DE3909575C1 - Biopsy device for one-handed operation - Google Patents

Abstract

In a biopsy device (1) for one-handed operation which comprises a housing (2) accommodating a biopsy needle (41), a guide device (7) which is located in the housing (2) so as to be displaceable in the longitudinal direction and moves the needle mandrel (43) and the needle tube (40) of the biopsy needle (41) relative to one another, and an actuation device (5) effecting the displacement of the guide device (7) in the housing (2), simple one-handed operation and reliable placement of the tip of the biopsy needle (41) in the tissue to be examined are achieved in that the head (42) of the needle mandrel (43) is rigidly fixed in the housing (2) and the head (39) of the needle tube (40) is fixed in the guide device (7) which is located so as to be movable in the longitudinal direction in the housing (2) and is arranged in a front terminal position in the position of rest. <IMAGE>

Description

The invention is based on a one-hand biopsy device according to the preamble of claim 1.

It is known to use tissue parts or bodies by means of biopsy needles withdraw liquid from the living body. For that be generally best of a needle mandrel and a needle tube biopsy needles. This is the case with these needles the end of the needle mandrel with a groove that the abge cut tissue. Located above the needle mandrel a needle tube slidably arranged in the longitudinal direction, the ver in its front end position the groove of the needle mandrel closes and releases the groove in a rear position. To Easy handling of the biopsy needle point to both the needle mandrel and the needle tube at their rear ends a head over which the manipulations can be carried out. With a biopsy needle inserted into the tissue, the Head of the needle tube in the direction of the head of the needle mandrel withdrawn and finally back to the starting position be pushed forward, so that in the opening Torn into the groove of the needle mandrel and cut into  the groove can be enclosed. In this process the biopsy needle with one hand on the head of the needle mandrel held, whereas the other hand the head of the needle tube seizes and the return and forward movement of the needle tube executes. When taking tissue with such a biopsy Needle has proven to be a disadvantage that the needle is only under Both hands can be used. Should the location of the front end of the biopsy needle in the tissue using an ultra sonic device are observed during tissue removal, so another person is needed for this, the head the ultrasound probe leads.

An attempt has been made to overcome this disadvantage with a device fix that can be operated with one hand. This known generic before direction (US-PS 46 99 154) has a housing in which the both heads of the needle mandrel and the needle tube of the biopsy Needle are inserted. The are now over a clamp both heads retracted into a rear end position and in this Location locked. After inserting the front end of the with connected to the device in the area of the biopsy needle point of the tissue to be punctured is on the device a trigger button is pressed, whereupon the head of the needle dorns moved to its front end position, which results in that the needle mandrel tip penetrates deeper into the tissue and finally the needle head when it reaches its front end position releases the locking mechanism for the head of the needle tube, see above that this can also move to its front end position, which also results in a deeper penetration of the needle tube Has. When the needle arbor penetrates, the one in the front opens Area of the needle mandrel provided groove, so that in this tissue can penetrate. Through the immediately following deeper Penetration of the needle tube is that which has penetrated into the groove  Fabric cut off and enclosed in the groove. As a disadvantage the fact has emerged with this device, that the groove of the needle mandrel when inserting the biopsy needle cannot be led exactly to the point where the Ge web sample should be taken, but the groove around the Distance must be in front of the point in question, which the Needle mandrel deeper into the after pressing the release button Tissue penetrates. This results in a very imprecise punk tion, although the device can be operated with one hand is not determinable by means of ultrasound, since the position of the Biopsy needle during the cutting process only after pressing the Release button is reached. However, the needle moves in this way quickly into the tissue so that it can also be Ultrasound device can not be controlled.

With the DE-GM 88 02 580 a biopsy device is known which ge before inserting the biopsy needle into the body is tensioned that the needle tube so far back on the needle mandrel is pushed until the groove is exposed. In this position the biopsy needle is inserted into the body and at The actuator reaches the desired position operated. The needle tube slides over the groove and includes a tissue sample. This device has the disadvantage that it can be inserted into the body in a tensioned state must, whereby in this position the groove of the needle mandrel is exposed, so that this already contains tissue from other areas of the body can penetrate. If the needle is closed in introduced into the body after reaching the desired one Make the biopsy device tense, which is not the case with a Hand can be done. In addition, the needle can come back remove from the desired location.  

