Automatic positioning of standard planes for real-time fetal heart evaluation

What is claimed is: 1. A diagnostic ultrasound system for imaging multiple planes of a target anatomy comprising: a matrix array probe configured to scan a plurality of image planes in real-time in a region of a body; a beamform controller configured to control scanning by the matrix array probe; an image processor, coupled to the matrix array probe, configured to produce real-time ultrasound images of the plurality of image planes scanned by the matrix array probe; a display, coupled to the image processor, for simultaneously displaying the ultrasound images in real-time; data representing an anatomical model of the target anatomy; an image registration processor configured to register an ultrasound image with the data representing the anatomical model, generate image plane orientation data including orientations of standard view planes derived from the anatomical model in response to registration of the ultrasound image, and provide the image plane orientation data in a gating signal to the beamform controller; wherein the beamform controller is configured to cause the matrix array probe to scan in real-time, the plurality of image planes using the image plane orientation data. 2. The diagnostic ultrasound system of claim 1 , wherein the target anatomy further comprises a fetal heart; wherein the anatomical model further comprises a heart model; wherein the image registration processor registers a reference 2D fetal heart image to a plane of the anatomical model; and wherein the image plane orientation data identifies at least one standard view image plane. 3. The diagnostic ultrasound system of claim 2 , further comprising a user control by which a user selects a plurality of standard views. 4. The diagnostic ultrasound system of claim 3 , wherein the reference 2D fetal heart image further comprises a 4-chamber view. 5. The diagnostic ultrasound system of claim 4 , wherein the at least one standard view image plane is that of an LV outflow tract, RV outflow tract, 5-chamber view, 3-vessel view, or a tracheal view. 6. The diagnostic ultrasound system of claim 5 , wherein the display simultaneously displays real-time ultrasound images of a plurality of standard views, and wherein the display further display an icon graphic of a heart indicating the relative orientation of the plane of at least one real-time ultrasound image of the fetal heart. 7. A method for ultrasonically imaging a plurality of different selected image planes of a target anatomy in real-time comprising: selecting a plurality of mutually different image planes of a target anatomy, a first image plane being one of the selected image planes; positioning a matrix array probe at an acoustic window to the target anatomy; acquiring a 2D image of the first image plane of the target anatomy; registering the 2D image to data of an anatomical model of the target anatomy; identifying orientation data of a second image plane of the target anatomy in response to registering the 2D image of the first image plane, the second image plane being another one of the selected image planes, wherein the orientation data include plane coordinates of the second image plane identified in the anatomical model data; controlling, with a beamform controller, the matrix array probe to scan the first image plane and the second image plane in real-time using the orientation data, the orientation data being coupled in a gating signal to the beamform controller; and simultaneously displaying ultrasound images of the first image plane and the second image plane in real-time. 8. The method of claim 7 , wherein the target anatomy further comprises a fetal heart, wherein the anatomical model further comprises a heart model, and wherein the first image plane and the second image plane further comprise image planes of standard views of a fetal heart. 9. The method of claim 7 , further comprising displaying an icon graphic which identifies the relative orientations of one of the planes and the target anatomy. 10. The method of claim 7 , further comprising: adapting the anatomical model to patient characteristics. 11. The method of claim 10 , further comprising: entering patient characteristic data into an ultrasound system, and adapting the anatomical model to the entered patient characteristic data. 12. The method of claim 11 , wherein adapting the anatomical model to the entered patient characteristic data further comprises selecting the data of the anatomical model in response to the entered patient characteristic data. 13. The method of claim 10 , wherein adapting the anatomical model further comprises warping or morphing the data of the anatomical model to the 2D image. 14. A method for ultrasonically imaging a plurality of different selected image planes of a target anatomy in real-time comprising: selecting a plurality of mutually different image planes of a target anatomy; positioning a matrix array probe at an acoustic window to the target anatomy; acquiring a volume image dataset of the target anatomy; registering at least one plane of the volume image dataset to data of an anatomical model of the target anatomy; identifying orientation data of the plurality of selected image planes of the target anatomy in response to registering the at least one plane of the volume image dataset, wherein the orientation data include orientations of standard view planes identified in the anatomical model data; controlling, with a beamform controller, the matrix array probe to scan the plurality of selected image planes in real-time using the orientation data, the orientation data being coupled in a gating signal to the beamform controller; and simultaneously displaying ultrasound images of the plurality of selected image planes in real-time. 15. The method of claim 14 , further comprising: periodically acquiring another volume image dataset of the target anatomy; and updating the orientation data in response to the another volume image dataset.