Patent Number: 
Section: claims

1. An extra-oral imaging system, the extra-oral system comprising:a support base adjustable in at least one dimension;a cephalometric module coupled to the support base and configured to position a cephalometric imaging sensor about a first imaging area formed with an x-ray source, where x-rays from the x-ray source impinge the cephalometric sensor after radiating the first imaging area;a cephalometric patient positioning unit positioned operatively near the first imaging area; andan integral cephalometric collimator comprising an elongated metallic plate surrounding a fixed slot aperture and encased on at least a portion of all exterior sides by a unitary body in substantially continuous contact with an outer surface of the elongated metallic plate. 2. The extra-oral imaging system of claim 1, where the unitary body comprises a lower portion surrounding the elongated metallic plate and an upper portion, where the upper portion comprises a longitudinal protrusion configured to engage a transport mechanism for translation in a direction orthogonal to a path of the x-rays. 3. The extra-oral imaging system of claim 2, where the engagement portion comprises at least one recess or a plurality of spaced protrusions for engagement to the transport mechanism. 4. The extra-oral imaging system of claim 3, where the upper portion of the engagement portion comprises at least one threaded recess for engagement to the transport mechanism. 5. The extra-oral imaging system of claim 1, where the substantially continuous contact between the unitary body and the elongated metallic plate is configured to reduce stress forces at a contacting surface therebetween (orthogonal to the contacting surface). 6. The extra-oral imaging system of claim 1, where the unitary body is configured to cover substantially all outer surfaces of the elongated metallic plate. 7. The extra-oral imaging system of claim 1, where the unitary body comprises a mixture of polyester resin and glass fiber or is fiber reinforced plastic. 8. The extra-oral imaging system of claim 1, where the fixed slot has a height to width ratio of at least 30, and the unitary body has a variable thickness. 9. The extra-oral imaging system of claim 1, where the unitary body is overmolded on the metallic plate, and where a second slot is milled or machined on the unitary body in coincidence with the fixed aperture. 10. The extra-oral imaging system of claim 1, where the cephalometric patient positioning unit is between the integral cephalometric collimator and the cephalometric imaging sensor, where the cephalometric patient positioning unit comprises:a forehead support, the forehead support is adjustable in at least two dimensions; andat least one temporal holding member adjustable in at least one dimension; anda retractable cephalometric Frankfort plane positioning indicator, where the retractable cephalometric Frankfort plane positioning indicator is configured to be mounted to one or both sides of the integral cephalometric collimator. 11. The extra-oral imaging system of claim 1, comprising:a first mount mounted to the support base and configured to revolve the x-ray source and an imaging sensor about a second imaging area so that x-rays impinge the imaging sensor after radiating the second imaging area; anda second patient positioning unit coupled to the extra-oral imaging system and positioned operatively near the second imaging area, comprising:an elongated shield comprising handles;a chin support coupled to the elongated shield and comprising a chin positioning element; anda head support coupled to the elongated shield; anda second Frankfort plan positioning indicator. 12. A method for manufacturing a collimator for a cephalometric imaging device comprising:forming an elongated metallic plate surrounding a fixed aperture;overmolding a unitary body on the elongated metallic plate at least partially filling the fixed aperture; andmilling a slot in the unitary body in coincidence with the fixed aperture.