JPH04136243U - Fiber laser treatment device - Google Patents

Abstract

(57) [Abstract] [Purpose] Laser treatment devices are used to treat affected areas deep within body cavities by irradiating low-power laser light. When inserting a fiber that guides laser light into a body cavity and irradiating the affected area, prevent the fiber from breaking, reducing radiation efficiency due to dirt on the fiber tip, causing pain to the patient, and preventing infection between patients by pathogenic bacteria. There is a need. [Structure] The laser fiber is inserted from the tip side into a flexible and soft fiber protection tube with a transparent sealed end. A fixture for removably fixing the protective tube and the fiber is provided on the protective tube, and the protective tube is used in a disposable manner. Further, a gripping tool is provided on the protection tube so as to be movable in the axial direction, and the practitioner grasps the gripping tool to guide the tip of the fiber protection tube to the target affected area.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention uses a laser fiber to irradiate low-energy laser light to the affected area. The present invention relates to an improvement of a laser treatment device for treatment.

0002

[Conventional technology]

Low-energy laser light that does not damage living tissues has the ability to relieve pain, eliminate inflammation, This treatment is known to be effective in promoting wound healing and improving peripheral circulation. For medical purposes, treatment at orthopedics, dentistry, and pain clinics requires low outputs below IW. A power laser treatment device is used.

0003 Traditionally, treatment devices using low-energy laser light include a) laser oscillators; A grip that irradiates the affected part of the body with laser light directly or by focusing it with a lens. type device, or (b) a bendable glass fiber through which the laser beam is passed through the injection needle. A device that inserts a laser beam into a living body and irradiates deep parts of the living body (Japanese Patent Application Laid-Open No. 1-141671 (No.), C) Guide the laser beam from the oscillator through a flexible fiber from its end face. A treatment in which the affected area is irradiated with a support device near the tip of the fiber. A device used for vascular anastomosis treatment, promotion of wound healing, and pain relief (Japanese Patent Application Laid-Open No. -99051) etc. are known.

0004

[Problem that the idea aims to solve]

The conventional treatment devices mentioned above do not allow treatment in the oral cavity, which has a large opening relative to the body surface area and its depth. The purpose was to irradiate laser beams onto body parts.

[0005] Treatment with low-power laser irradiation first targets skin diseases and subcutaneous tissue, and then the middle ear. It has been shown to be effective in treating diseases deep within the body, such as inflammation, rhinitis, and abnormal laryngopharyngeal sensitivity. Subject to this.

[0006] If you try to use conventional laser equipment to treat diseases inside the body pores, you will need to do the following: There was a problem like this. In the device (a) above, the cross section of the laser beam irradiation port of the device is large, so The laser beam reliably targets diseases deep within small body orifices such as the nostrils, or throat. It is difficult to irradiate the area, and the laser beam irradiation port may block the irradiation area. However, there was a problem in that the treated area could not be visually observed during the surgery. In addition, with the device (b), it is not possible to insert the injection needle along the curved body orifice. However, it is impossible to irradiate the affected area deep within the body cavity.

[0007] The device c) above is used by inserting a flexible laser fiber along the body cavity. For example, the above problem can be solved by bringing the fiber tip close to the affected area and irradiating the laser beam. However, if the laser fiber comes into contact with a body cavity, the fiber is likely to break. If the fiber tip comes into contact with the affected area, it not only causes pain to the patient, but also damages the affected mucous membrane. There was a risk of damage to the Also, it comes into contact with the affected area and adheres to the fiber tip. There is a risk that the laser irradiation output may decrease due to deposits on the affected area, and that the affected area may be contaminated with pathogenic bacteria. The fiber is highly dangerous and may cause infection if used on other patients. It was necessary to wash and sterilize the laser fiber each time it was used.

[0008] Therefore, the fiber tip should be operated so that it does not come into contact with the body cavity, especially the affected area. In this case, the distance to the irradiated area is not constant due to the swing of the laser fiber tip, and the irradiation area is not constant. The irradiation site changes, the energy density at the irradiation site is not constant, and therefore the irradiation The therapeutic effect will lack reproducibility.

[0009] The present invention was developed to address the above-mentioned problems. It is possible to accurately irradiate the laser beam with the desired output and prevent contamination and breakage of the laser fiber. The purpose of the present invention is to provide a laser treatment device that can be protected from.

0010

[Means to solve the problem]

The laser treatment device of the present invention includes a low-power laser oscillator and a laser beam of the laser oscillator. A flexible laser fiber that guides the laser light and a flexible laser fiber attached to the tip of the laser fiber. A flexible fiber protection tube that is removably inserted, the fiber and the fiber - a fixing device for fixing the fiber protection tube; is a transparent tube that transmits the laser light from the tip of the laser fiber at the tip of the flexible tube. The sealed end is attached integrally or separately, and a laser beam is irradiated from the sealed end. This is a laser treatment device. The laser treatment device of the present invention also includes the fiber protection tube or the laser beam. A device that has a gripping tool that is movably fixed to the outer circumference of the fiber in the axial direction of the fiber. included.

