Optical system and use thereof for detecting patterns in biological tissue
First Claim
1. An optical system for detecting one or more optical responses of biological tissue, said optical system comprising:
- (a) a photonic energy source for emitting electromagnetic radiation;
(b) an optical emission processing means for receiving the electromagnetic radiation from the photonic energy source and isolating one or more illumination wavelengths of the electromagnetic radiation, said optical emission processing means encoding the one or more illumination wavelengths using one or more pseudo random codewords or linear FM thereby generating an encoded signal, the optical emission processing means transmitting the encoded signal to the biological tissue;
(c) an optics assembly providing a means for aligning emitter optics of the optical emission processing means with detector optics of a received light optical processing means;
(d) a received light optical processing means for collecting and isolating one or more wavelengths of received electromagnetic radiation from the biological tissue created in response to the encoded signal and transmitting the one or more wavelengths of received electromagnetic radiation to an optical detector;
(e) an optical detector for sensing and converting the one or more wavelengths of received electromagnetic radiation into an electrical signal; and
(f) digital signal processing means for correlating the electrical signal received from the optical detector with the encoded signal thereby identifying an optical response of the biological tissue to the one or more illumination wavelengths, said digital signal processing means controlling the functionality of the photonic energy source, the optical emission processing means and the received light optical processing means.
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Abstract
The present invention provides an optical system comprises a scanning spectrometer incorporating an electronic light modulator and digital signal processing means. The spectrometer technique combined with optical signal encoding provides the ability to obtain spectral signatures and identify optical patterns of biological tissue. One example of biological tissue scanning includes techniques such as identification of optical patterns of normal and abnormal tissues in addition to the delineation of these spectral patterns between the abnormal and normal tissue. Due to an enhanced signal-to-noise ratio provided by the optical system according to the present invention, this optical system can detect patterns in biological tissue that may be more subtle than those patterns that would be possible to obtain with currently available optical systems.
39 Citations
14 Claims
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1. An optical system for detecting one or more optical responses of biological tissue, said optical system comprising:
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(a) a photonic energy source for emitting electromagnetic radiation;
(b) an optical emission processing means for receiving the electromagnetic radiation from the photonic energy source and isolating one or more illumination wavelengths of the electromagnetic radiation, said optical emission processing means encoding the one or more illumination wavelengths using one or more pseudo random codewords or linear FM thereby generating an encoded signal, the optical emission processing means transmitting the encoded signal to the biological tissue;
(c) an optics assembly providing a means for aligning emitter optics of the optical emission processing means with detector optics of a received light optical processing means;
(d) a received light optical processing means for collecting and isolating one or more wavelengths of received electromagnetic radiation from the biological tissue created in response to the encoded signal and transmitting the one or more wavelengths of received electromagnetic radiation to an optical detector;
(e) an optical detector for sensing and converting the one or more wavelengths of received electromagnetic radiation into an electrical signal; and
(f) digital signal processing means for correlating the electrical signal received from the optical detector with the encoded signal thereby identifying an optical response of the biological tissue to the one or more illumination wavelengths, said digital signal processing means controlling the functionality of the photonic energy source, the optical emission processing means and the received light optical processing means. - View Dependent Claims (2, 3, 4, 5)
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6. Use of an optical system for generating a pattern of optical characteristics of biological tissue, said optical characterstics being reflectance and fluorescence characteristics of the illuminated biological tissue, said optical system comprising:
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(a) a photonic energy source for emitting electromagnetic radiation;
(b) an optical emission processing means for receiving the electromagnetic radiation from the photonic energy source and isolating one or more illumination wavelengths of the electromagnetic radiation, said optical emission processing means encoding the one or more illumination wavelengths using one or more pseudo random codewords or linear FM thereby generating an encoded signal, the optical emission processing means transmitting the encoded signal to the biological tissue;
(c) an optics assembly providing a means for aligning emitter optics of the optical emission processing means with detector optics of a received light optical processing means;
(d) a received light optical processing means for collecting and isolating one or more wavelengths of received electromagnetic radiation from the biological tissue created in response to the encoded signal and transmitting the one or more wavelengths of received electromagnetic radiation to an optical detector, (e) an optical detector for sensing and converting the one or more wavelengths of received electromagnetic radiation into an electrical signal; and
(f) digital signal processing means for correlating the electrical signal received from the optical detector with the encoded signal thereby identifying an optical response of the biological tissue to the one or more illumination wavelengths, said digital signal processing means controlling the functionality of the photonic energy source, the optical emission processing means and the received light optical processing means.
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7. A method for detecting one or more optical responses of biological tissue and creating a pattern of the one or more optical responses, said method comprising the steps of:
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(a) generating one or more illumination wavelengths of electromagnetic radiation;
(b) encoding said one or more illumination wavelengths using one or more pseudo random codewords or linear FM thereby generating an encoded signal;
(c) illuminating the biological tissue with the encoded signal, in order to generate encoded reflectance and fluorescence from the biological tissue in response thereto;
(d) collecting said encoded reflectance and fluorescence;
(e) correlating said encoded reflectance and fluorescence with the encoded signal thereby identifying one or more optical responses to the one or more illumination wavelengths;
(f) repeating steps a) through e) for a next one or more wavelengths of electromagnetic radiation;
(g) generating a pattern of the one or more optical responses, said pattern being a representation of a particular one or more optical responses matched with a particular one or more illumination wavelengths. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
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Specification