Patent ID: 7186990
Filing Date: 2007-03-06
Classification: C12Q,G01N

Abstract:
1. A method for distinguishing among intrinsically fluorescent biological materials on a surface at a crime scene, wherein said materials are selected from the group consisting of blood, saliva, semen, skin oil, and urine, said method comprising: a) exciting at least one intrinsic fluorophore having a specific excitation range of electromagnetic radiation with a wavelength above 200 nm within said materials by exposing the materials to light with one or more ranges of excitation wavelengths; b) detecting the signal intensities associated with the maxima and minima at one or more ranges of wavelengths of the resulting emission fluorescence; c) detecting the background intensities at the minima and maxima of the fluorescence of the biological materials in the absence of excitation light and subtracting said background intensities from the signal intensities detected in step b); d) calculating the intensities of the reflectance and scattering at the maxima of the fluorescence of the biological materials from the intensities of the background-subtracted minima; e) subtracting the reflected and scattered signal intensities calculated in step d) and measured background intensities detected in step c) from the fluorescence of the biological materials detected in step b) at each of said one or more emission wavelengths, thereby determining the presence of a biological material by the presence of emitted fluorescence at particular emission wavelengths; wherein the presence of blood is indicated by the emission of fluorescence in the 320–360 nm range upon excitation with excitation wavelengths in the 250–300 nm range and the emission of fluorescence in the 630–700 nm range upon excitation with excitation wavelengths in the 570–590 nm range; and the presence of saliva is indicated by the emission of fluorescence in the 320–260 nm range upon excitation with excitation wavelengths in the 250–300 nm range and the emission of fluorescence in the 630–700 nm range upon excitation with excitation wavelengths in the 520–540 nm range and 570–590 nm range; and the presence of semen is indicated by the emission of fluorescence in the 320–360 nm range upon excitation with excitation wavelengths in the 250–300 nm range; the the emission of fluorescence in the 430–480 nm range upon excitation with excitation wavelengths in the 250–290 nm range; the emission of fluorescence in the 420–510 nm range upon excitation with excitation wavelengths in the 360–390 nm range; the emission of fluorescence in the 430–540 nm range upon excitation with excitation wavelengths in the 390–410 nm range; the emission of fluorescence in the 480–570 nm range upon excitation with excitation wavelengths in the 430–470 nm range; and the emission of fluorescence in the 860–930 nm range upon excitation with excitation wavelengths in the 790–810 nm range; the presence of skin oil is indicated by the emission of fluorescence in the 320–360 nm range upon excitation with excitation wavelengths in the 250–300 nm range; and the emission of fluorescence in the 630–700 nm range upon excitation with excitation wavelengths in the 520–540 nm range; and the presence of urine is indicated by the emission of fluorescence in the 320–360 nm range upon excitation with excitation wavelengths in the 250–300 nm range; the the emission of fluorescence in the 420–510 nm range upon excitation with excitation wavelengths in the 360–390 nm range; the emission of fluorescence in the 430–540 nm range upon excitation with excitation wavelengths in the 390–410 nm range; the emission of fluorescence in the 480–570 nm range upon excitation with excitation wavelengths in the 430–470 nm range; and the emission of fluorescence in the 760–840 nm range upon excitation with excitation wavelengths in the 640–680 nm range.