[0011] The fiber protection tube of the present invention is configured such that the fiber is inserted into the fiber protection tube in a detachable manner. The laser beam from the tip of the laser beam irradiation fiber is attached to the tip of the soft flexible tube. and a translucent sealed end that transmits the light, the sealed end being integral or is separately attached to the flexible tube.

0012 Other means of the laser treatment device include the low-power laser oscillator and the laser. It has a main body of the device that can be freely grasped and operated, which accommodates the rear side of the laser fiber. The tip side of the fiber extends from the tip of the main body of the device equipped with the fixing device. It is something.

[0013]

[Effect]

The laser treatment device of the present invention has laser beams emitted from the end face of the tip of the laser fiber. The laser light passes through the translucent sealed end at the tip of the fiber protection tube. Insert the fiber protection tube with the fiber inserted into the body cavity and Laser light can be irradiated onto the affected area from the sealed end of the bar protection tube. The tip of the laser fiber is covered with the fiber protection tube. Therefore, the fiber does not break in the body cavity during treatment, and the fiber end surface does not get dirty. Furthermore, if the sealed end is made soft or has a spherical outer shape, it will cause pain to the patient. Not at all.

[0014] The fiber protection tube is easily attached and detached by the laser fiber and fixture. Therefore, immediately replace the fiber protection tube with a new sterilized fiber tube after each treatment. This can reliably prevent bacterial infection of patients via the fiber protection tube. be able to. Also, the fiber protection tube prevents contamination during use. Therefore, the frequency of cleaning and sterilization of the laser fiber can be reduced.

[0015] The fiber protection tube or laser fiber has a grip that can be moved in the axial direction. Since the tool is fixed, the length of the laser fiber on the tip side from the gripping tool can be accommodated. It can be easily adjusted, and the practitioner holds the gripping tool in their hands and seals the end. The laser beam of a predetermined output can be reliably irradiated from the affected area to the affected area.

[0016]

【Example】

An embodiment of the fiber laser treatment device of the present invention will be described based on the drawings. Figure 1 shows a laser fiber that receives the laser from the laser oscillator 3 in this device. It shows an external view of the tip side of the laser fiber 2, and shows the flexible cladding tube 22 of the laser fiber 2 and the fiber cladding tube 22. The fiber protection tube 1 is fixedly connected by the fixture 4, and the fiber protection tube 1 is connected to the laser beam. It is inserted into the fiber and fixed. In this device used for pain relief and anti-inflammation, the laser output may be 1W or less. As a laser oscillator, a small semiconductor laser oscillator, a He-Ne gas oscillator , Nd-YAG solid-state oscillators, etc. are used, and flexible laser fibers are used. In addition to silica-based glass fiber, synthetic resin fiber But that's fine.

[0017] FIG. 2 shows a cross-sectional view of the laser fiber 2 and the fiber protection tube 1. The end surface 20 of the tip of the laser fiber 2 further extended from the tip of the cladding tube 22 , insert the fiber protection tube 1 with one end sealed, and insert the fiber protection tube 1 into the In this figure, the rubber elastic body is shown with its open end in contact with the tip of the cladding tube 22. The short tube 41 is expanded to separate the fiber protection tube 1 and the cladding tube 22 at the abutting part. and are held together by elastic force.

[0018] The fiber protection tube 1 consists of a flexible tube 11 and a sealed end 10, and the flexible tube 11 includes: It can be bent to follow the bending of the laser fiber 2 inserted into the inner hole. It is very soft. The sealed end 10 has a translucent property, and in FIG. 2, its outer shape is approximately a hemisphere. The inner end face is a flat surface so that the end face 20 of the laser fiber 2 comes into contact with the inner end face. The flexible tube 11 is formed integrally with the flexible tube 11.

[0019] The fiber protection tube 1 is made of medical vinyl chloride resin, fluorine resin, silicone resin, etc. A soft material tube made of resin or polypropylene resin is used, and the sealed end is Heat the tip of the tube to soften it, then press the mold against it to seal the opening and place it in place. It can be formed by molding it into a specific external shape.

[0020] FIG. 3 shows an example of a fiber protection tube in which the flexible tube 11 and the sealed end portion 10 are configured separately. However, the sealed end 10 has a circumferential convexity on the outer surface of a protrusion 101 to be inserted into the inner hole of the flexible tube. When the protrusion 101 is expanded and inserted into the inner hole of the flexible tube, the inner periphery The surface 112 and the circumferential convex portion 102 fit together, and the sealed end portion is removably fixed. In this example, the central part of the tip outer surface 13 of the sealed end 10 is a flat surface; We manufacture and stock a variety of sealed ends with different inner shapes depending on the outer surface of the sealed end. By doing so, it is possible to obtain a dispersion state of the irradiated laser beam according to the treatment purpose.

