Classification of tumor tissue with a personalized threshold

The invention claimed is: 1. A system for obtaining at least one patient specific threshold for discrimination among different tissue types within a patient, the system comprising: an optical probe configured to obtain light measurements at one or more positions in tissue of a patient; a means for confirming said optical probe is positioned to obtain light measurements at one or more positions in patient tissue of a first tissue type; and a console arranged configured to: spectrally analyze light measurements obtained by the optical probe at said one or more positions in patient tissue of the first tissue type, calculate predetermined spectral characteristics for the patient tissue of the first tissue type derived from fits of the spectrally analyzed light measurements obtained by the optical probe at said one or more positions in patient tissue of the first tissue type define patient specific first tissue type data points in a score plot of a multivariate statistical analysis to form a patient specific first tissue type class as a first tissue type class on a basis of the calculated predetermined spectral characteristics for the patient tissue of the first tissue type, define a first patient specific threshold on the score plot for the first tissue type class by using (1) the calculated predetermined spectral characteristics for the patient tissue of the first tissue type as a reference tissue of the first tissue type class and (2) intra-patient a priori knowledge of the predetermined characteristics for the first tissue type and/or other tissue types relative to the first tissue type, spectrally analyze further light measurements obtained by the optical probe at another position in patient tissue, calculate the predetermined spectral characteristics for the further light measurements derived from fits of the spectrally analyzed further light measurements obtained by the optical probe at said another position in patient tissue, define data points for the further light measurements in the score plot on a basis of the calculated predetermined spectral characteristics for the further light measurements, test whether the data points for the further light measurements fall outside the first patient specific threshold in said score plot, and define a patient specific second tissue type class as a second tissue type class on the basis of the calculated predetermined spectral characteristics for the further light measurements if the data points for the further light measurements fall outside the first patient specific threshold in said score plot. 2. The system according to claim 1 , wherein said predetermined spectral characteristics comprise absorption and scattering characteristics. 3. The system according to claim 1 , wherein said predetermined spectral characteristics comprise fluorescence characteristics. 4. The system according to claim 1 , wherein said different tissue types comprise different normal types of tissue, or normal and diseased tissue; or normal and tumor tissue, or normal tissue, benign and malignant tissue. 5. The system according to claim 1 , wherein said optical probe comprises a needle, a catheter or an endoscope. 6. The system according to claim 1 , wherein the console is further configured to recognize data points in said score plot as belonging to the second tissue type class based on a plot shape of said data points in said score plot. 7. The system according to claim 1 , wherein the first tissue type class relates to fat or gland tissue and the second tissue type class relates to adenocarcinoma or ductal carcinoma in situ tissue. 8. The system according to claim 1 , wherein the console is further configured to: define a third tissue type class from data points in said score plot not classified in either the first or second tissue type classes, and assign tissue types to the second and third tissue type classes based on an orientation of a triangle defined by data points of the first, second, and third tissue type classes in said score plot. 9. The system according to claim 1 , wherein the console is further configured to discriminate or identify tissue types of the first and second tissue type classes based on a known correlation between measured spectra and a database of individual patient spectra. 10. The system according to claim 1 , wherein the console is further configured to: generate a reference map in a space defined by at least two selected from the group consisting of extracted water, lipid, and collage fractions, classify the space based on the tissue type, and tag the reference map with data point representing the spectrally analyzed light measurements. 11. A method for obtaining at least one threshold for discrimination among different tissue types, the method comprising: positioning an optical probe at one or more positions in patient tissue of a first tissue type under guidance of a position confirmation means; obtaining light measurements at said one or more positions in patient tissue of said first tissue type with the optical probe; spectrally analyzing the light measurements obtained by the optical probe at said one or more positions in patient tissue of the first tissue type; calculating predetermined spectral characteristics for the patient tissue of the first tissue type derived from fits of the spectrally analyzed light measurements obtained by the optical probe at said one or more positions in patient tissue of the first tissue type; defining patient specific first tissue type data points in a score plot of multivariate statistical analysis to form a patient specific first tissue type class as a first tissue type class on a basis of the calculated predetermined spectral characteristics for the patient tissue of the first tissue type; defining a first patient specific threshold on the score plot for the first tissue type class by using (1) the calculated predetermined spectral characteristics for the patient tissue of the first tissue type as a reference tissue of the first tissue type class and (2) intra-patient a priori knowledge of the predetermined characteristics for the first tissue type and/or other tissue types relative to the first tissue type; positioning the optical probe at further positions in the tissue; obtaining further light measurements at said further positions in the tissue with the optical probe; spectrally analyzing said further light measurements; calculating the predetermined spectral characteristics for the further light measurements derived from fits of the spectrally analyzed further light measurements; defining data points for the further light measurements in the score plot on a basis of the calculated predetermined spectral characteristics for the further light measurements; testing whether the data points for the further light measurements fall outside the first patient specific threshold in said score plot; and defining a patient specific second tissue type class as a second tissue type class on the basis of the calculated predetermined spectral characteristics for the further light measurements if the data points for the further light measurements fall outside the first patient specific threshold in said score plot. 12. The method according to claim 11 , wherein said predetermined spectral characteristics comprise absorption and scattering characteristics. 13. The method according to claim 11 , wherein said predetermined spectral characteristics comprise fluorescence characteristics. 14. The method according to claim 11 , wherein said different tissue types comprise different normal types of tissue, or normal and diseased tiss