SU1106475A1 - Ureterocystoscope - Google Patents

Abstract

A URETROSCOPE containing a working part with optical fibers, an instrumental channel and a spring control mechanism for the distal end, characterized in that, in order to reduce the morbidity by reducing the diameter of the working part, the distal end control mechanism is designed as a pusher installed in the instrumental channel with the possibility of longitudinal movement along This is the length of the working part, and three bending springs, placed at the distal end of the working part by the optical fiber and the instrumental channel, and two bend dinners are rigidly fixed, and a third cantilever. (About with V and: ate F1 / g.1

Description

The invention relates to medical instrument making and is intended for the diagnosis of the urinary tract, renal pelvis, large vessels, cavities of the brain and spinal cord. A known dry urethroscope is used for inspecting the urethra, including a replaceable tubular obturator, a light bulb with a switch and an adjustable loupe Cll. The disadvantage of a dry urethroscope is the impossibility of inspecting the upper urinary tract due to the large diameter of rigidity of the tube. Closest to the invention, there is a controlled probe for aspiration biopsy, containing a working part with optical fibers, an instrumental channel and a spring control mechanism for the distal end, made with a cable pull C2l. A disadvantage of the known probe is a high trauma during the examination of the lower urinary tract due to the large diameter of the working part, determined by the dimensions of the cylindrical spring with a cable pull. The purpose of the invention is to reduce the traditionalism by reducing the diameter of the working part. This goal is achieved by the fact that in the urethroscope containing the working part with optical fibers, the tool channel and the spring control mechanism for the distal end, the control mechanism for the distal end is made in the form of a pusher installed in the tool channel with the possibility of longitudinal measurement throughout the entire length of the working part, and Three bending springs placed iB at the distal end of the working part between the fibers and the tool channel, with two bending springs rigidly fixed, and a third cantilever. FIG. 1 shows a urethroscope, front view; in fig. 2 - the distal end of the device in the initial position; in fig. 3 - the same in the final position; .on FIG. 4 is a section A-A in FIG. 3. The urethroscope contains a working part 1 with optical fibers 2, an instrumental channel 3 and a spring mechanism. control consisting of a pusher 4 installed in the tool. Channel 3 with the possibility of longitudinal movement along the entire length of the working part 1, and three bending springs 5, placed at the distal end of the working part 1 between the optical fibers 2 and the tool channel 3. The pusher 4 can be made hollow from a fluoroplastic tube with a spherical end. Three bend springs 5 can be made of sections of steel spring wire with a smooth bend at an angle of 30 and fixed, for example by soldering between the optical fibers 2 and the tool channel 3, with two bend springs rigidly fixed, and the third located, for example, opposite the tool channel 3 can move longitudinally in its nest. The sleeve of the distal end can be made of stainless steel and terminate before bending. The outer shell of the working part consists of a thin metal stocking drenched in hot form with a plastic elastic mass. The urethroscope works in conjunction with a cystoscope. The entry into the ureter is carried out using an Albarran mechanism or another similar mechanism. Pressing the pusher installed in the tool channel 3, due to its movement, is introduced into the distal end, thus straightening the working part 1. If necessary, the pusher 4 can be removed. From the urethroscope, the distal end of the working part 1 assumes the initial position, those. bent at an angle of 30. Observation and illumination of the studied tubular organs is carried out through optical fibers 2. The use of the proposed urethroscope as compared with the known designs of endoscopes can reduce trauma, painful feelings by reducing the diameter of the working section to 2.5 mm. The use of the proposed design of the urethroscope as a pyeloscope allows not only to reduce the invasiveness, but also to eliminate surgical intervention reach the renal pelvis and calyx not through an incision, but through the ureters, increasing the time for examination and treatment. In addition, the small diameter of the urethroscope allows inspecting the cavities of the brain and spinal cord, large vessels.

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Claims (1)

URETROSCOPE, comprising a working part with optical fibers, an instrumental channel and a spring control mechanism for the distal end, characterized in that, in order to reduce trauma by reducing the diameter of the working part, the distal end control mechanism is made in the form of a pusher installed in the instrumental channel with the possibility of longitudinal moving along Nsey the length of the working part, and three bending springs located at the distal end of the working part between the optical fibers and the instrument channel, and two springs and bending rigidly fixed, and the third cantilever. § ω s Q 1064 IS SL> 1 1106475