Method for producing a dentist tool formed by an overlay to be used by a dentist in removing tooth structure, said method comprising the steps of: acquiring three-dimensional data relating to a shape of a tooth and at least a part of a neighbouring tooth; processing said three-dimensional data with a computer so as to determine an overlay fitting said tooth and fitting at least said part of said neighbouring tooth; further processing said three-dimensional data with said computer so as to determine a predetermined part of tooth structure to be removed from said tooth so as to prepare said tooth for further treatment; determining at least two guiding edges of which a first and a second guiding edge are spaced apart from each other by a distance d of at least 0.5 mm, said guiding edges being configured so as to enable said dentist cutting tool to be guided by simultaneously contacting said first and said second guiding edge in such a manner as to enable a guided removal of at least partially said predetermined part of tooth structure; producing said determined overlay having said determined guiding edges.

Method for producing a dentist tool formed by an overlay to be used by a dentist in removing tooth structure, said method comprising the steps of: acquiring three-dimensional data relating to a shape of a tooth and at least a part of a neighbouring tooth; processing said three-dimensional data with a computer so as to determine an overlay fitting said tooth and fitting at least said part of said neighbouring tooth; further processing said three-dimensional data with said computer so as to determine a predetermined part of tooth structure to be removed from said tooth so as to prepare said tooth for further treatment; determining at least two guiding edges of which a first and a second guiding edge are spaced apart from each other by a distance d of at least 0.5 mm, said guiding edges being configured so as to enable said dentist cutting tool to be guided by simultaneously contacting said first and said second guiding edge in such a manner as to enable a guided removal of at least partially said predetermined part of tooth structure; producing said determined overlay having said determined guiding edges.

Apparatus and method for installing a multi-tooth dental prosthesis in one session are shown and described. A first tool attaches to the jawbone, and serves as a foundation for subsequently used guides. Existing teeth and dental fixtures are removed, and the bone tissue is removed to accommodate the prosthesis. Subsequently, a drill guide is used to drill implant holes. An abutment guide is then used to place abutments. Copings are then installed. Next, the prosthesis may be installed and cemented to the copings. A resinous filler material may be applied to fill gaps and holes in and between the copings and the prosthesis, and is sanded smooth.

Provided herein are tooth clamping systems, methods, and kits for performing a dental procedure with a dental cutting machine guided by three-dimensional data associated with an impression of one or more teeth of a patient.

A set of drill bits and/or burrs for attaching to a hand piece and fitting into an access guide during endodontic access cavity preparation is provided. The drill bits are optionally grouped into two types: a high speed, friction grip attachment type drill bit and a slow speed, latch attachment type drill bit. Each of the drill bits has a different longitudinal length for performing different functions during operation procedures. A method of performing an endodontic access cavity preparation with the set of drill bits is also provided.

A drill for dental implant procedure is provided. The drill for dental implant procedure may include a body portion extending in a longitudinal direction and including cylindrical first and second rotating portions rotatable in both directions about a central axis, wherein the first rotating portion comprising: a cutting head portion, a first spiral groove portion, and a first cutting side, wherein the second rotating portion formed integrally with the first rotating portion comprising: a second spiral groove portion, and a second cutting side surface portion.

A drill for dental implant procedure is provided. The drill for dental implant procedure may include a body portion extending in a longitudinal direction and including cylindrical first and second rotating portions rotatable in both directions about a central axis, wherein the first rotating portion comprising: a cutting head portion, a first spiral groove portion, and a first cutting side, wherein the second rotating portion formed integrally with the first rotating portion comprising: a second spiral groove portion, and a second cutting side surface portion.

An exemplary dental composite blade includes a mounting portion and a tool portion. The tool portion may extend between a proximal end and a distal end along an arcuate tool path defined within a transverse plane. The tool portion further includes a proximal section adjacent the proximal end, a distal section adjacent the distal end, an intermediate section between the proximal and distal sections, and first and second lateral edges disposed on opposing sides of the transverse plane. The lateral edges are each preferably convex at the proximal section with respect to the transverse plane, and concave at the intermediate section with respect to the transverse plane. The mounting portion may include an elongated mounting slot for receiving a blade retention element of a blade holder. Particular embodiments of the dental composite blade may include one or more securement flaps for auxiliary engagement of the blade holder.

An exemplary dental composite blade includes a mounting portion and a tool portion. The tool portion may extend between a proximal end and a distal end along an arcuate tool path defined within a transverse plane. The tool portion further includes a proximal section adjacent the proximal end, a distal section adjacent the distal end, an intermediate section between the proximal and distal sections, and first and second lateral edges disposed on opposing sides of the transverse plane. The lateral edges are each preferably convex at the proximal section with respect to the transverse plane, and concave at the intermediate section with respect to the transverse plane. The mounting portion may include an elongated mounting slot for receiving a blade retention element of a blade holder. Particular embodiments of the dental composite blade may include one or more securement flaps for auxiliary engagement of the blade holder.

A dental implant has an implant body made of diamond material, the implant body being provided with a bore hole that has at least one lateral dimension and a depth dimension, the lateral dimension and the depth dimension being mm sized. The bore hole is substantially formed by laser light being directed at the implant body to form said bore hole by softening said diamond material at an intended location of said bore hole. The bore hole is further defined by utilizing at least one metallic drilling tool to remove more of the diamond material after initial formation of the bore hole by said laser light. Preferably, the drilling tool has a cone shaped drilling head or a rectangular drilling head.