[0021] A protection tube fixture 4 that fixes the laser fiber at the open end of the fiber protection tube 1 FIG. 2 shows the simplest fixture 41 consisting of a short tube made of rubber elastic material. In Figure 4 , the tubular fixture main body 46 connects the fiber protection tube 1 and the fiber cladding tube 22. It is inserted through the joint, and the inner hole has a tapered part toward both sides of the pipe to enlarge the inner diameter. It has a structure that can be stretched, and the outer surface has screws carved on both sides. The fixture body 4 The inner hole of No. 6 has a cylindrical shape with split grooves from both ends, and tapers toward the outer periphery. A cap nut into which the winding bodies 43 and 45 are inserted and has a contact surface that abuts on its rear end. 42 and 44 are shown as a fixture 4 having a structure that screws onto the outer surface of the fixture main body 46. Ru. By tightening the cap nuts 42 and 44, the coils 43 and 45 protect the fibers. By wrapping the tube 1 and the fiber cladding tube 22, the fiber protection tube 1 and the fiber cladding tube 2 are assembled. 2 and the fixture main body 46 are fixed. By tightening and loosening the cap nut 42 of the fixture 4, the laser beam of the fiber protection tube 1 is tightened. The fiber protection tube can be inserted into and removed from fiber 2 at will, so the fiber protection tube can be replaced each time it is used. It can be made disposable.

[0022] Next, regarding the gripping tool 5, the tubular gripping tool 5 is shown in FIG. A simple structure that uses elastic force to fix the fiber protection tube 1 in the desired position is shown. However, FIG. 4 shows a gripping tool 5 having a structure similar to that of the protective tube fixture 4.

[0023] The gripping tool 5 is used by the practitioner to hold or pinch the tip of the fiber protection tube between their fingers. It guides the patient to the affected part in the body cavity of the treatment target site, and in FIG. 4, the gripping tool 5 The length of the fiber protection tube on the further end can be adjusted by loosening the cap nut 52 of the gripping tool. You can make adjustments by moving it back and forth.

[0024] Regarding other aspects of the gripping tool 5, FIG. Figures 6 and 7 show a structure in which a grip part is protruded from the rear of the grip tool. are doing. In these embodiments, the fixture 4 allows the fiber protection tube 1 to be and the laser fiber cladding tube (not shown) are fixed, and the laser fiber cladding tube is fixed in front of the fiber protection tube. This figure shows a mode in which a gripping tool 5 is provided on the part, the position of which can be freely adjusted back and forth. In FIG. 7, the tip side of the gripping portion is extended and displaced upward with respect to the gripping portion 59. In addition, the grip part 59 etc. does not obstruct the field of view when visually observing the affected area during treatment. It is considered as such. However, in the embodiments shown in Figures 5 to 7, no fasteners are used. , the fiber protection tube 1 and the laser are connected only by tightening and loosening the cap nut 52 of the gripper 5. The fiber 2 may also be fixed. In this case, the fiber protection tube 1 is made of soft material. Since it is made of fiber, it deforms when the cap nut 52 is tightened, and the fiber protection tube 1 and It is possible to couple and fix the laser fiber 2.

[0025] As an example of using both a gripping tool and a fiber fixing tool, a laser fiber is shown in FIG. A gripping tool 5 is fixed to the cladding tube 22 of the fiber 2 at its rear, and a laser beam is fixed at its front. In this device, the fiber protection tube 1 attached to the fiber 2 is fixed to the gripper 5. It shows the aspect. In this way, grasp the laser fiber 2 and fiber protection tube 1. A device that is indirectly fixed via the holder 5 is also included in the present invention. Also, in Figure 11 , the fixing devices 44 and 45 are omitted, and the laser fiber 2 and fiber protection tube 1 are connected. A mode in which only the gripping tool 5 to be fixed is used as a fixing tool is also included in the present invention. Ru.

[0026] Fig. 8 shows a suction cup-like shape on the front part of the gripping tool 5 when this device is used for irradiation from the body surface. This disc is provided with a disc 57, which is placed on the surface of the affected area and exposed to the laser for a long time. Subjected to radiation therapy.

[0027] FIG. 9 shows the rear side of the laser oscillator 3, oscillator control circuit 31, and laser fiber 2. is housed in the device main body 58, and the protective tube fixing device 5 is provided at the tip thereof. It is a hand piece type laser treatment device, and a laser is installed at the tip of the protective tube fixing device 5. Fiber 2 protrudes with a certain length, and fiber protection tube 1 is attached to the laser fiber. is inserted, and the fiber protection tube is fixed by the fixture 5. Furthermore, the accommodating part of the oscillator control circuit 31 becomes a grip part 59, and the end of the grip part is provided with an external power source. Power is supplied to the control circuit via a connector 33 connected to a power source. The practitioner picks up the grip part 59 and holds the tip 10 of the fiber protection tube 1. Operate the entire device in such a way as to bring it close to the affected area. Also, replacing fiber 2, By removing the fixture 5, the entire fiber fixed to the bush 54 can be attached and removed. The structure is such that it can be replaced.

[0028] Figures 10 (A) and (B) show an endoscopic system that is inserted into a body cavity and visually observes biological tissue, etc. Insert the laser fiber of the device into a spare inner hole of the mirror insert 6, for example, the forceps hole 62. -2 is inserted into the fiber protection tube 1. Endoscope insertion The affected tissue is illuminated by the light guide 63 from the tip of the body 6, and the image guide 6 While observing the affected tissue through step 1, the affected area can be irradiated with a laser beam. can. The combination of an endoscope and this device can relieve pain in the digestive system and joints. Treatment to promote healing can be performed accurately.

