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45 results about "Mitral valve" patented technology

The mitral valve (/ˈmaɪtrəl/), also known as the bicuspid valve or left atrioventricular valve, is a valve with two flaps in the heart, that lies between the left atrium and the left ventricle. The mitral valve and the tricuspid valve are known collectively as the atrioventricular valves because they lie between the atria and the ventricles of the heart.

Method and apparatus for external stabilization of the heart

The present disclosure is directed to an external cardiac basal annuloplasty system (ECBAS or BACE-System: basal annuloplasty of the cardia externally) and methods for treatment of regurgitation of mitral and tricuspid valves. The BACE-System provides the ability to correct leakage of regurgitation of the valves with or without the use of cardiopulmonary bypass, particularly when the condition is related to dilation of the base of the heart. This ECBAS invention can be applied to the base of the heart epicardially, either to prevent further dilation or to actively reduce the size of the base of the heart.
Owner:COMPASS CONSULTING INT CORP

Adjustable annuloplasty rings

Adjustable annuloplasty rings for repair of a mitral or tricuspid valve which incorporate at least two separate parts that are adjustably interconnectable to create a ring the circumference of which can be changed in dimension. Rings having interconnections at spaced-apart lateral locations, which interconnections allow bidirectional movement to either shorten or lengthen the ring at either such location, afford a surgeon opportunity to make further adjustments to the dimensions of the annuloplasty ring after its initial partial securing to the heart valve tissue and thereby adjust the AP diameter of the valve being repaired. The mating interconnections at two lateral locations on the ring can be constructed so as to allow hinged movement about an axis defined by the interconnections to permit hinged movement between the two separate parts.
Owner:QUICKRING MEDICAL TECH LTD

Cardiac simulation device

ActiveUS20160027345A1Accurate gradientAccurate volume fractionEducational modelsDiseaseAutomatic control
The present invention describes a device and system for simulating normal and disease state cardiovascular functioning, including an anatomically accurate left cardiac simulator for training and medical device testing. The system and device uses pneumatically pressurized chambers to generate ventricle and atrium contractions. In conjunction with the interaction of synthetic valves which simulate mitral and aortic valves, the system is designed to generate pumping action that produces accurate volume fractions and pressure gradients of pulsatile flow, duplicating that of a human heart. Through the use of a control unit and sensors, one or more parameters such as flow rates, fluidic pressure, and heart rate may be automatically controlled, using feedback loop mechanisms to adjust parameters of the hydraulic system simulate a wide variety of cardiovascular conditions including normal heart function, severely diseased or injured heart conditions, and compressed vasculature, such as hardening of the arteries.
Owner:MENTICE

Cardiac Simulation Device

The present invention describes a device and system for simulating normal and disease state cardiac functioning, including an anatomically accurate left cardiac simulator for training and medical device testing. The system and device uses pneumatically pressurized chambers to generate ventricle and atrium contractions. In conjunction with the interaction of synthetic mitral and aortic valves, the system is designed to generate pumping action that produces accurate volume fractions and pressure gradients of pulsatile flow, duplicating that of a human heart. Through the use of a remote handheld electronic controller and manual adjustments from a main control panel, the air pressure level, fluidic pressure, and heart rate is controlled to induce contractions that simulate a wide variety of heart conditions ranging from normal heart function to severely diseased or injured heart conditions.
Owner:MENTICE

