A medical image processing apparatus comprising: a first input interface configured to acquire a three-dimensional volume image of an object which is provided with at least one marker, the three-dimensional volume image being generated by imaging the object using a medical examination apparatus; a second input interface configured to acquire geometry information of an imaging apparatus which is used for imaging the object to generate a fluoroscopic image of the object; and a specific-setting-information generator configured to generate specific setting information based on the three-dimensional volume image and the geometry information, the specific setting information being used for setting of imaging for generating an image depicting the at least one marker or setting of image processing of the image depicting the at least one marker.

Disclosed herein is an X-ray detector comprises: an X-ray absorption layer configured to absorb X-ray photons; an electronics layer comprising an electronics system configured to process or interpret signals generated by the X-ray photons incident on the X-ray absorption layer; and a temperature driver in the X-ray absorption layer or the electronics layer.

Disclosed herein is an X-ray detector comprises: an X-ray absorption layer configured to absorb X-ray photons; an electronics layer comprising an electronics system configured to process or interpret signals generated by the X-ray photons incident on the X-ray absorption layer; and a temperature driver in the X-ray absorption layer or the electronics layer.

The present invention provides a radiography device for producing an X-ray image of a tooth or a structure supporting the tooth. The radiography device of the present invention includes: an X-ray source for generating X-rays; a projection unit for projecting a user control mode image to the outside as user control information for controlling the X-ray source; and a control unit including an operation unit for user operation, and controlling the X-ray source according to the user control information selected through the operation unit.

The present invention provides a radiography device for producing an X-ray image of a tooth or a structure supporting the tooth. The radiography device of the present invention includes: an X-ray source for generating X-rays; a projection unit for projecting a user control mode image to the outside as user control information for controlling the X-ray source; and a control unit including an operation unit for user operation, and controlling the X-ray source according to the user control information selected through the operation unit.

A distance SRD can be obtained from sizes of projection images of a calibration instrument on a table at a first point (that is an imaging position) and a second point and a distance between rotation center axes of the table at the first point and the second point. Furthermore, a distance SDD can be obtained by adding up the distance SRD thus obtained and a distance between an X-ray detector and the rotation center axis of the table at the first point, and a ratio between the distances SRD, SDD is taken as an imaging magnification of imaging at the first point.

A distance SRD can be obtained from sizes of projection images of a calibration instrument on a table at a first point (that is an imaging position) and a second point and a distance between rotation center axes of the table at the first point and the second point. Furthermore, a distance SDD can be obtained by adding up the distance SRD thus obtained and a distance between an X-ray detector and the rotation center axis of the table at the first point, and a ratio between the distances SRD, SDD is taken as an imaging magnification of imaging at the first point.

A first sensor panel, a second sensor panel, and a base are accommodated in a housing of an electronic cassette. Circuit substrates are mounted on a rear surface of the base. The base is made of a pitch-based carbon fiber reinforced resin obtained by impregnating a pitch-based carbon fiber with a matrix resin. The fiber directions of the pitch-based carbon fibers are aligned with one direction. Therefore, the base has high thermal conductivity in a direction parallel to the fiber direction. As a result, the driving heat of the circuit substrates is rapidly diffused to the entire rear surface.

A radiography camera system includes an exposure container made from radiation shielding material and having a curved channel therein that terminates inside the exposure container, a first conduit portion having a first end coupled to the exposure container, a switch coupled to a second end the first conduit portion, a second conduit portion having a first end coupled to the switch, a guide tube coupled to the switch, a crank coupled to a second end of the second conduit portion, and a cable disposed in the crank and having a connector for a source assembly on an end thereof, the cable actuating the switch to cause the cable to feed through one of: the first conduit portion or the guide tube when the crank unwinds the cable. The exposure container may be made from depleted uranium, tungsten, and/or lead. The curved channel may be J-shaped.

Disclosed herein is an X-ray imaging apparatus having an improved structure which is configured for preventing an entrance of foreign materials. The X-ray imaging apparatus includes: an X-ray source configured to generate X-rays, and to irradiate the generated X-rays; an X-ray detector configured to detect the irradiated X-rays; and a first frame and a second frame coupled with each other to form an outer appearance of the X-ray detector. The first frame is tightly coupled with the second frame so that no gap exists between the first frame and the second frame in order to prevent a foreign material from entering the inside of the X-ray detector.