RU2512936C1 - Device for destruction and removal of pathologically changed crystalline lens - micromilling high-speed cataract extractor - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to eye microsurgery and may be used for eyesight recovery accompanying ocular media opacity. A device comprises a tip of a shielding metal or polymer tube of the diameter of 0.4 to 1.2 mm and a metal or polymer micromill. The micromill is presented in the form of a tube or a monolithic rod having one or two or more bevels at an angle of 0 to 80 degrees from a transverse axis with its distal end and inserted inside the shielding tube with a gap. The shielding tube is rounded or horizontally oval. The micromill presented in the tube is rounded or oval. The mill in the form of the monolithic rod is rounded or oval or three- or four-angled square or rectangular. The shielding tube is rigidly attached to the polymer handle and may be used both for irrigation, and for aspiration. The micromill is extended and freely attached in the handle, and movable to perform rotational and/or longitudinal and/or lateral oppositely directed oscillatory vibrations. If it is the micromill in the form of the tube that is used, the shielding tube is connected to an irrigation hose through a handle, while the micromill is connected to an aspiration hose. If the micromill is presented in the form of the rod, the shielding tube is attached to the aspiration system, while the irrigation system is brought to an eye through a separate section using a micronozzle. The aspiration and irrigation hoses through pressure sensors and hydrodynamic pumps are connected to respective control systems. In the irrigation system, a fluid is supplied into an anterior chamber both by gravity, and injected with the pump at pre-set pressure; a micromill drive is detachably attached to the handle from the side or behind. A drive cable or hose is attached to a control system through a speed and direction controller. A micromill drive is presented by high-speed collector-free or collector electric microdrives actuated by drive gears, or a pneumatic pump actuated by a metre run. Objective: destruction or removal of the cataract-involved crystalline lenses of different density using the same disposable device through a very small section of tunica fibrosa oculi.

EFFECT: adequate operation of the cataract extraction by the disposable device through a very small section with reduced injuries and length of the operation.

Description

The invention relates to medicine, namely to ophthalmology, a section of eye microsurgery, and can be used to destroy and remove a cataractically altered lens.

A device is known consisting of two tubes made of rigid or elastic-elastic materials placed in parallel or inserted into one another with a gap motionless relative to each other (RF patent No. 2058763, A61F 9/00, BI No. 12, 04/27/96. ) The ends of the tubes are blunt and end with holes, while the distal ends are connected via a handle and hoses to irrigation and aspiration systems. In this case, the destruction of the media is carried out by the flow of fluid supplied into the eyeball at a relatively low pressure through one tube or through the gap between the tubes, the so-called irrigation, and the destruction of the structures is carried out through a parallel or internal tube by vacuum, the so-called aspiration.

The disadvantages of this device are the creation of only two factors that act with a small force in the sinusoidal mode of irrigation-aspiration, which does not allow to destroy and remove the dense lens nucleus with brown cataract and requires additional devices to complete the operation, complicating and complicating the operation.

There is a device that for the destruction of the internal structures of the eyeball also includes an irrigation, aspiration system and an ultrasonic generator, which is connected via a handle to two removable tubes fixed to each other by a thread fixed to the handle and connected to the hoses through its channels leading from the outer tube to the irrigation system, and from the inner tube to the aspiration. In this case, the inner tube is made of reactive metal, and the outer one is made of elastic material and contains two oppositely placed rounded windows (AS No. 563974, A61F 9/00, BI No. 25, 07/05/77). .

The device according to the irrigation system, the fluid is fed by gravity between the tubes into the inside of the eyeball. The destruction of the lens is carried out by the end face of the vibrating inner tube, which is driven by the oscillating piezocrystals of the handle, and the liquid and the destroyed media are removed through its cavity by the vacuum created by the suction pump.

