Abstract: Devices and methods for tissue restoration. In an exemplary embodiment of an implantable restraining device of the present disclosure, the device comprises a first engaging component and a second engaging component at least substantially parallel to one another, a first swivel arm, comprising a first fixed arm, a first expandable arm, and a first hub, and a second swivel arm, comprising a second fixed arm, a second expandable arm, and a second hub.
Abstract: Devices, systems, and methods for providing retroperfusion to at least one ischemic tissue in a minimally invasive manner are disclosed. At least some of the embodiments disclosed herein enable an anastomosis to be formed between a vein and an artery without the use of sutures and through a non-invasive procedure. In addition, various disclosed embodiments provide a cannula device comprising a Y-configuration for bifurcating arterial flow between an anastomosis and the underlying artery. The devices, systems and methods herein can further provide simultaneous autoretroperfusion therapy to more than one area of an ischemic tissue.
Abstract: Methods and uses of biological tissues for various stent and other medical applications. In an exemplary embodiment of a method of processing a tissue of the present disclosure, the method comprises the steps of acquiring a mammalian tissue comprising at least a portion of a pulmonary region tissue, selecting a sample of pulmonary region tissue from the at least a portion of a pulmonary region tissue, and fixing the sample of pulmonary region tissue using a fixative, resulting in a fixed sample. In at least one embodiment, the step of selecting a sample of pulmonary region tissue comprises selecting a sample of pulmonary ligament tissue from the mammalian tissue.
Type:
Application
Filed:
February 11, 2013
Publication date:
March 5, 2015
Applicant:
CVDEVICES, LLC
Inventors:
Ghassan S. Kassab, Jose A. Navia, SR., Jorge Jordana, Zachary C. Berwick
Abstract: Coil occluder devices and systems and methods of using the same. In an exemplary embodiment of an occluder system of the present disclosure, the occluder system comprises an occluder device comprising a coil having at least a first, uncompressed configuration and a second, compressed configuration, wherein the coil in the first, uncompressed configuration is configured to fit within a delivery mechanism sized and shaped to fit within a mammalian luminal organ, and wherein the coil in the second, compressed configuration is configured to occlude a mammalian luminal organ, and a delivery mechanism sized and shaped to fit within the mammalian luminal organ, the delivery mechanism configured to receive the coil in the first, uncompressed configuration within a lumen defined within the delivery mechanism.
Abstract: Devices, systems, and methods for organ retroperfusion. In at least one embodiment of a method of organ perfusion of the present disclosure, the method comprises the steps of positioning at least part of a first catheter having a cannula within an artery of a patient, the first catheter configured to permit arterial blood to flow therethrough and further configured to permit a portion of the arterial blood to flow through the cannula, positioning at least part of a second catheter within a vein of the patient at or near a target organ, the second catheter configured to receive some or all of the portion of the arterial blood, and connecting the cannula of the first catheter to a portion of the second catheter so that some or all of the portion of the arterial blood flowing through the cannula is provided into the vein to treat a condition or disease of the target organ.
Abstract: Devices, systems, and methods for accessing the internal and external tissues of the heart are disclosed. At least some of the embodiments disclosed herein provide access to the external surface of the heart through the pericardial space for localized delivery of substances to the heart tissue. In addition, various disclosed embodiments provide access to the internal surface of the heart for aspiration and delivery of substances to a targeted region without disturbing or interfering with nearby structures or surfaces.
Abstract: Devices, systems, and methods for epicardial navigation. In at least one exemplary embodiment of a system for navigating an elongated body on a surface of a tissue of the present disclosure, the system comprises (a) an internal elongated body comprising a distal end and a first element positioned at or near the distal end of the internal elongated body, the internal elongated body devoid of an ablation contact, and (b) an external elongated body comprising a distal end and a second element and an ablation contact positioned at or near the distal end of the external elongated body, the ablation contact being configured to remove or destroy tissue.
Abstract: An engagement catheter for use with a vacuum source for engaging a tissue. An embodiment of the engagement catheter includes a first lumen extending between a proximal end and a distal end, a skirt operatively connected to the distal end, the skirt having a distal end with a circumference larger than the outer circumference of the engagement catheter, a suction port located at or near the distal end of the engagement catheter, the suction port configured to allow the distal end of the skirt to removably engage a surface of a bodily tissue, and a vacuum port located at the proximal end of the engagement catheter and capable of operative connection to a vacuum source, wherein when a vacuum source is operatively attached to the vacuum port, the skirt is capable of forming a reversible seal with the surface of the bodily tissue.
