DE102015219062A1 - Hollow needle for an ophthalmological instrument - Google Patents

Abstract

A hollow needle for an ophthalmological instrument for in vivo disintegration of organic lenses by means of ultrasound, having a connection area formed at the proximal end for coupling to the instrument and a distal end formed needle head (2) having an effective surface (3) for emitting ultrasonic waves, wherein a suction channel (4) for sucking lens debris extends through the hollow needle, whose opening is delimited by the active surface (3), is characterized in that the outer side (5) of the needle head (2) preferably extends in the axial direction Materialausnehmungen (7 ) and / or at least partially has a rough surface.

Description

The invention relates to a hollow needle for an ophthalmological instrument for in vivo disintegration of organic lenses by means of ultrasound, having a trained at the proximal end connection area for coupling to the instrument and a distal end formed needle head with an effective surface for emitting ultrasonic waves, wherein a suction channel for Extracting Linsentrümmern through the hollow needle extends through, the opening is limited by the active surface.

Hollow needles of the type in question are known for years from practice. A corresponding hollow needle is in the DE 196 468 81 C1 shown. Specifically, it is a hollow needle for an ophthalmological instrument for in vivo fragmentation of lenses by high frequency actuation of the hollow needle. The hollow needle also serves to suck Linsentrümmern through an inner suction channel. In this case, the suction channel is formed stepped within the needle head, wherein at least some of these stages prism-shaped incisions to improve the fragmentation of the lens body. Furthermore, the hollow needle comprises a ring-shaped front end, which forms the opening of the suction channel.

Ultrasound-operated hollow needles of the generic type are used in cataract surgery in ophthalmic surgery. The free end of the hollow needle is placed in a high-frequency movement and brought directly to the cataract. In particular, from the annular front end ultrasonic waves are emitted for emulsification of the tissue. Separated lens debris or lens parts are sucked through the hollow needle together with a rinsing liquid supplied to the eye.

To reinforce the emitted ultrasound field, it is already known to form toothed the end face or distal end of the hollow needle, that is, the effective area there. The effective area for emitting ultrasonic waves is thereby increased, so that the efficiency of the instrument or the hollow needle is improved.

In the known hollow needle, however, is problematic that the fragmentation of the lenses nevertheless takes place only extremely slowly. In order to minimize the burden of the procedure on the patient, efforts are made to minimize the duration of the procedure.

Furthermore, it is problematic that in the generic hollow needle sometimes larger lens debris are sucked, which clog the suction and are shredded in this only very slowly. The obstruction creates a very strong negative pressure within the hollow needle. In the case of an often abrupt solution of the blockage, there is a risk that the anterior chamber will collapse due to the suddenly rising vacuum (so-called post-occlusion surge). This leads to significant injuries to the eye, so that a blockage of the needle is to be avoided.

The invention is therefore based on the object, a hollow needle for an ophthalmological instrument of the generic type to design and further develop that with structurally simple means at an effective fragmentation of organic lenses secure application is guaranteed.

According to the invention the above object is solved by the features of claim 1. Thereafter, the subject hollow needle for an ophthalmological instrument for in vivo fragmentation of organic lenses by means of ultrasound is characterized in that the outside of the needle head, preferably extending in the axial direction, material recesses and / or at least partially has a rough surface.

In accordance with the invention, it has been recognized that, contrary to a prejudice of the experts, optimal fragmentation of the lenses is not influenced exclusively by the geometry of the suction channel, but also to a considerable extent by the configuration of the outside of the needle head. In a further inventive manner it has been recognized that by extending on the outside of the needle head in the axial direction Materialausnehmungen and / or an at least partially rough designed surface of the outside of the needle head, the effectiveness of the hollow needle is significantly improved. By this design measure, the radiation of the ultrasonic waves is optimized, so that a rapid disintegration of organic lenses is possible.

It is essential that the outside of the needle head is formed by the outer wall of the needle head and by the active surface.

The material recesses may be arranged circumferentially around the entire needle head in order to achieve the largest possible area for emitting the ultrasonic waves. Alternatively or additionally, it is conceivable that the rough surface is arranged on the entire surface of the outer side of the needle head. In a further advantageous manner, viewed in the axial direction, the material recesses may be of different lengths be, namely taking into account the specific geometry of the needle head.

