FI79461C - LASER OPERATION FOR OEGONOPERATIONER. - Google Patents

Description

1 79461

LASER OPERATION LASER EQUIPMENT - LASERANLÄGGNING FÖR ÖGON-OPERATIONER

The invention relates to an ophthalmic laser apparatus as defined in the preamble of claim 1. The apparatus according to the invention is intended mainly for the treatment of a clouded posterior capsule after the installation of a contact lens, for the treatment of green cataracts by means of pressure cutting between the anterior chamber and the posterior chamber, and for cutting tendons and the like in a vitreous.

In artificial lens cuts, the artificial lens is mounted on a line between the front and rear chambers in front of the rear capsule.

10 In most cases, up to 95% of the posterior capsule becomes cloudy after surgery in the so-called jälkikaihiksi. Post-cataracts are treated with posterior capsule surgery, i.e. by bombarding the back capsule with a laser beam at the point of clouding. The power density 12 2 of the laser beam is very high at the focal point, of the order of 10 W / cm. 15 The high power density causes the formation of a plasma, which tends to travel in the direction of the laser beam, i. in the direction of the artificial lens. In an artificial lens, the plasma often causes damage, even cracking of the lens. The result, of course, is in many cases a new artificial lens cut and the installation of 20 new lenses.

It is an object of the present invention to obviate the above drawback. It is a further object of the invention to provide an ophthalmic laser apparatus with which posterior capsule surgery can be performed without damaging the artificial lens.

With regard to the features characteristic of the invention, reference is made to the claims.

Thanks to the invention, the focal point of the laser beam of the cutting laser can be adjusted relative to the focal point of the laser beam of the sight laser, suitably behind the latter when viewed from the eyepiece of the slit lamp. In this case, the power of the plasma generated by the surgical laser beam in the posterior capsule or inside the eye is attenuated before it hits the artificial lens, 2 79461 and no damage is caused to the artificial lens.

The invention will now be described in detail by way of example with reference to the accompanying drawing, in which Figure 1 is a schematic side view of a slit lamp according to the invention, and Figures 2a-b show focusing an incision laser beam and a sight laser beam in the eye.

Figure 1 shows an ophthalmic laser apparatus according to the invention, which comprises a conventional slit lamp 1, i.e. a corneal microscope. The lens system 2 1 2 of the slit lamp 1 comprises e.g. lens 2 and eyepiece 2; the optical axis is indicated by the reference number 3. A cutting laser 4 15 is connected to the slit lamp, the laser beam 5 formed by which is brought to the optical axis 3 of the slit lamp 1 by reflection, i. by means of a dielectric mirror 21. The apparatus further comprises a sight laser 6, the laser beam 7 formed by which is introduced into the optical axis 3 of the slit lamp 1 by means of a reflecting mirror 14.

20 Thus, mirrors 21 et seq. 14 rotate the laser beams coming from the side, suitably at an angle of 90 ° to the optical axis of the slit lamp, and focus after the lens 2 ^ mainly on the focal point 10 of the lens.

According to the invention, the apparatus is provided with an adjusting device 8 for freely adjusting the focal point 9 of the laser beam 5 of the cutting laser 4, i. to the focal point 10 of the slit lamp and to the focal point 11 of the laser beam of the sight laser, in an indistinguishable manner, suitably seen from behind the latter 2 from the eyepiece 2.

Thanks to the invention, now referring to Fig. 2a, the focal point 9 of the cutting laser beam 5 can be directed to the rear of the focal point 11 of the sight beam 7 at a distance α, e.g. 0.1-1 mm to the rear of the focal point of the sight beam. In this case, when the shear laser beam is fired and it causes the formation of plasma 35 inside the eye, the plasma cannot damage the lens of the eye 31. In Fig. 2a, the focal point 11 and the focal point 10 of the slit lamp 7 are aligned.

