Abstract: A nervous tissue imaging system and a method therefor. The system includes: a housing containing an excitation light source, optically coupled with a source optical train, the excitation light source emits excitation light in a first wavelength range, which can be in a near ultraviolet light range, to illuminate a tissue region of interest including healthy nervous tissue and healthy non-nervous tissue. The excitation light in the first wavelength range causes the healthy nervous tissue, in response to being illuminated with the excitation light, to endogenously autoflouresce and emit first autofluorescence light at a first luminance in a second wavelength range. The healthy non-nervous tissue, in response to being illuminated with the excitation light, either avoids emitting any autofluorescence light in the second wavelength range; or endogenously autoflouresces and emits second autofluorescence light in the second wavelength range at a second luminance that is lower than the first luminance.

Abstract: A nervous tissue imaging system includes a pair of matched filters, including an excitation light filter that only passes excitation light in a first wavelength range from 365 nm to 400 nm, and a received light detection filter that only passes received light in a second wavelength range from 433 nm to 450 nm. An endoscope is connected with a first source optical train for guiding excitation light through the first source optical train and the excitation light filter to uniformly illuminate the excitation light on a patient's tissue region of interest inside an enclosed cavity of the patient's body. The endoscope is connected to a camera device and a receiving optical train and the received light detection filter for receiving and passing into the camera device light signals including autofluorescence light in the second wavelength range from healthy nervous tissue in the patient's tissue region of interest.

Abstract: A nervous tissue imaging system and a method therefor. The system includes: a housing containing an excitation light source, optically coupled with a source optical train, the excitation light source emits excitation light in a first wavelength range, which can be in a near ultraviolet light range, to illuminate a tissue region of interest including healthy nervous tissue and healthy non-nervous tissue. The excitation light in the first wavelength range causes the healthy nervous tissue, in response to being illuminated with the excitation light, to endogenously autoflouresce and emit first autofluorescence light at a first luminance in a second wavelength range. The healthy non-nervous tissue, in response to being illuminated with the excitation light, either avoids emitting any autofluorescence light in the second wavelength range; or endogenously autoflouresces and emits second autofluorescence light in the second wavelength range at a second luminance that is lower than the first luminance.

Abstract: A nervous tissue imaging system and a method therefor. The system includes: a housing containing an excitation light source, optically coupled with a source optical train, the excitation light source emits excitation light in a first wavelength range, which can be in a near ultraviolet light range, to illuminate a tissue region of interest including healthy nervous tissue and healthy non-nervous tissue. The excitation light in the first wavelength range causes the healthy nervous tissue, in response to being illuminated with the excitation light, to endogenously autoflouresce and emit first autofluorescence light at a first luminance in a second wavelength range. The healthy non-nervous tissue, in response to being illuminated with the excitation light, either avoids emitting any autofluorescence light in the second wavelength range; or endogenously autoflouresces and emits second autofluorescence light in the second wavelength range at a second luminance that is lower than the first luminance.

Abstract: A nervous tissue imaging system and a method therefor. The system includes: a housing containing an excitation light source, optically coupled with a source optical train, the excitation light source emits excitation light in a first wavelength range, which can be in a near ultraviolet light range, to illuminate a tissue region of interest including healthy nervous tissue and healthy non-nervous tissue. The excitation light in the first wavelength range causes the healthy nervous tissue, in response to being illuminated with the excitation light, to endogenously autoflouresce and emit first autofluorescence light at a first luminance in a second wavelength range. The healthy non-nervous tissue, in response to being illuminated with the excitation light, either avoids emitting any autofluorescence light in the second wavelength range; or endogenously autoflouresces and emits second autofluorescence light in the second wavelength range at a second luminance that is lower than the first luminance.