[0029]

[Effect of the idea]

If the fiber laser treatment device of this invention is implemented, the following effects can be achieved. I can do that. 1 At the tip of the laser fiber, there is a flexible fiber holder with a translucent sealed end. The protection tube is inserted, and the protection tube fixing device allows the protection tube to be detachably attached to the fiber. The laser beam from the fiber tip passes through the translucent sealed end. The laser fiber can be passed through and irradiated the target affected area, and the laser fiber is stored in a protective tube. Because it is protected, it will not break during treatment, and there is less risk of dirt on the tip. The fiber tip does not cause pain to the patient due to stimulation of the fiber tip. Even if the protective tube itself becomes contaminated with bacteria in the affected area, the protective tube can be easily removed for each treatment. can be exchanged, preventing infection between patients and It becomes possible to reduce the frequency of cleaning and sterilization of the bar.

[0030] 2 The grip part can be attached and detached from the tip of the fiber protection tube to the desired position. The tip of the fiber protection tube can be attached by the practitioner by grasping the grip part. Because it can be operated accurately, it can accurately target the treatment area deep inside the body cavity. Irradiate laser light of desired output by bringing the sealed end of the bar protection tube close or close together. This makes it possible to improve the reproducibility of the therapeutic effect of laser light irradiation.

[Submission date] June 4, 1992

[Procedural amendment 1]

[Name of document to be amended] Specification

[Name of item to be corrected] Detailed explanation of the invention

[Correction method] Change

[Correction details] [Detailed explanation of the idea]

0001

[Industrial application field]

This invention uses a laser fiber to irradiate low-energy laser light to the affected area. The present invention relates to an improvement of a laser treatment device for treatment.

0002

[Conventional technology]

Low-energy laser light that does not damage living tissues has the ability to relieve pain, eliminate inflammation, This treatment is known to be effective in promoting wound healing and improving peripheral circulation. For medical purposes, treatment at orthopedics, dentistry, and pain clinics requires low outputs below IW. A power laser treatment device is used.

0003 Traditionally, treatment devices using low-energy laser light include a) laser oscillators; A grip that irradiates the affected part of the body with laser light directly or by focusing it with a lens. type device, or (b) a bendable glass fiber through which the laser beam is passed through the injection needle. A device that inserts a laser beam into a living body and irradiates deep parts of the living body (Japanese Patent Application Laid-Open No. 1-141671 (No.), C) Guide the laser beam from the oscillator through a flexible fiber from its end face. A treatment in which the affected area is irradiated with a support device near the tip of the fiber. A device used for vascular anastomosis treatment, promotion of wound healing, and pain relief (Japanese Patent Application Laid-Open No. -99051) etc. are known.

0004

[Problem that the idea aims to solve]

The conventional treatment devices mentioned above do not allow treatment in the oral cavity, which has a large opening relative to the body surface area and its depth. The purpose was to irradiate laser beams onto body parts.

[0005] Treatment with low-power laser irradiation first targets skin diseases and subcutaneous tissue, and then the middle ear. It has been shown to be effective in treating diseases deep within the body, such as inflammation, rhinitis, and abnormal laryngopharyngeal sensitivity. Subject to this.

[0006] If you try to use conventional laser equipment to treat diseases inside the body pores, you will need to do the following: There was a problem like this. In the device (a) above, the cross section of the laser beam irradiation port of the device is large, so The laser beam reliably targets diseases deep within small body orifices such as the nostrils, or throat. It is difficult to irradiate the area, and the laser beam irradiation port may block the irradiation area. However, there was a problem in that the treated area could not be visually observed during the surgery. In addition, with the device (b), it is not possible to insert the injection needle along the curved body orifice. However, it is impossible to irradiate the affected area deep within the body cavity.

[0007] The device c) above is used by inserting a flexible laser fiber along the body cavity. For example, the above problem can be solved by bringing the fiber tip close to the affected area and irradiating the laser beam. However, if the laser fiber comes into contact with a body cavity, the fiber is likely to break. If the fiber tip comes into contact with the affected area, it not only causes pain to the patient, but also damages the affected mucous membrane. There was a risk of damage to the Also, it comes into contact with the affected area and adheres to the fiber tip. There is a risk that the laser irradiation output may decrease due to deposits on the affected area, and that the affected area may be contaminated with pathogenic bacteria. The fiber is highly dangerous and may cause infection if used on other patients. It was necessary to wash and sterilize the laser fiber each time it was used.

[0008] Therefore, the fiber tip should be operated so that it does not come into contact with the body cavity, especially the affected area. In this case, the distance to the irradiated area is not constant due to the swing of the laser fiber tip, and the irradiation area is not constant. The irradiation site changes, the energy density at the irradiation site is not constant, and therefore the irradiation The therapeutic effect will lack reproducibility.

[0009] The present invention was developed to address the above-mentioned problems. It is possible to accurately irradiate the laser beam with the desired output and prevent contamination and breakage of the laser fiber. The purpose of the present invention is to provide a laser treatment device that can be protected from.