With DE-OS 27 19 959 a biopsy device is known, which can be operated with one hand and the groove during inserting the biopsy needle into the body from the needle tube is covered. With this device, however, there is a risk that if you change hands while inserting the Biopsy needle in the body the groove accidentally opens and can penetrate foreign tissue. With this needle So it is not guaranteed that only tissue the point to be punctured is in the groove. In the end is a generic device with the US-PS 47 33 671 known that can be operated with one hand and at which one Push the actuator over the needle mandrel is cash. However, this device also has the disadvantage that that the biopsy needle is inserted into the body with the groove open is pushed. Is already before inserting the biopsy Needle actuated the actuator so that the groove is closed by the needle tube, so there is a change the hand operating the biopsy device when inserting the Biopsy needle in the body the risk that the groove ver accidentally opens and foreign tissue penetrates. With this The device is therefore not guaranteed to be in the groove only tissue of the point to be punctured is located.

Starting from this device, the object of the invention to provide a biopsy device using one hand can be operated, the biopsy device guiding hand can be changed during insertion can without the risk that the biopsy needle accidentally opens.

This object is achieved in that in the not operated Position the biopsy device the needle tube from the guide  device pushed and held over the groove of the needle mandrel is and the actuator after inserting the Biopsy needle in the body can be operated with one hand.

In this one-hand biopsy device according to the invention the needle mandrel over its one at the rear end Needle head rigidly fixed in the housing so that every movement transfer the biopsy device directly to the needle mandrel and the tip of the needle mandrel is precise and controlled can be brought to the point to be punctured. The needle mandrel is both before the cutting process and while rend and rigidly connected to the housing after the cutting process the so that the needle mandrel inserted into the tissue is not shifted and therefore its tip or that in the front end intended groove exactly the predetermined place in the tissue holds. To cut a tissue sample, use Betä tigungseinrichtung the z. B. with a finger of the biopsy Device holding hand is operated, which moves in the housing Lich arranged guide device and thereby in the Guide device set head of the needle tube in the direction of the head of the needle mandrel displaced, causing the one in the front End of the needle mandrel located groove is opened so that can penetrate into these tissues. By moving the guide device and thus the head of the needle tube from this bottom sition back to the rest position is by means of the front end Part of the tissue is cut off from the needle tube and in the occluding groove included. During the the entire cutting process remains the needle mandrel and thus its Groove exactly at the point to be punctured, so that certainty is that the removed tissue from the under is searching area. Furthermore, the device has the Advantage that the biopsy device according to the invention with  one hand is safe and easy to use, so that with the other hand an ultrasound probe to record the movement conditions and the position of the biopsy needle in the tissue can, the actuating device being actuated only then must if the cut is to be made.

According to an advantageous embodiment it is provided that the housing is in the form of a pistol, the guide furnishings in the barrel-like housing top and in shape a trigger trained actuator in the handle trained lower housing part are arranged. One of those Trained biopsy facility is easy with one hand operate and has the advantage, among other things, that it both served by right-handed as well as left-handed people equally well can be.

The guide device is preferred as in a carriage guidance of the upper part of the slide with a slide Recess formed for the head of the needle tube. This one in a slide guide in the longitudinal direction of the biopsy device sliding slides ensure problem-free longitudinal loading movement of the needle tube, avoiding the influence of Forces on the needle tube itself since the head of the needle tube received in a recess provided in the carriage is.  

Advantageously, the sled is under the force of one the rear wall of the upper housing supporting spring on the front End of the slide guide held in a front end position. Two are preferred symmetrical to the longitudinal axis of the upper housing partially arranged coil springs provided. These spiral springs are supported with one end on the rear wall of the housing top and grip symmetrically with their other ends on the slide, which makes it ge in a front end position will hold, and the needle tube in this position extends over the needle mandrel that in the front end of the Needle mandrel provided groove is closed. Now the head of the needle tube by means of the slide against the force of the Coil springs moved, the groove is opened, and the biop the device is ready for taking a tissue sample. The return movement of the sled back to its front End position is achieved by relaxing the previously compressed Reached coil springs, the spring force is designed such that a tissue sample can be cut off with certainty. In addition, the springs attacking the sled grant one precisely defined position of the biopsy needle in the biopsy device device in which the needle tube is in such a position located in which the groove of the needle mandrel is closed. A tissue sample taken from the tissue is thus safe in it Groove included and can therefore be simple and reliable be removed from the body.

Excessive vibrations of the biopsy device on return run of the slide in its front end position are advantageous mitigated that the front end of the slide guide and / or the front end of the slide damping means point. These dampers slow down the sled’s run,  before it hits the front end of the slide guide. This also prevents uncontrolled movements of the front End of the needle mandrel, which may result in unwanted injuries of the tissue can be avoided.