Atrioventricular valve stent for puncture placement and conveying system thereof

ActiveCN106943207AAdjustable movementEasy and safe to insertHeart valvesProsthesisMitral valve leaflet
An atrioventricular valve stent for puncture placement and a conveying system thereof relate to the prosthesis capable of being placed in human body, and especially relate to a atrioventricular valve stent and a placement operation apparatus thereof; the atrioventricular valve stent comprises an expansible outer support, a valve and a plurality of fixed arms; an inverted hook portion of the fixed arm and the fixed arm can form a seesaw lever; a draw line pulls the inverted portion to drive the fixed arm to expand, thus hooking a bicuspid valve leaflet, and fixing the valve stent on an atrioventricular valve; an inter-valve anti-backflow edge corresponding to the valve leaflet boundary can seal the boundary slit so as to prevent valve peripheral backflow; the conveying system comprises an outer sheath canal, a core and a push rod, wherein the core head is connected with the head sheath canal; the valve stent front end is compressed in the head sheath canal, and the rear end is compressed in the outer sheath canal; the push rod can push the valve stent outside the outer sheath canal in a multi-stage section mode, and release the stent; the draw line connected with the valve stent is matched with the inter-valve anti-backflow edge; the valve stent is easy to place in, adjust and retrieve, convenient and safe in operation, high in succeed rate, and can effectively prevent valve peripheral leakage.
Owner:SHANGHAI TONGJI HOSPITAL

Transcatheter atrial anchors and methods of implantation

Anchor assemblies for endovascular introduction and implantation for tethering a replacement heart valve to a cardiac wall. An anchor delivery system introduces the assembly. The anchor may be either implanted with a tether connected thereto or implanted and then connected to a tether. If the latter, a tether assembly is mounted to the implanted anchor to connect the anchor to the valve. The anchors may be implanted into any cardiac wall including the interventricular septum or the epicardial space and the valve may replace the mitral or tricuspid valve.
Owner:OPUS MEDICAL THERAPIES LLC

Methods and devices for transcatheter cerclage annuloplasty

ActiveUS20130211510A1Facilitate mitral-valve cerclage annuloplastyReduce the possibilityDiagnosticsHeart valvesMitral valve leafletImage guidance
Devices, apparatus, and methods for catheter-based repair of cardiac valves, including transcatheter-mitral-valve-cerclage annuloplasty and transcatheter-mitral-valve reapposition. In particular, a target and capture device is provided for guiding a cerclage traversal catheter system through a cerclage trajectory, particularly through a reentry site of the cerclage trajectory. The target and capture device provides the user with a target through which the cerclage traversal catheter system must be guided, particularly under imaging guidance, so as to properly traverse the cerclage trajectory at any desired location, particularly at a reentry site. The target and capture device can, further, ensnare and externalize the cerclage traversal catheter system.
Owner:US DEPT OF HEALTH & HUMAN SERVICES

Percutaneous Methods and Apparatus for Creating Native Tissue Venous Valves

Percutaneous methods and apparatus for forming a venous valve from autologous tissue by creating at least one subintimal longitudinal dissection that forms at least one flap of intimal tissue are disclosed. In one method, a balloon catheter having a dissecting blade mounted thereon is delivered to a target site where a new venous valve is to be created. The balloon is inflated to deploy the blade against the vein wall, and the catheter is longitudinally translated such that the blade dissects a subintimal layer of the vein wall. The balloon is subsequently deflated such that the blade pulls a flap of the dissected tissue towards the vein lumen, thereby creating a leaflet and corresponding pocket / sinus in the vein that collectively act as a monocuspid venous valve. Methods of forming new bicuspid and tricuspid venous valves utilizing two or three dissecting blades mounted on the balloon are also disclosed.
Owner:MEDTRONIC VASCULAR INC

Surgical retractors and method of operation

A first surgical retractor (302) according to the invention includes a handle (308) that defines an axis (320) and has first and second ends. A retractor blade (306) is secured to the second end of the handle. The blade is of a size and shape to engage the mitral valve of a heart so as to be able to retract the mitral valve and adjacent tissues. A second retractor (304) according to the invention has a relatively narrow, elongate blade (352) that can extend deep into the heart to engage the heart in the region of the atrial appendage so as to be able to retract the atrium and expose the pulmonary veins. The retractors are especially adapted to perform an atrial fibrillation surgical procedure.
Owner:GILLINOV ALAN MARC +1