The disadvantages of this device are: 1 - The use of remotely hazardous destructive factor - ultrasound, which does not have its own destructive effect on the lens, but is a technologically unavoidable by-product of the impact of the piezoelectric crystals of the handle and the needle tip, and can damage the internal structures of the eye, especially the corneal endothelium by shaking and / or phonophoresis effect. In order to reduce the morbidity, vibrations of piezocrystals are used with a short exposure and relatively low power, which does not allow destroying the denser nuclei of the lenses during brown cataract, can lead to occlusion of the aspiration channel and, during breaks in occlusion, cause sharp drops in intraocular pressure. To destroy harder structures and obturating plugs, mechanical crushing is additionally used with the help of tools - choppers, which complicate the operation. 2 - A vacuum is used as an auxiliary influence factor for the retention and aspiration of lens fragments, which creates a large amount of irrigation fluid, which increases the risk of irrigation injury to the corneal endothelium. 3 - The tips and the handle laid by the design of the device are reusable and must be sterilized after each operation, which does not exclude the risk of biological infection of the patient.

Closest to the claimed invention is a device for the destruction and removal of a pathologically altered lens, including a system of irrigation, aspiration and mechanofragmentation, and consisting of three removable tubes inserted with a gap into each other, connected by a handle and hoses to systems: irrigation - an outer tube; hydroemulsification - the middle tube; suction and electromagnetic drive - inner tube.

The outer and middle tubes are fixed, and the inner movable is made with the possibility of simultaneous or sequential longitudinal reciprocating and rotational right- or left-sided movement.

The systems are equipped with control panels and an indication informing about the set and received parameters of the systems. The control panels are interconnected and connected by an external foot control, through which the surgeon controls the operation of the systems (RF patent for the invention No. 2238710 dated 10.27.2004).

The disadvantages of this device are the design complexity, which does not allow the use of tips and the handle once and, accordingly, the risk of biological infection during repeated use remains.

To eliminate the above drawbacks, a device for restoring vision with opacities of the optical media of the eye is proposed.

The aim of the invention is to ensure the destruction and removal of a cataractically altered crystalline lens of various hardness with a single use device through an ultra-small incision of the fibrous membrane of the eye while reducing trauma and the time of the operation due to the generation of highly effective destructive factors combined and acting remotely safely due to the design of the device, eliminating the use of additional tools for getting the final result.

This goal is achieved in that the device is a tip consisting of a shielding metal or polymer tube with a diameter of 0.4 to 1.2 mm and a metal or polymer microfreel made in the form of a tube or a monolithic rod with beveled from one or two or more sides at an angle from 0 to 80 degrees from the transverse axis with the distal end, and inserted with a gap into the shielding tube, while the shielding tube is made round or horizontal, microfreza in the form of a tube it is rounded or oval, and in the form of a rod it is rounded or oval or tri- or quadrangular square or rectangular, in addition, the shielding tube is fixedly connected to the polymer handle and can be used both for irrigation and aspiration, and the microfreza is extended and fixed freely in the handle with the possibility of rotational and / or longitudinal and / or lateral vibrational - vibrational multidirectional movements, moreover, if a microfreza is used in the form of a tube, then by means of a handle with a hose irrigation systems connect the shielding tube, and a microfreza connects to the hose of the suction system, if a rod microphoresis is used, then the shielding tube connects to the suction system, and the irrigation system is brought to the eye through a separate incision using a micro fitting, then the suction and irrigation hoses through pressure sensors and peristaltic or hydrodynamic pumps are connected to the corresponding control systems, while in the irrigation system, liquid is supplied to the front chamber both by gravity and act the pump is clearly pumped under the specified pressure, the microfiller drive is detachably attached to the handle on the side or back, and the cable or hose of the actuator is connected to the control system via a speed and direction controller, while high-speed brushless or collector electric drives acting as gears are used as the microfiller drive, or a pneumatic pump operating by means of a turbine.

The device is used as follows.

The control panels set the levels of pressure and flow rates of liquids necessary for the surgeon in the irrigation and aspiration systems, the speed and direction of rotation, the frequency and amplitude of the oscillatory movements of the microfuse.

