JP2000245767A - Laser treatment device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate labor of the light quantity adjustment and a treating laser output adjustment when changing a spot diameter of the aiming light by changing the spot diameter of the aiming light and a treating laser beam applied to a lesion part, and adjusting irradiating light quantity of the aiming light according to the changed spot diameter. SOLUTION: An operator observes the eyerground irradiated by the illumination light from an illumination optical system 40 through an observation optical system 50. The aiming light is applied, and a safety shutter 21 is separated from an optical path, and output of a laser beam from a semiconductor laser 18 is adjusted to obtain power density of a preset brightness level. A spot diameter of the aiming light is changed according to a lesion part to decide a laser irradiating range. At this time, output of the semiconductor laser 18 is adjusted so that the power density becomes the same even if the spot diameter is changed. A separate safety shutter 14 is separated from the optical path, and a treating laser beam is emitted from a laser beam source 10 to be applied to the lasion part of a patient eye via an irradiation optical system 30, etc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a laser treatment apparatus which performs treatment by irradiating an affected part with a treatment laser beam from a laser light source.

[0002]

2. Description of the Related Art In a laser treatment apparatus for performing photocoagulation or the like of a fundus,
The irradiation position of the treatment laser light while observing the aiming light,
Determine the irradiation range. That is, the laser irradiation optical system of the apparatus is configured so that the optical axis of the laser irradiation and the aiming optical axis are the same, and the spot diameter indicating the irradiation range and the spot diameter of the aiming light have the same size. It is configured to be.

[0003]

When aiming an affected part with aiming light, the surgeon changes the spot diameter of the aiming light to a desired size according to the affected part, but it is observed that the spot diameter is changed. The brightness of the aiming light also changes. For this reason, conventionally, every time the spot diameter is changed, it is necessary to adjust the brightness of the aiming light to a brightness that is easy to observe by operating the light amount adjustment switch, which is troublesome.

When irradiating a treatment laser beam, the laser output is set according to the purpose of the treatment. However, if the spot diameter is changed, the laser output per unit area irradiated to the affected part changes. Since the therapeutic effect depends on the laser output per unit area, it is necessary to reset the laser output every time the spot diameter is changed, which is troublesome. Conventionally, the laser output has been expressed as the power of the entire irradiation unit. Therefore, it is necessary to have experience to change the power of the entire irradiation unit to a desired laser output value per unit area while changing the spot diameter.

SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide a laser treatment apparatus capable of performing an operation efficiently without changing the amount of light or adjusting the treatment laser output when changing the spot diameter of aiming light. I do.

[0006]

Means for Solving the Problems In order to solve the above problems, the present invention is characterized by having the following configuration.

(1) In a laser treatment apparatus for performing treatment by irradiating a treatment laser beam to an affected part, an aiming light source for emitting aiming light for aiming at the affected part, and the aiming light and the treatment laser light being transmitted to the affected part. An irradiation optical system for irradiating the affected part, a spot diameter changing means for changing the spot diameter of the aiming light and the treatment laser light irradiated to the affected part,
Light amount adjusting means for adjusting the irradiation light amount of the aiming light according to the spot diameter changed by the spot diameter changing means.

(2) The laser treatment apparatus according to (1), further comprising a light quantity setting means for variably setting the light quantity of the aiming light, wherein the light quantity adjusting means changes the spot diameter per unit area changed by the spot diameter changing means. The light amount is adjusted so that the light amount becomes a light amount set in advance by the light amount setting means.

(3) The laser treatment apparatus according to (1), further comprising light quantity setting means for variably setting the light quantity per unit area of the aiming light applied to the affected part, wherein the light quantity adjusting means is preset by the light quantity setting means. The output of the aiming light source is determined based on the amount of light per unit area to be measured and the spot diameter changed by the spot diameter changing means, and drive control is performed.

(4) The laser treatment apparatus according to any one of (1) to (3), further comprising a laser output setting means for variably setting the output of the treatment laser light, and a spot diameter changed by the spot diameter changing means. And a laser output adjusting means for adjusting the laser output per unit area to an output preset by the laser output setting means.

(5) In the laser treatment apparatus according to (1), the spot diameter changing means is means for moving a variable power lens arranged on the optical axis of the irradiation optical system in the optical axis direction, and Is obtained based on the movement of the zoom lens.