0010

[Means to solve the problem] The laser treatment device of the present invention includes a low-power laser oscillator and a laser beam of the laser oscillator. A flexible laser fiber that guides the laser light and a flexible laser fiber attached to the tip of the laser fiber. A flexible fiber protection tube that is removably inserted, the fiber and the fiber - a fixing device for fixing the fiber protection tube; is a transparent tube that transmits the laser light from the tip of the laser fiber at the tip of the flexible tube. The sealed end is attached integrally or separately, and a laser beam is irradiated from the sealed end. This is a laser treatment device. The laser treatment device of the present invention also includes the fiber protection tube or the laser beam. A device that has a gripping tool that is movably fixed to the outer circumference of the fiber in the axial direction of the fiber. included.

[0011] The fiber protection tube of the present invention is configured such that the fiber is inserted into the fiber protection tube in a detachable manner. The laser beam from the tip of the laser beam irradiation fiber is attached to the tip of the soft flexible tube. and a translucent sealed end that transmits the light, the sealed end being integral or is separately attached to the flexible tube.

0012 Other means of the laser treatment device include the low-power laser oscillator and the laser. It has a main body of the device that can be freely grasped and operated, which accommodates the rear side of the laser fiber. The tip side of the fiber extends from the tip of the main body of the device equipped with the fixing device. It is something.

[0013]

[Effect]

The laser treatment device of the present invention has laser beams emitted from the end face of the tip of the laser fiber. The laser light passes through the translucent sealed end at the tip of the fiber protection tube. Insert the fiber protection tube with the fiber inserted into the body cavity and Laser light can be irradiated onto the affected area from the sealed end of the bar protection tube. The tip of the laser fiber is covered with the fiber protection tube. Therefore, the fiber does not break in the body cavity during treatment, and the fiber end surface does not get dirty. Furthermore, if the sealed end is made soft or has a spherical outer shape, it will cause pain to the patient. Not at all.

[0014] The fiber protection tube is easily attached and detached by the laser fiber and fixture. Therefore, immediately replace the fiber protection tube with a new sterilized fiber tube after each treatment. This can reliably prevent bacterial infection of patients via the fiber protection tube. be able to. Also, the fiber protection tube prevents contamination during use. Therefore, the frequency of cleaning and sterilization of the laser fiber can be reduced.

[0015] The fiber protection tube or laser fiber has a grip that can be moved in the axial direction. Since the tool is fixed, the length of the laser fiber on the tip side from the gripping tool can be accommodated. It can be easily adjusted, and the practitioner holds the gripping tool in their hands and seals the end. The laser beam of a predetermined output can be reliably irradiated from the affected area to the affected area.

[0016]

【Example】

An embodiment of the fiber laser treatment device of the present invention will be described based on the drawings. Figure 1 shows a laser fiber that receives the laser from the laser oscillator 3 in this device. The external view of the tip side of the laser fiber 2 is shown, and the flexible cladding tube 22 of the laser fiber 2 and the fiber cladding tube 22 are shown. The fiber protection tube 1 is fixedly connected by the fixture 4, and the fiber protection tube 1 is connected to the laser beam. It is inserted into the fiber and fixed. In this device used for pain relief and anti-inflammation, the laser output may be 1W or less. As a laser oscillator, a small semiconductor laser oscillator, a He-Ne gas oscillator , Nd-YAG solid-state oscillators, etc. are used, and flexible laser fibers are used. In addition to silica-based glass fiber, synthetic resin fiber But that's fine.

[0017] FIG. 2 shows a cross-sectional view of the laser fiber 2 and the fiber protection tube 1. The end surface 20 of the tip of the laser fiber 2 further extended from the tip of the cladding tube 22 , insert the fiber protection tube 1 with one end sealed, and insert the fiber protection tube 1 into the In this figure, the rubber elastic body is shown with its open end in contact with the tip of the cladding tube 22. The short tube 41 is expanded to separate the fiber protection tube 1 and the cladding tube 22 at the abutting part. and are held together by elastic force.

[0018] The fiber protection tube 1 consists of a flexible tube 11 and a sealed end 10, and the flexible tube 11 includes: It can be bent to follow the bending of the laser fiber 2 inserted into the inner hole. It is very soft. The sealed end 10 has a translucent property, and in FIG. 2, its outer shape is approximately a hemisphere. The inner end face is a flat surface so that the end face 20 of the laser fiber 2 comes into contact with the inner end face. The flexible tube 11 is formed integrally with the flexible tube 11.

[0019] The fiber protection tube 1 is made of medical vinyl chloride resin, fluorine resin, silicone resin, etc. A soft material tube made of resin or polypropylene resin is used, and the sealed end is Heat the tip of the tube to soften it, then press the mold against it to seal the opening and place it in place. It can be formed by molding it into a specific external shape.

