JPH08140929A - Electronic endoscope apparatus for fluorescence diagnosis - Google Patents
Electronic endoscope apparatus for fluorescence diagnosisInfo
- Publication number
- JPH08140929A JPH08140929A JP7241106A JP24110695A JPH08140929A JP H08140929 A JPH08140929 A JP H08140929A JP 7241106 A JP7241106 A JP 7241106A JP 24110695 A JP24110695 A JP 24110695A JP H08140929 A JPH08140929 A JP H08140929A
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- JP
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- Prior art keywords
- image pickup
- solid
- fluorescence
- state image
- electronic endoscope
- Prior art date
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Abstract
Description
【0001】[0001]
【発明の属する技術分野】この発明は、生体組織に対し
て特定波長の励起光を照射して、生体組織自体から発せ
られる蛍光を観察することにより早期癌などを発見する
ための蛍光診断用電子内視鏡装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent diagnostic electron for detecting early cancer or the like by irradiating a living tissue with excitation light having a specific wavelength and observing fluorescence emitted from the living tissue itself. The present invention relates to an endoscope device.
【0002】[0002]
【従来の技術】生体組織に対して波長400nmないし
480nmの光(励起光)を照射すると、正常な組織は
略480nmないし600nmの範囲の蛍光を発し、癌
細胞は蛍光を発しないので、通常の内視鏡観察ではよく
分からないような早期癌を発見し得ることが知られてい
る。2. Description of the Related Art When living tissue is irradiated with light (excitation light) having a wavelength of 400 nm to 480 nm, normal tissue emits fluorescence in the range of about 480 nm to 600 nm, and cancer cells do not emit fluorescence. It is known that it is possible to detect an early cancer that is not well understood by endoscopic observation.
【0003】そこで、従来の蛍光診断用電子内視鏡装置
においては、例えば特開平4−150845号公報に記
載されているように、光源から発せられた照明光路中に
励起光だけを透過する励起用フィルタを配置すると共
に、内視鏡の挿入部先端の対物光学系と固体撮像素子と
の間に、蛍光の波長の光だけを透過する蛍光透過用フィ
ルタを配置している。Therefore, in the conventional electronic endoscope apparatus for fluorescence diagnosis, as described in, for example, Japanese Patent Application Laid-Open No. 4-150845, excitation that transmits only excitation light in the illumination optical path emitted from the light source. In addition to disposing a filter for fluorescent light, a filter for transmitting fluorescence that transmits only light having a wavelength of fluorescence is disposed between the solid-state image sensor and the objective optical system at the tip of the insertion portion of the endoscope.
【0004】[0004]
【発明が解決しようとする課題】しかし、上述のような
装置では、照明光は励起光だけであり、固体撮像素子に
入射する光線は蛍光だけになるので、被写体に対して通
常の内視鏡観察をすることができない。However, in the apparatus as described above, the illumination light is only the excitation light, and the light rays incident on the solid-state image pickup device are only the fluorescent light. I can't observe.
【0005】そのため従来は、患部の位置や状態を視覚
的に観察するために通常の内視鏡観察を行う場合には、
その度に、蛍光診断用の内視鏡と通常観察用の内視鏡と
を取り替えて使用する必要があり、患者及び医師の双方
にとって大きな負担になっていた。Therefore, conventionally, when a normal endoscopic observation is performed to visually observe the position and state of the affected area,
Each time, it was necessary to replace the endoscope for fluorescence diagnosis with the endoscope for normal observation, and this was a great burden on both the patient and the doctor.
【0006】そこで本発明は、通常の内視鏡観察と蛍光
診断とを容易に行うことができる蛍光診断用電子内視鏡
装置を提供することを目的とする。[0006] Therefore, an object of the present invention is to provide an electronic endoscope apparatus for fluorescence diagnosis, which can easily perform normal endoscope observation and fluorescence diagnosis.
