RU2021770C1 - Device for carrying punctional biopsy - Google Patents

Abstract

FIELD: medical equipment for examining condition of kidneys. SUBSTANCE: device has tubular case provided with cylindrical blade, punctional needle provided with holder and annular recess for bioptic matter, as well as conic tip, and hollow handle. There are the following mechanisms in the handle: mechanism for supplying needle, mechanism for translational and rotational movement of cylindrical blade and mechanism of longitudinal vibrations of cylindrical blade. Mechanism for longitudinal vibrations of cylindrical blade has cylindrical spring disposed inside internal channel of translational motion spring between support washer of translational movement mechanism and two nuts, which are mounted onto puncture needle for fixed movement. Edge radial protrusions are made onto support washer for interaction with radial grooves made onto shoulder of the case. Support washer is fixed against turn-through relatively the handle. Cylindrical blade is narrowed to diameter of 0.7-1.2 mm at the part from the case of 2/3-4/5 length. Needle is narrowed as well correspondingly. EFFECT: improved reliability; improved precision. 4 cl, 5 dwg

Description

 The invention relates to medical instruments, in particular to instruments for renal biopsy.

 A device for puncture biopsy is known. The specified device, having a number of advantages, is nevertheless not without drawbacks that contribute to injury to body tissues and biopsy. First of all, a long (up to 150 mm and more) cylindrical knife, made along the entire length with the same diameter (2-2.5 mm), is a fairly rigid structure. With these parameters of the knife, inevitable residual deformations of the barrel relative to the longitudinal axis of the device and transverse vibrations of its cutting edge occurring during rotation of the cylindrical knife (the edge during rotation will describe a circle exceeding its own diameter in diameter). Being made along the entire length with the same, with a relatively large outer diameter (up to 2.5 mm), the barrel of a cylindrical knife is itself a factor of increased injury. Firstly, the tissues, quite widely dissected by the trunk, experience very noticeable pressure from the side of its surface at the entire depth of immersion of the knife; secondly, the deforming influences from the side of the cylindrical surface of the long-stemmed knife at the moment of its translational and rotational movement (force to twist) the tissues are also subjected to the entire immersion depth of the latter.

 The relatively large contact area of the outer surface of the knife with tissues and the absence of longitudinal vibrations of the latter creates a noticeable resistance to its rotation, which sometimes requires manual twisting of the knife during the biopsy cut, which reduces the level of automation of the process, therefore, prolonging the biopsy, as well as leading to additional shaking and micro displacement of the device enhancing the injury to the body. The control levers in the known device, made unidirectionally by the mechanisms of the latches, spaced from each other by at least 30-35 mm. This means that in order to actuate one and then another lever, the operator needs to move his palm along the handle of the device, having previously loosened the fixation of the latter relative to the patient's body. At the same time, tremors and micro displacements of the device are almost inevitable, which, of course, also results in additional trauma for the body and the punctured organ.

 The aim of the invention is to reduce injury to body tissues and biopsy.

 In FIG. 1 shows a device for a puncture biopsy, a longitudinal section; in FIG. 2 - ledge of the tubular body with radial recesses; in FIG. 3 - supporting washer with protrusions corresponding to the profile of the recesses on the tubular body; in FIG. 4 - supporting washer with narrowed protrusions; in FIG. 5 - lever descent of the mechanisms of translational and rotational movement of a cylindrical knife.