The guide device with the actuation is advantageous direction via a spring fixed to the guide device element and a fixed on the actuator, in the spring element and when the guide is at rest engaging device engaging bolt connected. By actuation supply of the actuating device is via the bolt which in the spring element of the guide device engages the guide device and thus the head of the needle tube from its rest was moved to a rear end position. Reach the Füh the rear end position, the bolt comes out Engagement with the spring element, and the guide device rips again under the action of the spring force of the spiral springs back to the front end position. Just before the spring element from When the bolt is released, the actuator reaches a pressure point so that the operator knows the location of the sled in the sled guide and thus over time point of beginning of the return of the guide device and is thus informed about the start of tissue cutting.

A return of the actuator in the front End position or starting position is advantageously achieved by that the actuator against the force of a spring, the holds it in its rear end position, manually forward again is pulled. After performing the first tissue cut the actuator by means of the leg spring in the held rear end position so that the biopsy device ent is tensioned and no accidental triggering can take place.  

By simply pulling the actuator forward brought back to their starting position. The spring force of the spring the actuator is about a third of the spring by virtue of the sled's spiral springs. Because the power of the spring the actuator counteracts the other spring force, the actuator is easy to use. As a result of Decoupling of sled and actuator before Return of the carriage, however, the entire spring force acts of the coil springs on the returning slide, which consequently tissue cutting is also available. By manual Retraction of the actuator is when it is locked Cross bolt and spring element the spring force of the leg spring saved again.

Easy insertion of the biopsy needle into the biopsy Device is achieved in that the upper housing part an openable one that extends over its entire length Has lid. The z. B. via a resilient ball lock on the one hand, the lid held in the closed position prevents a He fall out of an inserted biopsy needle and allows on the other hand by simply opening it into the Can be brought open, easy insertion and Removing the biopsy needles in the upper part of the housing of the biopsy Contraption.

The head of the needle mandrel is preferably in the rear End of the slide guide provided in the upper part of the housing acceptance determined. It can be provided that the Ausneh guide device for the head of the needle tube and / or the recess of the upper housing part for the head of the Needle mandrels are provided with interchangeable adapter inserts. These interchangeable adapter inserts allow us to use them  of differently trained biopsy needles, so that the Biopsy device universal with a variety of biopsy Different format needles can be loaded.

For easy and quick cleaning of the biopsy device to enable, it is provided that the device without aid Special tools can be dismantled into their individual parts. The device must be used on a patient after each intervention to be sterilized before being given to a next patient is used, but can also be assembled respectively. But there are inspection, maintenance and repair work in due to the easy disassembly of the device their individual parts significantly simplified.

Good handling of the biopsy device becomes advantageous achieved in that the housing, the guide device and the actuator made of plastic or light metal consist. With long-term interventions, premature Fatigue of the operator avoided. Furthermore are due to the low weight of the device Defor mations on the biopsy needle inserted in the device avoided if the biopsy device z. B. stored carelessly is and the needle z. B. is loaded on bend.

Another advantage is that the device smiths is trained free of stanchions. This z. B. contamination body opening is avoided, and cleaning and Disinfection of the biopsy device facilitated.

In another preferred, advantageously designed embodiment form the heads of the needle tube and the needle mandrel of the biopsy needle spherical head parts that  trained in according to the dimensions of the headboards dome-shaped recesses of the biopsy device are used will. This has the particular advantage that the biopsy Device can be made shorter because the heads of the Biopsy needle have smaller dimensions. An inexpensive The production of these biopsy needles is achieved by that the needle mandrel and the needle tube are made of metal and whose heads are made of a heat-resistant plastic. Such needles are also easy to sterilize ren.

Two particularly preferred exemplary embodiments le of the invention result from the following description with reference on the drawing. It shows

Fig. 1 is a longitudinal sectional view of the biopsy device according to a first embodiment;

FIG. 2 shows a top view of the biopsy device of FIG. 1 with the housing cover open;

Fig. 3 is a biopsy needle with a partially pushed back needle tube head;

Fig. 4 shows a section IV-IV of Fig. 1;

Fig. 5 shows a section VV of Figure 1, the sectional view in the housing of the biopsy device rotates through 180 °.

Fig. 6 shows a section IV-IV of Fig. 1;

Fig. 7 is a longitudinal sectional view of the biopsy device according to another embodiment;

Fig. 8 is a section VIII-VIII of Fig. 7; and

Fig. 9 is a biopsy needle for use in the inventive biopsy device of FIG. 7 in side view and plan view.