Abstract: Devices, system and methods for deforming body channels are disclosed herein. At least some embodiments described may be used to deform a body channel so as to decrease or prevent the normal intrachannel flow of material within the body channel. Such deformation may be used to treat such maladies as Gastroesophageal Reflux Disease.
Abstract: Devices, systems and methods for atrial appendage occlusion. A device is described with respect to non-surgically occluding the left atrial appendage with minimal invasiveness. Additionally, a system and method are described for using the device to perform the left atrial appendage occlusion procedure.
Abstract: Devices, systems, and methods for remotely monitoring physiologic cardiovascular data are disclosed. At least some of the embodiments disclosed herein provide access to the external surface of the heart through the pericardial space for the delivery of the sensor to the epicardial surface of the heart. In addition, various disclosed embodiments provide for a memory device capable of receiving the physiologic cardiovascular data collected by the sensors and transmitting such data wirelessly to a remote location.
Abstract: A system for engaging heart tissue includes an engagement catheter defining a first lumen therethrough and having a suction port at or near a distal end and a vacuum port at or near a proximal end, a delivery catheter defining a delivery catheter lumen therethrough and configured for slidable insertion into the first lumen of the engagement catheter, and an implantable device capable of insertion into the delivery catheter lumen such that at least part of the implantable device extends from a delivery catheter distal end upon implantation into a patient, where the suction port is operable to removably attach to a targeted tissue on an interior wall of a heart of the patient after the engagement catheter has been advanced through a blood vessel and into the heart, thereby forming a reversible seal with the targeted tissue when a vacuum source is operatively coupled to the vacuum port.
Abstract: Systems and methods for remodeling the annulus of a valve are disclosed. At least some embodiments disclosed herein are useful for resizing the mitral valve annulus in a safe and effective way. Such remodeling can be used to treat mitral valve regurgitation. At least some of the disclosed embodiments adjust the size of a valve annulus using magnetic forces. Other embodiments may include mechanisms for the manual adjustment of the annulus.
Abstract: Devices, systems, and methods for remotely monitoring physiologic cardiovascular data are disclosed. At least some of the embodiments disclosed herein provide access to the external surface of the heart through the pericardial space for the delivery of the sensor to the epicardial surface of the heart. In addition, various disclosed embodiments provide for a memory device capable of receiving the physiologic cardiovascular data collected by the sensors and transmitting such data wirelessly to a remote location.
Abstract: Devices, systems, and methods for percutaneous and mini-invasive valve removal are provided. In at least one embodiment of a device for removing a valve, said device comprises a catheter, two mesh umbrellas coupled thereto, a cauterizing mechanism operable to excise a valve from a vessel, and a mechanical drill operable to grind said excised valve to allow for removal of the ground excised valve by way of an enclosure created by the two mesh umbrellas. In another embodiment, a temporary stent valve is positioned near the valve to be excised to avoid aortic insufficiency during valve excision.
Abstract: A device, system and method for occlusion of the left atrial appendage. A device is described with respect to non-surgically occluding the left atrial appendage with minimal invasiveness. Additionally, a system and method are described for using the device to perform the left atrial appendage occlusion procedure.
Abstract: Multichannel systems for engaging a bodily tissue and methods of using the same. In at least one embodiment of an exemplary multichannel system for engaging a tissue of the present disclosure, the system comprises an engagement catheter comprising a proximal end, a distal end, and defining a first lumen and second lumen extending between the proximal end and the distal end, an inducer sheath having a proximal portion and a distal portion, and defining a lumen extending therethrough, the inducer sheath configured for insertion into the second lumen of the engagement catheter, and a dilator defining a first channel and a second channel extending therethrough and a tapered tip at the distal end of the dilator, the dilator sized and shaped for inserted into the lumen of the inducer sheath.
Abstract: Devices and methods for assisting cardiac function. In an exemplary embodiment of a device for assisting heart function of the present disclosure, the device comprises a first plate and an opposing second plate, each plate having an inner surface, a cardiac processor coupled to at least one of the first plate and the second plate, a bladder having an inner chamber and disposed between the inner surfaces, and a first catheter having a proximal end in communication with the inner chamber of the bladder and a distal end having a first pericardial balloon coupled thereto, wherein a gas and/or a liquid within the inner chamber of the bladder can be injected into the first pericardial balloon upon compression of the first plate relative to the second plate, and wherein the gas and/or the liquid can be removed from the first pericardial balloon upon retraction of the first plate relative to the second plate.