[0020] FIG. 3 shows an example of a fiber protection tube in which the flexible tube 11 and the sealed end portion 10 are configured separately. However, the sealed end 10 has a circumferential convexity on the outer surface of a protrusion 101 to be inserted into the inner hole of the flexible tube. When the protrusion 101 is expanded and inserted into the inner hole of the flexible tube, the inner periphery The surface 112 and the circumferential convex portion 102 fit together, and the sealed end portion is removably fixed. In this example, the central part of the tip outer surface 13 of the sealed end 10 is a flat surface; We manufacture and stock a variety of sealed ends with different inner shapes depending on the outer surface of the sealed end. By doing so, it is possible to obtain a dispersion state of the irradiated laser beam according to the treatment purpose.

[0021] A protection tube fixture 4 that fixes the laser fiber at the open end of the fiber protection tube 1 FIG. 2 shows the simplest fixture 41 consisting of a short tube made of rubber elastic material. In Figure 4 , the tubular fixture main body 46 connects the fiber protection tube 1 and the fiber cladding tube 22. It is inserted through the joint, and the inner hole has a tapered part toward both sides of the pipe to enlarge the inner diameter. It has a structure that can be stretched, and the outer surface has screws carved on both sides. The fixture body 4 The inner hole of No. 6 has a cylindrical shape with split grooves from both ends, and tapers toward the outer periphery. A cap nut into which the winding bodies 43 and 45 are inserted and has a contact surface that abuts on its rear end. 42 and 44 are shown as a fixture 4 having a structure that screws onto the outer surface of the fixture main body 46. Ru. By tightening the cap nuts 42 and 44, the coils 43 and 45 protect the fibers. By wrapping the tube 1 and the fiber cladding tube 22, the fiber protection tube 1 and the fiber cladding tube 2 are assembled. 2 and the fixture main body 46 are fixed. By tightening and loosening the cap nut 42 of the fixture 4, the laser beam of the fiber protection tube 1 is tightened. The fiber protection tube can be inserted into and removed from fiber 2 at will, so the fiber protection tube can be replaced each time it is used. It can be made disposable.

[0022] Next, regarding the gripping tool 5, the tubular gripping tool 5 is shown in FIG. A simple structure that uses elastic force to fix the fiber protection tube 1 in the desired position is shown. However, FIG. 4 shows a gripping tool 5 having a structure similar to that of the protective tube fixture 4.

[0023] The gripping tool 5 is used by the practitioner to hold or pinch the tip of the fiber protection tube between their fingers. It guides the patient to the affected part in the body cavity of the treatment target site, and in FIG. 4, the gripping tool 5 The length of the fiber protection tube on the further end can be adjusted by loosening the cap nut 52 of the gripping tool. You can make adjustments by moving it back and forth.

[0024] Regarding other aspects of the gripping tool 5, FIG. Figures 6 and 7 show a structure in which a grip part is protruded from the rear of the grip tool. are doing. In these embodiments, the fixture 4 allows the fiber protection tube 1 to be and the laser fiber cladding tube (not shown) are fixed, and the laser fiber cladding tube is fixed in front of the fiber protection tube. This figure shows a mode in which a gripping tool 5 is provided on the part, the position of which can be freely adjusted back and forth. In FIG. 7, the tip side of the gripping portion is extended and displaced upward with respect to the gripping portion 59. In addition, the grip part 59 etc. does not obstruct the field of view when visually observing the affected area during treatment. It is considered as such. However, in the embodiments shown in Figures 5 to 7, no fasteners are used. , the fiber protection tube 1 and the laser are connected only by tightening and loosening the cap nut 52 of the gripper 5. The fiber 2 may also be fixed. In this case, the fiber protection tube 1 is made of soft material. Since it is made of fiber, it deforms when the cap nut 52 is tightened, and the fiber protection tube 1 and It is possible to couple and fix the laser fiber 2.

[0025] As an example of using both a gripping tool and a fiber fixing tool, a laser fiber is shown in FIG. A gripping tool 5 is fixed to the cladding tube 22 of the fiber 2 at its rear, and a laser beam is fixed at its front. In this device, the fiber protection tube 1 attached to the fiber 2 is fixed to the gripper 5. It shows the aspect. In this way, grasp the laser fiber 2 and fiber protection tube 1. A device that is indirectly fixed via the holder 5 is also included in the present invention. Also, in Figure 11 , the fixing devices 44 and 45 are omitted, and the laser fiber 2 and fiber protection tube 1 are connected. A mode in which only the gripping tool 5 to be fixed is used as a fixing tool is also included in the present invention. Ru.

[0026] Fig. 8 shows a suction cup-like shape on the front part of the gripping tool 5 when this device is used for irradiation from the body surface. This disc is provided with a disc 57, which is placed on the surface of the affected area and exposed to the laser for a long time. Subjected to radiation therapy.

[0027] FIG. 9 shows the rear side of the laser oscillator 3, oscillator control circuit 31, and laser fiber 2. is housed in the device main body 58, and the protective tube fixing device 5 is provided at the tip thereof. It is a hand piece type laser treatment device, and a laser is installed at the tip of the protective tube fixing device 5. Fiber 2 protrudes with a certain length, and fiber protection tube 1 is attached to the laser fiber. is inserted, and the fiber protection tube is fixed by the fixture 5. Furthermore, the accommodating part of the oscillator control circuit 31 becomes a grip part 59, and the end of the grip part is provided with an external power source. Power is supplied to the control circuit via a connector 33 connected to a power source. The practitioner picks up the grip part 59 and holds the tip 10 of the fiber protection tube 1. Operate the entire device in such a way as to bring it close to the affected area. Also, replacing fiber 2, By removing the fixture 5, the entire fiber fixed to the bush 54 can be attached and removed. The structure is such that it can be replaced.