Fig. 1 shows an embodiment of the one-hand biopsy device according to the invention ( 1 ) with a housing ( 2 ), which consists essentially of an upper housing part ( 3 ), a lower housing part ( 4 ) and a actuating device provided in the lower housing part ( 4 ) ( 5 ) exists. In the upper housing part ( 3 ), a guide device ( 7 ) designed as a slide ( 6 ) is guided in a slide guide ( 9 ) in the direction of the longitudinal axis ( 8 ) of the upper housing part ( 3 ). The slide guide ( 9 ) consists of two guide spindles ( 10 ) arranged parallel to the longitudinal axis ( 8 ), which engage in corresponding spindle bearings ( 11 , Fig. 6) of the slide ( 6 ). Around the guide spindles ( 10 ) extends in the longitudinal direction of each a spiral spring ( 12 ), which with one end ( 13 ) on the rear wall ( 14 ) of the upper housing part ( 3 ) and with its other end ( 15 ) at the rear end ( 16 ) of the carriage ( 6 ) is supported. Furthermore, the short leg of an L-shaped spring element ( 17 ) is fitted in the lower region of the rear end ( 16 ) of the carriage ( 6 ), the long leg of which extends at the bottom of the upper housing part ( 3 ) in the direction of the rear wall ( 14 ). Furthermore, a recess ( 18 ) is provided in the slide ( 6 ), into which, as described further below, a head of a needle tube of a biopsy needle can be inserted. In the area of the rear end of the upper housing part ( 3 ), a nose ( 19 ) of a further recess ( 20 ) can be seen, into which, as also described further below, a head of a needle mandrel of a biopsy needle can be inserted. Furthermore, the upper housing part ( 3 ) is closed with a pivotable lid ( 22 ) which is secured in the closed position by a ball lock ( 21 ). The ball lock ( 21 ) is formed by a ball ( 22 ) and a spring ( 24 ) which is supported at the bottom of a blind hole ( 23 ) of the housing ( 2 ) and which the ball ( 22 ) into a recess ( 25 ) at the rear end of the Presses the swivel cover ( 22 ), thereby holding it in the closed position.

Finally, in the area of the rear wall ( 14 ) of the upper housing part ( 3 ) a bevel ( 37 ) is provided which engages with the rear end ( 38 ) of the spring element ( 17 ) when the slide ( 6 ) and thus the spring element ( 17 ) is moved from the rest position shown in Fig. 1 to the rear. The rear end ( 38 ) of the Federele element ( 17 ) is lifted off the bottom of the upper housing part ( 3 ) via the slope ( 37 ).

The lower housing part ( 4 ) is designed in the manner of a handle of a pistol and slidably guides the actuating device ( 5 ) formed in the form of a trigger, which has an inserted transverse bolt ( 26 ) which both the lower housing part ( 4 ) and the upper housing part ( 3 ) engages through an opening ( 27 ) such that its upper end ( 28 ) engages in a slot ( 29 ) of the spring element ( 17 ). In the area of the rear end ( 30 ) of the actuating device ( 5 ) there is a blind hole ( 31 ) which is open at the bottom and into which the ball tip ( 32 ) of a bolt ( 33 ) engages. The lower end of the bolt ( 33 ) is pivotally attached to a cross pin ( 34 ) at the lower end of the lower housing part ( 4 ). Furthermore, a leg spring ( 35 ), which is also wound around the transverse pin ( 34 ), is provided in the lower housing part ( 4 ), which has a longer leg in the front area of the housing lower part ( 4 ) and its other leg on the bolt ( 33 ) supports that it exerts a force which forces the bolt ( 33 ) into the position denoted by ( 36 ).

The illustration shown in FIG. 2 shows a top view of the one-hand biopsy device ( 1 ) with the swivel lid ( 22 ) open. This view shows the substantially H-shaped ausgebil Dete recess ( 18 ) in the carriage ( 6 ) in which the head ( 39 ) of the needle tube ( 40 ) of a biopsy needle ( 41 ) shown in Fig. 3 is inserted. Furthermore, in Fig. 2 the long's angle of the L-shaped spring element ( 17 ) can be seen, in the slot ( 29 ) engages the upper end ( 28 ) of the cross bolt ( 26 ). The two lugs ( 19 ) of the recess ( 20 ) into which the head ( 42 ) of the needle mandrel ( 43 ) of the biopsy needle ( 41 ) is inserted can be seen in the rear area of the upper housing part ( 3 ). This recess ( 20 ) is rigidly provided in the housing ( 2 ) relative to the recess ( 18 ) of the carriage ( 6 ) which is longitudinally displaceable in the upper housing part ( 3 ). The heads ( 39 and 42 ) of the biopsy needle ( 41 ) can be easily inserted into the biopsy device ( 1 ), ie into the recesses ( 18 and 20 ), in that the recess ( 18 ) and the lugs ( 19 ) have bevelled edges ( 57 and 58 ) which guide the heads ( 39 and 42 ).

In the illustration shown in FIG. 4, the guide ( 44 ) of the actuating device ( 5 ), which is designed in the form of a trigger, is in the lower part ( 4 ) of the handle-like housing. Fastening openings ( 45 ) can also be seen, through which the upper housing part ( 3 ) is screwed onto the lower housing part ( 4 ) by means of screws ( 46 ). Furthermore, a bore ( 46 ) in the actuating device ( 5 ) can be seen, in which the Querbol zen ( 26 ) is inserted. The front end ( 55 ) of the cross-section substantially T-shaped actuating element has two legs ( 56 ) which can be gripped behind in order to be able to pull the actuating element ( 5 ) again after removing tissue from the lower housing part ( 4 ) .

The cross section shown in Fig. 5 through the one-hand biopsy device ( 1 ) shows in the upper housing part ( 3 ) the laterally arranged two guide spindles ( 10 ) and an element ( 47 ) provided in the rear area of the upper housing part, which with its two lugs ( 19 ) forms the recess ( 20 ) for the head ( 42 ) of the biopsy needle ( 41 ). Furthermore, a recess ( 48 ) is provided in the lower region of the element ( 47 ), which allows the rear end ( 38 ) of the spring element ( 17 ) to pass through to rest against the slope ( 37 ). The actuating device ( 5 ) with a blind hole ( 31 ) guided in the guide ( 44 ) can be seen in the lower housing part ( 4 ). In order to reproduce the support of one leg of the leg spring ( 35 ), the direction of view of the cut above the blind hole ( 31 ) is rotated by 180 °, as indicated in FIG. 1 by the direction of the arrows.

In the section IV-IV shown in FIG. 6, a recess ( 49 ) at the front end of the upper housing part ( 3 ) can be seen, which, when the swivel cover ( 22 ) is open, makes it easy to insert and remove the biopsy needle ( 41 ). from the upper housing part ( 3 ).

In another exemplary embodiment of the one-hand biopsy device, as shown in FIGS. 7 and 8, in the region of the rear end of the upper housing part ( 3 ) is the recess ( 20 ) into which, as also described below, a head of a needle mandrel according to the invention of a biopsy needle can be used, dome-shaped. Likewise, the recess ( 18 ) of the carriage ( 6 ) is in the form of a spherical cap and is at one end, the recess ( 20 ) facing the recess ( 50 ) and at the other, the recess ( 49 ) of the upper housing part ( 3 ) facing end connected to the recess ( 51 ). Correspondingly, the rear recess ( 20 ) has a guide ( 59 ) for the head ( 42 ) of a needle mandrel ( 43 ) of a biopsy needle ( 62 ). The pivoting lid ( 22 ) of this other embodiment of the biopsy device is shown in the closed position and broken off in the open position. The swivel cover ( 22 ) is designed such that it is pivotable about an axis ( 60 ), which is provided transversely to the longitudinal direction of the device at its front end. In the closed position, the swivel cover ( 22 ) is also held securely by the ball lock ( 21 ). The recess ( 49 ) located below the axis ( 60 ) is chamfered on its underside ( 61 ), so that the opening of the recess ( 49 ) widens outwards, which considerably facilitates the insertion of the biopsy needle.

The biopsy needle ( 62 ) according to the invention shown in FIG. 9 is designed such that the head ( 42 ) of the needle mandrel ( 43 ) and the head ( 39 ) of the needle tube ( 40 ) each consist of a spherical head part ( 62 and 63 ) and each consist of an elongated approach ( 64 and 65 ), the approaches ( 64 and 65 ) on the spherical head parts ( 62 and 63 ) facing each other. Furthermore, the mutually facing ends of the lugs ( 64 and 65 ) have a tongue ( 66 ) and a groove ( 67 ) which allow the two heads ( 39 and 42 ) of the biopsy needle ( 68 ) to be locked. In order to fix a protective sleeve for the needle mandrel ( 43 ) and the needle tube ( 40 ), an axial extension ( 69 ) with a thickened end is provided on the head part ( 63 ), on which the during the transport of the biopsy needle ( 68 ) via the needle tube ( 40 ) pushed protective sleeve is fixed. During transport, the head ( 39 ) is also connected to the head ( 42 ) via the tongue and groove connection ( 66 and 67 ).