In order to achieve a further improvement in the effectiveness of the hollow needle, the material recesses may extend as far as the effective region and be chamfered or blunt on the active region. A chamfered or dull formation has the advantage that the ultrasound-emitting surface is again increased and the emission direction of the ultrasound waves can be controlled. Furthermore, injuries to the surrounding tissue are avoided by this embodiment. The realization of a sharply formed end of the material recesses serves for easier insertion of the hollow needle into the eye and for improved mechanical destruction of the lens tissue.

Advantageously, the material recesses may have a round, oval or angular, in particular triangular cross-section. It should be noted that the term "square" in the broadest sense is to be understood and includes, for example, a triangle that has no straight but curved side lines.

In order to avoid clogging of the hollow needle, at least one of the material recesses can realize a bypass acting as an opening at the distal end of the needle head. In concrete terms, an area of the material recess-in particular on the active surface-can extend in the radial direction from the outside of the needle head to the suction channel, namely in the sense of a passage or a notch. In other words, a further opening can be provided on the active surface in addition to the opening of the active surface. As a result of this, in the case of aspiration of large lens debris fluid can still be sucked in, so that it is avoided that a stronger negative pressure builds up in the suction channel in order to prevent the lens debris from sucking in and thus a more extensive blockage. This design measure thus counteracts the occurrence of a post-occlusion surge.

In a further advantageous manner, the rough surface can be realized by a diamond coating, in particular on the active surface. As a result, the so-called. Jackhammer effect is increased, which causes an improvement in the crushing performance. Alternatively, it is conceivable that the rough surface is produced by etching, steaming, etc.

In order to increase the aspiration and / or irrigation rate, one or more coatings with nanoparticles can be formed on the inner and / or the outer surface of the needle head or on the entire hollow needle.

To increase the effective area, the latter can have two active surface regions which run at different angles with respect to the axial direction, so that the active surface is beak-like overall. Due to the beak-like geometry, an extremely effective and concentrated emission of ultrasonic waves is possible, so that even hard areas of the lens to be smashed, for example a cataract that already exists for a long time, are rapidly destroyed.

Furthermore, it is conceivable that the suction channel is formed in the needle head at least partially tapered in the direction of the proximal end. As a result, the diameter of the suction channel in the needle head extends in the direction of the proximal end, wherein within the suction channel no radially extending steps or edges are present at which lens debris hang and thus clog the suction. Furthermore, the effectiveness of the device can be improved to the effect that the wall of the suction channel - for example, over the entire tapered portion - has axially extending recesses. By this simple design measure, the radiation of the ultrasonic waves is optimized, so that an improved fragmentation of organic lenses is possible. In this case, a combinatorial effect is realized by the conical configuration of the suction channel and arranged in the conical region depressions, which leads to a particularly rapid and secure destruction of the lens tissue.

In a further advantageous manner, the recesses may have a circular segment-shaped, angular, in particular triangular, cross-section. Reference should be made to the above definition of the term "angular", which also applies to the geometry of the wells.

There are now various possibilities for designing and developing the teaching of the present invention in an advantageous manner. For this purpose, on the one hand to the claims subordinate to claim 1 and on the other hand to refer to the following explanation of a preferred embodiment of the invention with reference to the drawings. In conjunction with the explanation of the preferred embodiment of the invention with reference to the drawing, generally preferred embodiments and developments of the teaching are explained. In the drawing show

1 in a schematic, perspective view of an embodiment of a hollow needle according to the invention,

2 in a schematic, frontal view of the hollow needle according to 1 and

3 in a schematic side view of the hollow needle according to 1 and 2 ,

1 shows a schematic, perspective view of an embodiment of a hollow needle according to the invention. It is to simplify the presentation in 1 and in the following figures only the front, distal end of the hollow needle imaged. Out 1 it turns out that at the distal end 1 a pinhead 2 is trained. The needle head 2 includes an active surface 3 having a suction channel extending through the hollow needle 4 limited. The suction channel 4 extends through the entire hollow needle and is used to aspirate Linsentrümmern and liquid that is supplied to the inside of the eye during the procedure.

On the outside 5 of the needle head 2 namely, the outer wall 6 , are axially extending material recesses 7 educated. To simplify the illustration are in 1 as well as the following figures, only two of the Materialausnehmungen 7 provided with a reference numeral. Alternatively or additionally, the outside 5 ie the outer wall 6 or the effective area 3 , have a rough surface. The rough surface can be realized advantageously by a diamond coating. Through the material recesses 7 as well as the rough surface of the needle head 2 the ultrasonic emitting surface is increased and in addition the mechanical fragmentation of the lens body is improved.

