There is provided in accordance with an exemplary embodiment of the invention a method of osteointegration of an implant into surrounding jaw-bone, the method comprising: applying a magnetic field around an implant, the magnetic field produced around the implant to a jaw-bone depth of up to at least about 7 mm, the magnetic field having a magnetic flux density of about 0.05-0.5 mT at up to at least about 2 mm from a surface of the implant, the magnetic field produced by a coil within the implant. A device adapted for insertion into a jawbone implant and for producing the magnetic field for bone enhancement of surrounding jawbone is also described.

Disclosed herein is a cleaning system (30) for a dental implant part (2) that has been introduced into the jaw bone of a patient. For this purpose, in an advantageous embodiment of the invention, a securing element, which is adapted on the end side to connect to a corresponding connection element in the dental implant part, particularly preferably which can be screwed into a thread of the dental implant part by the end side, and to which a distribution element for a cleaning fluid as well as an electrical contact element can be attached, which distribution element can be connected to an external media reservoir via a media channel, and via which electrical contact element, a power source that is connectable to an external power source can be electrically connected to the dental implant part.

A dental implant includes a post and an abutment extending from the post, the post and abutment being made from metal. A crown having a hollow cavity is attached onto the abutment, the crown being configured with a metallic insert that can be accessed and coupled to the abutment to enable electrical contact. In one version, the crown includes a metallic core and in another version, the crown can include a formed recess that receives a portion of the metal abutment. In each version, an exposed metallic area is provided, enabling electrical conduction to the abutment and post as part of a bacterial treatment of the dental implant.

The present invention provides novel multi-functional (e.g., repelling biofilms, promoting formation of minerals, and having anti-infection properties) biocomposites and methods of use thereof. In various embodiments, the present invention also provides method for simultaneously treating biofilms, promoting mineralization, treating infection, or any combination thereof.

Systems and methods are provided for enhancing osseointegration performed in conjunction with placing a dental implant. A dental implant post can be used for applying current to the implant site as well as for anchoring an artificial tooth. Such a dual purpose implant can allow faster healing and osseointegration time as well as enabling the use of dental implants in a large segment of the population currently disqualified from such treatment due to poor bone quality.

Provided herein methods and systems for triggering osteogenesis and promoting osteointegration on dental implants.

Described are a device, system, and method for bioelectric stimulation to accelerate bone integration of an implant and/or bone graft in order to aid healing. Specifically described are devices and methods for enhancing bone integration of a body implant (e.g., a dental implant) or bone graft by modulating (e.g., stimulating) the controlled expression and/or release of selected proteins, which proteins promote osteogenesis and osseointegration via specific bioelectric signals delivered via, e.g., a specialized mouthpiece, electrodes, and/or wireless means. The description particularly relates to the acceleration of the healing of dental implants and/or bone grafts via promoting bone osteointegration more quickly with bioelectric stimulation.

Adjustable mouthpiece apparatuses for intraoral therapy are provided. The mouthpiece apparatus may comprise at least one emitting element to emit at least one therapeutic emission. In some embodiments, the mouthpiece apparatus comprises an upper panel and a lower panel and at least one adjustable connector interconnecting the upper panel and the lower panel and adjustable to change the spacing between the upper panel and the lower panel. The mouthpiece apparatus may thereby be adjusted for a range of vestibular heights. Also provided are related systems including adjustable mouthpiece apparatuses and related methods for making an adjustable mouthpiece apparatus.

An apparatus for use with a treatment system to disrupt bacteria from a metallic dental implant includes apparatus configured for mechanical and electrical connection to a device capable of producing an electrical stimulation voltage, and in which a connective body is further configured for attachment to the mouth of a patient and including at least one metal contact. The apparatus can include a mouth guard having at least one integrated or releasably attachable metal contact. Alternatively, at least one clip member can be attached, the clip member having a metal contact portion. The apparatus can be used in conjunction with any electrode of a treatment system in which the electrode is disposed within the mouth of the patient or external.

A bone implant kit includes an implant and first and second electrical stimulation anchors. The implant defines an inner surface inner configured to face a bone to which the bone implant kit is configured to attach, and an outer surface opposite the inner surface. The implant further defines first and second bone fixation holes that each extend from the inner surface to the outer surface. The first and second bone fixation holes are spaced from each other along a longitudinal direction. The first electrical stimulation anchor can be sized and configured for insertion into the first bone fixation hole, and the second electrical stimulation anchor can be sized and configured for insertion into the second bone fixation hole. The first and second electrical stimulation anchors can be configured to respond to a magnetic field so as to generate an electric field between the first and second electrical stimulated anchors.