RU2803688C1 - Two-component atraumatic multifocal biopsy needle - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to a needle for performing multifocal atraumatic biopsy. The biopsy needle consists of two components. The first component is a needle with a pencil-sharpened piercing part, in the lumen of which there is a channel that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle. The pencil-sharpened needle channel has a gentle exit, with an angle of 15°–20° to the needle axis. The second component is located in the needle channel — an extractor probe with a threaded tip, which is made of elastic-flexible steel. The pencil sharpened needle diameter ranges from 0.4 mm to 0.7 mm, with a length of 200 mm. The length of the extractor probe is 235 mm. The extractor, due to the gentle exit of the needle channel, is made with the ability to extend it out of the channel at an angle to the needle axis in such a way that when the needle is rotated along the axis, the tip of the extractor describes a circle with a diameter of up to 3 cm to collect material from points around the inserted needle within a radius of 1.0–1.5 cm depending on the length of the extendable probe.

EFFECT: use of the invention makes it possible to perform an atraumatic biopsy, and also, without removing the needle from one puncture, to collect material from different points around the inserted needle within a radius of 1.0–1.5 cm, which will ensure maximum coverage of surrounding tissues without making additional punctures.

1 cl, 3 dwg, 2 ex

Description

The invention relates to medical equipment and concerns a needle for performing multifocal atraumatic biopsy.

A needle biopsy system is known from the prior art, including: a drive device; an outer needle with a lumen through which the outer needle extends distally from the drive device; and an inner needle at least partially located in the lumen, a distal tip of the inner needle capable of being completely located in the lumen, with the inner needle extending distally from the drive device; a drive device configured to drive the outer needle proximally and distally, and a drive device configured to drive the inner needle proximally and distally independent of the outer needle (US 20150141868 A1, 05/21/2015).

Additionally, from the article Carl C. Reading, MD et al, US-guided percutaneous biopsy: use of a screw biopsy stylet to aid needle detection, Radiology, 1987 Apr; 163(1):280-1, the technique of inserting a screw biopsy stylet into a thin-walled biopsy needle is known, which significantly improves needle detection during ultrasound-guided percutaneous biopsy. This technique is useful when precise localization of the needle tip is needed to biopsy small lesions.

The disadvantages of previously known needles and systems for biopsies are high trauma to surrounding tissues, vessels and nerve endings, and the inability to perform multifocal biopsy.

The technical problem that the claimed invention is aimed at is the creation of a device that allows performing an atraumatic multifocal biopsy from a single puncture, preventing trauma to blood vessels and nerve structures due to the pencil sharpening of the needle and the location of the exit hole for the extractor probe on the side surface of the stylet 1.5 mm higher from the tip of the needle, and not from the end by means of a Quincke cut, as in currently existing biopsy devices, and also, due to the exit of the extractor probe through the side hole in the stylet of the needle at an angle of 15°-20° from the trajectory of its movement, the ability to perform biopsy from different local zones around one immersion (puncture) site of the inserted needle.

The technical result of the claimed invention is the ability to carry out an atraumatic biopsy, and also, without removing the needle from one puncture, to collect material from different points around the inserted needle within a radius of 1.0-1.5 cm, which will ensure maximum coverage of surrounding tissues without making additional punctures

The technical result is realized due to the following design features of the device; the biopsy needle consists of two components: the first component is a needle stylet with a pencil sharpening of the piercing part, which has a channel in the lumen that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle. The second component is located in the needle channel - an extractor probe with a threaded tip. In this case, the needle channel with a pencil sharpening has a gentle exit, with an angle of 15°-20° to the needle axis, and in the needle channel there is a second component - a probe - an extractor with a threaded tip, which is made of elastically flexible steel, and the diameter of the needle with pencil sharpening, ranges from 0.4 mm to 0.7 mm, length 200 mm, length of extractor probe is 235 mm.

This makes it possible to extend the extractor at an angle to the needle axis to collect material. When the needle is rotated around its axis, with the tip of the extractor probe “hidden” in the lumen of the stylet and extended after rotation, the extractor describes a circle in the surrounding tissues with a diameter of up to 3.0 cm, which allows, without removing the needle from one puncture, to take material from different points around the inserted needle within a radius of 1.0-1.5 cm, depending on the length of the extended probe, thus ensuring maximum coverage of the surrounding tissues without making additional punctures. In this case, the extractor probe is made of elastically flexible steel, which allows it to be rotated in the extended state, ensuring screwing into the tissue and winding them onto the thread surface.

Due to the fact that the needle tip has a pencil sharpening, the biopsy needle does not injure tissues and nerve structures along the path of penetration to the biopsy object, but allows them to be moved apart, which prevents damage to structures such as blood vessels and nerves surrounded by a dense membrane. The upper edge of the oval hole of the pencil-sharpened needle has a sharp edge, which allows you to cut off tissues carried away by the extractor as they are drawn into the lumen of the needle for further extraction. Thus, this device, having miniature dimensions: the needle diameter is in the range from 0.4 mm (27G) to 0.7 mm (22G), 200 mm long, the length of the extractor probe is 235 mm, which will allow penetration into anatomically complex structures of organs and tissues and with minimal traumatic effects, take material from large areas of the lesion of the tissues being studied. The thickness of the resulting layers of material will in many cases make it possible not to resort to cutting thin sections to prepare microscopic preparations.

In this case, the stylet fits standard cannulas to all syringes, which allows you to administer anesthesia medication, if required, as the needle is passed to the test object.

In fig. Figure 1 shows a general view of one of the embodiments of a biopsy needle, the diameter d of which is 0.55 mm.

In fig. Figure 2 shows the oval window of the biopsy needle, the arrow shows the sharp edge of the needle, below is an extractor probe with a threaded tip.

In fig. Figure 3 shows a biopsy needle in a working assembly; the lateral projection shows the angle α of deviation of the extractor probe from the needle axis when extending it to take a biopsy. This allows the tip of the probe to describe a circle around the stylet of the needle as it rotates around the axis between tractions of the material with the extractor probe hidden in the lumen.

The biopsy needle consists of two components: the first component is a needle with a pencil-sharpened piercing part, in the lumen of which there is a channel that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle. Moreover, the lower tip of the needle in this case should be understood as the tip of the needle, the upper edge of the oval window is the edge that is the most distant edge from the tip of the needle along the extraction of the biopsy material. The second component is located in the needle channel - an extractor probe with a threaded tip. In this case, the pencil-sharpened needle channel has a gentle exit, with an angle α of 15°-20° to the needle axis, which makes it possible to extend the extractor at an angle to the needle axis to collect material. When the needle is rotated along the axis, the tip of the extractor describes a circle in the surrounding tissues with a diameter of up to 3.0 cm, which allows, without removing the needle from one puncture, to take material from different points around the inserted needle within a radius of 1.0-1.5 cm, depending on the length The retractable probe thus provides maximum coverage of the surrounding tissue without making additional punctures. In this case, the extractor probe is made of elastically flexible steel, which allows it to be rotated in the extended state, ensuring screwing into the tissue and winding them onto the thread surface. Due to the fact that the needle point has a pencil sharpening, the biopsy needle does not injure the tissues along the way of penetration to the biopsy object, but allows them to be moved apart, which prevents damage to structures such as blood vessels and nerves surrounded by a dense membrane. The upper edge of the oval hole of the pencil-sharpened needle has a sharp edge, which allows you to cut off tissues carried away by the extractor as they are drawn into the lumen of the needle for further extraction. Thus, this device, having miniature dimensions: diameter d of the needle is in the range from 0.4 mm (27G) to 0.7 mm (22G), length a equal to 200 mm, length a1 of the extractor probe is 235 mm, which will allow you to penetrate anatomically complex structures of organs and tissues and, with minimal traumatic effects, take material from large areas of the lesion of the tissues being studied. The thickness of the resulting layers of material will in many cases make it possible not to resort to cutting thin sections to prepare microscopic preparations.