The material recesses 7 have a triangular cross-section, wherein two sides of the triangle are formed bent. Furthermore, it can be seen that the effective area 3 two active surface areas 8th . 9 having. The effective surface areas 8th . 9 run opposite to the axial direction at different angles, so that the effective surface 3 is formed beak-like. The material recesses 7 have a different length, namely due to the beak-like configuration of the active surface 3 , The thickness of the wall of the needle head 2 varies in the circumferential direction, thereby also the radial extent of the effective surface 3 varies in the circumferential direction. By this design measure, the intensity and direction of the radiation of the ultrasonic waves is optimally adaptable.

In 1 is further shown that in the wall 10 of the suction channel 4 axially extending depressions 11 are formed. There are only two of the wells 11 characterized in the figures with a reference numeral. The wells 11 have a circular segment-shaped cross-section and are positioned in the circumferential direction such that two adjacent recesses 11 Seen in the radial direction within a material recess 7 to meet. The wells 11 thus take the triangular cross-section of the material recesses 7 on.

2 shows in a schematic, frontal view of the hollow needle according to 1 , It can be clearly seen that the suction channel 4 in the needle head 2 towards the proximal end. This design minimizes the risk of obstruction of the hollow needle in a simple and effective manner. To avoid repetition, please also refer to the description of 1 directed.

3 shows a schematic side view of the hollow needle according to the 1 and 2 , It can be clearly seen again that the material recesses 7 up to the effective area 3 run and seen in the axial direction have different lengths, namely, taking into account the beak-like configuration of the active surface 3 or the distal end of the needle head 2 , Furthermore, the angle 12 recognizable, run under the side edges of the material recesses to each other. The material recesses 7 can each have the same angle 12 and thus differ only in their length. With regard to the further description is to the above explanations to the 1 and 2 directed.

With regard to further advantageous embodiments of the device according to the invention, reference is made to avoid repetition to the general part of the specification and to the appended claims.

Finally, it should be expressly understood that the above-described embodiments of the device according to the invention are only for the purpose of discussion of the claimed teaching, but not limit these to the embodiments.

LIST OF REFERENCE NUMBERS

1

distal end

2

pinhead

3

effective area

4

suction

5

outside

6

outer wall

7

material recess

8th

first effective area area

9

second active surface area

10

wall

11

wells

12

angle

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19646881 C1 [0002]

Claims (11)

Hollow needle for an ophthalmological instrument for in vivo disintegration of organic lenses by means of ultrasound, having a connection area formed at the proximal end for coupling to the instrument and a needle head formed at the distal end ( 2 ) with an effective surface ( 3 ) for emitting ultrasonic waves, wherein a suction channel ( 4 ) for sucking Linsentrümmern through the hollow needle extends through, the opening through the active surface ( 3 ), characterized in that the outside ( 5 ) of the needle head ( 2 ) preferably in the axial direction extending material recesses ( 7 ) and / or at least partially has a rough surface. Hollow needle according to claim 1, characterized in that at least some of the material recesses ( 7 ) seen in the axial direction are formed differently long. Hollow needle according to claim 1 or 2, characterized in that the material recesses ( 7 ) to the effective range ( 3 ) and at the effective range ( 3 ) are chamfered or dull or sharp. Hollow needle according to one of claims 1 to 3, characterized in that the material recesses ( 7 ) have a round, oval or angular, in particular triangular, cross-section. Hollow needle according to one of claims 1 to 4, characterized in that at least one of the material recesses ( 2 ) acting as a bypass opening at the distal end of the needle head ( 2 ) realized. Hollow needle according to one of claims 1 to 5, characterized in that the rough surface is realized by a diamond coating. Hollow needle according to one of claims 1 to 6, characterized in that on an inner and / or an outer surface of the needle head ( 2 ) or on the entire hollow needle one or more coatings with nanoparticles is / are formed. Hollow needle according to one of claims 1 to 7, characterized in that the active surface ( 3 ) two at different angles ( 12 ) with respect to the axial direction extending effective surface areas ( 8th . 9 ), so that the effective area ( 3 ) is formed beak-like. Hollow needle according to one of claims 1 to 8, characterized in that the suction channel ( 4 ) in the needle head ( 2 ) is tapered at least partially in the direction of the proximal end. Hollow needle according to one of claims 1 to 9, characterized in that in the wall ( 10 ) of the suction channel ( 4 ) extending in the axial direction depressions ( 11 ) are formed. Hollow needle according to claim 10, characterized in that the depressions ( 11 ) have a circular segment-shaped or angular, in particular triangular, cross-section.

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