(6) In a laser treatment apparatus for performing treatment by irradiating a treatment laser beam to a diseased part, an irradiation optical system for irradiating the treatment laser light to the diseased part and a spot diameter of the treatment laser light irradiated to the diseased part are changed. Means for changing the spot diameter,
A laser output setting means for variably setting the output per unit area of the treatment laser light; and a laser output per unit area of the spot diameter changed by the spot diameter changing means, the laser output being preset by the laser output setting means. And a laser output adjusting means for adjusting the output.

(7) The laser output setting means of (6)
Output unit switching means for switching a set laser output value to either a laser output value per unit area or a laser output value applied to the entire irradiation unit, and a display for displaying the set output value of the treatment laser light Means.

[0014]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing an external view of a laser photocoagulation device.

Reference numeral 1 denotes a laser device main body. Reference numeral 2 denotes a control unit for setting and inputting laser irradiation output conditions, output of aiming light, and the like. Reference numeral 3 denotes a slit lamp delivery including an irradiation optical system 30, an illumination optical system 40, and an observation optical system 50 described later. This is a fiber cable for guiding the treatment laser light or aiming light from the main body 1 to the slit lamp delivery 3. Reference numeral 5 denotes an adjustment knob that is installed on the slit lamp delivery 3 and that adjusts the size of the spot diameter of the aiming light and the treatment laser light. Reference numeral 6 denotes a foot switch for transmitting a trigger signal for laser irradiation. Reference numeral 7 denotes a joystick for moving the slit lamp delivery 3.

FIG. 2 is a diagram showing an optical system of the laser photocoagulation apparatus. Reference numeral 10 denotes a treatment laser light source. In this embodiment,
From a Nd: YAG laser that oscillates a fundamental wave of 1064 nm,
One that obtains green light that is the second harmonic (532 nm linearly polarized light) is used. Reference numeral 11 denotes a beam splitter that transmits most of the laser light from the treatment laser light source 10 and reflects part of the laser light. The treatment laser light reflected by the beam splitter 11 enters the output sensor 13 via the diffusion plate 12. The output sensor 13 detects the output of the laser light emitted from the treatment laser light source 10.

Reference numeral 14 denotes a first safety shutter. When the foot switch 6 is depressed and an instruction to irradiate the therapeutic laser beam is issued, the shutter is driven off by the shutter driving device 71 to pass the laser beam. In addition, it is inserted into the optical path in the case of occurrence of an abnormality or the like to cut off the laser beam.
The opening and closing of the first safety shutter 14 is performed by the shutter sensor 1.
4a.

Reference numeral 18 denotes a semiconductor laser for aiming. The semiconductor laser 18 emits 630 nm red light. The laser light emitted from the semiconductor laser 18 passes through a collimator lens 19 and is made coaxial with the treatment laser light by a dichroic mirror 20.

Reference numeral 21 denotes a second safety shutter. Opening and closing of the second safety shutter 21 is detected by a shutter sensor 21a. A condensing lens 22 condenses each laser beam on the incident end face 4a of the optical fiber 4 and makes it incident. Each laser beam guided by the optical fiber 4 is guided to the irradiation optical system 30 of the slit lamp delivery 3.

The irradiation optical system 30 includes a collimator lens 31,
A variable power lens 32, an objective lens 33, and a drive mirror 34 are provided. The variable power lens 32 moves in the optical axis direction by using the adjustment knob 5 described above, and changes the spot diameter of the laser light (the treatment laser light and the aiming light). The spot diameter is detected by detecting the driving amount of the adjustment knob 5 with a potentiometer 5a (see FIG. 4) in advance. In addition, the operating angle of the drive mirror 34 can be freely changed by the operator operating a manipulator (not shown), and the irradiation position can be finely changed.

Reference numeral 40 denotes an illumination optical system. The visible light emitted from the illumination light source 41 is transmitted through a condenser lens 42, and its height is determined by a variable circular aperture 43 and its width is determined by a variable slit plate 44. It is formed into a light beam. After that, the slit illumination light passing through the variable slit plate 44 passes through the filter 45 and the projection lens 46,
The light is reflected by the split mirrors 48 a and 48 b and illuminates the patient's eye E via the contact lens 49. 47 is a correction lens.

Reference numeral 50 denotes an observation optical system. Observation optical system 50
Is an objective lens 51 shared by the left and right observation optical paths, a variable power lens 52 disposed on each of the left and right optical paths, and an imaging lens 5.
3. Upright prism 54, field stop 55, eyepiece 5
6. An operator protection filter 57 is provided.