The puncture biopsy device comprises a tubular body 1 with a cylindrical knife 2 made of elastic steel, placed therein with the possibility of longitudinal movement of the puncture needle 3 with a holder 4, an annular recess for biopsy on the working end and a tapered tip 5, a hollow handle 6, placed in her needle feed mechanism 3, having a cylindrical spring 7 with a trigger lever 8, and the regulator 9 of the working stroke of the needle 3, made in the form of a cylindrical nut, articulated with a holder 4 threaded connection. A cylindrical knife 2 in the area adjacent to the body, 2 / 3-4 / 5 of its length is made with a decrease in the outer diameter to 0.7-1.2 mm, which reduces the bending stiffness of the thinned part of the knife with a puncture needle 3 with the possibility of displacement their axis relative to the longitudinal axis of the device by 1-6 mm at the point of change of the diameter of the knife in the case of applying a force of 0.01 kg to it perpendicular to the longitudinal axis of the device (knife 2 can also be made with an extremely shortened thickened part with a margin in length for the bioptate column, exceeding it for inu no more than 3 mm). Moreover, the transition from a larger diameter to a smaller cylindrical knife 2 is made at an angle to the axis of the latter, not exceeding the taper angle of the working part of the tip 5 of the needle 3. The diameter of the base of the body of the tip 5 is equal to the outer diameter of the working (wide-barrel) part of the cylindrical knife 2. The back of the tip 5 is made in the form of a truncated cone. 2 is a knife sharpening on the inner side ^{of the} 2-5 rear lower cone angle portion of the tip 5 and has a number of cutting edges inclined from the helix angle ^of 10-30 (not shown). The needle 3 is fixed in the holder 4 by means of a thread. The regulator 9 of the working stroke of the needle 3 is connected to the handle 10. The holder 4 has a flange 11, and the hollow handle 6 has a cover 12 connected to the handle by a thread. Between the flange 11 and the cover 12 there is a spring 7 of the needle feed mechanism 3. The lever 8 is provided with a leaf spring 13 and a latch 14 interacting with the flange 11 of the holder 4, and the axis 15 of the lever is closer to the working end of the device than the latch 14.

 The device also has mechanisms for translational and rotational movement of the housing 1 and knife 2.

 The translational movement mechanism is made in the form of a support washer 16 mounted on the neck 17 of the housing 1 with the possibility of rotation of the latter relative to the washer, support 18 with a central hole for the needle 3, located in the cavity of the handle 6 and connected to its wall by means of a thread, a cylindrical spring 19, placed between the washer 16 and the support 18, and the lever 20, interacting by means of a latch 21 with the washer 16, provided with a leaf spring 22.

 The rotational movement mechanism has a sleeve 23 with a central profiled hole placed rotatably in the cavity of the handle 6, having a flange 24 in the form of a ratchet wheel on one end and a corrugated disk 25 protruding outside the handle located between the support 26 of the flange 24 and the disk 25 has a winding spring 27, one end of which is fixed to the sleeve 23, and the other end is in the wall of the handle 6, the latch 28 for interaction with the flange 24, movably connected by an axis 29 with the lever 20 of the translational movement mechanism. In this case, the housing 1 has external protrusions (not shown), the profile of which corresponds to the profiled hole of the sleeve 23, in which the housing 1 is placed with the possibility of axial movement. The leaf spring 22 of the lever 20, made arcuate, simultaneously springs the latch 21 and the latch 28. The handle 6 has a window for visual observation of the movement of the housing 1 (not shown) and a window for the output of the levers 8 and 20. Moreover, the axis 15 of the lever 8 is located from the axis 30 the lever 20 at a distance of 7-15 mm, the most convenient when manipulating the levers.

 The device, in addition, is equipped with a mechanism of longitudinal vibrations of the knife 2, which includes a support washer 16 mounted on the neck 17 of the housing 1 with the possibility of longitudinal movement along the neck, a support element of the neck, made in the form of a nut 31 and a lock nut 32, a cylindrical spring 33, placed between the support washer 16 and the nut 31. A metal rod 34, fixed by a thread in the support 18 and passed through a profiled recess in the support washer 16, prevents the latter from turning relative to the handle 6. In this case, on the tubular body 1 you olnen ledge with a number of radially spaced arcuate recesses in the profile with rounded edges. The end face of the washer 16, respectively, has radially spaced protrusions 35 corresponding to the recesses of the housing 1, and the protrusions can also be made with a profile 6-10 times narrower than the profile of the recesses (see Fig. 4).

 The device is used as follows.

 The knife 2 and the needle 3 are installed with the washer 16 and the flange 11 on the latch 21 of the lever 20 and the latch 14 of the lever 8. In this case, the springs 19 and 7 are in a compressed state, and the knife 2 is in contact with the truncated cone of the tip 5. Screwing or screwing the regulator 9 needle stroke 3, determine the height of the biopsy cut with the tip length. Rotating the sleeve 23 over the disk 25, cock the spring 27 by 4-5 turns. In this case, the latch 28 automatically locks the ratchet wheel of the flange 24.

