DE8907461U1 - Laser instrument for medical purposes - Google Patents

Description

7709 · »""»&igr;3

Laser instrument for medical purposes

The invention relates to a laser instrument for medical purposes with a holding body with inlet and outlet openings for a fiber optic cable and rinsing fluid.

Conventional instruments of the type mentioned above are regularly used in surgery to remove certain tissue, such as bone cement, XnSrpt I or the like, using a laser beam. The area to be treated is exposed to rinsing agent in order to remove severed tissue from the area being treated. The end piece of the fiber optic cable can be moved in relation to the holding body, which can have a negative impact on the precision of the surgical procedure.

Based on the above prior art, the invention is based on the object of further developing the generic laser instrument without undue design effort so that its handling is simplified and a surgical procedure can be carried out with high precision.

The stated object is achieved according to the invention in that a channel common to the fiber optic cable and the rinsing liquid is formed in the holding body with an end piece protruding into the open, which holds the fiber optic end piece protruding from the holding body and acted upon by the rinsing liquid.

7709

Han recognizes that the invention is in any case implemented if the end piece of the fiber optic cable protruding from the holding body and emitting a laser beam can be firmly connected to the holding body, whereby the rinsing fluid is emitted in the direction of the laser beam, i.e. towards the operated area.

further practical and advantageous configurations
Invention emerge from the subclaims.

If it is a laser instrument with a roughly cylindrical holding body, then it is expedient if the inlet openings for the fiber optic cable and for the rinsing liquid are formed on one end of the holding body and if the end piece is arranged on the other end. The inlet opening for the rinsing liquid is usually defined by a nozzle to which a rinsing liquid hose can be detachably connected. Because the fiber optic cable is arranged on the same side of the holding body as the rinsing liquid hose, no force is exerted on the holding body that could cause the holding body to twist about its longitudinal center axis.

Another useful embodiment provides that the inlet opening for the fiber optic cable is designed parallel to the inlet opening for the rinsing liquid. In this case, these measures can also be taken in such a way that the inlet opening of the fiber optic cable is followed by a hole that opens into the channel and runs parallel to a hole that connects the inlet opening for the rinsing liquid to the channel.

This allows an immovable connection between the end piece of the fiber optic cable and the duct to be achieved.

A7709

that the inner diameter of the channel is larger than the outer diameter of the fiber optic cable and that the free front side of the channel has guide bodies or tabs that hold the fiber optic cable in place. These guide bodies can consist of sections of the channel that are bent to the axis of the channel and axially slotted. In such an embodiment of the invention, the end piece therefore consists of a pipe with an inner diameter that is larger than the outer diameter of the fiber optic cable. Several axially aligned slots are then cut into the free front side of the pipe section and the slotted parts of the pipe section are bent inwards, defining an opening through which a bare piece of fiber optic can be pulled through. About 2 - 3 mm of the fiber optic protrudes outwards. The rinsing liquid flows through the slots so that the removed tissue parts can be continuously removed. The surgeon can therefore be sure that the treated area is also exposed to a jet of the rinsing fluid.

In order to be able to reach hard-to-reach places with the laser instrument, the radial outside of the cylindrical end piece is provided with a thread, which can be detachably connected to an attachment designed as a channel continuation.

In order to better fix the fiber optic cable inserted into the holding body, a practical embodiment of the invention provides that the inlet-side end section of the holding body is slotted and carries an axially adjustable clamping ring. This clamping ring can then be used to reduce the diameter of the inlet opening, so that the fiber optic cable can also be connected in a fixed position to the holding body at this point.

A7709

An embodiment of the invention is shown in the drawing s-thematically and is explained in more detail below. It shows

Fig. 1 a holding body in side view,
Fig. 2 a side view of the attachment and

Fig. 3 is an axial plan view of the attachment in the direction of arrow III according to Fig. 2, shown enlarged.

In Fig. 1, a laser instrument for medical purposes is shown with a holding body 10 with an inlet opening 12 for a fiber optic cable 18 and an inlet opening 14 for fluid, which can be introduced into the laser instrument through a hose 20. In the holding body 10, a common channel 40 for the fiber optic cable 18 and the rinsing liquid is formed with a freely protruding end piece 46, which holds the fiber optic end piece 60 protruding from the holding body 10 and acted upon by the rinsing liquid. The holding body is essentially cylindrical. On one end face of the holding body 10, on the right side in Fig. 1, the inlet openings 12 and 14 for the fiber optic cable 18 and for the rinsing liquid are formed. The end piece 46 is arranged on the other end face. The inlet opening 12 for the fiber optic cable 18 is formed parallel to the inlet opening 14 for the rinsing liquid. It can also be seen that the inlet opening 12 of the fiber optic cable 18 is connected to a bore 36, which opens into the channel 40. and which runs parallel to a bore 38 connecting the inlet opening 14 for the flushing liquid with the channel 40. The inner diameter of the channel 40 is larger than the outer diameter of the fiber optic cable 60. The free front side of the channel 40 (cf.

