An arthroscopic port introduction system includes an elongate hollow introducing needle and an elongate stylet sized and adapted to be disposed within the elongate hollow introducing needle together forming a single tissue-penetrating tip. The system also includes an elongate hollow enlarging shaft adapted to be disposed over the elongate hollow introducing needle. An operative tissue-penetrating length of the elongate hollow introducing needle is exposed beyond a distal end of the elongate hollow enlarging shaft. The elongate hollow introducing needle can be removed in a proximal direction from the elongate hollow enlarging shaft. An arthroscopic port sheath is disposed over the elongate hollow enlarging shaft and an operative tissue-penetrating length of the elongate hollow enlarging shaft is exposed beyond a distal end of the arthroscopic port sheath. The elongate hollow enlarging shaft can be removed in a proximal direction from the arthroscopic port sheath.

Devices and methods for setting position of a medical tool within an endoscope. In an illustrative embodiment, a device includes a housing that is configured to be connectable to a distal end of a scope and a sheath stop component that is configured to limit distal movement of a sheath received within the scope.

Described here are delivery devices for delivering one or more implants to the body, and methods of using. The delivery devices may deliver implants to a variety of locations within the body, for a number of different uses. In some variations, the delivery devices have a cannula with one or more curved sections. In some variations, a pusher may be used to release one or more implants from the cannula. In some variations, one or more of the released implants may be a self-expanding device. Methods of delivering implants to one or more sinus cavities are also described here.

A self-contained, battery powered transseptal crossing system is disclosed. An elongate, flexible electrically conductive needle body has a proximal end and a distal end. An insulation layer surrounds the sidewall and leaves exposed a distal electrode tip. A generator is configured to deliver RF energy to the electrode tip, and includes a processor configured to take impedance measurements at the tip to confirm contact with the intra atrial septum and/or confirm entry into the left atrium.

A steerable transseptal punch system and method of using the steerable transseptal punch system to access the left atrium.

The present disclosure relates generally to the field of medical devices and establishing fluid communication between body lumens. In particular, the present disclosure relates to devices and methods for placing the muscularis layers of first and second body lumens in contact to establish a long term or permanent open flow or access passage therebetween.

Adjacent tissue layers can be accessed using a catheter device with a distal tip having a conductive portion including a first cutting feature and one or more projections extending from the first cutting feature towards an outer diameter of the distal tip. Electrical energy can be supplied to the conductive portion of the device to cut tissue. A stent can be delivered to form a fluid communication between the adjacent tissue layers.

An electrosurgical apparatus for treating fluid-filled biological growths by replacing the fluid within the growth with a substance that assists in delivering treatment energy.

The treatment energy may be microwave energy or may be thermal energy derived from microwave energy. The apparatus comprises an instrument having a radiating tip portion, and a fluid delivery mechanism for transporting fluid to and from a treatment zone located around the radiating tip portion. The fluid delivery mechanism comprises a rigid insertion element arranged to extend into the treatment zone, whereby fluid can be aspirated from the treatment zone, and a substance injected into the treatment zone to replace the aspirated fluid. The injected substance has dielectric properties selected to facilitate uniform delivery of treatment energy to biological tissue in the treatment zone.

A packaging device for a trocar assembly includes a trocar packaging clip having at least two holding structures configured to be detachably secured to the proximal portions of the trocar obturator and the cannula for retention of the trocar obturator and cannula relative to each other. The trocar packaging clip includes an anti-rotation structure configured to engage at least one of the trocar and the cannula to prevent relative rotation thereof.

The invention relates surgical abdominal methods of treating obesity in a patient by implanting a volume filling device that, when implanted in a patient, reduces the food cavity in size by a volume substantially exceeding the volume of the volume filling device. Also disclosed is a laparoscopic instrument for providing a volume filling device to be invaginated in the stomach wall of a human patient to treat obesity.