[0028] Figures 10 (A) and (B) show an endoscopic system that is inserted into a body cavity and visually observes biological tissue, etc. Insert the laser fiber of the device into a spare inner hole of the mirror insert 6, for example, the forceps hole 62. -2 is inserted into the fiber protection tube 1. Endoscope insertion The affected tissue is illuminated by the light guide 63 from the tip of the body 6, and the image guide 6 While observing the affected tissue through step 1, the affected area can be irradiated with a laser beam. can. The combination of an endoscope and this device can relieve pain in the digestive system and joints. Treatment to promote healing can be performed accurately.

The embodiment of FIG. 12 uses a single joint instead of the roll and cap nut in FIGS. 4, 8, 9, and 11 to have the same function as both members, and also provides fiber protection. This is an example of preventing the protection pipe from slipping out in the thrust direction.

In FIG. 12, the fiber protection tube 1 and the gripper 5 are screwed together at a single joint 64 , and inside the joint 64, the fiber protection tube 1 is compressed and deformed in the centripetal direction , and the laser fiber 2, The fiber protection tube 1 and the gripper 5 are firmly joined.

That is, a female thread 641 is provided on the inner periphery of the distal end of the gripping tool 5, and a backward diameter-reducing tapered portion 642 is provided on the rear side , and the joint 64 is made of a soft material such as medical polyvinyl chloride resin or fluororesin. The outer periphery of the insertion tube 643 of the joint 64 is made of resin and has a smooth surface . Thread cutting 644 is performed by inserting the fiber protection tube 1 into this joint 64 and screwing the insertion tube 643 into the female thread 641. As the thread cutting 644 progresses, the rear end 645 of the insertion tube 643 The tapered portion 642 is elastically compressed and deformed in the centripetal direction, and the fiber protection tube 1 immediately below is compressed onto the laser fiber 2 . As a result, the laser fiber 2, the fiber protection tube 1, the insertion tube 643 of the joint 64, and the gripper 5 are brought into strong pressure contact in the radial direction, and a solid joint structure is realized.

As can be seen from this example, the two parts used in FIGS. 4, 8, 9 and 11, the roll (43, 45, 53) and the cap nut (42, 44, 52), It is replaced by one joint 64, which is advantageous in terms of the number of parts.

Further, in this example, the outer diameter of the sealed end portion 10 of the fiber protection tube 1 bulges out to be larger than the inner diameter of the insertion hole 646 of the joint 64. Therefore, the joint 64 does not fall off from the sealed end 10 of the fiber protection tube 1 in the thrust direction.

In addition to the benefits described above, the example of FIG . 12 provides the following advantages. That is, the joint 64 and the fiber protection tube 1 are sterilized as a pair and can be inserted into and removed from the gripper 5 , so the joint 64 and the fiber protection tube 1 can be replaced each time they are used. It can be disposable.

FIG. 13 shows an example in which the present laser treatment device is applied to the ear cavity, and an ear plug 66 is attached to the tip of the fiber protection tube 1, and the ear plug 66 is inserted into the ear cavity. (not shown ) and is intended to be used for long-term laser irradiation treatment.

The material of the joint 64 in this example is the same as in the previous example, but a forward diameter-reducing tapered portion 647 is provided at the tip, and the tapered portion 647 is pushed into the insertion opening 661 of the earplug 66 . By doing so, this is compressively deformed in the centripetal direction, and the laser fiber 2, the fiber protection tube 1, and the tapered portion 647 are tightly clamped in the radial direction. The outer diameter of the sealed end 10 at the tip of the fiber protection tube 1 is larger than the inner diameter of the insertion hole 662 of the earplug 66 , and a pair of tightly joined fiber protection tubes 1 are shown in FIG. The laser fiber 2, joint 64, and gripper 5 are prevented from falling out of the ear plug 66 during treatment. Note that the rear joint structure in this example is the same as that shown in FIG. 12, so a description thereof will be omitted and only the numbers of corresponding parts will be written.

[ 0037 ]

[Effect of the idea]

If the fiber laser treatment device of this invention is implemented, the following effects can be achieved. I can do that. 1 At the tip of the laser fiber, there is a flexible fiber holder with a translucent sealed end. The protection tube is inserted, and the protection tube fixing device allows the protection tube to be detachably attached to the fiber. The laser beam from the fiber tip passes through the translucent sealed end. The laser fiber can be passed through and irradiated the target affected area, and the laser fiber is stored in a protective tube. Because it is protected, it will not break during treatment, and there is less risk of dirt on the tip. The fiber tip does not cause pain to the patient due to stimulation of the fiber tip. Even if the protective tube itself becomes contaminated with bacteria in the affected area, the protective tube can be easily removed for each treatment. can be exchanged, preventing infection between patients and It becomes possible to reduce the frequency of cleaning and sterilization of the bar.

