ITRM20090071A1 - SLOT LAMP WITH LASER OUTPUT - Google Patents

Description

SLIT LAMP WITH LASER OUTPUT

DESCRIPTION

The present invention relates to the field of ophthalmology equipment for therapeutic and diagnostic applications of various types of the eye.

Among the known apparatuses, slit lamps integrated with a laser output, used in particular for treatments of the retina, the cornea, the crystalline have a wide application.

Such a lamp generally comprises a microscope for viewing by the medical operator, an illumination system and a laser applicator with a pointing system. On the other hand, various models and construction concepts are available on the market, with the laser system which sometimes provides for the use of an external source and accessory to the lamp, or is integrated into the microscope or illumination unit. If we examine the various configurations we realize that most of these do not help the medical operator in a completely satisfactory way to have a constant vision of the area to be operated on, especially when using additional lenses for the background view of the eye.

The operator, using the microscope for viewing, needs to be able to move the laser beam with small movements, without losing control of its position, and therefore the lighting must perfectly follow the same aim as the laser. If in order to minimize the lights reflected by the eye's optical system, the operator must narrow the lighting to obtain a thin beam of light, this must perfectly follow the movement of the laser projection in order not to lose the frame. In the case of a laser attached to the microscope, internal or external to it, the lighting is projected and managed independently of the laser. This means that, in some working conditions, the laser projection can leave the illumination field causing you to lose control of the operation.

The configuration with the laser inserted in the lighting unit and combined with it is more effective. In this case, however, the fact that there is a laser bending mirror (to deflect the radiation towards the eye) separate from the illumination mirror means that, albeit to a lesser extent, the same problem occurs as in the previous configuration.

It was therefore proposed (see for example the optical configuration adopted in the apparatus referred to in US patent US6872202) to use a single folding mirror for lighting and for the laser. However, in this way there is the drawback of having to use a beam splitter for mixing the laser-light projection beams. The presence of the beam splitter involves a considerable loss of power on both channels, to compensate for which the input powers must be considerably increased.

The purpose of the invention is to overcome the problems set out above by providing a slit lamp with laser output which, through an innovative optical configuration, allows the medical operator to follow the laser perfectly and reliably even with subtle illumination. slit shape, thanks to the use of a single projection mirror for the two mutually associated laser and lighting channels, simultaneously having one or more independent laser channels that converge in the same focus point without losing power from the original source.

This object is achieved by the slit lamp with laser output according to the present invention, the essential characteristics of which are defined by the first of the appended claims.

The characteristics and advantages of the slit lamp with laser output according to the present invention will become clearer from the following description of an embodiment thereof, given by way of non-limiting example, with reference to the attached drawings in which:

- figure 1 shows a representative diagram of the optical configuration of the lamp according to the invention;

Figure 2 is a schematic front view, with representation of the laser projection and illumination beams, of a projection lens of the lamp according to the invention;

- figure 3 is a diagram similar to that of figure 1, relating to a variant embodiment of the lamp according to the invention; And

- Figures 4 and 5 show, through diagrams similar to those of Figures 1 and 2, a further variant embodiment of the lamp according to the invention.

With reference to said figures, a slit lamp according to the present invention has overall constructive characteristics which can be drawn from what is already available in the known art, which are neither illustrated nor described in detail. Moreover, the invention relates directly only to the optical configuration of the laser system and the lighting system, mutually associated as in the known systems with a single folding mirror, but in an innovative way with respect to them. This optical configuration is precisely shown schematically, for a first embodiment, in Figures 1 and 2.

According to the invention, at least two projection beams are provided, indicated by respective axes 4 and 11, positioned parallel to each other and to the optical axis 10 of a main objective 2.

The projection channel of the illumination light, indicated precisely by axis 4, which serves for the vision of the area to be treated, comprises, in a conventional way in itself: a light source 7, a group of condenser lenses 6, and a mechanical diaphragm system 5.

The laser projection channel, indicated in turn by axis 11, also conventionally provides, also in this case, a laser source 8 and an optical unit 9 with zoom system or with fixed optics that allow the magnification of the source itself to be varied. .

Both channels further comprise, respectively downstream of the diaphragm 5 and of the optical group 9, shooting lenses 3 and 12 suitable for transforming the respective projections into configurations of parallel rays (ie with focus at infinity). In particular, as regards the laser channel, the focal length of the shooting lens 12 takes up the focal point 91 of the laser beam produced by the optical unit 9.

The aforementioned main projection objective 2 has dimensions such as to allow it to receive the dimensions of the various projection beams, such as those 41 and 111 deriving from axes 4 and 11, side by side and mutually disjoint. Objective 2, according to optimization criteria (of intrinsic and position characteristics) obvious to an expert in the art, is configured in such a way as to project the parallel projection beams received from the input channels in a single and single focal point 131 on an eye 13 of a patient.

