NL2001196C2 - Optical coherence tomography apparatus, as well as arrangement with such an apparatus, method for creating an optical coherence tomography image. - Google Patents

Description

P83052NL00

Title: Optical coherence tomography device, as well as setup with such a device, method for creating an optical coherence tomography image

The invention relates to an apparatus for creating an optically coherent tomography image of the back of an eye, wherein a light beam emerging from the apparatus during use has a major axis.

Such an apparatus is used in ophthalmology to obtain an image of, for example, the back of an eye. The emerging light beam from the optical coherence tomography device (OCT device) is reflected by the tissue of the eye. The delay of this reflected light is measured and on the basis thereof the image is arranged.

A disadvantage of the known OCT apparatus is that after certain eye operations it cannot be checked whether a treatment performed during the operation has indeed been successful. This is for instance the case in an operation in connection with macular degeneration in which, among other things, an air bubble is placed in the eye during the operation.

It is an object of the invention to provide an OCT device which counteracts said disadvantages.

To this end, the invention provides an apparatus for creating an optically coherent tomography image of the back of an eye, wherein a light beam emerging from the apparatus during use has a major axis, characterized in that the major axis of the emerging light beam is substantially standing is oriented.

By orienting the main axis of the emerging light beam in a substantially upright position, while the patient's eyes are directed downwards, a good image can be formed of the rear side of the eye. In particular, it can be seen whether, after an operation in connection with macular degeneration, the air bubble introduced into the eye during the operation has landed in the right place in the eye.

Because at least one exit unit of the device is adjustable in height along the main axis, the distance between the eye and the device can be adjusted.

Because at least the exit unit of the device is adjustable in a direction substantially transversely of the main axis, the position of the device relative to the eye can be optimally adjusted in order to be able to form the best possible picture of the device. back of the eye.

Because the device is attached to a standing guide for height adjustment, the distance between the eye and the device can be adjusted in a simple manner.

The invention also relates to an arrangement for creating an optical coherence tomography image of the backside of an eye of a person, comprising an apparatus for creating an optical coherence tomography image of the backside of an eye, wherein an use light beam emerging from the device has a major axis 20, the major axis of the emerging light beam being oriented substantially upright, and further comprising means for supporting a face portion surrounding the eye, the means being oriented substantially horizontally so that the eyes of the person are oriented downwards.

By also providing in the arrangement with an OCT device means for supporting a face part that surrounds the eye, the means being oriented substantially lying down, so that the eyes of the person are oriented downwards, the face part of the person can supported in a stable manner. Thus, an optimum image can be obtained from the back of the eye.

3

The invention also relates to a method for creating an optically coherent tomography image of the back of an eye of a person, using an apparatus for creating an optically coherent tomography image of the back of the eye 5 of which an main axis of a light beam emerging from the device is oriented substantially vertically and wherein the person's eyes are oriented substantially downwards.

Further advantageous embodiments are shown in the subclaims.

The invention will be further elucidated on the basis of an exemplary embodiment which is represented in a drawing. In the drawing:

FIG. 1 is a schematic perspective view of an arrangement according to the invention.

It is noted that the figure is only a schematic representation of a preferred embodiment of the invention which is described by way of non-limitative exemplary embodiment.

Figure 1 shows an apparatus 1 for creating an optical coherence tomography image of the back of an eye (OCT-20 apparatus). In the device 1 there is a light source that emits light of varying wavelengths. The exiting light beam exits the device through an exit opening 2. The main axis of the exiting light beam is substantially vertically oriented.

Optionally, the OCT device 1 can be provided with an integrated base and / or upright, with which the OCT device can be placed on the floor or on a table.

The light beam emerging from the OCT device 1 along the main axis falls into the eye of the person 3 and is reflected there by the tissue of the eye. The reflected light beam enters the device 1 again along the exit aperture 2, where the delay 4 is analyzed. Based on the delay of the reflected light, an image is compiled from the rear of the eye. By making use of a light source that emits light over a wide range of frequencies, it can be achieved that the light penetrates only a short distance into the tissue of the back of the eye. This allows an image to be formed of essentially the retina of the eye. The light source may, for example, be in the form of a super-luminescent diode or a laser with an extremely short pulse. A white light source also emits light over a wide range of frequencies. An OCT device is generally available and is well known to those skilled in the art.

The arrangement 4 as shown in figure 1 also comprises means 5 for supporting a face part that surrounds the eye of the person 3, so that the eyes of the person 3 are oriented downwards. These means 5 are designed here as a table in which there is a hole, but the means 5 can also be designed as a support that is attached to the OCT device 1, or as a support that is attached to a chair or bed.