【0007】[0007]
【課題を解決するための手段】上記の目的を達成するた
め、本発明の蛍光診断用電子内視鏡装置は、二つの固体
撮像素子とその各固体撮像素子に被写体の像を結像させ
るための対物光学系とが挿入部の先端に配置されて、一
方の固体撮像素子の前方には、生体組織から蛍光を励起
させる励起光の波長より長波長側に透過領域を有し且つ
上記励起光は透過しない特性を有する蛍光透過用フィル
タが配置された電子内視鏡と、被写体を赤、緑及び青の
三色の照明光によって順に繰り返し照射するための照明
手段と、上記二つの固体撮像素子から出力される撮像信
号のうちの一方だけを選択して、撮像信号の処理を行う
ためのビデオ回路に入力させる撮像信号切り換え手段
と、上記撮像信号切り換え手段によって上記蛍光透過用
フィルタが配置されていない方の固体撮像素子の出力信
号が選択されているときには、被写体が上記三色の各色
照明光で照明されているときのビデオ信号をモニタに入
力させ、上記撮像信号切り換え手段によって上記蛍光透
過用フィルタが配置されている方の固体撮像素子の出力
信号が選択されているときには、被写体が青色の照明光
で照明されているときのビデオ信号だけをモニタに入力
させるビデオ信号切り換え手段を設けたことを特徴とす
る。In order to achieve the above object, an electronic endoscope apparatus for fluorescence diagnosis according to the present invention forms two images of a subject on two solid-state image pickup devices and each of the solid-state image pickup devices. The objective optical system is disposed at the tip of the insertion part, and one of the solid-state imaging devices has a transmission region on the longer wavelength side than the wavelength of the excitation light that excites fluorescence from the biological tissue, and the excitation light An electronic endoscope in which a fluorescence transmitting filter having a property of not transmitting light is arranged, an illuminating means for sequentially and repeatedly illuminating an object with illumination light of three colors of red, green and blue, and the two solid-state image pickup devices The image pickup signal switching means for selecting only one of the image pickup signals output from the image pickup circuit and inputting it to the video circuit for processing the image pickup signal, and the fluorescence transmission filter are arranged by the image pickup signal switching means. When the output signal of the other solid-state image pickup device is selected, the video signal when the subject is illuminated by the illumination light of each of the three colors is input to the monitor, and the image pickup signal switching means is used for the fluorescence transmission. When the output signal of the solid-state image pickup device on which the filter is arranged is selected, there is provided video signal switching means for inputting only the video signal when the subject is illuminated with blue illumination light to the monitor. Is characterized by.
【0008】なお、上記蛍光透過用フィルタが略480
nmないし600nmの範囲の波長の光だけを透過する
ようにしてもよい。The fluorescence transmitting filter is approximately 480.
Only light having a wavelength in the range of nm to 600 nm may be transmitted.
【0009】[0009]
【発明の実施の形態】図面を参照して本発明の実施の形
態を説明する。図2は、実施の形態の電子内視鏡装置の
全体構成の外観を示し、図1はその内部構造の概略を示
している。BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described with reference to the drawings. FIG. 2 shows an external appearance of the entire configuration of the electronic endoscope apparatus according to the embodiment, and FIG. 1 shows a schematic internal structure thereof.
【0010】可撓性のある電子内視鏡の挿入部1の先端
には、図3に拡大図示されているように、第1と第2の
二つの固体撮像素子2,3が共に前方に向けて並んで配
置されている。両固体撮像素子2,3としては、例えば
モノクロ用の電荷結合素子(CCD)が用いられる。At the tip of the insertion portion 1 of the flexible electronic endoscope, as shown in the enlarged view of FIG. 3, two solid-state image pickup devices 2 are provided in front of each other. They are arranged side by side. As the solid-state image pickup devices 2 and 3, for example, monochrome charge-coupled devices (CCD) are used.
