SU1066583A1 - Ultrasonic instrument for acting on biologic tissue - Google Patents

Abstract

1. ULTRASONIC TOOL FOR INFLUENCING THE BIOLOGICAL TISSUE, containing a source of mechanical longitudinal ultrasonic vibrations, a waveguide with a working tip and helical grooves for exciting torsional vibrations, characterized in that, in order to obtain different oscillation modes spaced in frequency, the waveguide has an exponential body that has a hunt body. screw grooves are made directly on it with the formation of a waveguide rod of exponential shape and have a variable cross section, decreasing in the direction of the working wave a thumbnail. 2. The tool according to claim 1, wherein the heme is that, in order to reduce the morbidity during intraocular reconstructive operations, the working tip is made in the form of a blade with a ball at the end. 3. The tool according to claim 1, characterized in that, in order to bloodlessly restore the natural patency of Schlemm's canal with initial open-angle i glaucoma, the working tip is made in the form of a conical socket with a ring-shaped (L base.

Description

Of () b | nts1 ns refers to medicine and can be 1) 11s110l1 called in ophthalmology. , eats: 11 ultrasonic instrument for (biological; biological tissue, containing a source of mechanical longitudinal ultrasonic vibrations, a waveguide with a working tip and helical grooves for exciting torsional vibrations 1j. Anyone known1) The 1st instrument cannot always be used in the eye In practice, since it has a large destructive force (; i, there is a low coefficient of transformation of ultrasonic ultrasonic oscillations into roomy waves and does not need to be received by the co.; e () and of a purely torsional form. TC and learning of different forms of oscillation spaced apart, reducing the morbidity during the intraocular reconstructive O1 reduction, eractions, airless restoration of the natural permeability of the Schmiem canal 1Gy and beginning, 1NG open glaucoma. longitudinal ultrasonic vibrations, a waveguide with a working tip. IIIKO .M and b1 Ntovy grooves for the excitation of torsional vibrations, the waveguide has an ex The onential shape, and screw blades, are made directly on it with the formation of a waveguide rod of an exponential shape and have a variable cross section, 1minaying towards the working side of the 1-core. In this case, the working tip is made in the form of a blade with a ball at the end. The working tip can be made in the form of a conical socket with a ring-shaped base. FIG. 1 shows an ultrasonic instrument with a tip in the form of a cutting blade with a ball at the end; in fig. 2 the same with the tip in the form of a conical socket. An ultrasonic instrument for affecting biological tissue contains a source of mechanical ultrasonic ultrasonic vibrations, consisting of an exponential concentrator 1 and a transducer 2 (for example, magnetostrictive or piezoelectric), a floodwater transducer 3 of longitudinal ultrasonic rippling into torsion or complex with helical grooves 4 with a tapering and inclination angle, equal to 45 °, and the grooves are made directly on the transducer 3 in the non-working part with the formation of a rod-waveguide exp are of potential form and have a non-branching section and step, decreasing in the direction of the working tip; The combined worker I tip 5, made in the form of a blade with a ball 6 At the end and a replaceable working tip, made in the form of a horse socket 7 (Fig. 2). The operation of the ultrasonic instrument is carried out as follows. The longitudinal ultrasonic oscillations of the transducer 2 are amplified by the concentrator 1, which acts as an oscillating-transformer transformer, and are fed to a conical-shaped transducer 3 with helical grooves 4. The shape of the helical waveguide allows, along with amplification, to transform the longitudinal vibrations into complex or torsional number. In this case, it is possible to excite oscillations of various forms at three axial spatially separated resonances due to the introduction of a twisted one with a variable pin and the depth of the exponential part of the transducer waveguide. The first Lower Frequency (kHz) corresponds to cplex oscillations of the working tool, with the predominance of the longitudinal component due to the transmission of oscillations by the middle rod part of the waveguide, which is exponentially changed. The second resonance frequency (32 kHz) corresponds to complex oscillations with a predominance of the torsional component (1: 5) due to the transmission of oscillations both by the middle part of the waveguide and by its wave part. The third highest high frequency (40 kHz) for the day construction corresponds to the purely torsional vibrations of the working tool with the maximum conversion rate only by the screw part of the wiring guide. On the indicated resonant frequencies, the dynamic stability of the working tool to undesired bending vibrations is preserved due to the sensitive rigidity of the middle rod part of the waveguide. The universality of the ultrasonic tool is ensured due to its three-resonance characteristic, which allows to realize various forms of oscillations and the design of the working knife, made in the form of a blade with a ball at the end. The procedure for performing the operation is as follows: for cutting the tissues, the cutting part of the toolmaker is used with excitation of its longitudinal oscillation blade at a frequency of f 27 kHz; when istrumite is introduced into the eye to dissect the pathological structures of the vitreous body on the blade, complex vibrations with a predominance of the torsional component at a frequency of 32 kHz are excited; For coagulation of the retina, purely torsional vibrations at a frequency of 40 kHz are excited on the balloon probe. The need for a purely oscillating probe vibration eliminates the possibility

Claims (3)

1. ULTRASONIC INSTRUMENT FOR INFLUENCE ON BIOLOGICAL TISSUE, containing a source of mechanical longitudinal ultrasonic vibrations, a waveguide with a working tip and helical grooves for exciting torsional vibrations, characterized in that, in order to obtain different types of vibrations spaced apart in frequency, the waveguide has an exponential shape and the helical grooves are made directly on it with the formation of the rod of the waveguide of an exponential shape and have a variable cross section, decreasing towards the working tilt nick. 2. The tool on π. 1, characterized in that, in order to reduce trauma during intraocular reconstructive operations, the working tip is made in the form of a blade with a ball at the end. 3. The tool on π. 1, characterized in that, with the aim of bloodlessly restoring the natural patency of the Schlemm canal with initial open-angle glaucoma, the working tip is made in the form of a conical socket with a ring-shaped base. figure 1