FIG. 3 is a diagram showing the details of the control unit 2. Reference numeral 60 denotes a counter display unit for displaying the number of irradiations of the treatment laser beam, and reference numeral 61 denotes a spot diameter display unit for displaying the spot diameter. The spot diameter is 10 between 50 and 500 μm.
It can be changed by μm. Reference numeral 62 denotes a time display section for displaying the irradiation time.
4 is performed. Reference numeral 63 denotes an output display unit for displaying the irradiation output of the treatment laser beam. The setting of the irradiation output is performed by the POWER switch 65. As a method for setting and displaying the output of the treatment laser beam, the output can be switched from the normal mW output to W / cm ² indicating the output per unit area. This switching is performed by the switch 69. An aiming switch 66 is used for adjusting the brightness (output adjustment) of the aiming light. The selected degree of brightness is displayed on the bar graph 67 at eight levels. The brightness level displayed on the bar graph 67 indicates the output per unit area of the irradiated aiming light (hereinafter referred to as power density). Reference numeral 68 denotes a STATUS switch for switching between enabling and disabling treatment laser beam irradiation.

In the apparatus having the above configuration,
The operation will be described with reference to a block diagram showing a control system in FIG.

The operator observes the fundus illuminated by the illumination light from the illumination optical system 40 through the observation optical system 50. The aiming light is turned on by the aiming switch 66. When the setting is made to irradiate the aiming light, the control unit 70 drives the shutter driving device 72,
The second safety shutter 21 is released from the optical path.

The surgeon operates the joystick 7 and a manipulator (not shown) to adjust the position to the affected part while observing the aiming light emitted to the fundus. At this time, a desired level is set using the aiming switch 66 so that the brightness of the aiming light observed at this time is easy to see. When the brightness level is changed, the control unit 70 adjusts the output of the laser beam from the semiconductor laser 18 in accordance with the change, so that the power density of the set brightness level can be obtained.

Further, in order to determine the laser irradiation range, the operator changes the spot diameter of the aiming light to a desired size according to the affected part by using the adjustment knob 5. When the adjustment knob 5 is turned, the driving amount is detected by the potentiometer 5a, and the detection signal is input to the control unit 70. Control unit 7
0 indicates the size of the spot diameter from the input signal.
1 is displayed. At the same time, the control unit 7 sets the power density of the aiming light to the brightness level set previously.
0 adjusts the output of the laser light from the semiconductor laser 18.

Here, the output of the laser light emitted from the semiconductor laser 18 is P, the power density of the aiming light is A,
Assuming that the irradiation area determined by the spot diameter is S, these relations are P = A × S. Therefore, if the brightness level is set by the aiming switch 66, the power density (A) is determined. If the size of the spot diameter is set, the irradiation area (S) is determined. Therefore, the above-described relational expression P = A × S Thus, the output (P) of the laser light to be emitted from the semiconductor laser 18 is determined. The control unit 70 controls the driving of the semiconductor laser 18 so as to obtain the laser output value determined based on these. Even if the spot diameter is changed in this manner, the output of the semiconductor laser 18 is adjusted so that the power density becomes the same, so that the observed brightness of the aiming light does not change.
As a result, it is not necessary to adjust the brightness of the aiming light every time the spot diameter is changed.

In addition to changing the spot diameter, the operator sets irradiation conditions such as the irradiation output of the treatment laser beam and the irradiation time by using various switches of the control unit 2. When the preparation for the treatment laser irradiation is completed, the switch 68 is used to make the treatment laser beam ready for irradiation, and a manipulator (not shown) is operated to finely adjust the aiming of the affected part. When the aiming is completed, the foot switch 6 is depressed to perform laser irradiation. The control unit 70 is a foot switch 6
When a laser irradiation signal is received from the camera, the shutter driving device 71 is driven to release the first safety shutter 14 from the optical path, and the laser light source 10 emits therapeutic laser light.
The treatment laser light is guided to the optical system of the apparatus main body 1, the optical fiber 4, and the irradiation optical system 30, and is irradiated to the affected part of the patient's eye.

Further, when performing laser irradiation while changing the spot diameter at the next irradiation position, the surgeon uses the adjustment knob 5 as described above to adjust the spot diameter of the aiming light according to the state of the irradiation position. Change the size of As described above, the control unit 70 controls the semiconductor laser 18 based on the above relational expression.
The output of the laser light emitted from the device is adjusted. In this way, even if the spot diameter needs to be changed at the next irradiation position, the brightness of the aiming light is automatically maintained at the initially set level, so the surgeon needs to operate the switch again. Accordingly, the operation can be performed in an easily viewable state without setting the output of the aiming light.