Figure 1 shows the reflection of the laser beam 7 of the sight laser 6 on the optical axis of the slit lamp 1. Asymmetrical with respect to a straight line 13 (perpendicular to the plane of the paper in the figure) placed on said axis and perpendicular to the axis, shaded asymmetrically in the embodiment shown. In this case, the beam of the aiming laser visible through the slit lamp at the cutting object indicates the position of the target with respect to the focal point 11 of the aiming laser beam with its asymmetry depth. The situation is shown in Figure 2b. With the target A located in front of the focal point 11 2 of the laser beam of the sighting laser as seen from the eyepiece 2 and the sighting sight.

upon arrival at the subject, the aiming beam forms an asymmetry of the image of the shaded mirror 14 of the image 14, corresponding to the asymmetry of the light reflected from the mirror 14. When the object is located at the focal point 11, the sight 2 is correspondingly shown as a point viewed through the eyepiece 2, a diameter of e.g. 50 μm. With the object located behind the focal point 2 11, the aiming beam forms a mirror on the target-20 of Fig. 14 with the image asymmetry inverted, in Fig. 2b a slit 16 of annular cross-section with an annular direction facing upwards; in the mirror 14 and in the figure in front of the focal point 11, said gap is turned downwards.

The annular shape shown in Figures 1 and 2b, intended for the reflection of the target beam 7 asymmetrically. a shaded mirror 14 is particularly preferred. In this case, too. the sight beam consists of a beam arranged in the shape of a ring, and the reflections from outside the focus area, e.g. from the surface of the eye or from the contact glass, are negligible because when viewed through the eyepiece through said annular mirror. At the same time, the focus is very precise.

In the application shown in Fig. 1, the control device 8 of the focal point 9 of the cutting laser beam 5 consists of a radially displaceable, i.e. adjustable lens.

79461 4

The shear laser shown in Figure 1 consists of an Nd-YAG laser with a wavelength of 1064 nm. The laser device is of the Q-coupled and integrated type, i.e. the crystal 18 belonging to the laser, the laser mirrors 19 and the excitation light source 20 are packed 5 in a tight, tuning-retaining whole.

i *

• I

ί i

Claims (7)

An ophthalmic laser apparatus comprising a slit lamp (1) with lens systems (2) and optical shafts (3), a shear laser (4) connected thereto, the laser beam (5) formed by the shear laser being brought to the optical axis of the slit lamp, and a sight laser (6), characterized by a laser beam (7) applied to the optical axis of the slit lamp, the apparatus being mainly for the treatment of a clouded posterior capsule after contact lens contact, for green cataracts by pressure surgery between the anterior chamber 10 and the posterior chamber and for cutting tendons and the like in a vitreous, adjusting device (8) for adjusting the focal point (9) of the laser beam (5) of the cutting laser (4) independently of the focal point 15 (11) of the aiming laser beam (7) behind the latter. Apparatus according to claim 1, characterized in that the laser beam (7) of the sight laser (6) is reflected on the optical axis (3) of the slit lamp (1) by means of a mirror (14) asymmetrical with respect to said optical axis and perpendicular to the axis 20. so that the sight laser light visible through the slit lamp at the cutting object indicates with its asymmetry the position of the target with respect to the focal point (11) of the laser sight of the sight laser. | ‘- 25 Apparatus according to claim 2, characterized in that the asymmetrically shaded mirror (14) is substantially annular, comprising an aperture point (15), the optical axis (3) of the slit lamp (1) being located in the region of the aperture point. Apparatus according to claim 3, characterized in that an annular gap (16) is formed in the annular part of the annular mirror (14), which causes an asymmetry of the sight beam. 5 from the HeNe laser. Apparatus 6 79461 according to one of Claims 1 to 4, characterized in that the shear laser (4) consists of an Nd-YAG laser. 5 79461 Apparatus according to Claim 5, characterized in that the aiming laser (6) is formed Apparatus according to claim 6, characterized in that the cutting laser (4) is of the integrated type, i. the crystal (18), the laser mirrors (19) and the excitation light source (20) included in the laser are packed in a tight, tuning-preserving whole. 7 79461