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Fig. 3) has guide tabs 51, 53, 55 and 57 that hold the fiber optic cable end piece. These guide tabs consist of sections of the channel 40 that are bent to the axis of the channel 40 and are axially slotted. Between these sections, slots 50, 52, 54 and 56 are formed for the outflowing flushing liquid. The outlet 58 defined by the guide tabs 51, 53, 55 and 57 is dimensioned such that it is slightly smaller than the outer diameter of the cable end piece 60, so that this cable end piece 60 is held in place. Fig. 1 also shows that the radial outside of the cylindrical end piece is provided with a thread 44, which can be detachably connected to an attachment 58 designed as a channel extension. The attachment has an internal thread 53.

The inlet-side end section of the holding body 10 is slotted and carries an axially adjustable clamping ring 28, which can be adjusted in the direction of the double arrow 57. The inlet opening 12 for the fiber optic cable 18 is defined by a bore whose diameter can be changed. A circumferential diameter reduction 30 is provided to ensure that the clamping ring 28 is held securely in place. The inlet opening 14 is followed by a nozzle 17 which can be detachably connected to a hose 20 for the rinsing liquid. A continuous bore 16 is formed in this nozzle, while its radial outer side has radially aligned ribs 22 and 24. A sealing ring 32 is arranged in the bore 36, which creates a tight connection between the fiber optic cable and the bore 36. The left end of the bore 38 has a transition section 42 which connects the bore 38 to the bore 36.

Such a device can be used in particular for meniscus operations or for removing bone cement. The surgeon can hold the device like a pen and thus perform the operation with high precision.

Claims (10)

OeorgVtpgd Patent Engineer · 7141 Schwletertltniff :He7Tpnn»Eesie:§»Äe<fc · IeMbH(O71 SC) 33271 · Telefax (071 SO) 3 2191 A 7709 - j/w 15.. Jtmi 1989 w &bgr; b a medi &zgr;&iacgr; nmechani k Sch loßäckerweg 6/1 Batgheim - 1 claims 1. Laser instrument for medical purposes with a holder body with inlet and outlet openings for a fiber optic cable and rinsing fluid, characterized, that in the holding body (10) a channel (40) common to the fiber optic cable (18) and the rinsing liquid is formed with a freely protruding end piece (46) which holds the fiber optic cable end piece (60) protruding from the holding body (10) and acted upon by the rinsing liquid. 2. Laser instrument according to claim 1 with an approximately cylindrical holding body, characterized, that the inlet opening (12,14) for the fiber optic cable (10) and for the flushing liquid are formed on one end face of the holding body (10) and that the end piece (43) is arranged on the other end face. 3. Laser instrument according to claim 1 or 2,
characterized, that the inlet opening (12) for the fiber optic cable (18) is designed parallel to the inlet opening (14) for the rinsing liquid. 4. Laser instrument according to one of claims 1 to 3,
characterized, that the inlet opening (12) of the fiber optic cable (18) is connected to a bore (36) which opens into the channel (40) and which runs parallel to a bore (38) connecting the inlet opening for the rinsing liquid to the channel (40). 5. Laser instrument according to one of claims 1 to 4,
characterized, that the inner diameter of the channel (40) is larger than the outer diameter of the fiber optic cable (60) and
that the free front side of the channel (40) has guide bodies (51,53,55,57) holding the fibre optic cable. 6. Laser instrument according to one of claims 1 to 5,
characterized, that the guide bodies (51,53,55,57) consist of sections of the channel that are bent to the axis of the channel (40) and axially slotted. 7. Laser instrument according to one of claims 1 to 6,
characterized, that the radial outer side of the cylindrical end piece is provided with a thread (44) which can be detachably connected to an attachment designed as a channel continuation. A 7709 .: ,-, 3, 7, 8. Laser instrument according to one of claims 1 to 7,
characterized, that the inlet-side end section of the holding body (10) is slotted and carries an axially adjustable clamping ring (28). 9. Laser instrument according to one of claims 1 to 8,
characterized, that the inlet connection (12) of the glass bulb cable <?S3 runs coaxially to the longitudinal center axis of the holding tube (10) ( and that the inlet opening for the rinsing liquid has a nozzle (17) running parallel to the inlet opening of the fiber optic cable. 10. Laser instrument according to one of claims 1 to 9,
characterized, that in the bore (36) for the fiber optic cable (12) a sealing body (32) is arranged, which tightly connects the fiber optic cable to the bore. &bull; * &bull;< I
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