As described above, regardless of the change in the spot diameter of the aiming light, the power density is automatically adjusted so as to be maintained at the initially set level. (Power density) can also be automatically adjusted to a set value irrespective of a change in spot diameter. In this case, after the setting and display of the laser output are switched to the W / cm ² system by the switch 69,
The desired value is set by the OWER switch 65. In the same manner as the above-described output adjustment of the aiming light, the control unit 70 can obtain the output per set unit area even if the spot diameter is changed by the adjustment knob 5.
The drive of the treatment laser light source 10 is controlled. Thus, even if the spot diameter changes, the surgeon does not need to reset the laser output for treatment, so that the burden on the surgeon can be reduced and the operation can be performed efficiently.

The switch 69 is used not only for switching the method of setting the laser output, but also for setting the laser output in W (mW) as in the prior art, and switching the switch 69 to a desired value. It is also conceivable to use it only to check whether the power density has been reached.

In the above embodiment, the light source of the aiming light and the light source of the treatment laser light are provided separately.
The present invention can also be implemented with a laser treatment apparatus of a type that obtains treatment laser light and aiming light from the same light source.

[0034]

As described above, according to the present invention,
It is not necessary to set the aiming light brightness setting and the treatment laser light output setting each time the spot diameter changes,
Surgery can be performed efficiently.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an appearance of an apparatus main body.

FIG. 2 is a diagram illustrating an optical system.

FIG. 3 is a diagram showing details of a control unit 2.

FIG. 4 is a block diagram showing a control system.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 laser device main body 2 control section 5 adjustment knob 6 foot switch 7 joystick 30 irradiation optical system 65 POWER switch 66 aiming switch 67 bar graph 69 switch

Claims (7)

[Claims] 1. A laser treatment apparatus for performing treatment by irradiating an affected part with a treatment laser beam, an aiming light source for emitting aiming light for aiming at the affected part, and the aiming light and the treatment laser light to the affected part. Irradiation optical system for irradiation, spot diameter changing means for changing the spot diameter of aiming light and treatment laser light to be irradiated on the affected part, and irradiation light amount of the aiming light according to the spot diameter changed by the spot diameter changing means Light amount adjusting means for adjusting
A laser treatment apparatus comprising: 2. The laser treatment apparatus according to claim 1, further comprising a light quantity setting means for variably setting a light quantity of said aiming light, wherein said light quantity adjusting means changes a spot diameter per unit area by said spot diameter changing means. A laser treatment apparatus wherein the light amount is adjusted so as to be a light amount preset by the light amount setting means. 3. The laser treatment apparatus according to claim 1, further comprising a light quantity setting means for variably setting a light quantity per unit area of the aiming light to be applied to the affected part, wherein the light quantity adjusting means is preset by the light quantity setting means. A laser treatment apparatus for determining the output of the aiming light source based on the light amount per unit area and the spot diameter changed by the spot diameter changing means, and controlling the driving. 4. The laser treatment apparatus according to claim 1, further comprising: a laser output setting means for variably setting an output of said treatment laser light; and a unit area of a spot diameter changed by said spot diameter changing means. And a laser output adjusting means for adjusting a laser output per hit to an output preset by said laser output setting means. 5. The laser treatment apparatus according to claim 1, wherein said spot diameter changing means is means for moving a variable power lens disposed on an optical axis of said irradiation optical system in an optical axis direction. A laser treatment apparatus obtained based on the movement of the variable power lens. 6. A laser treatment apparatus for irradiating a treatment laser beam to an affected part to perform treatment, wherein an irradiation optical system for irradiating the treatment laser light to the affected part and a spot diameter of the treatment laser light irradiated to the affected part are changed. A spot diameter changing means, a laser output setting means for variably setting an output per unit area of the treatment laser light, and a laser output per unit area of the spot diameter changed by the spot diameter changing means being the laser output setting means. And a laser output adjusting means for adjusting the laser output to a preset laser output. 7. The laser output setting means according to claim 6, wherein the output unit switching means switches the laser output value to be set to one of a laser output value per unit area and a laser output value applied to the entire irradiation unit. Display means for displaying the set output value of the treatment laser light.