In the arrangement 4 of figure 1 it can also be seen that the body of the person 3 is supported. The means 6 for supporting the body of the person 3 are in this case designed as a bed which is arranged essentially in a horizontal position, but can for instance also be designed as a chair.

By means 5 for supporting the face part of the person 3 or the means 6 for supporting the body of the person 3, the eyes of the person can be oriented substantially downwards.

In order to obtain an optimum image from the rear of the eye, at least one exit unit 7 of the OCT device 1 can be adjusted in height along the main axis. In this way the distance between the eye and the exit opening 2 can be changed. Advantageously, at least the exit unit 2 of the OCT device 15 is also adjustable in a direction substantially transverse to the main axis. The exit unit 7 of the OCT device 1 can thus be adjustable in three translation directions. A good position of the exit opening 2 relative to the eye can be adjusted. Because the eyes 5 of the person 3 are oriented downwards, for example, the air bubble introduced into the eye during macular degeneration operation will move upwards towards the rear of the eye. Because at least the exit unit 7 of the OCT device 1 is arranged so as to be adjustable, the exit unit 7 can be positioned in such a way that the emerging light beam can optimally catch the eye to form an optically coherent tomography image of the rear side of the eye.

Figure 1 also shows that the OCT device 1 is attached to a standing guide 8 for adjusting the OCT device 1. The standing guide 8 is arranged so that the OCT device 1 is adjustable in the direction of the main axis , so in the vertical direction, and preferably also adjustable in directions substantially transverse to the main axis. Optionally, the OCT device 1 can also be rotatably attached to the standing guide 8. Because the OCT device 1 can be connected to the standing guide 8 in a rotatable and rotatable manner, an optimum position of the exit opening 2 can be achieved in a simple manner. be adjusted to the eye.

For example, a standing guide 8 can be designed as a column in which guides are arranged. A carriage can move back and forth in height in the guide. A guide could be provided on the carriage itself in a direction substantially transverse to the height direction for adjustment of the OCT device 1 in the other two translation directions. The OCT device 1 could then be attached to the carriage. Optionally, the connection between carriage and column and between OCT device and carriage can be provided with one and / or two degrees of freedom of rotation. For example, the OCT device could be adjustable in three translation and three directions of rotation. If the OCT device is equipped with an integrated foot and / or stand, the guide may optionally be integrated in the foot and / or stand.

In the arrangement 4 shown in figure 1, a monitor 9 is also present. The image of the back of the eye created by the OCT device 1 can be displayed on the monitor 9. In this exemplary embodiment, the monitor 9 is separate from the standing guide 8 or the OCT device 1. The monitor 9 may also be attached to a standing guide 8 or to the OCT device 1.

It will be clear that the invention is not limited to the exemplary embodiment shown here. Many variants will be clear to those skilled in the art and are understood to fall within the scope of the invention as set forth in the following claims.

Claims (10)

An apparatus for creating an optically coherent tomography image of the back of an eye, wherein a light beam emerging from the device during use has a major axis, characterized in that the major axis of the emerging light beam is oriented substantially vertically. 5 Device according to claim 1, wherein at least one exit unit of the device is adjustable in height along the main axis. Device according to claim 1 or 2, wherein at least the exit unit of the device is adjustable in a direction substantially transversely of the main axis. Apparatus as claimed in any of the foregoing claims, wherein the apparatus is attached to a standing guide for height adjustment. Apparatus as claimed in any of the foregoing claims, wherein the apparatus is attached to the standing guide for adjustment in a direction substantially transverse to the main axis. Apparatus according to any one of the preceding claims, wherein the apparatus is rotatably attached to the standing guide. An apparatus according to any one of the preceding claims, wherein the created image is displayed on a monitor. 8. Arrangement for creating an optical coherence tomography image of the back of an eye of a person, comprising an apparatus according to any one of claims 1 to 6 and means for supporting a face part surrounding the eye, the means being substantially are oriented so that the person's eyes are oriented downwards. An arrangement for creating an optically coherent tomography image of the back of an eye of a person, comprising an apparatus according to any of claims 1 to 7 or according to claim 8, further comprising means for supporting the body of the person, wherein the means are arranged substantially lying down so that the eyes of the person are oriented downwards. 10. Method for creating an optical coherence tomography image of the back of an eye of a person, using an apparatus for creating an optical coherence tomography image of the back of the eye of which a major axis of an image device emerging light beam is substantially upright and the person's eyes are oriented downwards.