RU2033758C1 - Needle for puncture biopsy of thyroid gland - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: needle has external hollow tube with bevel cut of working end; there is a connecting washer at non-working end. Interchangeable blades or shuttering unit are mounted in channel of the tube; the unit has cut corresponding to cut of external tube. External hollow tube has diameter of 0.8 m, angle of cut is equal to 75-80 deg. Five holes are made at working end of external tube; diameters of holes are equal to 0.2 mm. The holes are used for checking location of needle cut by means of ultrasonic diagnostics. EFFECT: improved precision. 2 cl, 3 dwg

Description

 The present invention relates to medical equipment, namely to devices for targeted puncture biopsy.

 A device for biopsy of soft tissues, containing an external hollow tube with an oblique cut at the working end and a handle on the opposite, and an inner needle with an oblique cut at the working end.

 The disadvantage of this solution is significant trauma and destruction of the tissue with the introduction of an internal needle. In addition, such a design is not acceptable when taking a biopsy from an organ such as the thyroid gland, which is located close to the skin and has an abundant blood supply.

 The task of obtaining the required amount of thyroid gland-free material deformed by biopsy under the control of an ultrasound puncture probe and in the absence of risk of injury and regionality of the tissues adjacent to the tumor is currently relevant.

 To solve this problem, a needle for puncture biopsy of the thyroid gland is proposed, containing a thin external hollow tube, a needle at the end of which a sensor is mounted for ultrasonic determination of the location of its end. This device is the closest to the invention.

 The invention is illustrated figure 1-3, which depicts the details of the needle.

The needle comprises a hollow outer tube 1 with five holes 2, obliquely cut (at an angle ^of 75-85) of the working end of the cannula 3 and 4, in which a groove 5. The working mandrel 6 is formed as a rod and shovel 7 at the tip end of the cutting end edge 8. In addition to the above two parts, there is an additional one (replaceable) obturator mandrin 9, the cutting angle of 10 of which corresponds to the cutting angle of the outer tube. On the adapter 11 of the obstructing mandrel there is a protrusion 12 for interaction with the groove 5 on the cannula of the outer tube.

 The device operates as follows.

 Under the control of an ultrasound puncture probe, the external hollow tube 1 with the obturating mandrel 9 tightly installed in it is inserted through the puncture through the skin, the underlying anatomical structures, the thyroid capsule and lead to a pathological formation. The obturating mandrel 9 is fixed against rotation by the bayonet connection of the protrusion 12 with the groove 5 of the outer tube. In this case, the tip of the outer hollow tube 1 is clearly visualized on the screen of the ultrasound apparatus due to air bubbles filling the holes 2 in the outer hollow tube 1. Then the obturating mandrin 9 is removed from the outer hollow tube 1 and a working mandrin 6 is introduced in its place. Moving the outer tube 1 into pathological formation to a depth of 3-5 mm, at the same time rotate the working mandrin 6 by 3-5 revolutions depending on the depth of introduction of the tube 1. At the same time, the cutting edge 8 of the working mandrin 6 is cut off novaniya tissue area and are located in the space between the planes of the blade 7 and the outer tube. The cut sections of the fabric freely enter this space, since due to the presence of holes 2 in the outer hollow tube 1, pressure is not created. After that, the working mandrel 6 with the obtained biopsy is removed from the outer hollow tube 1, and the resulting material is transferred for urgent morphological examination, and the outer tube 1 is left without bias for a second cycle. If necessary, biological material can be obtained many times at once in the necessary direction. After removing the working mandrel 6, an obturating mandrin 9 is inserted into the left outer tube 1 and together they are advanced into the formation by 5-8 mm under constant control on the screen of the ultrasound apparatus. The obstructing mandrin 9 is removed, and a 5-10 ml syringe is attached to the cannula 4 of the tube 1 and 3-5 suction movements are made with the latter disconnected after each aspiration. The outer hollow tube 1 is removed from the pathological formation of the thyroid gland, and the obtained graduate student is blown onto a glass slide and transferred for cytological examination.

 Thus, the proposed device makes it possible under ultrasound control without unnecessary trauma (the outer tube is made with a small diameter of 0.8 mm and is brought to the pathological formation once) and without the risk of regionality (the length of the mandrins does not protrude beyond the length of the outer hollow tube) to receive simultaneously and many times a sufficient amount of undeformed biopsy for histological and cytological studies.

Claims (2)

 1. NEEDLE FOR A PUNCH BIOPSY OF THE THYROID GLAND, containing an outer tube with an oblique cut of the working end, near which there are ultrasonic sensors for determining the position of the needle, characterized in that it is equipped with an obturating or working mandreins with an angle installed on one another a cut of the working end equal to the cut angle of the needle, and the working part of the obstructing mandrel is made in the form of a cylinder, the diameter of which corresponds to the inner diameter of the tube, and the working part of the working Andre in a blade having a width which corresponds to the inner diameter of the outer tube, the thickness is 0.2 mm, length 10 mm, in addition, sensors are in the form of lateral openings in the wall of the outer tube disposed staggered on opposite sides of the latter. 2. The needle according to claim 1, characterized in that the outer diameter of the needle is 0.8 mm, the cut angle is 75 85 ^o to the longitudinal axis and the side holes are made with a diameter of 0.2 mm

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