wanchun Tang
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Patent number: 6821254Abstract: The condition of a patient who has signs of cardiopulmonary arrest, is evaluated by applying a pair of electrodes (12, 14) to the chest of the patient and passing a low level of alternating current through the patient to detect changes in transthoracic impedance which represent cardiopulmonary activity of the patient. An analyzing circuit determines the average frequency of those signals (40) representing heartbeat rate impedance and determines the average frequency of signals (42) representing breathing of the patient. When the heart rate is below about 20 beats per minutes, the respiratory rate is below about 4 breaths per minute, and cardiac and respiratory impedances are below 0.01 ohms, this indicates cardiac arrest of the patient and signifies that CPR (cardiopulmonary resuscitation) should start.Type: GrantFiled: June 27, 2001Date of Patent: November 23, 2004Assignee: Institute of Critical Care MedicineInventors: Max Harry Weil, Joe Bisera, Wanchun Tang
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Publication number: 20040127800Abstract: A device is provided for assessing impairment of blood circulation in a patient, such as that in perfusion failure, by measurement of blood flow adjacent a mucosal surface accessible by a mouth or nose and connecting with the gastrointestinal tract or upper respiratory/digestive tract of a patient. The device includes a blood-flow sensor adapted to be positioned adjacent a mucosal surface with a patient's body and measuring blood flow in adjacent tissue and a PCO2 sensor adapted to be positioned adjacent the mucosal surface and measuring PCO2. In addition a pH sensor may be used in combination with the blood flow determination. A method of detecting perfusion failure is also disclosed. The method includes utilizing blood-flow measurements in conjunction with a surface perfusion pressure index and/or an optical plethysmography index to more accurately assess perfusion failure. These measurements may also be supplement by taking measurements of pH, sublingual PCO2, and Sa O2.Type: ApplicationFiled: September 23, 2003Publication date: July 1, 2004Inventors: Victor E. Kimball, Ma Harry Weil, Wanchun Tang, Jose Bisera
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Publication number: 20030220551Abstract: A device is provided for assessing impairment of blood circulation in a patient, such as that in perfusion failure, by measurement of blood flow adjacent a mucosal surface accessible by a mouth or nose and connecting with the gastrointestinal tract or upper respiratory/digestive tract of a patient. The device includes a blood-flow sensor adapted to be positioned adjacent a mucosal surface with a patient's body and measuring blood flow in adjacent tissue and a PCO2 sensor adapted to be positioned adjacent the mucosal surface and measuring PCO2. In addition a pH sensor may be used in combination with the blood flow determination. The invention affords rapid measurement and detection of perfusion failure.Type: ApplicationFiled: February 4, 2003Publication date: November 27, 2003Inventors: Victor E. Kimball, Max Harry Weil, Wanchun Tang, Jose Bisera
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Patent number: 6369114Abstract: Methods, formulations and kits are described for resuscitating a patient suffering from cardiac arrest, for enhancing the efficacy of cardiopulmonary resuscitation, for treating post-resuscitation hypotension, and for reducing the incidence of ventricular arrhythmias and myocardial dysfunction in a patient following cardiopulmonary resuscitation. Prior methods and agents often cause inotropic or chronotropic effects, which can lead to undesirable post-resuscitation myocardial dysfunction. The invention comprises administering a therapeutically effective amount of an &agr;2-receptor agonist that does not cross the blood-brain barrier, such as &agr;-methylnorepinephrine, to enhance cardiopulmonary resuscitation.Type: GrantFiled: November 30, 1999Date of Patent: April 9, 2002Assignee: Institute of Critical Care MedicineInventors: Max Harry Weil, Wanchun Tang, Jose Bisera
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Patent number: 6360125Abstract: Apparatus is provided for use during the treatment of a victim undergoing cardiac arrest, to facilitate treatment by chest compression as well as by shocks from an automatic defribrillator. The apparatus includes a sheet of dielectric material that covers much of the victim to electrically isolate a rescuer who is performing chest compressions, from the victim to whom electric shocks are being delivered. Defribrillator electrodes are mounted on the lower face of the sheet and are connected to the defribillator. The sheet extends down along the sides of the victim to isolate the rescuer, who is either standing or kneeling beside the victim to apply chest compressions.Type: GrantFiled: December 21, 1998Date of Patent: March 19, 2002Assignee: Institute of Critical Care MedicineInventors: Max Harry Weil, Wanchun Tang, Joe Bisera