Disclosed is a patient-specific mandibular implant inserted into a mandibular defect region and a method of manufacturing the same, and more particularly, to a patient-specific mandibular implant inserted into a mandibular defect region, which can be easily and rapidly manufactured using personalized three-dimensional (3D) printing technology for a defect region, can provide an effect of preparing a later step for restoring a tooth in advance, and can be easily manufactured tooth restoration data based on the Korean standard database (DB), and a method of manufacturing the same.

Disclosed is a patient-specific mandibular implant inserted into a mandibular defect region and a method of manufacturing the same, and more particularly, to a patient-specific mandibular implant inserted into a mandibular defect region, which can be easily and rapidly manufactured using personalized three-dimensional (3D) printing technology for a defect region, can provide an effect of preparing a later step for restoring a tooth in advance, and can be easily manufactured tooth restoration data based on the Korean standard database (DB), and a method of manufacturing the same.

A medical or dental imaging system for generating an image of a part of the head, comprising: an x-ray source and an x-ray detector which move around the head to generate x-ray images at different positions, a tracking device which provides sensor data indicative of any movement of the head during the acquisition of the x-ray images and a computer which generates tracking data based on the sensor data and calculates an x-ray image of the head part based on the x-ray images and on the tracking data to compensate for any movement of the head part during the acquisition of the x-ray images, wherein the tracking device comprises at least one camera and an attachment device for detachable attachment of the camera to the patient.

A medical or dental imaging system for generating an image of a part of the head, comprising: an x-ray source and an x-ray detector which move around the head to generate x-ray images at different positions, a tracking device which provides sensor data indicative of any movement of the head during the acquisition of the x-ray images and a computer which generates tracking data based on the sensor data and calculates an x-ray image of the head part based on the x-ray images and on the tracking data to compensate for any movement of the head part during the acquisition of the x-ray images, wherein the tracking device comprises at least one camera and an attachment device for detachable attachment of the camera to the patient.

Methods, devices, systems, and series of appliances are provided for dental implant positioning. One method for positioning an implant with dental treatment includes determining an implant location based on a virtual model of an optimized dental occlusion, moving one or more teeth using a first number of a series of dental appliances, from a first orientation to a second orientation, the second orientation exposing the implant location, placing an implant at the exposed implant location using a landmark included in at least one of the series of dental appliances, repositioning one or more teeth using a second number of the series of dental appliances, from the second orientation to a successive orientation.

Disclosed herein are methods of manufacturing an oral appliance, the method comprising the steps of: a) importing into a computer aided design (CAD) computer program a digitized data set obtained from a three-dimensional scan of a patient's dentition; b) preparing a three-dimensional electronic model of the patient's dentition; c) subtracting the three-dimensional electronic model of the patient's dentition from an image of a solid block to obtain an appliance data set; and d) manufacturing a dental appliance in accordance with the appliance data set. Also disclosed are devices made by the above method, and methods of treating a condition, for example a sleep breathing disorder, by using a device made by the above method.

Disclosed herein are methods of manufacturing an oral appliance, the method comprising the steps of: a) importing into a computer aided design (CAD) computer program a digitized data set obtained from a three-dimensional scan of a patient's dentition; b) preparing a three-dimensional electronic model of the patient's dentition; c) subtracting the three-dimensional electronic model of the patient's dentition from an image of a solid block to obtain an appliance data set; and d) manufacturing a dental appliance in accordance with the appliance data set. Also disclosed are devices made by the above method, and methods of treating a condition, for example a sleep breathing disorder, by using a device made by the above method.

An apparatus for Digital Imaging in the Head Region of a Patient includes an X-ray source and an X-ray sensor, supported on a rotary arm supported on a structure by a motor driven translation and rotation means. The rotary arm is provided with adjustment means for varying the distance between the source and the sensor. A control unit, that controls the source, the sensor, the adjustment means, and the translation and rotation means Collision detection means provided in the source and sensor detect a possible collision of the source and/or sensor with the patient during the motion of the source and/or sensor and the control unit responds to such detected possible collision.

An apparatus for Digital Imaging in the Head Region of a Patient includes an X-ray source and an X-ray sensor, supported on a rotary arm supported on a structure by a motor driven translation and rotation means. The rotary arm is provided with adjustment means for varying the distance between the source and the sensor. A control unit, that controls the source, the sensor, the adjustment means, and the translation and rotation means Collision detection means provided in the source and sensor detect a possible collision of the source and/or sensor with the patient during the motion of the source and/or sensor and the control unit responds to such detected possible collision.

A virtual teaching system for a dental periapical X-ray film and a virtual periapical X-ray film acquisition method is provided. The system includes a workstation and a dental radiography machine. The dental radiography machine includes a mounting plate, a stand column, a head fixing device, a five-axis robotic arm, a bulb tube, and a seat; the stand column is disposed on the top side of the mounting plate, and the head fixing device and the seat are respectively fixed on the upper and lower portions of the stand column; and the five-axis robotic arm includes five joint modules and five connecting rods, and the two ends of the five-axis robotic arm are respectively connected to the top portion of the stand column and the bulb tube. The workstation is communicatively connected to the dental radiography machine.