The handling of the one-hand biopsy device ( 1 ) according to the invention when performing a tissue removal is described below.

When the swivel cover ( 22 ) is open, a biopsy needle ( 41 or 68 ) is inserted into the upper housing part ( 3 ) such that the head ( 41 ) of the needle mandrel ( 43 ) is in the recess ( 20 ) between and behind the lugs ( 19 ) comes to rest, whereas the head ( 39 ) of the needle tube ( 40 ) surrounding the needle mandrel ( 43 ) comes to rest in the recess ( 18 ) of the slide ( 6 ). The needle mandrel ( 43 ) grips the recess ( 50 ) and the needle tube ( 40 ) surrounding the needle mandrel ( 43 ) the recess ( 51 ) of the slide ( 6 ) and the recess ( 49 ) of the front end of the upper housing part ( 3 ). In this position, the needle tube ( 40 ) is displaced with respect to the needle mandrel ( 43 ) such that the groove ( 53 ) provided in the front end ( 52 ) of the needle mandrel ( 43 ) is closed by the needle tube ( 40 ). After closing the swivel lid ( 22 ), the one-hand biopsy device ( 1 ) is ready for use.

In order to insert the biopsy needle ( 68 ) into the biopsy device according to the other embodiment, as shown in FIGS. 7 and 8, the pivot cover ( 22 ) must first be pivoted about the pivot axis ( 60 ) in the open position, so that the front end ( 52 ) of the biopsy needle ( 68 ) can be pushed from the inside through the recess ( 49 ), which is facilitated by the oblique design of the underside ( 61 ) of the recess ( 49 ). After the front part of the biopsy needle ( 68 ) has been pushed through the recess ( 49 ) up to the extension ( 69 ), the spherical head part ( 63 ) of the head ( 39 ) and the spherical head part ( 62 ) of the head ( 42 ) inserted into the dome-shaped recesses ( 18 and 20 ), the lugs ( 64 and 65 ) coming to rest in the guide ( 59 ) and in the recess ( 50 ). In this position, the needle tube ( 40 ) relative to the needle mandrel ( 43 ) is also shifted ben in such a way that the groove ( 53 ) provided in the front end ( 52 ) of the needle mandrel ( 43 ) (not shown in FIG. 9) is closed is. After closing the swivel lid ( 22 ) about the axis ( 60 ), the one-hand biopsy device ( 1 ) is also ready for use.

The one-hand biopsy device ( 1 ) with an inserted biopsy needle ( 41 or 68 ) is now guided with one hand in such a way that the groove ( 53 ) of the needle mandrel ( 43 ) of the biopsy needle ( 41 or 68 ) in Tissue comes to lie exactly at the point from which a tissue sample is to be taken. The groove ( 53 ) is still closed by the needle tube ( 40 ). Then the actuation device ( 5 ) is actuated in accordance with the trigger of a gun. This moves in the guide ( 44 ) in the direction of the rear end of the lower housing part ( 4 ), the cross bolt ( 29 ) engaging in the slot ( 29 ) of the spring element ( 17 ) displacing the spring element ( 17 ) in the direction of the bevel ( 37 ) emotional. As soon as the rear end ( 38 ) abuts the slope ( 37 ), the person operating the biopsy device ( 1 ) feels a pressure point. This pressure point informs the person that the needle tube ( 40 ) is now pulled back so far on the needle mandrel ( 43 ) that the groove ( 53 ) is open, and therefore tissue can penetrate into this groove ( 53 ).

The needle tube ( 40 ) is displaced in that the spring element ( 17 ) moves the slide ( 6 ) along the guide spindles ( 10 ) against the force of the spiral springs ( 12 ) and thereby the head ( 39 ) of the needle tube ( 40 ) in the direction of the head ( 42 ) of the needle mandrel ( 43 ) moves.

This movement is advantageously supported in that the leg of the leg spring ( 35 ) engaging the bolt ( 33 ) supports the insertion movement of the actuating device ( 5 ), as a result of which the force for compressing the coil springs ( 12 ) is reduced. At the end of the return movement of the actuating device ( 5 ) there is finally the bolt ( 33 ) in the position ( 36 ) designated.

