Patent ID: 8190232

Claim:
A method to automatically align magnetic resonance (MR) brain scans for diagnostic scan planning, comprising: acquiring a three-dimensional (3D) localizer image of a patient; selecting a two-dimensional (2D) coronal view and a 2D transverse view from the localizer image; identifying a mid-sagittal plane (MSP) line in each of the coronal and transverse views and calculating a 3D MSP based on the MSP lines; reconstructing the localizer image based on an equation for the 3D MSP to obtain an image of the MSP of the patient's brain; identifying crista galli (CG) and tip of the occipital bone (TOB) in the image of the MSP of the patient's brain; calculating a transformation matrix based on the MSP, CG and TOB in the image and using the transformation matrix to obtain a scan plan for the patient; and outputting the scan plan for the patient, wherein the step of identifying an MSP line in each of the coronal and transverse views comprises: detecting a position of the patient's head by fitting an ellipse to each of the coronal and transverse views that maximizes an image gradient magnitude in a boundary region of the ellipse; establishing a symmetrical axis which minimizes a difference between the coronal and transverse views on either side of the symmetrical axis; characterizing low intensity pixels in the coronal and transverse views by using smoothed local differential operators; finding pixels in the coronal and transverse views that form a space between hemispheres in each of the coronal and transverse views; and running a linear regression with robust weights to define a line in each of the coronal and transverse views that best separates the two hemispheres, wherein the line is the MSP line.