Endograft visualization with optical shape sensing

The invention claimed is: 1. A system for deployment of a medical device in an anatomical structure of a subject, the system comprising: an optical shape sensing (OSS) system associated with at least one of a deployable medical device or a deployment instrument for placing the deployable medical device in the anatomical structure, the OSS system being configured to measure at least one of shape, position or orientation of the deployable medical device and/or the deployment instrument, to measure at least one feature of the anatomical structure, and to provide OSS data indicating the measured at least one of the shape, position or orientation of the deployable medical device and/or the deployment instrument and the measured at least one feature of the anatomical structure; a processor; and a memory for storing instructions and a lookup table, wherein the lookup table stores a plurality of types of deployable medical devices, a plurality of deployment states of the types of deployable medical devices, and a plurality of previously derived models or meshes corresponding to the plurality of deployment states of the types of deployable medical devices, wherein, when executed by the processor, the instructions cause the processor to: register the OSS data with imaging data to permit placement of the deployable medical device; determine a type of the deployable medical device and a state of deployment of the deployable medical device; determine a model or mesh of the deployable medical device from the plurality of previously derived models or meshes in the lookup table based on the determined type and state of deployment of the deployable medical device; create a visual representation of the deployable medical device using the model or mesh of the deployable medical device; and jointly display the visual representation of the deployable medical device with the imaging data, wherein the visual representation is positioned according to the OSS data. 2. The system as recited in claim 1 , wherein the determined model or mesh is updated in accordance with one or more of the measured at least one of the shape, position or orientation of the deployable medical device from the OSS data, the state of deployment of the deployable medical device, and input from the imaging data and/or user input. 3. The system as recited in claim 1 , wherein the plurality of previously derived models or meshes stored in the lookup table comprise one or more digital representations of the deployable medical device. 4. The system as recited in claim 1 , wherein the imaging data includes an intra-operative imaging system having a source that provides energy limited to a region of interest designated by a position of the OSS system. 5. The system as recited in claim 1 , wherein the OSS system is integrated within the deployable medical device. 6. The system as recited in claim 5 , wherein at least a portion of the deployable medical device is visually represented on a display using a probability map, a portion of the deployable medical device or markers. 7. The system as recited in claim 1 , wherein the OSS system is integrated within the deployment instrument and at least a portion of the deployable medical device is virtually represented relative to the deployment instrument. 8. The system as recited in claim 1 , wherein the deployable medical device includes one or more of: an endograft, a stent, a replacement valve, a clip or a balloon. 9. The system as recited in claim 1 , wherein the stored instructions further cause the processor to modify the determined model or mesh based on at least one of the OSS data or the imaging data of the deployable medical device. 10. The system as recited in claim 1 , wherein the deployable medical device comprises a balloon, and wherein the state of deployment of the deployable medical device includes an amount of inflation and/or deformation of the balloon. 11. A system for deployment of an implantable device in an anatomical structure of a subject, the system comprising: an optical shape sensing (OSS) system associated with at least one of the implantable device or a deployment instrument, the OSS system being configured to measure at least one of shape, position or orientation of the implantable device and/or the deployment instrument, and to measure at least one feature of the anatomical structure; and a processor; and a memory for storing instructions and a lookup table, wherein the lookup table stores a plurality of types of deployable medical devices, a plurality of deployment states of the types of deployable medical devices, and a plurality of previously derived models or meshes corresponding to the plurality of deployment states of the types of deployable medical devices, and wherein, when executed by the processor, the instructions cause the processor to: determine a type of the implantable device and a state of deployment of the implantable device; determine a model or mesh of the implantable device from the plurality of previously derived models or meshes in the lookup table corresponding to the determined type and state of deployment of the implantable device; modify a digital representation of the determined type of the implantable device by modifying the model or mesh of the implantable device to fit a blood vessel; register OSS data with imaging data to permit placement of the implantable device using the digital representation; and display the digital representation of the implantable device with the imaging data, wherein the digital representation is positioned according to the OSS data. 12. The system as recited in claim 11 , wherein the digital representation of the determined type of the implantable device is modified in accordance with at least one of shape, position and orientation of the implantable device from the OSS data, a state of deployment of the implantable device, input from the imaging data or user input. 13. The system as recited in claim 11 , wherein the imaging data includes an intra-operative imaging system having a source that provides energy limited to a region of interest designated by a position of a deployed OSS system. 14. A method for deploying a deployable medical device in an anatomical structure of a subject, the method comprising: measuring at least one feature of the anatomical structure using optical shape sensing (OSS); selecting a type of the deployable medical device based upon the measured at least one feature of the anatomical structure; accessing a lookup table that stores a plurality of types of deployable medical devices, a plurality of deployment states of the types of deployable medical devices, and a plurality of deployable medical device models corresponding to the plurality of deployment states of the types of deployable medical devices; determining a deployable medical device model from the plurality of deployable medical device models from the lookup table, based on at least the selected type of the deployable medical device and a state of deployment of the deployable medical device, as a digital representation of the deployable medical device; registering OSS data for an OSS enabled deployment instrument with imaging data; jointly displaying the digital representation of the deployable medical device positioned according to the OSS data and the imaging data to provide guidance in positioning the deployable medical device; and deploying the deployable medical device in a blood vessel using a visual display of the digital representation of the deployable medical device. 15. The method as recited in claim 14 , further comprising: