Apparatus for marking an operating site

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The present invention relates to an apparatus for accurately defining to the surgeon, particularly in brain surgery, but also in other types of surgery, the target or operating site.

In microsurgery, as well as in surgery by scalpel and surgical laser, the surgeon must frequently work more or less by instinct on the basis of known measured values, for example the depth from the skull bone to the tissue portion to be treated and the position of such tissue portion relative to known starting points. Use is also made of a cannula, as a sighting aid, which is inserted towards the target and makes it easier for the surgeon to reach the target. The known methods must be regarded as unreliable, especially for surgery deep down and when the target, i.e. the tissue portion to be treated, is of small extent. There is thus a risk that the surgeon will fail to reach the correct site and/or be forced to perform unnecessary penetration of intervening tissue.

The object of this invention is to provide an apparatus for defining the position of an operating site.

The characteristic features of the apparatus according to the invention are stated in the claims.

The invention is based on the established fact that NMR, CT and/or X-ray equipment makes it possible to define with great accuracy the position of deep-seated tissue portions in the skull or in some other part of the body. The position can be defined by coordinates by means of a stereotactic instrument attached to the patient's head.

The invention allows the surgeon to be guided by safe and yet uncomplicated assessments of distance and depth, straight to the tissue portion to be treated.

The invention will be described in greater detail below, reference being had to the accompanying drawings in which

FIG. 1 is a front view of the apparatus according to the invention,

FIG. 2 is a side view thereof, and

FIGS. 3-6 illustrate various settings.

It is here assumed that the area to be treated (the target) has been determined by computer tomography, X-ray or NMR technique, whereby highly accurate data as to the location of the target have been obtained, and that an appropriate stereotactic instrument has been used for determining the target coordinates.

A frame which is designated 1 in the drawings, and which is dovetailed along at least two sides 2, 3 to provide guide means, is attached to the patient's head in a stable, nondisplaceable position. Along the frame side to the left in the drawings, a cross-table designated 4 is slidable along the frame side 2. The frame sides 2 and 3 are each provided with a rule (not shown), and the cross-table 4 has corresponding reference marks. The cross-table 4 comprises a guide groove 6 for a rod 7, which is also preferably dovetailed and provided with a rule, and an annular member 8 is mounted at the upper end of the rod. The annular member comprises an inner ring 8' which has a collar and is attached to the rod 7, and an outer ring 8" having an opposing collar. The cross-table also comprises locking screws (not shown) for positioning the cross-table 4 relative to the frame side 2, and the rod 7 relative to the cross-table. The rod 7 supports, via the annular member 8, a ring 9 rotatable relative to the annular member, a rule and reference marks, as well as a means for locking the ring to the annular member, being provided as well (but, for simplicity of the drawings, not shown).

A shaft 10 is mounted on the ring assembly 9, and along said shaft, which is dovetail in cross-section, an arcuate member 12 having a plurality of transverse radial dovetail grooves 11 is slidably mounted. Along the arcuate member 12 which is also dovetailed in cross-section, a slide 13 is movable. A supporting arm 14 is settably connected with the slide 13, and the free remaining end of the supporting arm is provided with a holder 15 for a light source 16 generating an aiming laser beam.

The light source may be a laser light source with a parallel bundle of light, but can also be adapted to generate two or more converging beams which can be set to coincide at a focus defining the operating site or target.

It is also possible to use a specially designed rule 17 for measuring the depth or distance to the target, starting from the light holder 15.

On the basis of the data which have been obtained upon determining the target, i.e. the tissue portion to be treated, and which are transferred to the stereotactic instrument, the coordinates are obtained which are required for setting the light source 16, while using the frame 1 as a reference, such that the beam from the light source is directed at the treating site or target.

In surgery where surgical microscopes are used (so-called microsurgery), the surgeon proceeds down to the target along the aiming laser beam and removes tissue by a surgical laser or uses conventional tools such as a scalpel or the like. Since the surgeon can constantly follow the aiming laser beam, the operation is facilitated and interference with the surrounding tissue is minimized.

With the target accurately defined by coordinates, and with the adjustability of the light source with respect to the angle and direction of incidence, the surgeon is able to choose the position of and direction for the incision. The setting of the aiming laser beam is carried out in a completely safe manner independently of which direction or angle has been chosen for the incision.

FIGS. 3-6 illustrate different settings of the light source, and it is obvious that a variety of settings are possible. The apparatus also allows, when necessary, a different entering angle to be selected during the operation without necessitating resetting. The frame can, of course, be used to position the patient's head relative to the operating table or the like and can also be used as an attachment for surgical instruments, tools or the like.

The invention is not restricted to what has been described above and shown in the drawing, but can be modified in various ways within the scope of the appended claims.

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