A method for performing an inferior lift in a sinus includes preparing an initial opening in a bone including a marrow section and a hard sinus floor, the initial opening being drilled through the marrow section to a depth just prior to reaching the hard floor of the sinus. A portion of the hard sinus floor is removed using a sonic drilling device. Subsequently any remaining doughnut shaped hard floor of the sinus is removed using a second tip on the sonic drilling device that has an active portion that is substantially limited to 360 degrees about the circumference of the forward direction of the tip but without any forward cutting surface, the second tip configured to remove bone only in the lateral direction of the second tip without substantial cutting contact with the marrow section of the bone clearing a widened opening in the hard sinus floor of the bone.

Systems and methods for breaking a material are provided. In one embodiment, a system for breaking a material comprises a device configured to generate a force or torque on a material. The system further comprises at least one controller coupled to the device. The controller is configured to select at least one degree of freedom and an initial direction to apply the force or torque with the device. The controller is further configured to oscillate the force or torque at a first series of frequencies while applying the force or torque in the initial direction with the device by providing commands to the device.

A method of implanting a contact implant includes providing the contact implant, providing a plurality of anchoring implants having a plurality of through openings, placing the contact implant at an implantation location, and introducing a first one of the anchoring implants through a first of the plurality of through openings. Mechanical oscillations are applied, along a first axis, to the first one of the anchoring implants, thereby causing thermoplastic material of the implant to liquefy and interpenetrate portions of the tissue. A second one of the anchoring implants is introduced through a second one of the through openings to bring it in contact with the live tissue. Mechanical oscillations are applied, along a second axis, to the second one of the anchoring implants to cause thermoplastic material to be liquefied. The first and first and second axes are at a nonzero angle to each other.

A method of implanting a contact implant includes providing the contact implant, providing a plurality of anchoring implants having a plurality of through openings, placing the contact implant at an implantation location, and introducing a first one of the anchoring implants through a first of the plurality of through openings. Mechanical oscillations are applied, along a first axis, to the first one of the anchoring implants, thereby causing thermoplastic material of the implant to liquefy and interpenetrate portions of the tissue. A second one of the anchoring implants is introduced through a second one of the through openings to bring it in contact with the live tissue. Mechanical oscillations are applied, along a second axis, to the second one of the anchoring implants to cause thermoplastic material to be liquefied. The first and first and second axes are at a nonzero angle to each other.

Disclosed herein is a dental device for delivering fluid continuously while activated in an endodontic application. The dental device includes a hollow needle having a tip end and a connector portion; and a handle. One end of the handle is configured to be affixed to the connector portion of the hollow needle. The opposite end of the handle is capable of being attached to an endodontic handpiece or a sonic agitator for the activation. The connector portion includes at least one tube connector that is an integral part of the connector portion of the hollow needle or a plurality of openings on the connector portion to accommodate the hollow needle to a connector. The connector is a modular fluid delivery connector which is removable from the needle such that it can be reused.

Disclosed herein is a dental device for delivering fluid continuously while activated in an endodontic application. The dental device includes a hollow needle having a tip end and a connector portion; and a handle. One end of the handle is configured to be affixed to the connector portion of the hollow needle. The opposite end of the handle is capable of being attached to an endodontic handpiece or a sonic agitator for the activation. The connector portion includes at least one tube connector that is an integral part of the connector portion of the hollow needle or a plurality of openings on the connector portion to accommodate the hollow needle to a connector. The connector is a modular fluid delivery connector which is removable from the needle such that it can be reused.

A vibration-side housing is attached to a tip of a handle-side housing, and a motor in which a plate cam is attached to a rotating shaft is housed. A vibration tube mounting opening opens at distal end part of the vibration-side housing, and a vibration tube is mounted thereon. The vibration tube is provided to vibrate in a forward-backward direction while urged in the plate cam direction via a spring with respect to the vibration-side housing. The vibration tube contacts with the plate cam via a roller at a rear end part. A reamer mounting opening opens at a tip of the vibration tube, and receives and tightly holds an insertion part of the reamer. The reamer including the bendable needle part is attachable/detachable to the vibration-side housing.

A visual tooth cleaning, grinding and polishing instrument includes a host, an oral observation instrument and a cleaning and polishing tool. The host can drive the cleaning and polishing tool and supply a power source and a control system for an illuminating system, an observation system and the oral observation instrument. A picture shot by a camera of the observation system can be transmitted to a display of the observation system in time, so as to achieve the purposes of cleaning the teeth while observing a process of cleaning the dental calculus, dental plaque and pigmentation on the surface of the teeth with the cleaning and polishing tool and the cleaning effect instantly on a mobile phone, thereby effectively cleaning, grinding and polishing the teeth. A flusher or an electric toothbrush head or other interdental cleaning tools may also be mounted on the host or the oral observation instrument.

A handpiece-type high-frequency vibration cutting device includes a housing (10); a vibration device (21); a holding member (11); a tool (12); and a controller (20) to control the operations of the vibration device (21). The controller (20) controls the vibration of the tool (12) due to the vibration device (21) such that the vibration is burst oscillation in which vibration and stop of vibration are repeated. The controller (20) also controls the entire burst frequency f1 of the tool (12) to be included in the range of 1 to 8 [Hz], one cycle of the burst frequency f1 including a burst period with the holding member (11) vibrating and a stop period with the tool (12) not vibrating. The controller (20) also controls the vibration frequency f2 of the tool (12) during the burst period such that the vibration frequency f2 is in the range of 20 to 60 [kHz].

The invention relates to medicine, namely to dentistry and is intended to reinforce composite materials used for elimination various defects of hard dental tissues of carious and non-carious origin in the process of direct/indirect, reinforced/unreinforced composite restoration. The claimed method includes vibrational mechanical activation of composite materials by a vibrational impact on portions of composite material shaped by manual mechanical activation (e.g., roll/ball) and applied layer by layer to a defect area. A device for vibrational mechanical activation of a composite material includes at least one working part for applying a composite material to a defect, the working part fixedly attached to a handle, which is connected by a framework to a micromotor that creates vibration which are transferred via the working portion to a layer of composite material by distributing the same across the entire surface of the defect and achieving the simultaneous surface plastic deformation thereof.