If the tissue cut is now to be carried out, the actuating device ( 5 ) is pushed further into the lower housing part ( 4 ) beyond the pressure point. The rear end ( 38 ) of the spring element ( 17 ) lifts off from the bottom of the upper housing part ( 3 ) due to the bevel ( 37 ) and disengages from the upper end ( 28 ) of the transverse bolt ( 26 ). The now free carriage ( 6 ), accelerated by the force of the spiral springs ( 12 ), returns to its front end position shown in FIG. 1. As a result, the head ( 39 ) of the needle tube ( 40 ) is moved forward, the cutting edge ( 54 ) of the needle tube ( 40 ) cutting off part of the tissue, and this tissue sample through the needle tube ( 40 ) sliding over the needle mandrel ( 43 ) ) is enclosed in the groove ( 53 ). The backward-moving carriage ( 6 ) can be braked by damping means (not shown) provided at the front end of the carriage ( 6 ).

After the tissue cut, the biopsy device ( 1 ) and thus the biopsy needle ( 41 or 68 ) is pulled out of the tissue and the biopsy needle ( 41 or 68 ) the housing upper part ( 3 ) after opening the Removed swivel cover ( 22 ). By pushing back the head ( 39 ) of the needle tube ( 40 ), the groove ( 53 ) is exposed, and the tissue sample from the biopsy needle ( 41 or 68 ) can be removed.

The one-hand biopsy device ( 1 ) is tensioned for a renewed removal of tissue by the fact that the actuating device ( 5 ) is grasped on the two legs ( 56 ) at its cross-section which is substantially T-shaped in form of the front end ( 55 ) and the actuating device ( 5 ) is pulled against the force of the leg spring ( 35 ) from the lower housing part ( 4 ). The upper end ( 28 ) of the Querbol zens ( 26 ) pushes from behind under the rear end ( 38 ) of the Federele element ( 17 ), which is made possible by the fact that the upper end ( 28 ) of the cross bolt ( 26 ) is partially chamfered is, and thus the rear end ( 38 ) of the spring element ( 17 ) can pass. Pushes the actuating device ( 5 ) so far that the upper end ( 28 ) of the cross pin ( 26 ) engages in the slot ( 29 ) of the spring element ( 17 ), then its rear end ( 38 ) snaps behind the cross pin ( 26 ). The biopsy device ( 1 ) is now excited for a new tissue extraction.

However, the biopsy needle ( 41 or 68 ) for taking the tissue sample can also remain in the biopsy device ( 1 ). Here, as described above, the biopsy device ( 1 ) has to be tensioned again, so that the needle tube ( 40 ) is displaced with respect to the needle mandrel ( 43 ) and the groove ( 53 ) is opened by pushing back the actuating device ( 5 ) so that the tissue sample can be taken.

The one-hand biopsy device ( 1 ) according to the invention can also be used to take a tissue sample according to another type of sample, which is described briefly below. With this type of removal, the actuating device ( 5 ) is pushed back so far into the tissue before the biopsy needle ( 41 or 68 ) is inserted that the rear end ( 38 ) of the spring element ( 17 ) abuts the bevel ( 37 ), ie the operator feels a pressure point on the actuating device ( 5 ). In this position, the groove ( 53 ) of the biopsy needle ( 41 or 68 ) is opened, the groove ( 53 ) of the needle ( 41 ) being brought up to the tissue to be removed in this state. The tissue removal itself is finally carried out, as described above, by completely triggering the biopsy device ( 1 ), ie by further pushing in the actuating device ( 5 ) and pawling the slide ( 6 ).

A third method of tissue removal can also be carried out using the one-hand biopsy device ( 1 ) according to the invention. The biopsy needle ( 41 or 68 ) is inserted into the tissue in the closed state. Only in the tissue but before reaching the tissue extraction point is the actuating device ( 5 ) actuated, thereby opening the groove ( 53 ) of the biopsy needle ( 41 or 68 ). Then the groove ( 53 ) is taken to the tissue removal point, e.g. B. a tumor or the like. Finally, the tissue cut is carried out by triggering the biopsy device ( 1 ) as described above.

Multiple biopsies are also possible with the biopsy device ( 1 ) according to the invention, ie the needle ( 41 or 68 ) remains between two or more consecutive tissue sections in the device, which are each newly tensioned.

The biopsy device ( 1 ) thus enables the biopsy needle ( 41 or 68 ) to be guided optimally, as a result of which the safety of the tissue extraction process is significantly increased. The operator can perform exact biopsies both intraoperatively and from the surface, e.g. B. kidney biopsies, liver biopsies, biopsies from breast tissue, prostate, soft tissue, fat, muscle, thyroid, etc., perform.

