The present invention is about a method and kits that use surgical drills with high capacity to absorb heat due to their large surface area and their thermodynamic material properties. The present invention also discloses a Crown Down drilling sequence which is comprised of drilling the bone using not more than two drills, saving time and the number of drills needed to perform an osteotomy.

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.

A method of increasing movement of a tooth in a jaw having at least one tooth with an orthodontic brace thereon includes: (1) holding a handle of a device, the device having an elongate member extending from the handle and a screw tip at a distal end of the elongate member; (2) moving a sleeve along the elongate member to set a length of exposed screw tip; (3) locking the sleeve in place relative to the screw tip; (4) drilling a hole with the screw tip through a cortical bone of a jaw to increase movement of the tooth; and (5) stopping the drilling when the length of exposed screw tip has penetrated the jaw.

Methods and devices for subperiosteal minimally invasive aesthetic ridge augmentation and reconstruction, including of the mandible and maxilla. Implementation of procedures that manipulate the tissue to accept an implantable article are carried out. The reconstruction or augmentation involves selecting a surgical site at which an implantable article is to be installed, making one or more incisions in the tissue remote from the selected site, developing a tunnel leading to the site, forming a pouch under the periosteum at the site, and positioning an implantable article, such as a bone graft, in the pouch using the tunnel as the passageway. Implementations may include forming a customized bone graft to address a specific defect, and providing specially configured instruments for use in carrying out the method.

Bioresorbable inflatable devices and tunnel incision tool and methods for treating and enlarging a tissue or an organ or a tube or a vessel or a cavity. The device is composed of a hollow expanding pouch made of a resorbable material that can be attached to a filling element. The pouch can be filled with a biocompatible materials, one or more times in few days interval, after the insertion of the device. While filling the pouch every few days the tissue expands and the filling material if it is bioactive start to function. The tunnel incision tool composed of a little blade that emerges from the surface of the tool in order to make shallow incisions in the surrounding tissue therefore enabling easy expansion of the tissue. This device and method can be used for example for: horizontal and vertical bone augmentation in the jaws and the tunnel incision tool is used to make shallow incisions in the periosteum when using the tunnel technique, sinus augmentation when the device is placed beneath the Schneiderian tissue, vessels widening if the pouch become a stent etc.

An implant surgical guide apparatus includes a bone pen which is standardized by various diameters based on mesio-distal distances of natural teeth so that an implant can be placed at the center of a prosthetics, and comprises a cup having a rotatably symmetrical shape and a pen coupled to the cup and drilling into an alveolar bone so that the implant can be guided to a position with an angle as desired by an operator when the implant is placed in the alveolar bone corresponding to tooth loss.

A device for increasing movement of a tooth in a jaw includes a handle, an elongate member extending from the handle, and a screw tip at a distal end of the elongate member. The screw tip is configured to drill into cortical bone of the jaw to increase movement of the tooth. Further, the screw tip is configured to be removable from the handle.

A medical support device includes an arm having a drill attached at a tip part of the arm, a first position obtainer obtaining a representative position of the drill attached to the arm, a second position obtainer obtaining a bury start position, and a controller. The controller controls the arm and applies a burying reaction force to the drill in a burying direction, i.e., a direction from the bury start position to an inside of a implant area, when the representative position of the drill obtained by the first position obtainer is at the inside of the implant area relative to the bury start position.

An abutment is obtained that enables an operation of detaching the abutment from a fixture to be readily performed without having a patient open his/her mouth wide while inhibiting accidental ingestion or swallowing of an abutment that comes off. In a dental implant 100 comprising a fixture 110 and an abutment 120, when a fitting recess 121 of the abutment 120 is fitted onto a fixture head 112 so that a space is formed between a top surface 112b 1 of the fixture head 112 and a bottom surface 121a of the fitting recess 121, the fixture head 112 is secured to the fitting recess 121 by a frictional force, and an instrument insertion hole 129 for inserting an instrument for disengaging the securement by the frictional force in the space is formed on a sidewall 121c of the fitting recess 121.

An implant surgical guide apparatus includes a bone pen which is standardized by various diameters based on mesio-distal distances of natural teeth so that an implant can be placed at the center of a prosthetics, and comprises a cup having a rotatably symmetrical shape and a pen coupled to the cup and drilling into an alveolar bone so that the implant can be guided to a position with an angle as desired by an operator when the implant is placed in the alveolar bone corresponding to tooth loss.