【0011】両固体撮像素子2,3の前方には各々対物
光学系4,5が配置されていて、前方の被写体の像が両
固体撮像素子2,3に結像される。なお、両固体撮像素
子2,3で一つの対物光学系を共用するように構成して
もよい。Objective optical systems 4 and 5 are arranged in front of the solid-state image pickup devices 2 and 3, respectively, and an image of a subject in front is formed on the solid-state image pickup devices 2 and 3. The solid-state imaging devices 2 and 3 may be configured to share one objective optical system.
【0012】第1の対物光学系4と固体撮像素子2との
間には、520nmないし600nmの波長の光だけを
透過する蛍光透過用フィルタ6が配置されている。第2
の固体撮像素子3の前方にはそのようなフィルタは配置
されていない。Between the first objective optical system 4 and the solid-state image pickup element 2, a fluorescence transmitting filter 6 which transmits only light having a wavelength of 520 nm to 600 nm is arranged. Second
No such filter is arranged in front of the solid-state image sensor 3 of FIG.
【0013】また、両対物光学系4,5の観察範囲に向
けて照明光を照射する照明用ライトガイドファイババン
ドル8の射出端が、両対物光学系4,5と並んで配置さ
れている。The exit end of the illumination light guide fiber bundle 8 for irradiating the illumination light toward the observation range of both objective optical systems 4 and 5 is arranged side by side with both objective optical systems 4 and 5.
【0014】図4は、挿入部1の先端面の正面図であ
り、4aと5aは対物光学系4,5が配置された観察
窓、8aは、照明用ライトガイドファイババンドル8の
射出端が配置された照明窓、9は、処置具類の突出口で
ある。FIG. 4 is a front view of the distal end surface of the insertion section 1. 4a and 5a are observation windows in which the objective optical systems 4 and 5 are arranged, and 8a is the exit end of the light guide fiber bundle 8 for illumination. The arranged illumination window 9 is a projecting opening of the treatment instrument.
【0015】図1及び図2に戻って、挿入部1の基端は
操作部11に連結されており、その操作部11に連結さ
れた連結可撓管12の先端には、ビデオプロセッサ20
に接続されるコネクタ13が取り付けられている。Referring back to FIGS. 1 and 2, the base end of the insertion portion 1 is connected to the operating portion 11, and the video processor 20 is attached to the distal end of the connecting flexible tube 12 connected to the operating portion 11.
A connector 13 to be connected to is attached.
【0016】このコネクタ13には、第1と第2の固体
撮像素子2,3に入出力される信号を伝送するための第
1と第2の信号ケーブル15,16と、照明用ライトガ
イドファイババンドル8の入射端とが挿入部1の先端側
から達している。電子内視鏡の構成は以上のようなもの
である。The connector 13 has first and second signal cables 15 and 16 for transmitting signals input to and output from the first and second solid-state image pickup devices 2 and 3, and a light guide fiber for illumination. The incident end of the bundle 8 reaches from the tip end side of the insertion portion 1. The configuration of the electronic endoscope is as described above.
【0017】ビデオプロセッサ20には、照明用ライト
ガイドファイババンドル8に照明光を供給するための例
えばキセノンランプからなる光源ランプ21が配置さ
れ、その光源ランプ21と照明用ライトガイドファイバ
バンドル8の入射端との間の照明光路中に、RGB回転
フィルタ22が配置されている。The video processor 20 is provided with a light source lamp 21 such as a xenon lamp for supplying illumination light to the illumination light guide fiber bundle 8, and the light source lamp 21 and the illumination light guide fiber bundle 8 are incident. The RGB rotation filter 22 is arranged in the illumination optical path between the edge and the edge.
【0018】RGB回転フィルタ22には、図5にも示
されるように、赤(R)、緑(G)、青(B)の3色の
カラーフィルタが各々の間に遮光部を挟んで各々扇状に
形成されており、モータ23によって等速度で回転され
る。As shown in FIG. 5, the RGB rotary filter 22 includes three color filters of red (R), green (G), and blue (B), with a light-shielding portion interposed therebetween. It is fan-shaped and is rotated at a constant speed by the motor 23.