Cardiac simulation device

The present invention describes a device and system for simulating normal and disease state cardiac functioning, including an anatomically accurate left cardiac simulator for training and medical device testing. The system and device uses pneumatically pressurized chambers to generate ventricle and atrium contractions. In conjunction with the interaction of synthetic mitral and aortic valves, the system is designed to generate pumping action that produces accurate volume fractions and pressure gradients of pulsatile flow, duplicating that of a human heart. Through the use of a remote handheld electronic controller and manual adjustments from a main control panel, the air pressure level, fluidic pressure, and heart rate is controlled to induce contractions that simulate a wide variety of heart conditions ranging from normal heart function to severely diseased or injured heart conditions.
Owner:MENTICE

Apparatus for percutaneously creating native tissue venous valves

Percutaneous apparatus for forming a bicuspid venous valve from autologous tissue are disclosed. A multilumen catheter is disclosed that includes a delivery shaft positioned on either side of the balloon. When the balloon is inflated within the vein at a treatment location where a bicuspid valve is to be created, the delivery shafts are pressed into the wall of the vein by the inflated balloon so that exit ports in the delivery shafts are at diametrically opposed locations. The delivery shafts may than be used to deliver puncture elements through the exit ports and into the vessel wall to gain access to a subintimal layer of the vein wall. In this manner, the inventive multilumen catheter aids in making properly positioned flaps of venous tissue for creating a bicuspid venous valve from autologous tissue.
Owner:MEDTRONIC VASCULAR INC

Cardiac simulation device

A device and system for simulating normal and disease state cardiovascular functioning, including an anatomically accurate cardiac simulator for training and medical device testing. The system and device uses pneumatically pressurized chambers to generate ventricle and atrium contractions. In conjunction with the interaction of synthetic valves, which simulate mitral and aortic valves, the system is designed to generate pumping action that produces accurate volume fractions and pressure gradients of pulsatile flow, duplicating that of a human heart. Through the use of a control unit and sensors, one or more parameters, such as flow rates, fluidic pressure, and heart rate, may be automatically controlled, using feedback loop mechanisms to adjust parameters of the hydraulic system to simulate a wide variety of cardiovascular conditions including normal heart function, severely diseased or injured heart conditions, and compressed vasculature, such as hardening of the arteries.
Owner:MENTICE

Cardiac simulation device

The present invention describes a device and system for simulating normal and disease state cardiovascular functioning, including an anatomically accurate left cardiac simulator for training and medical device testing. The system and device uses pneumatically pressurized chambers to generate ventricle and atrium contractions. In conjunction with the interaction of synthetic valves, which simulate mitral and aortic valves, the system is designed to generate pumping action that produces accurate volume fractions and pressure gradients of pulsatile flow, duplicating that of a human heart. Through the use of a control unit and sensors, one or more parameters, such as flow rates, fluidic pressure, and heart rate, may be automatically controlled, using feedback loop mechanisms to adjust parameters of the hydraulic system to simulate a wide variety of cardiovascular conditions including normal heart function, severely diseased or injured heart conditions, and compressed vasculature, such as hardening of the arteries.
Owner:MENTICE

Implantable Medical Device with Therapy Control

A method for operating an implantable medical device to obtain substantially synchronized closure of the mitral and tricuspid valves based on sensed heart sounds includes sensing an acoustic energy; producing signals indicative of heart sounds of the heart of the patient over predetermined periods of a cardiac cycle during successive cardiac cycles; calculating a pulse width of such a signal; and iteratively controlling a delivery of the ventricular pacing pulses based on calculated pulse widths of successive heart sound signals to identify an RV interval or VV interval that causes a substantially synchronized closure of the mitral and tricuspid valve. A medical device for optimizing an RV interval or VV interval based on sensed heart sounds implements such a method and a computer readable medium encoded with instructions causes a computer to perform such a method.
Owner:ST JUDE MEDICAL

