The present disclosure relates to a RF ablation catheter for septal reduction therapy having a cooling effect, and more particularly, to a RF ablation catheter for septal reduction therapy that is for performing RF ablation, in which RF energy is applied to an interventricular septum, for septal reduction therapy such as therapy for hypertrophic cardiomyopathy, which is a disease in which an interventricular septum of the left ventricle of the heart of the animal or human body thickens, therapy that requires reduction of an interventricular septum, or therapy for ventricular tachycardia. Also, the present disclosure relates to a RF ablation catheter for septal reduction therapy having a cooling effect that is for preventing carbonization of a tissue of the body (interventricular septum) around an electrode.

An exemplary embodiment of the present disclosure provides a RF catheter for septal reduction therapy, the RF catheter including: an intra-septal part in which a tapered tip which becomes thinner toward an end thereof is formed at an end of a distal part and one or more electrodes are formed at positions on an outer circumferential surface that are adjacent to the tip; and a body part which is made of a soft material and has a guidewire lumen which passes through the intra-septal part from an inlet formed at the center of the end of the tip and has an outlet formed in a side surface, a coolant inlet lumen which is connected from a proximal part to an inner portion of the intra-septal part to allow a coolant to be injected from the outside and which has an open end, and a coolant outlet lumen which communicates with the coolant inlet lumen and has an exit formed in a side surface, wherein the guidewire lumen and the coolant inlet lumen do not communicate with each other and are partitioned from each other.

Systems, apparatuses, and methods for treating a patent foramen ovale (PFO) of a patient. A system may include a catheter configured to extend within at least a portion of the patients heart. One or more stabilizer balloons may be coupled to the catheter and configured to be positioned within a tunnel of the patent foramen ovale and inflated to apply a force to at least one of a septum primum or a septum secundum of the patients heart. An injection device may be configured to inject material into at least one of the septum primum or the septum secundum to cause swelling of the injected septum primum or the injected septum secundum in a direction towards the opposing septum primum or the opposing septum secundum.

A method of perforating a tissue of a heart of a patient when an inferior approach to the heart is contraindicated. The method utilizes an electrosurgical apparatus having an energy delivery device which can function as an ECG measuring device at a distal end thereof and a delivery system comprising a dilator. Said method comprises the steps of (a) advancing the dilator through a superior vena cava into the heart of the patient, from a superior approach, until a distal end of the dilator is adjacent the tissue; (b) checking an ECG signal to confirm a position of the energy delivery device; (c) using the electrosurgical apparatus, which is positioned through the dilator, to create a perforation in the tissue by delivering electrical energy to the tissue; (d) advancing the distal end of the electrosurgical apparatus through the perforation; and (e) advancing the dilator over the electrosurgical apparatus.

A medical system includes a medical device and an analysis system. The medical device includes a perforation device having a shaft. The shaft has a proximal portion, and an opposed distal portion. A perforating tip is associated with the distal portion. At least a first light emitter is associated with the distal portion and is positioned proximate the perforating tip for illuminating a region surrounding the perforating tip. The analysis system is for analyzing returned light that is returned towards the shaft from the region surrounding the perforating tip. The analysis system includes a light sensor configured to detect one or more parameters of the returned light, a processor configured to perform an analysis of the one or more parameters, and an alert system connected to the processor for alerting a user to a result of the analysis.

A method of perforating a tissue of a heart of a patient when an inferior approach to the heart is contraindicated. The method utilizes an electrosurgical apparatus and a delivery system comprising at least two dilators wherein a first dilator is configured for facilitating positioning of the electrosurgical apparatus adjacent the tissue and wherein a second dilator is configured for advancement through a perforation in the tissue. An outer diameter of the second dilator is substantially equal to or less than an outer diameter of the first dilator. The method comprises the steps of: (a) advancing the first dilator into the heart of the patient, from a superior approach, until a distal end of the first dilator is adjacent the tissue; (b) using the electrosurgical apparatus, which is positioned through the first dilator, to create a perforation in the tissue by delivering electrical energy to the tissue; (c) advancing the distal end of the electrosurgical apparatus through the perforation; (d) withdrawing the first dilator; and (e) advancing the second dilator over the electrosurgical apparatus.

A medical device that has high pushing performance is capable of forming a hole in a biological tissue in a living body, is capable of being arbitrarily shaped, and is capable of suppressing a kink. The medical device may be used to form a hole in an oval fossa in a living body. The medical device includes: a hollow dilator made of resin; a core made of metal that is disposed in a part in a circumferential direction of the dilator and extends in a long axis direction of the dilator; and an output unit that is disposed in a distal portion of the dilator and outputs energy to form the hole in the oval fossa, in which the core is embedded in between an inner peripheral surface and an outer peripheral surface of the dilator, and the core has conductivity and is electrically connected to the output unit.

An electrosurgical device comprises an electrically conductive elongate member for traversing body vasculature defining a hollow lumen with one or more apertures at or near its distal end, wherein electrical energy can flow through the wall of the elongate member; and an energy delivery device in electrical communication with the elongate member is located distal to the end of the elongate member. The energy delivery device includes an electrode for delivering energy. Methods of using the electrosurgical device include cutting through occlusions and creating transseptal punctures.

The disclosed invention provides a transseptal insertion device which is suitable for facilitating precise and safe transseptal puncture of a cardiac interatrial septum. The transseptal insertion device includes a sheath that defines at least one lumen therein, one or more positioning balloons that are connected to a distal end of the sheath, a puncture member movably positioned within the at least one lumen, and a puncture member balloon located on the puncture member. The sheath has one or more deflation ports to deflate the one or more positioning balloons. The puncture member balloon, when inflated, is capable of sealing the one or more deflation ports in the sheath, permitting the inflation of the one or more positioning balloons. When the puncture member moves toward fossa ovalis, the inflated puncture member balloon moves away from the deflation ports, allowing the positioning balloons to be deflated.

A guide wire and a medical device are disclosed that have high workability, restrain erroneous puncture by a needle portion for puncture, and assure relative safety. A guide wire for guiding an elongated tubular body or dilator, and which is configured to be inserted in a living body. The guide wire includes a shaft portion, a puncture portion that is fixed to a distal portion of the shaft portion and that forms a hole in living body tissue, and a cover portion that is elastically deformable and that covers the puncture portion, in which when the cover portion is exposed from the elongated tubular body or dilator, the cover portion covers the puncture portion and the cover portion is bent.

A device for precise control of blood flow across an interatrial septum is provided. The device includes a sheath having a first set of openings disposed within a first atrium while a second set of openings is disposed within a second atrium. An actuator may be actuated to move an inner sleeve within the sheath to modify the area of second set of openings to permit blood to flow between the first and second atria responsive to a pressure gradient across the interatrial septum via the first and second openings at a blood flow rate corresponding with the area of the second set of openings of the sheath. In addition, the patient's hemodynamics responsive to the shunting of blood across the interatrial septum at each incremental area of the opening may be monitored for selecting a specific sized implantable interatrial shunt for the patient.