【0019】各カラーフィルタが透過する光の波長領域
は次のとおりである。赤(R):580nm〜650n
m。緑(G):500nm〜580nm。青(B):4
00nm〜500nm。The wavelength range of the light transmitted by each color filter is as follows. Red (R): 580nm-650n
m. Green (G): 500 nm to 580 nm. Blue (B): 4
00 nm-500 nm.
【0020】その結果、コネクタ13から照明用ライト
ガイドファイババンドル8を経由して、挿入部1の先端
の前方にある被写体が、赤、緑、青の3色の照明光によ
って順に繰り返し照明される。As a result, the subject in front of the tip of the insertion portion 1 is repeatedly illuminated in sequence from the connector 13 via the illumination light guide fiber bundle 8 by the illumination light of three colors of red, green and blue. .
【0021】第1と第2の固体撮像素子2,3に対する
信号伝送を行う第1と第2の信号ケーブル15,16
は、共に、ビデオプロセッサ20に接続されるコネクタ
13内の撮像信号切り換え回路26に接続されている。First and second signal cables 15 and 16 for transmitting signals to the first and second solid-state image pickup devices 2 and 3.
Are both connected to the imaging signal switching circuit 26 in the connector 13 connected to the video processor 20.
【0022】撮像信号切り換え回路26には、外部から
操作される切り換えスイッチ28が接続されていて、そ
の切り換えスイッチ28を切り換え操作することによっ
て、第1と第2の信号ケーブル15,16のいずれか一
方だけが、ビデオプロセッサ20内の通常画像用ビデオ
回路24に選択的に接続される。切り換えスイッチ28
は、足踏み式のいわゆるフットスイッチなどでもよい。A changeover switch 28 which is operated from the outside is connected to the image pickup signal changeover circuit 26, and when the changeover switch 28 is changed over, either the first signal cable 15 or the second signal cable 16 is changed. Only one is selectively connected to the normal image video circuit 24 in the video processor 20. Changeover switch 28
May be a foot-operated so-called foot switch or the like.
【0023】そして、第1と第2の固体撮像素子2,3
の駆動及びRGB回転フィルタ22を回転させるモータ
23の回転とが、タイミング回路25からの出力信号に
よって同期をとって制御され、第1と第2の固体撮像素
子2,3において、いわゆるRGB面順次方式による撮
像が行われる。The first and second solid-state image pickup devices 2 and 3
And the rotation of the motor 23 that rotates the RGB rotation filter 22 are controlled in synchronization with the output signal from the timing circuit 25, and in the first and second solid-state image pickup devices 2 and 3, the so-called RGB plane sequential is used. Imaging is performed by the method.
【0024】通常画像用ビデオ回路24においては、第
1又は第2の固体撮像素子2,3から入力された撮像信
号が処理されて、モニタテレビ40に画像を表示するた
めのRGB三色のビデオ信号が出力される。In the normal image video circuit 24, the image pickup signals input from the first or second solid-state image pickup devices 2 and 3 are processed, and video of three RGB colors for displaying an image on the monitor television 40. The signal is output.
【0025】ただし、通常画像用ビデオ回路24とモニ
タテレビ40との間には、RGB三色のビデオ信号をモ
ニタテレビ40に送る通常画像表示状態と、被写体が青
色の照明光で照明されているときのB信号だけをモニタ
テレビ40に送る蛍光画像表示状態とを選択することが
できるビデオ信号切り換え回路29が介挿されている。However, between the normal image video circuit 24 and the monitor TV 40, the normal image display state in which video signals of three colors RGB are sent to the monitor TV 40 and the subject is illuminated with blue illumination light. A video signal switching circuit 29 capable of selecting a fluorescent image display state in which only the B signal at that time is sent to the monitor television 40 is inserted.
