System and method for preoperative planning for total hip arthroplasty

1 . A computer system comprising at least one processing unit and a memory coupled to the at least one processing unit, a storage device storing instructions that, when executed by the at least one processing unit, cause the computer system to: access at least three images of a musculoskeletal structure of a patient and display the at least three images via a display device; wherein a first pair of images are of different views of a first functional position of a musculoskeletal structure of a patient, and a second pair of images are of the same view of different functional positions of a musculoskeletal structure of a patient; define at least one reference axis of the musculoskeletal structure on at least one of the images; determine a positional change parameter of the musculoskeletal structure based on the second pair of images, the positional change parameter representing the positional change of the patient between the different functional positions of the second pair of images; determine a first spatial transformation between the images of the first pair of images and determine a second spatial transformation between the images of the second pair of images; render and overlay a three dimensional (3D) implant for each image in a first implant position defined relative to the reference axes, and according to the first spatial transformation for the first pair of images and according to the second spatial transformation and positional change parameter for the second pair of images, and overlay the 3D implant on the respective images; receive input to define a second implant position for the 3D implant, the second implant position defined relative to the reference axis; and update, in at least near real time, the rendering and overlay accordingly for each image in the second implant position using each spatial transformation and positional change parameter. 2 . The computer system of claim 1 , wherein a modality of the at least three images comprises any of: x-ray, computed tomography (CT), magnetic resonance imaging (MRI), and EOS imaging modalities. 3 . The computer system of claim 1 , wherein the computer system is further configured to receive user input; and wherein defining at least one reference axis is based on user input via one or more of: a selection of one or more coordinates defining the reference axes on one or more of the at least three images; and an inputting of numerical values. 4 . The computer system of claim 1 , wherein the computer system is further configured to display the positional change parameter. 5 . The computer system of claim 1 , wherein the computer system is configured to determine the first and second spatial transformations by one or more of: performing computations based at least in part on axes coordinates received on one or more images as input to define the at least one reference axis of the musculoskeletal structure on the one or more images; performing computations based on corresponding common features between two or more of the at least three images; and performing computations based on known image acquisition spatial information. 6 . The computer system of claim 1 , wherein the computer system is further configured to: receive templating information comprising one or more of implant size and desired location; and render the 3D implant according to at least a subset of the received templating information. 7 . The computer system of claim 1 , wherein the musculoskeletal structure is a pelvis, the 3D implant is an acetabular cup and the first implant position is 40 degrees of inclination and 15 degrees of anteversion. 8 . The computer system of claim 1 , wherein the computer system is further configured to display position information representing a current position of the 3D implant; wherein the 3D implant is an acetabular cup and the position information is an inclination angle and an anteversion angle. 9 . The computer system of claim 1 , wherein the input representing the second position of the 3D implant is based on one or more of: a manipulation of an image associated with the 3D implant as overlaid on one of the at least three images of a musculoskeletal structure of a patient; and an inputting of numerical values. 10 . The computer system of claim 9 wherein the manipulation of the image comprises clicking and dragging a handle associated with the 3D implant overlay. 11 . The computer system of claim 1 , wherein the first pair of images comprises a standing anteroposterior (AP) image and a standing lateral image, and the second pair of images comprises a standing lateral image and a sitting lateral image. 12 . The computer system of claim 11 , wherein the positional change parameter is a tilt parameter; and wherein a change in tilt parameter between the standing AP image and the standing lateral image is determined based on respective tilt coordinates received on the standing lateral image and the sitting lateral image respectively via user input. 13 . A computer-implemented method comprising: accessing at least three images of a musculoskeletal structure of a patient and displaying the at least three images via a display device; wherein a first pair of images are of different views of a first functional position of a musculoskeletal structure of a patient, and a second pair of images are of the same view of different functional positions of a musculoskeletal structure of a patient; defining at least one reference axis of the musculoskeletal structure on at least one of the images; determining a positional change parameter of the musculoskeletal structure based on the second pair of images, the positional change parameter representing the positional change of the patient between the different functional positions of the second pair of images; determining a first spatial transformation between the images of the first pair of images and determining a second spatial transformation between the images of the second pair of images; rendering and overlaying a three dimensional (3D) implant for each image in a first implant position defined relative to the reference axes, and according to the first spatial transformation for the first pair of images and to the second spatial transformation and positional change parameter for the second pair or images, and overlay the 3D implant on the respective images; receiving input to define a second implant position for the 3D implant, the second implant position defined relative to the reference axis; and update, in at least near real time, the rendering and overlay accordingly for each image in the second implant position using each spatial transformation and positional change parameter. 14 . The computer-implemented method of claim 13 wherein a modality of the at least three images comprises any of: x-ray, computed tomography (CT), magnetic resonance imaging (MRI), and EOS imaging modalities. 15 . The computer-implemented method of claim 13 further comprising receiving user input; and wherein defining at least one reference axis is based on user input via one or more of: a selection of one or more coordinates defining the reference axes on one or more of the at least three images; and an inputting of numerical values. 16 . The computer-implemented method of claim 13 , wherein determining the first and second spatial transformations comprise one or more of: performing computations based at least in part on axes coordinates received on one or more images as input to define the at least one reference axis of the musculoskeletal structure on the one or more images; perf