Abstract: The present invention provides devices and methods for use in the perfusion of organs and anatomical regions. In one aspect the present method provides a percutaneously deliverable device for supporting a vessel in a human or animal subject including means for supporting the vessel during delivery of a fluid thereto or collection of a fluid therefrom. In another aspect the invention provides a method for delivery or collection of a fluid to or from an organ or anatomical region in a human or animal subject, the method including the step of supporting a vessel associated with the organ or anatomical region. The devices and methods may be used to deliver, remove or recirculate a therapeutic agent to an organ or anatomical region.

Abstract: The present invention provides devices and methods for use in the perfusion of organs and anatomical regions. In one aspect the present method provides a percutaneously deliverable device for supporting a vessel in a human or animal subject including means for supporting the vessel during delivery of a fluid thereto or collection of a fluid therefrom. In another aspect the invention provides a method for delivery or collection of a fluid to or from an organ or anatomical region in a human or animal subject, the method including the step of supporting a vessel associated with the organ or anatomical region. The devices and methods may be used to deliver, remove or recirculate a therapeutic agent to an organ or anatomical region.

Abstract: In a method for substantially isolating cardiac circulation from systemic circulation, flow between the coronary sinus and the right atrium is occluded. A venous collection device having a collection lumen and a support structure is located in the coronary sinus. The support structure is used to maintain patency of the coronary sinus during collection of fluid through the collection lumen. An artificial flow path is provided between the collection lumen and the one or more coronary arteries, thus isolating the cardiac circulation. According to the method, cardiac pumping for systemic circulation can be maintained during isolation of the cardiac circulation.

Abstract: The present invention provides devices and methods for use in the perfusion of organs and anatomical regions. In one aspect the present method provides a percutaneously deliverable device for supporting a vessel in a human or animal subject including means for supporting the vessel during delivery of a fluid thereto or collection of a fluid therefrom. In another aspect the invention provides a method for delivery or collection of a fluid to or from an organ or anatomical region in a human or animal subject, the method including the step of supporting a vessel associated with the organ or anatomical region. The devices and methods may be used to deliver, remove or recirculate a therapeutic agent to an organ or anatomical region.

Abstract: A method for treating an occlusion in a coronary artery of a patient includes percutaneously advancing an occlusion treatment tool (such as an angioplasty balloon or stent delivery device) through the vasculature of the patient and into a coronary artery to a site of the occlusion. Following the treatment of the occlusion, a therapeutic agent is admitted into the first coronary artery. The therapeutic agent is selected to treat microvasculature obstructions at a target cardiac tissue site distal to the site of the occlusion.

Abstract: A device (1) for treating valve failure in a patient is provided. The device has one or more engaging zones (3) for engaging the device with the annulus of the valve being treated. The device also has pre-disposition means for changing the geometry of the device to a predetermined configuration which is suitable for constricting the valve annulus. The device is compressible for percutaneous delivery to the valve. When in the predetermined configuration, the engaged device constricts the valve annulus facilitating substantial closure of leaflets of the valve.

Abstract: In a method for substantially isolating cardiac circulation from systemic circulation, flow between the coronary sinus and the right atrium is occluded. A venous collection device having a collection lumen and a support structure is located in the coronary sinus. The support structure is used to maintain patency of the coronary sinus during collection of fluid through the collection lumen. An artificial flow path is provided between the collection lumen and the one or more coronary arteries, thus isolating the cardiac circulation. According to the method, cardiac pumping for systemic circulation can be maintained during isolation of the cardiac circulation.

Abstract: A method for treating an occlusion in a coronary artery of a patient includes percutaneously advancing an occlusion treatment tool (such as an angioplasty balloon or stent delivery device) through the vasculature of the patient and into a coronary artery to a site of the occlusion. Following the treatment of the occlusion, a therapeutic agent is admitted into the first coronary artery. The therapeutic agent is selected to treat microvasculature obstructions at a target cardiac tissue site distal to the site of the occlusion.

Abstract: A method for treating an occlusion in a coronary artery of a patient includes percutaneously advancing an occlusion treatment tool (such as an angioplasty balloon or stent delivery device) through the vasculature of the patient and into a coronary artery to a site of the occlusion. Following the treatment of the occlusion, a therapeutic agent is admitted into the first coronary artery. The therapeutic agent is selected to treat microvasculature obstructions at a target cardiac tissue site distal to the site of the occlusion.

Abstract: The present invention provides devices and methods for use in the perfusion of organs and anatomical regions. In one aspect the present method provides a percutaneously deliverable device for supporting a vessel in a human or animal subject including means for supporting the vessel during delivery of a fluid thereto or collection of a fluid therefrom. In another aspect the invention provides a method for delivery or collection of a fluid to or from an organ or anatomical region in a human or animal subject, the method including the step of supporting a vessel associated with the organ or anatomical region. The devices and methods may be used to deliver, remove or recirculate a therapeutic agent to an organ or anatomical region.

Abstract: In a method of treating valvular insufficiency in a patient, a plurality of filaments (2) are used to engage tissue at spaced apart locations of an annulus (1) of the valve being treated. The engaged filaments (2) are drawn inward so as to draw the engaged tissue around the valve annulus (1) inward. The filaments (2) are then secured with the engaged tissue in the drawn-in configuration. Inward drawing of the engaged tissue improves valve function by reducing the valve annulus (1). Alternatively or additionally, anchor means may be used to secure the filaments to a region of robust tissue, thus drawing the engaged tissue toward the anchor means to further improve valve function.

Abstract: A device (1) for treating valve failure in a patient is provided. The device has one or more engaging zones (3) for engaging the device with the annulus of the valve being treated. The device also has pre-disposition means for changing the geometry of the device to a predetermined configuration which is suitable for constricting the valve annulus. The device is compressible for percutaneous delivery to the valve. When in the predetermined configuration, the engaged device constricts the valve annulus facilitating substantial closure of leaflets of the valve.