【0026】50は、モニタテレビ40に表示される画
像を磁気記録するための記録装置、図2に示される27
は、ビデオプロセッサ20に対して制御用のコマンド等
を入力するためのキーボードである。Reference numeral 50 denotes a recording device for magnetically recording an image displayed on the monitor television 40, and 27 shown in FIG.
Is a keyboard for inputting control commands and the like to the video processor 20.
【0027】このように構成された蛍光診断用電子内視
鏡装置においては、第2の固体撮像素子3からは、通常
のRGB三色の撮像信号が出力される。したがって、撮
像信号切り換え回路26で第2の信号ケーブル16を通
常画像用ビデオ回路24に接続することにより、通常画
像用ビデオ回路24において、被写体の通常のカラー映
像信号が得られる。そこで、ビデオ信号切り換え回路2
9を通常画像表示状態にすることによって、モニタテレ
ビ40に通常のカラー画像が表示される。In the electronic endoscope apparatus for fluorescence diagnosis constructed as described above, the second solid-state image pickup device 3 outputs ordinary image pickup signals of RGB three colors. Therefore, by connecting the second signal cable 16 to the normal image video circuit 24 by the imaging signal switching circuit 26, the normal image video circuit 24 can obtain a normal color video signal of the subject. Therefore, the video signal switching circuit 2
By setting 9 as a normal image display state, a normal color image is displayed on the monitor television 40.
【0028】一方、第1の固体撮像素子2は、蛍光透過
用フィルタ6を通過した520nmないし600nmの
範囲の波長の光しか入射しないので、その波長域の光に
よる特殊な像の撮像信号が出力される。On the other hand, the first solid-state image pickup device 2 receives only the light having a wavelength in the range of 520 nm to 600 nm that has passed through the fluorescence transmitting filter 6, so that an image pickup signal of a special image by the light in that wavelength region is output. To be done.
【0029】そこで、撮像信号切り換え回路26で第1
の信号ケーブル15を通常画像用ビデオ回路24に接続
し、ビデオ信号切り換え回路29を蛍光画像表示状態に
切り換えると、青色の照明光(波長400nmないし5
00nm)で被写体が照明されたときのビデオ信号だけ
が抽出されてモニタテレビ40に入力される。Therefore, in the image pickup signal switching circuit 26, the first
When the signal cable 15 is connected to the normal image video circuit 24 and the video signal switching circuit 29 is switched to the fluorescent image display state, blue illumination light (wavelength 400 nm to 5 nm
Only the video signal when the subject is illuminated at (00 nm) is extracted and input to the monitor television 40.
【0030】そこで得られる画像は、蛍光透過用フィル
タ6を透過することができる波長の光による像だけであ
るから、青色の照明光に含まれる波長400nmないし
500nmの励起光によって被写体から励起された蛍光
画像がモニタテレビ40に表示されることになる。な
お、実際の蛍光は緑色であるが、この場合には青色の蛍
光像がモニタテレビ40に表示される。Since the image obtained there is only an image of light having a wavelength that can pass through the fluorescence transmitting filter 6, it is excited from the subject by the excitation light having a wavelength of 400 nm to 500 nm contained in the blue illumination light. The fluorescent image will be displayed on the monitor television 40. Note that although the actual fluorescence is green, in this case, a blue fluorescence image is displayed on the monitor television 40.
【0031】なお、ビデオ信号切り換え回路29の切り
換え動作は、切り換えスイッチ28による撮像信号切り
換え回路26の切り換え動作と連動するように構成して
おくとよい。It should be noted that the switching operation of the video signal switching circuit 29 may be configured to be interlocked with the switching operation of the imaging signal switching circuit 26 by the switch 28.
