Devices and methods for the treatment of heart conditions, hypertension, and other medical disorders are described. For example, this document describes devices and methods for treating atrial fibrillation by performing thoracic vein ablation procedures, including pulmonary vein myocardium ablation. In some embodiments, the ablation is performed in coordination with the delivery a pharmacological agent that can abate the formation of tissue stenosis or neointimal hyperplasia caused by the ablation. Additionally, in some embodiments, particulate matter, such as thrombus or crystalline drug compounds, created during the ablation is captured and removed from the patient using devices and methods provided herein. Further, devices and methods for non-thermal methods of causing cell death, such as tissue suction and tissue stretching, are also described.

An irreversible electroporation (IRE) system includes an IRE ablation power source configured to generate bipolar IRE pulses, a switching assembly, and a processor. The switching assembly is configured to short-circuit a first group and a second group of electrodes of a catheter, the groups of electrodes configured to be placed in contact with tissue of organ, so as to create respective combined electrodes of a first size and a second size smaller than the first size, and to connect the IRE ablation power source to the groups of electrodes. The processor is configured to receive target tissue depth of ablation, select the groups of the electrodes, to control the switching assembly to create the combined electrodes and to ablate the tissue by controlling the switching assembly to apply the bipolar IRE pulses to the groups of electrodes to ablate tissue location in contact with a combined electrode to target depth.

Systems, devices, and methods for electroporation ablation therapy are disclosed, with a protection device for isolating electronic circuitry, devices, and/or other components from a set of electrodes during a cardiac ablation procedure. A system can include a first set of electrodes disposable near cardiac tissue of a heart and a second set of electrodes disposable in contact with patient anatomy. The system can further include a signal generator configured to generate a pulse waveform, where the signal generator coupled to the first set of electrodes and configured to repeatedly deliver the pulse waveform to the first set of electrodes. The system can further include a protection device configured to selectively couple and decouple an electronic device to the second set of electrodes.

A balloon catheter includes: a balloon; an outside shaft connected to a proximal end of the balloon; an inside shaft extending inside the outside shaft and into the balloon to be connected to a distal end of the balloon; and a heating member disposed in the balloon for heating a liquid in the balloon. A distance between a distal end of the outside shaft and a proximal end of the heating member is 0 mm to 5 mm.

An ablation device and an ablation system provided with an ablation device, include an ablation assembly and an adjustment assembly provided at the proximal end of the ablation assembly. The adjustment assembly includes an outer catheter and an inner catheter which extend axially. The ablation assembly includes a supporting framework and an ablation member provided on the supporting framework. The supporting framework includes a positioning frame and a bearing frame. The positioning frame is provided at the distal end relative to the bearing frame, the distal end of the outer catheter is connected to the proximal end of the bearing frame, the distal end of the inner catheter is connected to the distal end of the positioning frame. During moving of the inner catheter relative to the outer catheter, the supporting framework deforms, and the deformation ratio of the positioning frame is less than that of the bearing frame.

A method, system, and device for predicting lesion quality. Specifically, lesion quality may be predicted based on an assessment of pulmonary vein occlusion using injection of an impedance-modifying agent and evaluation of changes in impedance measurements recorded by an electrode located distal to an occlusion element of the treatment device used to inject the impedance-modifying agent. The quality of the occlusion may be rated based on the changes in impedance over time within the pulmonary vein. For example, the quality of the occlusion may be rated as being good, fair, or poor. This assessment may be quickly and easily communicated to an operator.

A method includes receiving position signals that are indicative of positions of multiple electrodes disposed on an expandable balloon that is fitted at a distal end of a shaft for engaging a lumen of an organ to occlude the lumen. Based on the received position signals, a change is calculated in one or more dimensions of the balloon between (i) a first configuration in which the balloon is inflated but not engaged in the lumen, and (ii) a second configuration in which the balloon is inflated and engaged in the lumen. Using the calculated change, a degree is estimated to which the balloon occludes the lumen. The estimated degree of occlusion is presented to a user.

It is possible to highly precisely determine a surface temperature of a balloon. A balloon catheter includes: a balloon; an outer cylinder shaft connected to a proximal end of the balloon; an inner cylinder shaft passing through the outer cylinder shaft to extend into the balloon to be connected to a distal end of the balloon; and a heating component disposed in the balloon for heating a liquid in the balloon. A liquid delivery path in communication with the balloon is formed between the outer cylinder shaft and the inner cylinder shaft. A temperature sensor is disposed in the liquid delivery path.

Methods and apparatuses are disclosed for providing pulsed electrical treatment (including high voltage, sub-microsecond pulsed electric energy) to body vessels. The apparatus may include deployable electrodes that conform to transitional surfaces. These apparatuses may include multiple wire loops forming petal-like electrodes configured to expand with an expandable member, such as a balloon.

A catheter balloon includes a membrane having a proximal end and a distal end. A plurality of substrates are bonded about the membrane. The ability of a bond's ability to withstand repeated stresses during use may be improved by using a reinforcement or a stress relief, while also minimizing the overall thickness of the balloon proximate to its distal end. The reinforcement may comprise a portion of an unassembled membrane. Alternatively, the reinforcement may comprise an adhesive-margin tip. The stress relief may be a serpentine portion of a distal tail of a substrate.