RU2103927C1 - Device for taking samples of embryo tissue of nervous system - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has hollow needle with operation end cut at an angle of $$$ and sharp edge formed as intersection of cylindrical and conical surface, and locking member. External surface of needle operation end has conical shape and cut angle is in the interval of 75< $$$ 80 deg. The needle has introduction depth stopper designed as hollow tube w union and arresting screw. EFFECT: enhanced accuracy in taking samples with retained morphological structure. 8 dwg

Description

 The invention relates to medicine, namely to neurology and neurosurgery, and can be used in experiment and clinic.

 Usually, microsurgical instruments (scalpel, tweezers, scissors) are used to collect embryonic tissue of the nervous system. It takes a lot of time and the amount of tissue taken can be determined only approximately.

A device for biopsy is known, which is a hollow needle, characterized by the presence of a locking element, as well as the execution of the cutting edge of the needle formed by the intersection of the cylindrical and conical surfaces, and the presence of a bevel angle of the working end of the needle equal to 15 ^o from a plane perpendicular to the longitudinal axis (which is 75 ^o from the longitudinal axis).

 A disadvantage of the known device lies in the fact that it is impossible to accurately determine the volume of tissue being taken when the needle is passed through the structures of the brain, while taking tissues, they are mechanically damaged along the periphery, which changes the morphological structure of the tissue being taken.

 The invention is directed to the creation of a tool for targeted collection of embryonic tissue of the nervous system, which allows for strictly dosed sampling of nerve tissue to obtain a fragment of the embryonic tissue of the nervous system with the most preserved morphological structure.

 The essence of the invention lies in the fact that the tool for collecting embryonic tissue of the nervous system is a hollow needle with a conically sharpened working end, a needle immersion stop, a locking screw, a cylindrical rod, the diameter of which corresponds to the inner diameter of the needle.

The proposed device differs from the prototype in that the outer surface of the working end of the needle has a conical shape, the cutting angle is in the range of 75 ^o <α≤80 ^o . In this case, the needle is equipped with a depth gauge, made in the form of a hollow tube with a sleeve and a locking screw.

Sharpening the needle at an angle of 75 ^o <α≤80 ^o with respect to its axis and sharpening the edge around the circumference at an acute angle makes it possible to pick up the graft with the least trauma. Immersion limiter, consisting of a hollow tube, the diameter of which is 0.5 mm greater than the diameter of the needle, and the coupling allows you to carry out a strictly metered fence in any plane relative to the surface of the brain.

 In FIG. 1 shows the proposed device, a General view; in FIG. 2 - a hollow needle in a section; in FIG. 3 - the working end of the needle in the context; in FIG. 4 - immersion limiter; in FIG. 5 - locking screw; in FIG. 6 - a cylindrical rod; in FIG. 7, 8 - device in operation (sampling and extraction of a fragment of nerve tissue).

The device consists of a hollow needle 1, the outer diameter of which is 1.5 mm, the inner diameter of 1.2 mm, the needle is sharpened with respect to its axis at an angle of 75 ^o <α≤80 ^o , and its edge is sharpened around the circumference at an acute angle ( the sharp part is 0.01 mm thick), the immersion limiter of the needle 2, consisting of a hollow tube, the outer diameter of which is 2 mm and the inner diameter is 1.6 mm, and the coupling 3 for the locking screw 4, a cylindrical rod 5. All details of the device are made stainless steel, which allows you to use any sterilization methods.

 The tool is used as follows. The locking screw 4 fixes the sleeve of the needle immersion stopper 2 at the needle immersion level specified in each case, the needle 1 is filled with a syringe with liquid (nutrient solution) to reduce the friction force of the surface of the tissue column on the inner surface of the needle and for the subsequent, more “soft” one atraumatic extrusion of the obtained column of nerve tissue. The needle 1 is immersed in the brain tissue 6 and held parallel to the surface of the brain under visual control to the immersion limiter 2. The proximal opening of the needle 1 is closed and the needle is removed. The cylindrical rod 5 is inserted into the needle 1 and by hydraulic pressure the column of nerve tissue 7 is squeezed into the nutrient solution for further transportation.

 The tool was developed at the Russian National Scientific Research Institute of Fine Arts. prof. A.L. Polenova and underwent experimental and clinical trials during transplantation of embryonic nervous tissue in patients with cerebral palsy.

 The proposed tool has the following advantages compared to the prototype: due to the original sharpening of the needle, the tissues are sharply dissected with the least edge trauma, the tool is simple in design, it can be immersed in the brain tissue at any angle, in this case even parallel to the surface of the brain; with minimal trauma, the transplant is ejected from the needle.

Claims (1)

A device for collecting embryonic tissue of the nervous system containing a locking element and a hollow needle, the working end of which has a slice at an angle α, and the sharp edge is formed by the intersection of the cylindrical and conical surfaces, characterized in that the outer surface of the working end of the needle has a conical shape, the cut angle is in the range of 75 ^° <α ≤ 80 ^° , while the needle is equipped with a depth gauge, made in the form of a hollow tube with a sleeve and a locking screw.

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