[ 0038 ] 2. Since the gripping part is detachably attached to the fiber protection tube at a desired position from the tip thereof, when the practitioner grasps the gripping part, the tip of the fiber protection tube can be accurately manipulated. Because of this, it is possible to accurately bring the sealed end of the fiber protection tube close or close to the treatment affected area deep inside the body cavity and irradiate the laser beam with the desired output, thereby improving the reproducibility of the therapeutic effect of laser beam irradiation. can be increased.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram of a laser treatment device.

FIG. 2 is a sectional view of the laser fiber tip side and the fiber protection tube.

FIG. 3 is a sectional view of the laser fiber tip side and the fiber protection tube.

FIG. 4 is a diagram similar to FIG. 2 of another embodiment.

FIG. 5 is an external view of the extended gripper.

FIG. 6 is an external view of a gripping tool having a gripping portion.

FIG. 7 is a view similar to FIG. 6 of another embodiment of a gripping tool having a gripping portion.

FIG. 8 is a cross-sectional view of a gripping tool with a suction cup.

FIG. 9 is a sectional view of a handpiece type laser treatment device.

FIG. 10 is a longitudinal sectional view (A) and an external view of the tip (B) of an endoscope with a fiber protection tube inserted therein.

FIG. 11 is a sectional view of a gripping tool having a gripping portion.

[Explanation of symbols]

1 Fiber protection tube 10 Sealing part 2 Laser fiber 22 Fiber cladding tube 3 Laser oscillator 4 Protection tube fixture 5 Gripping tool

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[Procedural amendment]

[Submission date] June 4, 1992

[Procedural amendment 2]

[Name of document to be amended] Specification

[Name of item to be corrected] Brief explanation of the drawing

[Correction method] Change

[Correction details]

[Brief explanation of drawings]

FIG. 1 is a schematic diagram of a laser treatment device.

FIG. 2 is a sectional view of the laser fiber tip side and the fiber protection tube.

FIG. 3 is a sectional view of the laser fiber tip side and the fiber protection tube.

FIG. 4 is a diagram similar to FIG. 2 of another embodiment.

FIG. 5 is an external view of the extended gripper.

FIG. 6 is an external view of a gripping tool having a gripping portion.

FIG. 7 is a view similar to FIG. 6 of another embodiment of a gripping tool having a gripping portion.

FIG. 8 is a cross-sectional view of a gripping tool with a suction cup.

FIG. 9 is a sectional view of a handpiece type laser treatment device.

FIG. 10 is a longitudinal sectional view (A) and an external view of the tip (B) of an endoscope with a fiber protection tube inserted therein.

FIG. 11 is a sectional view of a gripping tool having a gripping portion.

[ Fig. 12 ] Longitudinal cross section of main parts in yet another embodiment of the present invention
figure.

[ Figure 13 ] Development of this invention in laser irradiation into the ear cavity
FIG. 2 is a vertical sectional view of main parts showing an example.

[Explanation of symbols] 1 Fiber protection tube 10 Sealing part 2 Laser fiber 22 Fiber cladding tube 3 Laser oscillator 4 Protection tube fixture 5 Gripping tool

[Procedural amendment 3]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 4

[Correction method] Change

[Correction details]

[Figure 4]

[Procedural amendment 4]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 8

[Correction method] Change

[Correction details]

[Figure 8]

[Procedural amendment 5]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 9

[Correction method] Change

[Correction details]

[Figure 9]

[Procedural amendment 6]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 11

[Correction method] Change

[Correction details]

[Figure 11]

[Procedural amendment 7]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 12

[Correction method] Added

[Correction details]

[Figure 12]

[Procedural amendment 8]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 13

[Correction method] Added

[Correction details]

[Figure 13]

Claims (6)

[Scope of utility model registration request] 1. A fiber protection tube for a laser treatment device, which comprises a flexible tube into which the tip of a laser fiber is detachably inserted, and a translucent sealed end attached to the tip of the flexible tube. 2. A low-power laser oscillator, a flexible laser fiber that guides laser light from the laser oscillator, a flexible tube that is detachably inserted into the tip of the laser fiber, and a flexible tube that is detachably inserted into the tip of the laser fiber. A laser treatment device comprising a fiber protection tube including a translucent sealed end attached to the tip, and a fixture for fixing the laser fiber and the fiber protection tube. [Claim 3] The laser treatment device has a device main body that accommodates the low-power laser oscillator and the rear side of the laser fiber and is operable to hold the device, and the front side of the laser fiber is provided with the fixing device. 3. The laser treatment device according to claim 2, which extends from the distal end of the device main body. 4. The fiber protection tube according to claim 1, or the laser treatment device according to claim 2 or 3, wherein the transparent sealed end is attached integrally or separately to the distal end of the flexible tube. 5. The laser treatment device according to claim 2, further comprising a gripping tool movably fixed to the outer periphery of the fiber protection tube in the axial direction thereof. [Claim 6] Claim 2, wherein the fixing tool also serves as a gripping tool.
The laser treatment device described.