Fluorescence endoscope

Surgery – Endoscope – Having imaging and illumination means

Reexamination Certificate

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Details

C600S109000, C348S065000, C348S068000

Reexamination Certificate

active

06280378

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a fluorescence endoscope used to examine the interior of a body cavity and the like, and more particularly to a fluorescence endoscope in which blur of the image due to insufficient depth of focus of the objective optical system can be avoided.
2. Description of the Related Art
There has been in wide use an endoscope to observe the interior of a body cavity or to give treatment observing the interior of a body cavity. Currently an electronic endoscope comprising an illuminating light projecting system which projects illuminating light onto a part inside a body through optical fibers or like, an objective optical system which is inserted into the interior of the body and forms an image of the part by the light reflected at the part of the body and an image taking means which takes the image formed by the objective optical system is major.
On the other hand, there have been made various investigations on photodynamic diagnosis (PDD). The photodynamic diagnosis is a technique in which a photosensitive material which has affinity to tumor and emits fluorescence when excited by light is first administered to the tumor, excitation light having a wavelength in the excitation wavelength range of the photosensitive material is projected onto the tissue, and then the intensity of the fluorescence is measured or the tumor is diagnosed on the basis of an image formed by the fluorescence. As another form of the photodynamic diagnosis, there has been known a technique in which excitation light having a wavelength in the exciting range of a photosensitive material inherent to the organism is projected onto the organism to cause the intrinsic photosensitive material to emit fluorescence (so-called auto-fluorescence), and tumor is diagnosed on the basis of an auto-fluorescence image.
A fluorescence endoscope for taking such a fluorescence image and displaying the image basically comprises an excitation light projecting system which projects excitation light onto a part inside the body in addition to said illuminating light projecting system, the objective optical system and the image taking means, and an image formed by fluorescence emitted from the part is taken by the image taking means.
In such a fluorescence endoscope, use of an objective optical system which is small in F-number and high in numerical aperture is generally required in order to efficiently detect fluorescence which is normally very weak. However when a high numerical aperture objective optical system is used, the depth of focus is reduced and blur is apt to be generated in a part of the fluorescence image taken.
As an objective optical system for an endoscope in which the depth of focus can be increased, there has been known one disclosed, for instance, in Japanese Patent Publication No. 7(1995)-119893. The objective optical system is provided with an adjustable diaphragm and when a part relatively close to the optical system is to be observed, the diaphragm is closed to increase the depth of focus.
However since fluorescence emitted from a part inside the body is very weak as described above, the method of increasing the depth of focus by closing the diaphragm is difficult to apply to the fluorescence endoscope.
In order to overcome the aforesaid problem, we have proposed to carry out, in an endoscope comprising an objective optical system which is inserted into the interior of an organic body and an image taking means which takes an image formed by the objective optical system and outputs an image signal representing the image, an image restoration processing on a part of the image signal corresponding to a predetermined range in the image taking range of the image taking means by use of a degradation function such as a point spread function of the objective optical system. See Japanese Unexamined Patent Publication No. 10(1998)-165365.
In the endoscope, blur of an image due to insufficient depth of focus of the objective optical system can be removed by an image restoration processing using a degradation function such as a point spread function or the like of the objective optical system. When blur of the image due to insufficient depth of focus of the objective optical system can be avoided in this manner, a high numerical aperture objective optical system can be employed and accordingly the amount of light entering the image taking means can be increased.
However in the endoscope, since a preset design value or a measured value is employed as the degradation function, it is difficult to accurately restore the image taking into account change of the degradation function which is caused, for instance, when the position of the endoscope relative to the part to be observed changes.
The problem may be overcome, when the endoscope is arranged to measure the distance between each point on the part to be observed and the endoscope and to carry out the image restoration processing on a part of the image signal corresponding to the part of the body whose distance from the endoscope is within a predetermined range. However this approach is disadvantageous in that it requires a distance measuring means, which complicates the structure of the endoscope.
SUMMARY OF THE INVENTION
In view of the foregoing observations and description, the primary object of the present invention is to provide an endoscope in which the image restoration processing can be accurately carried out even if the position of the endoscope relative to the part to be observed changes without use of a distance measuring means.
In accordance with the present invention, there is provided a fluorescence endoscope comprising
an illuminating light projecting system which projects illuminating light onto a part inside a body,
a first objective optical system which is inserted into the interior of the body and causes the illuminating light reflected at the part of the body to form a normal image of the part,
a normal image taking means which takes the image formed by the objective optical system and outputs a normal image signal representing the normal image,
an excitation light projecting system which projects onto a part inside the body excitation light having a wavelength in the excitation wavelength range of a photosensitive material,
a second objective optical system which causes fluorescence emitted from the part to form a fluorescence image, and
a fluorescence image taking means which takes the fluorescence image formed by the second objective optical system and outputs a fluorescence image signal representing the fluorescence image,
wherein the improvement comprises
a measuring light projecting system which projects measuring light having a wavelength in the wavelength range of the fluorescence onto a part inside the body,
an operation means which obtains an image degradation function of the second objective optical system through operation using image signals respectively output from the normal image taking means and the fluorescence image taking means on the basis of images formed through the first and second objective optical systems by the measuring light reflected at the same part of the body, and
an image processing means which carries out an image restoration processing on a fluorescence image signal output from the fluorescence image taking means on the basis of the image degradation function.
As the measuring light projecting system, those which emit light substantially equal in spectrum to the fluorescence emitted from the part of the body upon exposure to the excitation light or light having a wavelength substantially equal to a main peak wavelength of the fluorescence can be suitably employed.
As the degradation function, a point spread function of the second objective optical system can be suitably used.
The first and second objective optical systems may be formed either separately from each other or as a single objective optical system common to the normal image taking means and the fluorescence image taking means.
However when the first and second objective optical sys

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