Claims (18)

1. One-hand biopsy device with a housing accommodating a biopsy needle, a guide device which is arranged in the housing in a longitudinally displaceable manner, the needle mandrel with a groove and the needle tube of the biopsy needle moving relative to one another, and one, the displacement of the guide device in the housing effecting actuating device, the head of the needle mandrel rigidly fixed in the housing and the head of the needle tube in the longitudinally movably arranged guide device in the housing, characterized in that in the non-actuated position of the biopsy device ( 1 ) the needle tube ( 40 ) is pushed and held by the guide device ( 7 ) over the groove ( 53 ) of the needle mandrel ( 53 ), and the actuating device ( 5 ) can be actuated by means of one hand after insertion of the biopsy needle ( 68 ) into the body. 2. Biopsy device according to claim 1, characterized in that the return movement of the needle tube ( 40 ) into the rest position takes place under spring force and the needle tube ( 40 ) is decoupled from the actuating device ( 5 ). 3. Biopsy device according to claim 1 or 2, characterized in that the housing ( 2 ) has the shape of a pistol, the guide device ( 7 ) in the barrel-like housing upper part ( 3 ) and the actuator ( 5 ) in the form of a trigger in handle-like housing bottom part ( 4 ) is arranged. 4. Biopsy device according to one of claims 1 to 3, characterized in that the guide device ( 7 ) as in a slide guide ( 9 ) of the upper housing part ( 3 ) guided slide ( 6 ) with a recess ( 18 ) for the head ( 39 ) of the needle tube ( 40 ) is formed. 5. Biopsy device according to claim 4, characterized in that the slide ( 6 ) under the force of a on the rear wall ( 14 ) of the upper housing part ( 3 ) supporting spring ( 12 ) at the front end of the upper housing part ( 3 ) in one front end position is held. 6. Biopsy device according to claim 5, characterized in that two symmetrical to the longitudinal central axis ( 8 ) of the upper housing part ( 3 ) arranged spiral springs ( 12 ) are easily seen. 7. Biopsy device according to one of claims 4 to 6, characterized in that the front end of the upper housing part ( 3 ) and / or the front end of the carriage ( 6 ) have damping means. 8. Biopsy device according to one of claims 1 to 7, characterized in that the guide device ( 7 ) with the actuating device ( 5 ) via a on the Füh approximately device ( 7 ) fixed spring element ( 17 ) and one on the actuating device ( 5 ) fixed, in the spring element ( 17 ) with the guide device ( 7 ) in the rest position engaging cross bolt ( 26 ) is connected. 9. Biopsy device according to claim 8, characterized in that the cross bolt ( 26 ) is in the rear end position of the guide device ( 7 ) out of engagement with the spring element ( 17 ). 10. Biopsy device according to one of claims 1 to 9, characterized in that the actuating element ( 5 ) is held in its rear end position under the force of a spring (leg spring 35 ). 11. Biopsy device according to claim 10, characterized in that the spring force of the leg spring ( 35 ) is about a third of the spring force of the springs ( 12 ). 12. Biopsy device according to one of claims 1 to 11, characterized in that the upper housing part ( 3 ) has an opening cover (pivoting cover 22 ) extending over its entire length. 13. Biopsy device according to one of claims 4 to 12, characterized in that the head ( 42 ) of the needle mandrel ( 43 ) in a at the rear end of the slide guide ( 7 ) in the upper housing part ( 3 ) provided recess ( 20 ) is fixed . 14. Biopsy device according to claim 13, characterized in that the recess ( 18 ) of the guide device ( 7 ) for the head ( 39 ) of the needle tube ( 40 ) and / or the Ausneh line ( 20 ) of the upper housing part ( 3 ) for the head ( 42 ) of the needle mandrel ( 43 ) is provided with interchangeable adapter inserts. 15. Biopsy device according to one of claims 1 to 14, characterized in that the housing ( 2 ), the guide device ( 7 ) and the actuating device ( 5 ) consist of plastic or light metal. 16. Biopsy device according to one of claims 1 to 15, characterized in that the biopsy needle ( 68 ) of the device ( 1 ) has a head ( 42 ) with a spherically formed head part ( 62 ) and a head ( 39 ) with a has spherical head portion ( 63 ). 17. Biopsy device according to claim 16, characterized in that the spherical head parts ( 62 and 63 ) in Kalot ten-like recesses ( 20 and 18 ) in the housing ( 2 ) are fixed. 18. Biopsy device according to claim 16 or 17, characterized in that the needle tube ( 40 ) and the needle mandrel ( 43 ) of the biopsy needle ( 68 ) made of metal and the heads ( 39 and 42 ) made of in particular heat-resistant plastic.