Example 1

To perform a biopsy, we make a two-component biopsy needle. In this case, the first component is a needle with a pencil-sharpened piercing part, in the lumen of which there is a channel that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle. The pencil-sharpened needle channel has a gentle exit, with an angle α - 15° to the needle axis. In the needle channel we place the second component - an extractor probe with a threaded tip, which is made of elastic-flexible steel. Diameter d of a pencil sharpened needle is 0.4 mm, length a - 200 mm. In this case, the length a1 of the extractor probe is 235 mm. We use the resulting needle to perform a biopsy; to do this, we puncture the skin and soft tissues with a biopsy needle at the site of interest. Under ultrasound navigation, we approach the site of material collection with a needle. We extend the extractor probe at an angle to the axis of the needle to collect the material; after extracting the resulting material, we rotate the needle along the axis and again extend the extractor probe at another point in the circle around the needle. Thus, the tip of the extractor, as it were, describes a circle in the surrounding tissues with a diameter of up to 3.0 cm. And, without removing the needle from one puncture, we take material from different points around the inserted needle within a radius of 1.5 cm, ensuring maximum coverage of the surrounding tissues without making additional punctures.

Example 2

To perform a biopsy, we make a two-component biopsy needle. In this case, the first component is a needle with a pencil-sharpened piercing part, in the lumen of which there is a channel that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle. The pencil-sharpened needle channel has a gentle exit, with an angle α - 20° to the needle axis. In the needle channel we place the second component - an extractor probe with a threaded tip, which is made of elastic-flexible steel. Diameter d of a pencil sharpened needle is 0.7 mm, length a - 200 mm. In this case, the length a1 of the extractor probe is 235 mm. We use the resulting needle to perform a biopsy; to do this, we puncture the skin and soft tissues with a biopsy needle at the site of interest. Under ultrasound navigation, we approach the site of material collection with a needle, rotating the extractor probe clockwise around the axis of the right thread of its working part, we extend the extractor probe at an angle to the needle axis to “screw” it into the tissue adjacent to the oval hole, after capturing the material with the same rotational movements, we gradually use the extractor probe to “pull” tissue into the lumen of the stylet, during which tissues with a particularly fibrous structure are cut off by the upper edge of the oval window and are drawn along with the probe into the lumen of the stylet. After the final removal of the tissues and washing them into the container, the extractor probe is reinserted into the stylet up to the oval window, after which we rotate the needle around its axis by 60°-90° and we again collect tissue from another area into which the oval window moved when the needle was turned. The alternate implementation of these procedures ensures the collection of material from the surrounding tissues along a circle of up to 3.0 cm in diameter, which the tip of the extractor describes in stages in the surrounding tissues. Thus, without removing the needle from one puncture, we take material from different points around the inserted needle within a radius of 1.0-1.5 cm, which ensures maximum coverage of the surrounding tissues without making additional punctures.

Claims (1)

A biopsy needle consisting of two components, the first component being a needle with a pencil sharpening of the piercing part, in the lumen of which there is a channel that opens on the side of the needle with an oval hole 1.5 mm above the tip of the needle, and the channel of the pencil sharpening needle has a gentle exit, with an angle of 15°-20° to the needle axis, and in the needle channel there is a second component - an extractor probe with a threaded tip, which is made of elastic-flexible steel, and the diameter of the pencil sharpened needle is in the range of 0.4 mm up to 0.7 mm, 200 mm long, the length of the extractor probe is 235 mm, and the extractor, due to the gentle exit of the needle channel, is made with the ability to extend it out of the channel at an angle to the needle axis in such a way that when the needle is rotated along the axis, the tip of the extractor describes a circle with a diameter of up to 3 cm for collecting material from points around the inserted needle within a radius of 1.0-1.5 cm, depending on the length of the extended probe.