Method and system for 3D cephalometric analysis

The invention claimed is: 1. A method for 3-D longitudinal cephalometric analysis of a patient, the method executed at least in part on a computer processor and comprising: acquiring a first CBCT data from a computed tomographic scan of a patient's head; acquiring a first surface model of a plurality of teeth of the patient's head; performing a first cephalometric analysis based on said first CBCT data for the patient; displaying one or more computed cephalometric parameters from the first cephalometric analysis; acquiring a second mesh model of the plurality of teeth of the patient's head from an optical scan of the patient; finding changes of teeth position and orientation between said first surface model and said second mesh model; applying the changes of teeth position and orientation to said first CBCT data to obtain a second CBCT data; performing a second cephalometric analysis based on the second CBCT data; and displaying one or more computed cephalometric parameters from the second cephalometric analysis. 2. The method of claim 1 , where acquiring a first surface model of a plurality of teeth of the patient's head comprises forming the first surface model from the first CBCT data or performing an initial optical scan of the plurality of teeth of the patient's head to form first mesh model and matching the first mesh model to the first CBCT data. 3. The method of claim 2 , where the matched first mesh model is merged with the first CBCT data to form the first surface model. 4. The method of claim 1 , further comprising: acquiring a third mesh model of the plurality of teeth of the patient's head from an optical scan of the patient; finding changes of teeth position and orientation between said first surface model and said third mesh model; applying the changes of teeth position and orientation to said first CBCT data to obtain a third CBCT data; and performing at least a third cephalometric analysis based on the third CBCT data; and displaying one or more computed cephalometric parameters from the third cephalometric analysis. 5. The method of claim 1 , where the second CBCT data comprises a second surface model of the plurality of teeth of the patient's head, further comprising: acquiring a third model of the plurality of teeth of the patient's head from an optical scan of the patient; finding changes of teeth position and orientation between said second surface model and said third mesh model; applying the changes of teeth position and orientation to said second CBCT data to obtain a third CBCT data; performing at least a third cephalometric analysis based on the third CBCT data; and displaying one or more computed cephalometric parameters from the third cephalometric analysis. 6. The method of claim 1 further comprising performing a first cephalometric treatment based on the first cephalometric analysis before acquiring the second mesh model of the plurality of teeth of the patient's head. 7. The method of claim 1 further comprising performing a second cephalometric treatment based on the second cephalometric analysis. 8. The method of claim 1 wherein displaying one or more computed cephalometric parameters comprises displaying text, displaying graphics or displaying text and graphics. 9. The method of claim 1 wherein performing a cephalometric analysis comprises performing the analysis on a computer processor that is configured as a cephalometric analysis engine. 10. The method of claim 9 , further comprising comparing one computed cephalometric parameter with a previously determined value and displaying a message related to the comparison. 11. The method of claim 9 further comprising: generating a three-dimensional framework related to the computed cephalometric parameters; and displaying the at least one reference mark on a second 2-D view that is substantially orthogonal to the first 2-D view, where the at least one reference mark identifies an anatomical feature that is outside the mouth of the patient. 12. The method of claim 1 wherein performing a cephalometric analysis comprises performing segmentation to segment at least one dentition element within the patient's mouth; and analyzing the segmented dentition element and at least one reference mark. 13. A logic processor that is configured with encoded instructions to: display a first volume data from a computed tomographic scan of a patient's head including a first surface model of dentition of the patient's head; perform a first cephalometric analysis based on said first volume data for the patient; display one or more computed cephalometric parameters from the first cephalometric analysis; acquire a second surface model of the plurality of teeth of the patient's head from a subsequent optical scan of the patient; find changes of teeth position and orientation between said first surface model and said second surface model; apply the changes of teeth position and orientation to said first volume data to obtain a second volume data of the patient's head; perform a second cephalometric analysis based on the second volume data; and display, store or transmit one or more computed cephalometric parameters from the second cephalometric analysis. 14. The logic processor of claim 13 wherein the processor is further configured with an analysis engine that compares the computed cephalometric parameter against a predetermined value and displays a result of the comparison. 15. The logic processor of claim 14 , where the predetermined value is calculated from an image of the patient that was obtained previously, where the first volume data is CBCT volume data, and the first and second surface models are 3D mesh models. 16. An apparatus comprising: means for acquiring a first CBCT data from a computed tomographic scan of a patient's head; means for acquiring a first mesh model from an optical scan of the teeth of the patient; means for merging said first mesh model with CBCT data; means for performing a first cephalometric analysis based on said first CBCT data for the patient; means for acquiring at least a second mesh model from an optical scan of the teeth of the patient after a first treatment of the patient; means for finding changes of teeth position and orientation between said first mesh model and said at least a second mesh models; means for applying the changes of teeth position and orientation to said first CBCT data to obtain a second CBCT data; and means for performing at least a second cephalometric analysis based on the second CBCT data.