Diagnostic instrument and methods relating to raman spectroscopy

1 . A probe head for a diagnostic instrument, the probe head comprising; a transmission optical fiber having an end face configured to output light; a plurality of collection optical fibers; and a lens spaced a distance d apart from the end face of the transmission optical fiber and configured to transmit light from the transmission optical fiber into epithelial tissue and stroma tissue at a test site, wherein the ends of the collection optical fibers are bevelled such that each bevelled end of a collection optical fiber comprises an end face disposed at an angle β relative to a plane perpendicular to a longitudinal axis of the collection optical fiber, and wherein the distance d and angle β are selected such that the plurality of collection optical fibers selectively collect Raman photons from epithelial tissue layers while excluding photons from other tissue layers and while excluding autofluorescence photons. 2 . The probe head according to claim 1 wherein number of collected Raman photons originating in epithelial tissue layers rather than stroma tissue layers increases as the angle β increases and the spacing d increases. 3 . The probe head according to claim 1 wherein the end face of each of the plurality of collection optical fibers is angled in one of a direction away from the transmission optical fiber and a direction towards the transmission optical fiber. 4 . (canceled) 5 . The probe head according to claim 1 wherein the angle of the end face is in the range 0° to 25°. 6 . (canceled) 7 . (canceled) 8 . (canceled) 9 . The probe head according to claim 1 wherein the distance from the lens to an end face of the transmission optical fiber is less than 1000 μm. 10 . The probe head according claim 1 wherein the collection optical fibers are arranged in a ring around the transmission optical fiber. 11 . The probe head to according claim 1 wherein the lens comprises one of a ball lens, a convex lens, a biconvex lens, an axicon lens and a gradient index lens. 12 . The probe head according to claim 1 , further comprising a narrowband filter associated with the transmission optical fiber. 13 . The probe head according to claim 12 wherein the narrowband filter comprises a filter disposed on one of the distal end of the transmission optical fiber, the lens, and a plate located between the transmission optical fiber and the lens. 14 . The probe head according to claim 1 , further comprising a long-pass filter associated with the collection optical fibers. 15 . The probe head according to claim 14 wherein the long-pass filter is disposed on one of the distal ends of the collection optical fibers, the lens, and a plate located between the collection optical fibers and the lens. 16 . A diagnostic instrument comprising; a monochromatic light source; a probe head comprising: a transmission optical fiber having an end face configured to output light received from the monochromatic light source; a plurality of collection optical fibers; and a lens spaced a distance d apart from the end face of the transmission optical fiber and configured to transmit light from the transmission optical fiber into epithelial tissue and stroma tissue at a test site, wherein the ends of the collection optical fibers are bevelled such that each bevelled end of a collection optical fiber comprises an end face disposed at an angle β relative to a plane perpendicular to a longitudinal axis of the collection optical fiber, and wherein the distance d and angle β are selected such that the plurality of collection optical fibers selectively collect Raman photons from epithelial tissue layers while excluding photons from other tissue layers and while excluding autofluorescence photons; and such that light from the monochromatic and a spectral analysis apparatus configured to receive light from the collection optical fibers, wherein the spectral analysis apparatus comprises a grating element, and a light-sensing apparatus, wherein the grating element is arranged to diffract light onto an area of the light-sensing apparatus. 17 . The diagnostic instrument according to claim 16 further comprising an instrument head to receive the probe head, wherein the probe head extends beyond an end of the instrument head to permit the lens to be placed in direct contact with tissue. 18 . The diagnostic instrument according to claim 16 wherein the grating element comprises one of a transmission grating and a reflection grating. 19 . The diagnostic instrument according claim 16 further comprising a processing apparatus, the processing apparatus being operable to receive data from the light-sensing apparatus and generate an output comprising a spectrum. 20 . (canceled) 21 . The diagnostic instrument according to claim 19 wherein the processing apparatus is configured to check the received data for saturation and reject the received data if saturation is found. 22 . The diagnostic instrument according to claim 19 wherein the processing apparatus is configured to generate a spectrum by way of binning corresponding pixels of the received data, subtracting a background signal from the received data, and smoothing the received data from which the background signal was subtracted. 23 . (canceled) 24 . (canceled) 25 . The diagnostic instrument according to claim 22 wherein processing apparatus is further configured to fit a polynomial curve to the smoothed data and subtract the fitted curve from the smoothed data. 26 . The diagnostic instrument according to 16 , wherein the processing apparatus is configured to check the spectrum for contamination and determine if the spectrum is valid, and in the event that the spectrum is valid classify the valid spectrum as corresponding to healthy or abnormal tissue. 27 . (canceled)