【0032】なお、以上説明した実施の形態において
は、青色のカラーフィルタが透過する400nmないし
500nmの波長の光を励起光として用い、蛍光透過用
フィルタ6が透過する光の波長を520nmないし60
0nmとしたが、生体組織から励起される蛍光の波長は
略480nmないし600nmの範囲なので、励起光透
過用のカラーフィルタの透過領域の最大波長を480n
m未満に設定して、蛍光透過用フィルタ6が透過する光
の波長を480nmないし600nm程度に設定しても
よい。各フィルタの特性をそれに近づけることにより、
観察される蛍光画像の光量ロスが少なくなる。In the embodiment described above, the light having a wavelength of 400 nm to 500 nm that is transmitted by the blue color filter is used as the excitation light, and the wavelength of the light that is transmitted by the fluorescence transmitting filter 6 is 520 nm to 60 nm.
Although the wavelength of fluorescence excited from living tissue is approximately 480 nm to 600 nm, the maximum wavelength of the transmission region of the excitation light transmitting color filter is 480 n.
The wavelength of the light transmitted by the fluorescence transmitting filter 6 may be set to be less than m and set to about 480 nm to 600 nm. By making the characteristics of each filter close to that,
The light amount loss of the observed fluorescence image is reduced.
【0033】[0033]
【発明の効果】本発明によれば、内視鏡の挿入部の先端
に二つの固体撮像素子が設けられていて、その一方の固
体撮像素子によって蛍光画像を得ることができるので、
患者に対して内視鏡を差し替えることなく、被写体の通
常のカラー画像と蛍光画像との両方を一つの電子内視鏡
によって得ることができる。したがって、患者と医師の
双方に余分な負担がかかることなく、患部の通常のカラ
ー画像と蛍光画像とから早期癌等を正確に診断すること
ができる。According to the present invention, two solid-state image pickup devices are provided at the tip of the insertion portion of the endoscope, and a fluorescence image can be obtained by one of the solid-state image pickup devices.
Both a normal color image and a fluorescent image of a subject can be obtained by one electronic endoscope without replacing the endoscope with respect to the patient. Therefore, it is possible to accurately diagnose early cancer and the like from the normal color image and the fluorescent image of the affected area without imposing an extra burden on both the patient and the doctor.
【0034】そして、蛍光透過用フィルタが配置されて
いない方の固体撮像素子の出力信号からは被写体がRG
B三色の各色照明光で照明されているときのビデオ信号
をモニタに入力させ、蛍光透過用フィルタが配置されて
いる方の固体撮像素子の出力信号からは被写体が青色の
照明光で照明されているときのビデオ信号だけをモニタ
に入力させるようにビデオプロセッサからの信号出力を
選択することができるので、これまで用いられている一
般の電子内視鏡用ビデオプロセッサをそのまま用いるこ
とができ、非常に経済的である。Then, from the output signal of the solid-state image pickup device on which the fluorescence transmission filter is not arranged, the subject is RG.
B The video signals when illuminated with the three colors of illumination light are input to the monitor, and the subject is illuminated with blue illumination light from the output signal of the solid-state image sensor on which the fluorescence transmission filter is arranged. Since the signal output from the video processor can be selected so that only the video signal at the time of inputting is input to the monitor, the general electronic endoscope video processor used so far can be used as it is, Very economical.
【図1】本発明の実施の形態の全体構成の内部構造を示
す略示図である。FIG. 1 is a schematic diagram showing an internal structure of an overall configuration of an embodiment of the present invention.
【図2】本発明の実施の形態の全体構成の外観を示す斜
視図である。FIG. 2 is a perspective view showing the external appearance of the overall configuration of the embodiment of the present invention.
【図3】本発明の実施の形態の電子内視鏡の挿入部先端
の側面断面図である。FIG. 3 is a side sectional view of the tip of the insertion portion of the electronic endoscope according to the embodiment of the present invention.
【図4】本発明の実施の形態の電子内視鏡の挿入部先端
面の正面図である。FIG. 4 is a front view of the distal end surface of the insertion portion of the electronic endoscope according to the embodiment of the present invention.
【図5】本発明の実施の形態のRGB回転フィルタの正
面図である。FIG. 5 is a front view of the RGB rotary filter according to the embodiment of the present invention.
