An ultrasonic tip for fibrous tissue removal. The ultrasonic tip may be configured for at least torsional vibration and coupled to a distal end of a shaft of a surgical instrument with the shaft including a vibration conversion mechanism. The ultrasonic tip includes a plurality of slots extending between inner and outer circumferential surfaces to form a plurality of teeth. A depth of one of the slots at the outer circumferential surface is greater than a depth of the slot at the inner circumferential surface to define a sloped surface. The teeth include a cutting edge defined between the outer circumferential surface and a side surface defining the slot. The cutting edge includes a positive rake angle. The teeth may further include an inner cutting edge defined between the sloped surface and the inner circumferential surface with the inner cutting edge having a positive rake angle.

A device and method for perforating a dense bone layer. The device includes a vibration generator for generating mechanical vibration, in particular ultrasonic vibration, and an instrument with an elongated shaft and a distal end piece including a perforator. The distal end piece is arranged at a distal end of the shaft and the proximal end of the shaft is connected or connectable to the vibration generator. The perforator has the form of a solid or a hollow cylinder. The vibration generator, the shaft and the distal end piece are adapted to each other for the shaft to transmit, when connected to the activated vibration generator, mechanical vibration from the vibration generator to the distal end piece and for vibrating the perforator in a direction parallel to its cylinder axis.

A disposable ultrasonic handpiece that contains a transducer and a connecting body that tapers to a surgical blade in a single piece. The housing that surrounds the ultrasonic transducer does not require waterproofing for repeated autoclaving. Also, the electrical cord that provides power to the transducer is made of very inexpensive wire, along with a low-cost electrical connector. By making the blade, connecting body with a protective sheet and transducer as a unit with an electrical terminal at the proximal end, they can be plugged and unplugged from a socket and electrical cord in the housing of the handpiece. Thus, only the unit needs to be disposed of after a procedure, making the disposable part of the handpiece even less expensive. The low-cost, disposable handpiece can be packaged along with additional disposable items that are required for one of several types surgeries.

Medical devices and related methods for transforming bone, other tissue, or other material are disclosed herein. According to an aspect, a cutting device includes a static casing that defines a sheathing slot and an opening. The sheathing slot extends to the opening and has a first height at an end of the opening. Further, the bone cutting device includes a horn including a first end and a second end. The first end is configured to operatively connect to a source of movement. Further, the second end includes a cutting component having a second height. The first height is greater than the second height.

Surgical devices and systems having rotating end effector assemblies for treating tissue are provided. Methods for using the same are also provided.

Ultrasonic surgical instruments having angularly and/or linearly off-set blades are described. The angularly and/or linearly off-set blades may facilitate increased surgical site access, visibility, and manipulability.

The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to endoscopic medical devices with distally actuated axial displacement configured to impart in-plane or rotational ultrasonic reciprocation to an end effector.

An ultrasonic instrument comprises an ultrasonic transducer, an acoustic waveguide, and an ultrasonic blade. The blade includes a pair of obliquely extending edges. The obliquely extending edges diverge away from the longitudinal axis of the waveguide and away from each other along respective paths extending distally in relation to the waveguide. A distal portion of the blade is wider than a proximal portion of the blade along a plane. The blade further includes a curved distal edge and several laterally presented surfaces. The laterally presented surfaces may provide combinations of concave and convex curvatures. The laterally presented surfaces may be angled and/or curved along one or more orthogonal planes associated with the longitudinal axis of the waveguide.

Surgical devices and systems having rotating end effector assemblies for treating tissue are provided. In one exemplary embodiment, a surgical device can include a housing, an instrument shaft extending from the housing, and an effector assembly, in which the instrument shaft includes an outer sleeve, a waveguide, and a rotation assembly having an inner sleeve. Methods for using the same are also provided.

A surgical instrument includes an ultrasonic transducer assembly comprising a coupling portion laterally movable at an ultrasonic frequency. In addition, the surgical instrument includes an ultrasonic transmission waveguide extending from the coupling portion and an ultrasonic treatment element defining a cutting surface, wherein the ultrasonic treatment element extends from the ultrasonic transmission waveguide, and wherein the lateral movement of the coupling portion is in a direction perpendicular to a plane defined by the cutting surface of the ultrasonic treatment element.