For this purpose, a single folding mirror 1 is also provided for the projection of the various beams leaving the main objective 2, so as to allow the system to be modeled for a characteristic slit lamp configuration. The mirror 1 is operated by an electric or manual mechanism 102, also here according to already known solutions, to provide for the orientation (the so-called "tilt") of the mirror itself. The center of the tilt movement of the mirror, indicated by 101, is positioned at the intersection between the surface of the mirror 1 and the main optical axis 10, so as not to have variations in focus between the various projection beams. The tilt movement allows you to vary the position of the projection on eye 13 and therefore offers the operator the ability to select the area to be treated.

As can also be seen from Figure 2, the objective 2 will be designed in relation to the dimensions, positions and number of the projection beams, such as the beams 41 and 111, which are intended to pass through it, it being evident that the projection of these beams it must be completely circumscribed by the perimeter of the objective.

It is clear that the basic configuration described above for Figure 1 can, where necessary, be integrated by further optical systems according to requirements. With reference for example to Figure 3 (in which indices equal to those already used for Figure 1 indicate, respectively, the same components), an optical prism 14 can be provided to deflect the illumination beam entering the main objective 2, allowing a greater distance between the two channels and therefore to adapt the optical system to the required mechanical dimensions.

It is evident from the foregoing that, according to the invention, an integrated slit lamp with laser projection channels is provided which allows the areas to be treated to be inspected with the classic lighting and vision systems typical of this type of apparatus. During this inspection, the operator has one or more laser projections at his disposal that allow him to perform various types of treatment while always having good lighting of the area to be operated on.

On the other hand, since the lighting and laser projection is achieved by means of a single lens (and therefore a single projection axis), and through a single adjustable mirror that allows for a simple control of micro-displacements, the movement of the mirror , hinged in its fulcrum, does not change the centering and focus of the various projection channels.

A system with these characteristics does not require optical elements such as dichroic foils or beam splitter for the fusion of several projection channels into a single optical axis, so there is no loss of power either in the lighting channel or in the various power channels. laser, maintaining the original energies. Therefore, there are all the advantages of combining laser channels and single mirror lighting without the drawback of energy dispersion, so that cheaper and lower consumption sources can be used.

As already clarified, within the same configuration concept that provides for a single point of focus and convergence of the projection beams deriving from the focusing of a single large objective common to all the projection beams that cross it, even more than two channels. Additional optical channels can for example be used to have other laser sources available which allow to perform different types of operations, thus achieving further integration of several instruments in a single apparatus. In this regard, it should be borne in mind that in order to perform different operations on different areas of the eye, different lasers are required, that is, with different wavelengths. One of these channels can also be used as a projection of a reference target for the other lasers.

With reference also to figures 4 and 5, in which again the numerical indices remain consistent with those already used for the previous figures, the invention can also be applied in the context of, and in association with, a shooting system video. The channels placed upstream of lens 2 can in fact be not only "OUT" projection channels but also "IN" reception channels. By inserting a channel 15 with a suitable optical system 16 and positioning an image sensor 17, such as a CCD, on the focus of the lens, it is possible to film or photograph the treated area directly with the same projection angle. This point of view, schematized by the shooting beam 151 represented in Figure 5, differs from the normal shot taken through a microscope for the angle with which the shot itself is taken, providing the operator with different and additional information.

The present invention has been described up to now with reference to a preferred embodiment. It is to be understood that there may be other embodiments that pertain to the same inventive core, as defined by the scope of the claims set out below.

Claims (8)

CLAIMS 1. Slit lamp comprising at least one illumination channel (4) and a laser channel (11) incident on a single bending mirror (1) towards an eye (13) of a patient, characterized in that said channels are arranged in side by side and affect main optical means (2), arranged upstream of said mirror (1), able to receive at the input from said channels beams (41, 111) mutually disjoint with focus at infinity, and to project towards said mirror (1) beams able to converge on a single focus point (131) in said eye (13). 2. Lamp according to claim 1, wherein said optical means (2) comprise a main objective (2) defining a main optical axis (10), of dimensions suitable for allowing the reception of said input beams (41, 111), flanked and separated parallel to said main optical axis, without escaping from the perimeter of the lens itself. 3. Lamp according to any one of the preceding claims, wherein said channels comprise respective shooting objectives (3, 12) adapted to transform the respective projections into parallel beam beams (41, 111), ie with infinity focus. Lamp according to any one of the preceding claims, wherein said at least one lighting channel (4) comprises deflection optical means (14) adapted to deflect the incoming lighting beam onto said main optical means (2), so as to increase the spacing from the at least one other channel. 5. Lamp according to any one of the preceding claims, comprising at least two laser channels at mutually different frequencies. 6. Lamp according to any one of the preceding claims, comprising at least two laser channels, one of which can be used as a projection of a reference aiming for the at least one other laser channel. 7. Lamp according to any one of the preceding claims, wherein said channels further comprise at least one receiving channel (15) comprising image sensor means (17) and optical means (16) adapted to focus a beam on said sensor means (17) shooting (151) with infinity focus obtained from said main optical means (2). 8. Lamp according to any one of the preceding claims, wherein said mirror (1) is orientable around a center of rotation (101) positioned at the intersection between the surface of the mirror itself and the main optical axis (10) defined by said main optical means (2), actuation means (102) being provided for controlling the movement of said mirror (1).