Rotational position determination apparatus

The invention claimed is: 1. A rotational position determination apparatus configured to determine a rotational position of an insertion device at an entry site for being inserted into an object and to be navigated along an inner path within the object from the entry site to a target site within the object, the rotational position determination apparatus comprising a computer and a memory with instructions that, when executed by the computer, configure the computer to: provide a representation of the inner path within the object on a display; provide a target rotational position of the insertion device at the target site; determine a change of the rotational position of the insertion device for reaching the target site at the target rotational position of the insertion device while navigating the insertion device along the representation of the inner path from the entry site to the target site; based on the determined change of the rotational position, determine an entry rotational position of the insertion device for entry at the entry site for achieving the target rotational position with reduced rotation of the insertion device from the entry site to the target site, the determined entry rotational position defining the rotational position of the insertion device about a longitudinal axis of the insertion device at the entry site, such that a navigation of the insertion device from the entry site to the target site along the inner path results in a rotational position of the insertion device at the target site being equal to the target rotational position of the insertion device at the target site; and provide an output to the display for causing the display to display the determined entry rotational position for advising a user to rotate the insertion device about the longitudinal axis by a rotational angle to achieve the entry rotational position of the insertion device for resulting in the insertion device being in the target rotational position at the target site. 2. The rotational position determination apparatus as defined in claim 1 , wherein the instructions that, when executed by the computer, further configure the computer to: perform a simulation of the navigation of the insertion device from the entry site to the target site based on the representation of the inner path and the target rotational position; and determine the entry rotational position based on the simulation. 3. The rotational position determination apparatus as defined in claim 1 , wherein the insertion device is navigated along the inner path by using a delivery system, wherein the instructions that, when executed by the computer, further configure the computer to determine the entry rotational position such that the navigation of the insertion device from the entry site to the target site along the representation of the inner path by using the delivery system results in a rotational position of the insertion device at the target site being equal to the target rotational position based on the representation of the inner path, the target rotational position and the delivery system. 4. The rotational position determination apparatus as defined in claim 1 , wherein the instructions, when executed by the computer, further configure the computer to provide a three-dimensional vessel geometry model representing a vascular network of the object, and determine the inner path by determining a path through the three-dimensional vessel geometry model from the entry site to the target site. 5. The rotational position determination apparatus as defined in claim 1 , wherein the instructions, when executed by the computer, further configure the computer to provide a three-dimensional vessel geometry model representing a vessel configuration at least at the target site, wherein the insertion device is an endovascular device configured to fit to the vessel configuration at the target site in at least one rotational position, wherein the instructions, when executed by the computer, further configure the computer to determine the target rotational position such that the endovascular device fits to the vessel configuration at the target site. 6. The rotational position determination apparatus as defined in claim 5 , wherein the instructions, when executed by the computer, further configure the computer to cause selection of the insertion device suitable for reaching the target site from the entry site along the inner path based on a data base that stores assignments between inner path elements of insertion devices and characteristics of the inner path determined from the representation of the inner path. 7. The rotational position determination apparatus as defined in claim 6 , wherein the instructions, when executed by the computer, further configure the computer to select a delivery system for delivering the insertion device to the target site. 8. The rotational position determination apparatus as defined in claim 1 , wherein the instructions, when executed by the computer, further configure the computer to provide a representation of an entry path from the outside of the object to an end of the inner path at the entry site, and determine the entry rotational position such that the navigation of the insertion device from the entry site to the target site along the entry path and the inner path results in a rotational position of the insertion device at the target site being equal to the target rotational position based on the representation of the entry path, the representation of the inner path and the target rotational position. 9. A rotational position determination method for determining a rotational position of an insertion device at an entry site for being inserted into an object at the entry site and for being navigated along an inner path within the object to a target site within the object, the rotational position determination method comprising acts of: providing a representation of the inner path within the object by a computer for display on a display; providing a target rotational position of the insertion device at the target site by the computer; determining, by the computer, a change of the rotational position of the insertion device for reaching the target site at the target rotational position of the insertion device while navigating the insertion device along the representation of the inner path from the entry site to the target site; based on the determined change of the rotational position determined by the computer, determining an entry rotational position of the insertion device for entry at the entry site for achieving the target rotational position with reduced rotation of the insertion device from the entry site to the target site, the determined entry rotational position defining the rotational position of the insertion device about a longitudinal axis of the insertion device at the entry site, such that a navigation of the insertion device from the entry site to the target site along the inner path results in a rotational position of the insertion device at the target site being equal to the target rotational position; providing, by the computer, an output for indicating the determined entry rotational position for display on the display; and displaying, on the display, the representation of the inner path and the determined entry rotational position for advising a user to rotate the insertion device about the longitudinal axis by a rotational angle to achieve the entry rotational position of the insertion device for resulting in the insertion device being in the target rotational position at the target site. 10. A non-transitory computer-readable medium comprising computer instructions for determining a rotational position of an in