DE29519764U1 - Target device for the puncture-based puncture of certain body structures of living beings - Google Patents

Description

Dipi.-Ing. Dr. med. Thomas Schmitz-Rode
Kupferstrasse 5
52070 Aachen

Professor Dr. med. Rolf W. Günther
Brussels Ring 73c
52074 Aachen

UTILITY MODEL REGISTRATION

Designation:

"Targeting device for cross-sectional image-based puncture of certain body structures of living beings"

Modern diagnostic cross-sectional imaging techniques that can depict pathological body structures of living beings include sonography, computer tomography (CT) and magnetic resonance imaging (MRI). The puncture of a pathological structure for the purpose of obtaining material and examining the histological tissue can be important for the exact diagnostic classification and decisive for the therapy. The most favorable access route to such a lesion can be determined using the CT or MRI examination. The access route is characterized by the length of the needle insertion and by two angles, one of which indicates the course of the needle axis in the transverse plane (section plane perpendicular to the body's longitudinal axis) in relation to the surface of the patient's table and a second indicates the angulation of the needle axis from the transverse plane in relation to the ventro-dorsal oriented sagittal plane.

Currently available auxiliary devices for CT or MRI-guided puncture have disadvantages that affect the procedure.

puncture procedure more difficult. Simple systems only take into account the needle deflection in the transverse plane, whereby the freedom of movement of the person puncturing and the use of the needle type are limited by the fact that the puncture needle has to be guided through a sleeve of the device. More complex systems allow the control of the angulation of the needle in two mutually perpendicular planes (transverse and sagittal planes) by bringing the needle axis into line with two laser beam fans at the same time. The primary adjustment and the control of the correct needle position during the puncture procedure are, however, relatively complicated to carry out. In addition, such laser-controlled systems must first be positioned and pre-adjusted. Due to their complex structure, they are relatively expensive.

The invention described here is based on the task of proposing a simply constructed, lightweight targeting device for the puncturing of body structures, which can be fixed to the handle of the puncture needle and ensures a sufficiently accurate alignment of the needle axis in two mutually perpendicular angular planes. The advantage of the invention lies in the simple construction, the cost-effectiveness of manufacture, the user-friendliness and the very short preparation time required to achieve a correct needle position. µgr; , .\..,.;...„__,^-:·.:..·.,;-..^Pi;:,

To solve this problem, a device with the features specified in the characterizing part of claim 1 is proposed.

The structure and handling of the aiming device according to the invention are shown in the drawings Fig. 1-4.
The designation of the components by numbers corresponds to the numbers given in brackets in the following description.

Fig. 1 shows the structure of the aiming device.

Fig. 2 shows the target direction glued to the puncture needle.

Fig. 3 shows the adjustment of the aiming device in a mechanical adjustment device.

Fig. 4 shows the puncture situation.

The aiming device consists of a circular spirit level (1) which has a straight orientation rod (4) firmly connected to the spirit level housing (Fig. 1). This is aligned parallel to the reading surface of the circular spirit level and protrudes with both ends the same length beyond the spirit level housing. The aiming device is glued to the handle (6) of the needle to be used with a piece of plasticine (5). (Fig. 2). In a mechanical or electromechanical adjustment device (Fig. 3), a sterile guide sleeve is angled in the two mutually perpendicular angular planes (transverse plane [angle alpha] and sagittal plane [angle beta], see Fig. 3) previously determined using the CT or MRI examination. The horizontal alignment of the adjustment device is a prerequisite for this. The puncture needle with the glued aiming device is inserted into the sleeve. The aiming device is then adjusted in relation to the handle (6) of the needle so that the rod (4) connected to the spirit level housing (1) runs axially, i.e. in the longitudinal axis of the virtual patient body (axis

X-X in Fig. 3), and at the same time the circular spirit level is aligned horizontally (air bubble (2) of the circular spirit level in the middle position of the marking ring (3)). This adjustment is carried out by deforming the piece of plasticine mass (5) between the aiming device and the needle handle. While maintaining this setting of the aiming device (1) in relation to the handle (6) of the needle, the needle is placed at the puncture point marked on the patient's body (see Fig. 4). First, the rod (4) is oriented by rotating the needle in the longitudinal axis of the patient's body (also marked X-X in Fig. 4, parallel to the long edge of the patient table) and, while maintaining this orientation, the needle is tilted so that the circular spirit level is aligned horizontally. This reproduces the needle position assumed in the adjustment device and determines the puncture direction. During the needle advance, any deviation can be detected and corrected accordingly.

Claims (4)

PROTECTION CLAIMS 1. Circular spirit level, orientation rod and puncture needle, characterized in that the circular spirit level and the orientation rod are firmly connected to one another and both can be connected as a unit to a puncture needle, whereby the latter connection is adjustable and can be fixed in different orientations. 2. Device according to claim 1, characterized in that the adjustable connection between the unit consisting of a circular bubble and orientation rod on the one hand and the puncture needle on the other hand consists of a piece of plasticine. 3. Device according to claim 1, characterized in that the adjustable connection between the unit consisting of a circular spirit level and orientation rod on the one hand and the puncture needle on the other hand consists of two half-shells sliding into one another, one of which is connected to the needle and the other to the circular spirit level. 4. Device according to claim 1 and 3, characterized in that the displacement of the two half-shells relative to each other can be read on an angular degree scale.