1 挿入部 2,3 固体撮像素子 6 蛍光透過用フィルタ 21 光源ランプ 22 RGB回転フィルタ 26 撮像信号切り換え回路 28 切り換えスイッチ 29 ビデオ信号切り換え回路 40 モニタテレビ DESCRIPTION OF SYMBOLS 1 Insertion part 2,3 Solid-state image sensor 6 Fluorescence transmission filter 21 Light source lamp 22 RGB rotation filter 26 Imaging signal switching circuit 28 Switching switch 29 Video signal switching circuit 40 Monitor TV
Claims (2)
に被写体の像を結像させるための対物光学系とが挿入部
の先端に配置されて、一方の固体撮像素子の前方には、
生体組織から蛍光を励起させる励起光の波長より長波長
側に透過領域を有し且つ上記励起光は透過しない特性を
有する蛍光透過用フィルタが配置された電子内視鏡と、 被写体を赤、緑及び青の三色の照明光によって順に繰り
返し照射するための照明手段と、 上記二つの固体撮像素子から出力される撮像信号のうち
の一方だけを選択して、撮像信号の処理を行うためのビ
デオ回路に入力させる撮像信号切り換え手段と、 上記撮像信号切り換え手段によって上記蛍光透過用フィ
ルタが配置されていない方の固体撮像素子の出力信号が
選択されているときには、被写体が上記三色の各色照明
光で照明されているときのビデオ信号をモニタに入力さ
せ、上記撮像信号切り換え手段によって上記蛍光透過用
フィルタが配置されている方の固体撮像素子の出力信号
が選択されているときには、被写体が青色の照明光で照
明されているときのビデオ信号だけをモニタに入力させ
るビデオ信号切り換え手段を設けたことを特徴とする蛍
光診断用電子内視鏡装置。1. Two solid-state image pickup devices and an objective optical system for forming an image of a subject on each of the solid-state image pickup devices are arranged at the tip of an insertion portion, and one solid-state image pickup device is provided in front of the solid-state image pickup device.
An electronic endoscope in which a fluorescence transmitting filter having a transmission region on the longer wavelength side than the wavelength of excitation light for exciting fluorescence from living tissue and having a characteristic of not transmitting the excitation light is arranged, and the subject is red or green. And an illumination means for repeatedly irradiating sequentially with three illumination lights of blue and a video for processing the image pickup signal by selecting only one of the image pickup signals output from the two solid-state image pickup devices. When the output signal of the image pickup signal switching means to be input to the circuit and the output signal of the solid-state image pickup device in which the fluorescence transmission filter is not arranged are selected by the image pickup signal switching means, the subject is the illumination light of each of the three colors. The solid-state image sensor in which the video signal when illuminated by the monitor is input to the monitor and the fluorescence transmission filter is arranged by the image signal switching means. An electronic endoscope apparatus for fluorescent diagnosis characterized in that a video signal switching means for inputting only a video signal when a subject is illuminated with blue illumination light to the monitor when the output signal is selected. .
いし600nmの範囲の波長の光だけを透過する請求項
1記載の蛍光診断用電子内視鏡装置。2. The electronic endoscope apparatus for fluorescence diagnosis according to claim 1, wherein the fluorescence transmitting filter transmits only light having a wavelength in the range of approximately 480 nm to 600 nm.
Priority Applications (1)
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JP24110695A JP3490807B2 (en) | 1994-09-21 | 1995-09-20 | Electronic endoscope device for fluorescence diagnosis |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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JP22652494 | 1994-09-21 | ||
JP6-226524 | 1994-09-21 | ||
JP24110695A JP3490807B2 (en) | 1994-09-21 | 1995-09-20 | Electronic endoscope device for fluorescence diagnosis |
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JPH08140929A true JPH08140929A (en) | 1996-06-04 |
JP3490807B2 JP3490807B2 (en) | 2004-01-26 |
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