System for treating heart valve malfunction including mitral regurgitation

ActiveUS20150148590A1Eliminate and restrict mitral regurgitationHelp positioningEpicardial electrodesHeart valvesMitral regurgitationMitral valve
A system for treating heart valve malfunction specifically including mitral regurgitation comprising a positioning structure operative to assume both expanded and contracted orientations and a retaining assembly positioned and structured to operatively dispose the positioning structure in moveably supporting lifting and / or positioning relation to the ventricular wall portion of the heart. The retaining assembly and the positioning structure are cooperatively disposed and structured to accomplish a shape variance of the heart upon a lifting or positioning force being exerted thereon substantially concurrent to the positioning structure being disposed in the expanded orientation. The force exerted on the heart at least partially defines a shape variance thereof to the extent of positioning of the leaflets of the mitral valve into a closed orientation which restricts mitral regurgitation.
Owner:CORQUEST MEDICAL

Mitral valve annuloplasty device with twisted anchor

The present invention relates to a tissue shaping device adapted to be disposed in a vessel near a patient's heart to reshape the patient's heart. The device comprises a first anchor and a second anchor adapted to be deployed by a catheter to engage a vessel wall while the first anchor is adapted to resist the compression of a first part of the first anchor and resist the expansion of a second part of the first anchor in response to a compressive force on the first part.
Owner:CARDIAC DIMENSIONS

Dual-flange prosthetic valve frame

Embodiments of prosthetic valve frames for implantation within a native mitral valve can include a main body portion, and first and second radially extending flanges coupled to the main body portion. The flanges can be coupled to the main body such that the flanges are spaced father apart from one another when the main body portion is in a crimped configuration than when the main body portion is in an expanded configuration. Associated delivery systems and methods of delivery are provided.
Owner:EDWARDS LIFESCIENCES CORP

sequentially deployed transcatheter mitral valve prosthesis

A sequentially deployable prosthetic heart valve includes a self-expanding frame having an atrial skirt, a ventricular skirt, and an annular region disposed therebetween. The first front ear is positioned on the front of the frame. The rear ears are located on the rear of the self-expanding frame. The frame can be designed such that any portion can be expanded sequentially in any desired order. For example, a portion of the first front ear and a portion of the rear ear may initially partially self-expand. Next, the first anterior ear can fully self-expand before the posterior ear fully self-expands. The posterior ligaments may then be fully self-expanding, followed by self-expanding of the ventricular skirt; or the ventricular skirt may be self-expanding, followed by full expansion of the posterior ligaments.
Owner:NEOVASC TIARA INC

Implantable medical device with therapy control

A method for operating an implantable medical device to obtain substantially synchronized closure of the mitral and tricuspid valves based on sensed heart sounds includes sensing an acoustic energy; producing signals indicative of heart sounds of the heart of the patient over predetermined periods of a cardiac cycle during successive cardiac cycles; calculating a pulse width of such a signal; and iteratively controlling a delivery of the ventricular pacing pulses based on calculated pulse widths of successive heart sound signals to identify an RV interval or VV interval that causes a substantially synchronized closure of the mitral and tricuspid valve. A medical device for optimizing an RV interval or VV interval based on sensed heart sounds implements such a method and a computer readable medium encoded with instructions causes a computer to perform such a method.
Owner:ST JUDE MEDICAL

Method for non-invasive measurement of right ventricular pressure and pulmonary artery pressure method

The invention relates to a method for non-invasive measurement of right ventricular pressure and pulmonary artery pressure method. The method comprises the following steps of obtaining a bicuspid valve horizontal left ventricle short-axis two-dimensional ultrasonic image; drawing points and interventricular septum, a fitting curve of an arc-shaped interventricular septum is formed, the curvature radius and an arc length of the fitting curve are worked out; on the basis of the tubular hypothesis formula of the laplace's theorem, and the left and right ventricle wall pressure is obtained through calculation. Accordingly, non-invasive measurement, ventricular pressure monitoring and pulmonary artery pressure monitoring can be achieved by researching the ventricular wall curvature changes of left and right ventricles.
Owner:SHANGHAI FIRST PEOPLES HOSPITAL
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