A cortical drill for hydrating and drilling cancellous bone when preparing a dental implant includes a stem portion and a drill portion, the stem portion with a locking notch and a water inlet configured for receiving fluid under pressure into the cortical drill. The drill portion has an elongated substantially conical body having an outer wall. The drill portion has a slot portion, and the slot portion includes a cut-out forming an inlet along a peripheral surface of the conical body. A plurality of jets are formed in the slot portion, with the jets in communication with the water inlet, and the jets arranged along the slot portion, such that fluid travelling under pressure into the water inlet, travels through the stem portion and the drill portion, and exits the jets in the slot portion.

A drill kit includes at least one shaft of a first connection type, each shaft having a different length than each other shaft of the at least one shaft of the first connection type. The drill kit further includes preparation drill bits each having a first connection geometry. The drill kit further includes compression drill bits each having the first connection geometry. Each shaft has a proximal end configured to connect with an actuator instrument and a distal end configured to connect to the first connection geometry of each of the preparation drill bits and to the first connection geometry of each of the compression drill bits. The devices and methods may optimize the ability to choose surgical access and limit needing to handle components for a touchless and more sterile or hygienic procedure and protocol.

A drill bit and method for normalizing bone is provided. The drill bit has a non-round drill bit core that is adapted to cut hard bone and to not cut soft bone. The drill bit has a cutting edge which may be positioned within a compression zone of the non-round drill bit core. The rotational speed of the drill bit and the profile of the drill bit core are tuned so that hard bone recovers into a cutting zone defined by the cutting edge while soft bone remains outside of the cutting zone. The insertion torque of the drill bit can be measured to determine when the normalization is adequate.

Provided is a drill bit for implant surgery including: a cutting part including first and second cutting elements, wherein each of the first and the second cutting elements has a predetermined thickness, wherein a flute is formed between the first and the second cutting elements; a guide part extending from the cutting part, being in a cylindrical shape, and having a constant diameter; a peripheral part extending from the guide part, having a predetermined length, and having the same diameter as that of the guide part; and a shank part extending from the peripheral part and having a different diameter from that of the peripheral part to form a step between the peripheral part and the shank part.

An implant and guide are described, together with methods for configuring the same. The implant and guide are for maxillofacial osteosynthesis and may be provided as a kit. Three-dimensional models of the pre- and post-operative anatomy are used to define attachment points. These attachment points are used to define a structure for the implant and the guide.

In an aspect, a method of manufacturing a surgical kit includes providing one or more medical devices based on a three-dimensional (3D) image of an anatomical structure. The method additionally includes providing packaging based on the 3D image, and providing the surgical kit utilizing the packaging and the one or more medical devices. In another aspect, a surgical kit has one or more contoured packaging surface having a contour that matches a contour of an anatomical structure. The contoured packaging surface has one or more features for receiving one or more medical devices provided based on the contour in the 3D image. The surgical kit additionally has a lid connected under pressure with the one or more contoured packaging surface. The lid has apertures for sterilization of components of the one or more medical devices situated between the lid and the contoured packaging surface.

The present disclosure provides a drilling driver for placing a dental implant. The drilling driver includes: a tip part having a first outer diameter and having a cutting edge; a small-diameter part extended from the tip part, and having a second outer diameter smaller than the first outer diameter; and a large-diameter part positioned farther from the tip part than the small-diameter part, and having a third outer diameter larger than the first outer diameter.

An implant set device for sinus membrane elevation is provided. Herein, implant set device for sinus membrane elevation includes an initial drill group for an alveolar bone including a multiplicity of initial drills for an alveolar bone, a dilatation drill group for an alveolar bone including a multiplicity of dilatation drills for an alveolar bone, a sinus drill group including a multiplicity of sinus drills, a final drill group including first final drills, and a receiver having a drill region where the drills can be received in a first direction with the effective length increasing in each drill group and the drills can be received in a second direction in which drills of each drill group belonging to the drill group for surgery are arranged in a surgical procedure of the sinus membrane elevation.

An adapter assembly for connecting an end effector to an actuation assembly includes a base member defining a plurality of notches spaced at least partially about a circumference of the base member, a handle supported on the base member and rotatable about a longitudinal axis of the base member, and a latch mechanism supported on the handle assembly and selectively engageable with the base member. The latch mechanism includes a button member and a locking member. The button member is movable between a first position in which the locking member is received within one of the plurality of notches to lock the handle relative to the base member, and a second position in which the locking member is spaced from the plurality of notches to unlock the handle relative to the base member.

The invention relates to a screw, which is used specifically in the field of oral dental surgery. The screw consists of a bioresorbable material and comprises a drive that can be broken off by means of a predetermined breaking point and/or has a thickened shaft below the contact surface of a cap of the head of the screw.