Clinical decision support and training system using device shape sensing

The invention claimed is: 1. A rating system configured for utilization of an actual elongated medical device for intracorporeal intervention, at least a portion of said elongated medical device being capable of being manipulated into different shapes intracorporeally, said rating system being configured to rate a performance of manipulating said portion of said elongated medical device during a procedure, said system comprising: a shape sensing system that includes a plurality of sensors configured for sensing actual shapes of said portion of said elongated medical device at various times during a performance of the procedure and for outputting feedback indicating the actual shapes of said portion of said elongated medical device during the performance of the procedure, the plurality of sensors including a plurality of fiber optic Bragg grating sensors or a plurality of electromagnetic tracking devices distributed along a length of said portion of said elongated medical device; a database of possible shapes and sequences of shapes of said portion of said elongated medical device, the possible shapes and sequences of shapes including a collection of poses derived by appropriately performing the procedure with said elongated medical device, wherein the possible shapes are stored in the database as a collection of (x, y, z, t) coordinates for a plurality of points along a length of the portion of said elongated medical device specifying (x, y, z) positions of the points at given times t when appropriately performing the procedure; and a processor comprising: a) a shape sensing module configured for interpreting the feedback from said sensors of said shape sensing system to derive the actual shapes of said portion of said elongated medical device during the performance of the procedure; and b) a comparison module configured to compare said actual shapes with the possible shapes in the database and in response to said comparison, to output a numerical score for the performance of the procedure. 2. The system of claim 1 , wherein said database includes data collected from one or more experts appropriately and actually performing said procedure by actually manipulating said elongated medical device. 3. The system of claim 1 , further comprising said elongated medical device, wherein said elongated medical device includes at least one of the plurality of fiber optic Bragg grating sensors and the plurality of electromagnetic tracking devices. 4. The system of claim 1 , wherein the database further includes a best practices database, which includes procedure specific constraints or environment specific constraints. 5. The system of claim 1 , wherein the database further includes libraries of data related to a procedure type, a physician and a particular circumstance for the procedure typed. 6. The system of claim 1 , further comprising a user-output mechanism, and wherein said processor further comprises an interactive guidance module configured to provide, via said user-output mechanism, information to a user of the rating system to assist said user in determining a course of action during the performance of the procedure. 7. The system of claim 6 , wherein said information provided by said interactive guidance module is based upon said collection of poses derived by appropriately performing said procedure. 8. The system of claim 6 , wherein said user-output mechanism comprises a display, and wherein said providing includes displaying via said display. 9. The system of claim 1 , wherein said database stores the collection of poses associated with procedure outcomes, and said comparison module is configured to output a probable outcome of the performance of the procedure that is being rated. 10. The system of claim 1 , wherein said procedure comprises a plurality of steps, and wherein said comparison module is configured to compare execution times for said steps during the performance of the procedure to execution times for said steps in the database for appropriately performing the procedure. 11. The system of claim 1 , wherein said portion is a functional end of said elongated medical device. 12. The system of claim 1 , further comprising a display said processor is configured for operating to visualize, on said display, feedback from among said comparison module to said user for performing the procedure interactively. 13. A system configured to rate at least one of a virtual user performance and an actual user performance of a procedure by a user of the system, said system comprising: a shape sensing system that includes one of: (1) a plurality of virtual sensors; and (2) a plurality of actual sensors configured for correspondingly sensing virtual shapes or actual shapes of at least a portion of a corresponding one of: (1) a virtual elongated medical device, and (2) an actual elongated medical device, during the virtual user performance or actual user performance of the procedure and for outputting feedback indicating the virtual shapes or actual shapes of said portion of said virtual elongated medical device or actual elongated medical device at various times during the virtual user performance or actual user performance of the procedure; a database of possible sequences of shapes of said portion of said virtual elongated medical device or actual elongated medical device, the possible sequences of shapes including a collection of poses derived by appropriately performing the procedure with said virtual elongated medical device or actual elongated medical device, the possible sequences of shapes each being stored in the database as a sequence of collections of (x, y, z, t) coordinates for a plurality of points along a length of the portion of said virtual elongated medical device or actual elongated medical specifying (x, y, z) positions of the points at given times t when appropriately performing the procedure; and a processor comprising: a) a shape sensing module configured for interpreting the feedback signals from said shape sensing system to derive the virtual shapes or actual shapes of said portion of said elongated medical device during the virtual user performance or actual user performance of the procedure; b) a comparison module configured to compare a sequence of the virtual shapes or actual shapes of said portion of said elongated medical device during the virtual user performance or actual user performance of the procedure with the possible sequences of shapes in said database and in response to said comparison to output a rating of said virtual user performance or actual user performance of the procedure. 14. The system of claim 13 , wherein said database further includes at least one of (i) data collected from one or more experts appropriately performing the procedure, (ii) a best practices database, which includes procedure specific constraints or environment specific constraints, and (iii) libraries of data related to a procedure type, a physician and a particular circumstance for the procedure type. 15. The system of claim 13 , further comprising said actual elongated medical device, and said shape sensing system includes said plurality of actual sensors, wherein the plurality of actual sensors includes a plurality of fiber optic Bragg grating sensors or a plurality of electromagnetic tracking devices. 16. The system of claim 13 , further comprising a user-output mechanism, and wherein said processor further comprises an interactive guidance module configured to provide guidance to a user during the performance of the procedure, whereon the guidance comprises information based upon the colle