The invention relates to an apparatus for cutting a tissue part out of a tissue with focused laser radiation. In particular, the apparatus relates to the cutting of a so-called flap out of the cornea of an eye in the course of refractive surgery, in particular LASIK. The invention will be elucidated in more detail in the following with regard to refractive surgery, in particular LASIK. But, in addition to this, the invention can also be employed generally for the purpose of cutting a tissue part out of a tissue by means of focused laser radiation.
In the case of LASIK—that is to say, the now generally known correction of the optical imaging properties of the cornea by means of laser radiation—it is known firstly to cut a so-called flap out of the anterior region of the cornea, whereby a portion of the flap remains connected to the cornea like a hinge, so that the flap can be folded aside for the subsequent ablation of corneal tissue by means of laser radiation. After implementation of the ablation (resection of tissue), the flap is folded back, and a relatively rapid healing takes place, the corneal surface being largely undamaged.
In the state of the art there are principally two different techniques for the production of the flap.
On the one hand, for the cutting of the flap a mechanical so-called microkeratome is employed which cuts into the cornea from the side with a rapidly oscillating cutting edge. In this case a so-called suction ring is mounted onto the eye, which fixes the eye by means of vacuum. This is the state of the art in this regard.
On the other hand, laser radiation is also increasingly being employed for the cutting of the flap—at present, focused laser radiation with pulse lengths within the femtosecond range. In this case the radiation is focused below the anterior surface of the cornea, within the tissue, and the focal points are positioned in the desired surface in such a way that, as a result, a flap is cut out of the cornea. This is well-known in the state of the art as femto LASIK.
With femto LASIK there are, in particular, two embodiment variants:
According to a first embodiment, a separate system consisting of suction ring and lid lock is employed for the purpose of lateral fixation of the eye. A planar (flat) optical plate is impressed for the purpose of levelling the cornea. The stroma is cut two-dimensionally at depth in the manner described above. The marginal incision (that is to say, the positioning of the focal points in the marginal region of the flap) is effected in this case by positioning of the focal points out of the plane as far as the corneal surface. In this case, the focal points reach into the aforementioned planar optical plate which, as a result, is destroyed and consequently constitutes a disposable article.
According to another embodiment of femto LASIK, the planar stromal incision is likewise carried out using a suction ring with an applanation by suction of the eye. In this case, the depth of the incision is defined by a plastic film that is transparent to the laser wavelength and that is situated between the applanation plate and the cornea. In this case too, the plastic film is a disposable article. A special configuration of the edge of the incision is not provided in this case.
The invention has as its objective to make an apparatus available with which a tissue part, in particular a flap, can be cut out of a tissue, in particular the cornea, in simple manner with focused laser radiation. In this connection, in particular the duration of the operation is to be shortened, and the energy introduced for the incision into the eye is to be reduced.
For this purpose the invention makes an apparatus available for cutting a tissue part out of a tissue by means of focused laser radiation, exhibiting the following:
According to the invention, in the case of femto LASIK, for example, for each desired flap diameter and for each desired geometry of the flap a “customised” body, opaque to the laser radiation, in the above sense is selected and is employed with the suction ring. In this case the aforementioned body that is opaque to the laser radiation may have been firmly connected to the suction ring, so that a specific suction ring is procured for the desired shape of the flap in the given case, or the body that is opaque to the laser radiation is detachably connected to the suction ring as an interchangeable part.
The ‘applanation plate’ in the sense of the present invention does not necessarily have to be planar (flat) but may also exhibit a curvature, for example a spherical curvature, depending on the desired incision.
The aforementioned body that is opaque to laser radiation is preferably annular.
Another configuration provides that the body that is opaque to the laser radiation either partly absorbs or entirely absorbs the laser radiation.
Another configuration of the invention provides that the body that is opaque to laser radiation rests on a contact plate which with a sealing surface is capable of being brought into contact with the tissue.
Exemplary embodiments of the invention will be elucidated in more detail in the following on the basis of the drawing. Shown are:
1B and 1C show schematically the conditions in the course of the cutting of a flap 10a in a cornea 10 using focused radiation with pulse lengths within the femtosecond range. The laser wavelength that is used corresponds to the state of the art.
The circular detail K according to
The lateral incision 20 and the corresponding guidance of the focal points of the laser radiation are elaborate and complicated, which also has consequences on the probability of imperfect incisions. The lateral incision at the edge 14 is also time-consuming and gives rise to a relatively high total energy that is introduced into the eye. Both are improved with an apparatus according to
The suction ring 28 has, in a manner known as such, openings 32 for generating an effective but not excessive underpressure in the space 38 in such a manner that the eye is laterally fixed in the suction ring 28. The suction ring 28 further exhibits, in a manner known as such, a connection piece 34, in which a duct 36 leads to a vacuum pump (not shown) which is indicated by reference symbol 46.
The suction ring 28 exhibits a contact plate 44 which bears with a sealing surface 42 against the anterior surface 22 of the cornea 10, so that the space 38 is sealed against the cornea and in said space an underpressure prevails in relation to the external atmosphere.
The surface 18 in which the laser focal points are positioned is represented in
The exemplary embodiment according to
The applanation plate 30 remains undamaged in the course of the operation. The thickness (see
Number | Date | Country | Kind |
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PCT/EP2008/005012 | Jun 2008 | EP | regional |
This application claims priority to internationally filed application PCT/EP2008/005012 filed on Jun. 20, 2008.