Photonic needle system with measurement integration times depending on needle displacement speed

The invention claimed is: 1. A guidance system for guiding an instrument in a body, the guidance system comprising: a medical imaging device configured for forming an image of an interior of the body; a tissue-type determination device configured to receive a tissue signal from an instrument the tissue-type determination device configured to determine a set of parameters indicative of tissue type based on the tissue signal from the instrument, the tissue-type determination device configured to operate in a first mode, wherein tissue-type determination requires a first calculation time, and in a second mode, wherein tissue-type determination requires a second calculation time that is longer than the first calculation time, wherein the first mode is faster than the second mode; the guidance system being configured for determining a position of the instrument and storing a sequence of positions; the guidance system being configured for establishing a display image combining the image of the interior of the body and the set of parameters indicative of tissue type displayed at recorded positions of the instrument; and a display device configured for displaying the display image. 2. The guidance system according to claim 1 , further comprising: an instrument speed analyzer for determining present speed of the instrument, wherein when the present speed of the instrument is greater than a speed threshold, the tissue-type determination device being operated in the first mode, and when the present speed of the instrument is less than a speed threshold the tissue-type determination device being operated in the second mode. 3. The guidance system according to claim 2 , wherein the speed threshold is in a range 0.5 mm/second to 20 mm/second. 4. The guidance system according to claim 1 , further comprising: an input device for supplying a tissue-type determination mode signal to the tissue-type determination device instructing the tissue-type determination device to operate in the first mode or the second mode. 5. The guidance system according to claim 1 , wherein the medical imaging device comprises an x-ray device. 6. The guidance system according to claim 1 , wherein the tissue-type determination device is an optical console which obtains an optical spectrum, and processes the optical spectrum to determine the set of parameters indicative of tissue type. 7. The guidance system according to claim 1 , further comprising a mode indicator for communicating to a user when the tissue-type determination device operates in the first mode or the second mode. 8. The guidance system according to claim 1 , wherein the guidance system comprises a processor arranged for receiving signals relating to the set of parameters indicative of tissue type and the sequence of positions of the instrument, and the processor is arranged for establishing the display image. 9. The guidance system according to claim 1 , wherein the tissue-type determination device is an optical console and wherein the guidance system is arranged so as to obtain a diffuse reflectance spectroscopy spectrum and/or fluorescence spectroscopy spectrum and/or Raman spectroscopy spectrum from the optical console. 10. The guidance system according to claim 1 , wherein the determination of to the set of parameters indicative of tissue type comprises: performing multivariate statistical analysis, such as PCA or partial least squares discriminant analysis. 11. A method of displaying an image comprising tissue-type and instrument position in a body, the method comprising: receiving a sequence of images of an interior of the body each at a time Ti; determining an instrument position in each image of the interior of the body; determining at a tissue parameter at a tip of the instrument at time Tt and an estimated instrument position based on the instrument position at times Ti near a time Tt, wherein the determining of the tissue parameter at a tip of the instrument is performed with a first calculation time in a first mode of operation, or the determination of a tissue parameter at a tip of the instrument is performed with a second calculation accuracy in a second mode of operation, a second calculation time being higher than the first calculation time, wherein the first mode is faster than the second mode; and displaying on a display unit an image comprising a combination of a current image of the interior of a body and a representation of tissue parameter at the tip of the instrument at time Tt. 12. The method according to claim 11 , wherein using the first mode for determining the tissue parameter requires a first number of iterations and using the second mode for determining the tissue parameter requires a second number of iterations, wherein the first number of iterations is lower than the second number of iterations. 13. The method according to claim 11 , wherein the determination of to the set of parameters indicative of tissue type comprises: performing multivariate statistical analysis, such as PCA or partial least squares discriminant analysis. 14. A non-transitory computer-readable medium embodied with a computer program comprising computer code for execution by a processor, the computer code comprising: a first code portion for receiving a sequence of images of an interior of a body each at a time Ti; a second code portion for determining an instrument position in each image of the interior of the body; a third code portion for determining at a tissue parameter at a tip of the instrument at time Tt and an estimated instrument position based on the instrument position at times Ti near a time Tt, wherein the determining of the tissue parameter at a tip of the instrument is performed with a first calculation time in a first mode of operation, or the determination of a tissue parameter at a tip of the instrument is performed with a second calculation accuracy in a second mode of operation, a second calculation time being higher than the first calculation time, wherein the first mode is faster than the second mode; and a fourth code portion for displaying on a display unit an image comprising a combination of a current image of the interior of a body and a representation of tissue parameter at the tip of the instrument at time Tt.