A method and system for atrial fibrillation ablations utilizing a fluoroscopy and/or medical image(s) based cardiac mapping system adapted for balloon based catheters including cryoballoon catheter. The method and system incorporates overlaying two or more sets of images on top of each other where the transparency between the images can be adjusted as an aid in the optimal placement of the balloon based catheters. Further, tags and markers are also placed on fluoroscopic and/or other medical images indicative of where the tissue that has been ablated. The method and system also comprises the ability to monitor esophageal temperature, and to activate alarms and/or energy delivery interrupt based on pre-determined esophageal temperature parameters.

A method and apparatus are disclosed for regulating a temperature of an esophagus when heat or cold is delivered to a left atrium, the method including altering a heat exchange device from an insertable configuration to a heat exchanging configuration which conforms and corresponds with a cross-section of an inside of the esophagus such that the esophagus is maintained in its natural shape and location. In some embodiments the heat exchange device has a heating/cooling balloon which is inflated to be in the heat exchanging configuration. Some alternative embodiments includes altering the configuration of the balloon to conform to or correspond with the cross section of an esophagus by means other than inflation.

Devices and methods are disclosed for preventing injury to a target tissue in proximity to the heart. The methods may include the use a device to externally manipulate the heart to move a portion of the heart away from the target tissue. The methods may also include applying therapy to the heart with the device.

Disclosed herein is a flexible single piece active element for use in connection with aspirating electrosurgical ablators, particularly those configured for bulk tissue vaporization. The active electrode elements of the present invention provide a simple construction suitable for use with a wide array of electrosurgical components and adjustable to wide range of angled positions to permit access to a variety of tissues, in an array of diverse environments and address a host of ablation needs. Additionally, the novel geometry and positioning of both ablation surface and aspiration ports permit aspiration flow to remove primarily waste heat rather than process heat, to thereby improve vaporization efficiency and reduce procedure time. Thus, active electrodes and ablation devices of the present invention maximize efficiency and adaptability while minimizing manufacturing cost and device profile.

Devices and methods are disclosed for preventing injury to a target tissue in proximity to the heart. The methods may include the use a device to externally manipulate the heart to move a portion of the heart away from the target tissue. The methods may also include applying therapy to the heart with the device.

Embodiments relate to a systems and methods for preventative irradiative dental treatment. In accordance with one embodiment, a system and method include using a radiation source to generate a radiation; using an optic disposed to accept the radiation to internally reflect he radiation at a first end; using at least one side of the optic to contact a dental hard tissue; using the optic to couple some of the radiation into the dental hard tissue; and, using a controller to control a parameter of the radiation to heat a surface of the dental hard tissue.

A method and apparatus are disclosed for regulating a temperature of an esophagus when heat or cold is delivered to a left atrium, the method including altering a heat exchange device from an insertable configuration to a heat exchanging configuration which conforms and corresponds with a cross-section of an inside of the esophagus such that the esophagus is maintained in its natural shape and location. In some embodiments the heat exchange device has a heating/cooling balloon which is inflated to be in the heat exchanging configuration. Some alternative embodiments includes altering the configuration of the balloon to conform to or correspond with the cross section of an esophagus by means other than inflation.