Fluorescence endoscopy video systems with no moving parts in the camera
First Claim
Patent Images
1. A color and fluorescence endoscopy video system including:
- an endoscope for directing the light from a multi-mode light source into a patient to illuminate a tissue sample and to collect reflected light or fluorescence light produced by the tissue;
a camera positioned to receive the light collected by the endoscope to produce color or fluorescence images, the camera including;
a low light color image sensor having integrated filters with color output;
one or more filters positioned in front of the low light color image sensor for selectively blocking light with wavelengths below 450 nm and transmitting visible light with wavelengths greater than 470 nm; and
one or more optical imaging components that project images onto the low light color image sensor;
an image processor/controller that receives image signals from the low light color image sensor and combines and interpolates image signals from pixels having filters with the same integrated filter characteristics to fluorescence or reflectance light and then encodes the images as video signals;
a multi-mode light source for producing light for color imaging and/or for fluorescence excitation and/or for fluorescence excitation with reference reflectance, including a filter selectively positioned in the light path of the light source for producing light for color imaging that simultaneously transmits blue light at wavelengths less than 480 nm and amounts of green and red light, wherein the amounts of green and red light transmitted are adjusted to be a fraction of the transmitted blue light, such that, when reflected from a gray surface, the intensity of the green and red light projected onto the low light color image sensor matches the intensity of blue light also projected onto the low light color image sensor in such a way that the resulting color images are white balanced; and
a color video monitor for displaying superimposed video images from the pixels of the low light color image sensor.
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Abstract
A fluorescence endoscopy video system includes a multi-mode light source that produces light for white light and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for white light and fluorescence imaging, which may be located in the insertion portion of the endoscope, or attached to the portion of the endoscope outside the body. The camera can be utilized for both white light imaging and fluorescence imaging, and in its most compact form, contains no moving parts.
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Citations
26 Claims
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1. A color and fluorescence endoscopy video system including:
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an endoscope for directing the light from a multi-mode light source into a patient to illuminate a tissue sample and to collect reflected light or fluorescence light produced by the tissue;
a camera positioned to receive the light collected by the endoscope to produce color or fluorescence images, the camera including;
a low light color image sensor having integrated filters with color output;
one or more filters positioned in front of the low light color image sensor for selectively blocking light with wavelengths below 450 nm and transmitting visible light with wavelengths greater than 470 nm; and
one or more optical imaging components that project images onto the low light color image sensor;
an image processor/controller that receives image signals from the low light color image sensor and combines and interpolates image signals from pixels having filters with the same integrated filter characteristics to fluorescence or reflectance light and then encodes the images as video signals;
a multi-mode light source for producing light for color imaging and/or for fluorescence excitation and/or for fluorescence excitation with reference reflectance, including a filter selectively positioned in the light path of the light source for producing light for color imaging that simultaneously transmits blue light at wavelengths less than 480 nm and amounts of green and red light, wherein the amounts of green and red light transmitted are adjusted to be a fraction of the transmitted blue light, such that, when reflected from a gray surface, the intensity of the green and red light projected onto the low light color image sensor matches the intensity of blue light also projected onto the low light color image sensor in such a way that the resulting color images are white balanced; and
a color video monitor for displaying superimposed video images from the pixels of the low light color image sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A color and fluorescence endoscopy video system including:
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an endoscope for directing the light from a multi-mode light source into a patient to illuminate a tissue sample and to collect reflected light or fluorescence light produced by the tissue;
a camera positioned to receive the light collected by the endoscope to produce color or fluorescence images, the camera including;
a low light color image sensor having integrated filters with color output;
one or more filters positioned in front of the low light color image sensor for selectively blocking light with wavelengths below 450 nm and transmitting visible light with wavelengths greater than 470 nm; and
one or more optical imaging components that project images onto the low light color image sensor;
an image processor/controller that receives image signals from the low light color image sensor and combines and interpolates image signals from pixels having filters with the same integrated filter characteristics to fluorescence or reflectance light and then encodes the images as video signals;
a multi-mode light source for producing light for color imaging and/or for fluorescence excitation and/or for fluorescence excitation with reference reflectance, including a light source filter selectively positioned in the light path of the light source that simultaneously transmits the fluorescence excitation light at wavelengths less than 450 nm and an amount of reference reflectance light not in a fluorescence detection wavelength band, wherein the amount of reference reflectance light transmitted is a fraction of the fluorescence excitation light, such that the intensity of the reflected reference light projected onto the low light color image sensor is approximately matched to the intensity of fluorescence light also projected onto the low light color image sensor, the light source filter also blocking light from the light source at wavelengths in the fluorescence detection wavelength band such that the fluorescence light received by the low light color image sensor is substantially composed of light resulting from tissue fluorescence and minimally composed of light originating from the light source; and
a color video monitor for displaying superimposed video images from the pixels of the low light color image sensor. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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Specification