Method and system for obtaining operating parameters for 3D x ray acquisition

What is claimed is: 1. A method for obtaining operating parameters for an x-ray CBCT imaging apparatus in view of acquiring a set of data of a patient's maxillofacial region, the method comprising the steps of: identifying a patient's maxillofacial first region of interest (ROI1); determining a height of a horizontal plane of said patient's maxillofacial first region of interest (ROI1) when the patient is in an occlusion position or bites a patient positioning accessory; acquiring through a slit-shaped collimator window a first set of data relative to said patient's maxillofacial first region of interest (ROI1) including the horizontal plane using x-ray CBCT imaging, wherein the acquired first set of data comprises a first set of x-ray images obtained at different angular positions relative to the patient's maxillofacial first region of interest (ROI1); reconstructing an axial CBCT slice comprising the horizontal plane based on the first set of data relative to the patient's maxillofacial first region of interest (ROI1); displaying the reconstructed axial CBCT slice of the patient's maxillofacial first region of interest (ROI1) from the acquired first set of data; defining at least partially a second region of interest (ROI2) based on the displayed reconstructed axial CBCT slice of the patient's maxillofacial first region of interest (ROI1) and intersecting the reconstructed axial CBCT slice of the patient's maxillofacial first region of interest (ROI1); and obtaining operating parameters for an x-ray CBCT imaging apparatus based on at least the defined second region of interest (ROI2) in view of acquiring a second set of data including the defined second region of interest (ROI2). 2. The method of claim 1 , wherein defining at least partially the second region of interest (ROI2) based on the displayed reconstructed axial CBCT slice of the patient's maxillofacial first region of interest (ROI1) includes defining the position of the second region of interest (ROI2) in the x, y plane of the axial CBCT slice. 3. The method of claim 2 , wherein defining the second region of interest (ROI2) further includes defining the position of the second region of interest (ROI2) along a z-axis (height) that is perpendicular to the x, y plane of the axial CBCT slice. 4. The method of claim 3 , wherein defining the z-axis position of the second region of interest (ROI2) includes beforehand one of the following steps: acquiring a lateral x-ray scout view comprising the patient's maxillofacial first region of interest (ROI1); or acquiring an optical image comprising the patient's maxillofacial first region of interest (ROI1) including landmarks; or performing physical measurements on the patient's maxillofacial first region of interest (ROI1) using a patient positioning device. 5. The method of claim 4 , wherein the method further comprises a step of adjusting the height of the second region of interest (ROI2) based on the lateral scout view, the optical image, or the performed physical measurements. 6. The method of claim 3 , wherein the z-axis position of the second region of interest (ROI2) is predetermined. 7. The method of claim 1 , wherein the second region of interest (ROI2) has a size that is selected from a set of predetermined values. 8. The method of claim 3 , wherein defining the z-axis position of the second region of interest (ROI2) is based on determining the height of a horizontal plane of said patient's maxillofacial first region of interest (ROI1) when the patient is in an occlusion position or bites a patient positioning accessory. 9. The method of claim 1 , wherein determining the height of the horizontal plane of said patient's maxillofacial first region of interest (ROI1) when the patient is in an occlusion position or bites a patient positioning accessory includes beforehand one of the following steps: acquiring a lateral x-ray scout view comprising the patient's maxillofacial first region of interest (ROI1); or acquiring an optical image comprising the patient's maxillofacial first region of interest (ROI1) including landmarks; or performing physical measurements on the patient's maxillofacial first region of interest (ROI1) using a patient positioning device. 10. The method of claim 1 , wherein the first set of data is acquired while the patient is maintained in a first position through a patient positioning device, said first patient position being defined by a set of setting parameters for the patient positioning device. 11. The method of claim 10 , wherein the method further comprises prior adjusting of the setting parameters of the patient positioning device before acquiring the second set of data. 12. The method of claim 1 , wherein the first set of data and the second set of data are separate in time. 13. The method of claim 1 , wherein the x-ray CBCT imaging apparatus comprises an x-ray source and an x-ray sensor that are both operable to simultaneously move around the patient's head along a predetermined trajectory, and wherein obtaining operating parameters for the x-ray CBCT imaging apparatus based on the defined second region of interest (ROI2) comprises adjusting a trajectory for both the x-ray source and the x-ray sensor based on the defined second region of interest ROI2. 14. A computer storage medium having instructions stored therein for causing a computer or a microprocessor to perform the method of claim 1 . 15. The method of claim 1 , further comprising the steps of: acquiring the second set of data that comprises a second set of x-ray images obtained at different angular positions including the defined second region of interest (ROI2); and reconstructing a 3D CBCT image including the defined second region of interest (ROI2); based on the second set of data relative to the patient's maxillofacial second region of interest (ROI2). 16. The method of claim 15 , wherein the 3D CBCT image has a higher resolution than the axial CBCT slice. 17. A system for obtaining operating parameters for x-ray CBCT imaging a patient's maxillofacial region, comprising: an x-ray source and at least one x-ray sensor that are configured to move around a patient's maxillofacial first region of interest (ROI1) while irradiating the latter with a slit-shaped x-ray beam so as to acquire a first set of data relative to said patient's maxillofacial first region of interest (ROI1) when the patient is in an occlusion position or bites a patient positioning accessory, said patient's maxillofacial first region of interest (ROI1) including a horizontal plane, wherein the acquired first set of data comprises a first set of x-ray images including the horizontal plane obtained at different angular positions relative to the patient's maxillofacial first region of interest (ROI1); and a microprocessor configured to: reconstruct an axial CBCT slice comprising the horizontal plane based on the first set of data relative to the patient's maxillofacial first region of interest (ROI1), display the reconstructed axial CBCT slice of the patient's maxillofacial first region of interest (ROI1) from the acquired first set of data with a view to defining at least partially a second region of interest (ROI2) that is based on the displayed reconstructed axial CBCT slice and intersects the latter, and obtain operating parameters for an x-ray CBCT imaging apparatus based on at least the defined second region of interest (ROI2) in view of acquiring a second set of data including the defined second region of interest (ROI2). 18. The system of claim 17 , wherein the obtaine