 In this state, a tip 5 with a knife 2 is inserted into the soft tissues of the body until it touches the punctured organ. Due to the sophistication of the knife barrel over an extended section, the input of the latter does not require much effort, in addition, the tissues adjacent to the thinned part of the barrel are slightly subjected to deforming effects. Then, the lever 8 of the feed mechanism of the needle 3 is lowered, releasing the flange 11 from the latch 14. In this case, the tip 5 of the needle 3, under the action of the spring 7, sharply enters the target organ at a predetermined depth. Due to the elasticity of the tissue of the investigated organ fills the annular recess of the tip. Holding the disk 25 with one of the fingers, lower the lever 20. At the same time, the washer 16 and the flange 24 of the sleeve 23 are released from locking by latches 21 and 28. The housing 1 rotating from the drive of the spring 27 together with the sleeve 23 under the action of the spring 19 moves forward, giving movement knife 2 in the direction of the tip 5 to contact the cutting edge of the knife 2 with the back of the tip 5.

 When the tubular body 1 rotates, the protrusions 35 on the support washer 16 periodically enter the recesses on the ledge of the housing 1 and come out again, pressing against the surface of the latter due to the elastic deformed spring 33, resulting in longitudinal-axial vibrations of the housing 1 and the knife 2 connected to it .

 Due to the relatively high flexibility of the thinned part of the knife stem 2 with the needle 3, the lateral vibrations of the rotating working (thickened) part of the knife are neutralized almost completely, which ensures the input of the latter into the tissue of the investigated organ precisely along its axis. Due to the longitudinal vibrations of the knife’s cutting edge, as well as the internal sharpening of the edge with a number of inclined cutting edges, the biopsy is cut without crushing the fabric with a high cut cleanliness, and the vibration provides a high-quality cut of tissue of any degree of softness and elasticity (even with some bluntness of the cutting edges). The vibration of the knife 2, in addition, to a large extent neutralizes the resistance of the tissues during its rotation, providing a faster immersion of the latter in the organ under study, making it unnecessary to twist the knife with fingers (for a corrugated disk 25), thereby increasing the degree of automation of the process.

 At the moment of contact of the cutting edge of the knife with the truncated cone of the back of the tip, the complete separation of the biopsy from the organ under study is completed, after which the device is excreted.

 To remove the cut biopsy from the device, the support washer 16 of the housing 1 is taken to the latch 21 of the lever 20. In this case, the biopsy sample located in the recess is freely accessible.

Claims (4)

 1. DEVICE FOR A PUNCH BIOPSY, comprising a tubular body with a cylindrical knife, a puncture needle with a holder, an annular recess for biopsy and a tapered tip placed in it with the possibility of longitudinal movement, a hollow handle with a needle feed mechanism having a cylindrical spring with a release lever and a regulator of the needle stroke, a translational movement of the knife containing a coil spring with a release lever and a support washer freely mounted on the body, and fur the bottom of the rotational movement of the knife, having a sleeve rigidly connected to the ratchet wheel and a grooved disk protruding beyond the handle, a winding spring connected to the sleeve and the wall of the handle, and a latch for interacting with the ratchet wheel kinematically associated with the trigger lever of the translational movement mechanism of the cylindrical knife characterized in that the device is equipped with a mechanism of longitudinal vibrations of a cylindrical knife containing a cylindrical spring located on the inner channel of the spring mechanical the isma of translational movement of the knife between the support washer and two nuts mounted on the housing made with a ledge, on which there are radial recesses, and the support washer is made with radial end protrusions corresponding to the recesses on the ledge of the housing, and is fixed from rotation relative to the handle, while the knife in the section from the body for 2/3 - 4/5 of the length is made narrowed to a diameter of 0.7 - 1.2 mm and, accordingly, the needle is made narrowed.  2. The device according to claim 1, characterized in that the angle of narrowing of the knife does not exceed the taper angle of the working end of the needle.  3. The device according to claim 1, characterized in that the width of the protrusions on the support washer is 6-10 times narrower than the width of the recesses on the ledge of the housing.  4. The device according to claim 1, characterized in that the distance between the axes of the levers 7 - 15 mm

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