After appropriate treatment of the surgical field and adequate anesthesia with a pricking and cutting instrument, an ultra-small 0.5 to 1.5 mm section of the fibrous membrane of the eyeball is made, adequate to the selected size of the shielding tube. Viscoelastic keratoprotectors are injected into the anterior chamber to give it volume, anterior capsule rexis and lens hydrodissection are performed, then the device tip is introduced and the irrigation system pump is switched on with the foot control, which automatically maintains the intraocular pressure set by the surgeon automatically, then they are turned on to remove soft lens masses suction pump. To destroy a harder core, a microfrez drive is turned on and with a given frequency and amplitude of vibrational vibratory movements and / or a given speed and direction of rotational movements, the microfreza end destroys the lens microfragmentally only in the contact area, gradually approaching the posterior capsule and equator as much as possible. After extraction of the bulk of the lens, the microfreza drive is turned off, and in the irrigation-aspiration mode, the remnants of the posterior cortex of the lens and viscoelastic keratoprotectors are removed from the anterior chamber of the eye. Next, turn off the suction system, remove the tip from the eye and turn off the irrigation system. The incision of the fibrous membrane of the eye is self-sealing. The operation is completed.

Example 1: Patient N., 75 years old, was operated using the claimed device for nuclear cataract of the right eye. The operation was performed as follows: after disinfecting the surgical field under local anesthesia, limbal paracentesis was performed in meridians of 2 hours with a width of 1.2 mm and 10 hours with a width of 1.6 mm, viscoelastic was inserted into the anterior chamber of the eye for shielding the cornea, anterior capsulorhexis with a diameter of 5 was made mm, hydrodissection of the capsule and hydrodelineation of the lens nucleus was performed, the tip of the device with a diameter of 0.8 mm was inserted into the anterior chamber of the eye, the anterior cortical layers of the lens are aspirated, then beveled at an angle of 45 degrees, the end face of a rotating tubular microfreza at a speed of 10 thousand rpm produced fine destruction and aspiration of the lens nucleus, the tip was removed, two cannulas were inserted and the posterior cortical layers were removed bimanally by irrigation-aspiration, a tunnel incision was made in the strong meridian for 12 hours to weaken it 2.6 mm wide cornea, an elastic intraocular lens was implanted into the capsule bag by the injector, the viscoelastic is aspirated, the corneal paracentesis and incision are sealed by stroma hydration, an aseptic dressing is applied.

Example 2. Patient M., 82 years old, with mixed clouding of the lens, performed a similar operation, but using a tip with a diameter of 0.6 mm and a triangular rod microfreza with a perpendicularly cut end, a more gradual destruction of the nucleus was noted.

The positive aspects of the claimed device are: 1 - active irrigation using a pump and a pressure sensor stably maintains the volume and tone of the eyeball during all stages of the operation; 2 - the mechanical effect of a shielded microfracture destroys lenses of various hardness microfragmented upon direct contact, closed from the eye cavity, which makes the device highly efficient and remotely safe; 3 - microfragmentation prevents blocking of the aspiration system, which eliminates the effects of breakthrough occlusion, does not require a high vacuum and speed of aspiration, which reduces the flow of irrigation fluid and eliminates irrigation injury; 4 - the device allows a variety of factors to be combined, which gives the surgeon the opportunity to work in irrigation-aspiration, irrigation-mechanofragmentation-aspiration modes both simultaneously and sequentially, which ensures all the necessary manipulations at all stages of the operation; 5 - the small size of the tip allows you to perform the operation through ultra-small incisions of the fibrous capsule of the eye from 0.5 to 1.5 mm, which reduces the invasiveness of the operation; 6 - the tip and the handle are made disposable of inert materials used for the manufacture of disposable syringes, which completely eliminates the risk of toxic and biological damage to the patient.

Thus, as a result of the combination of all the above particular positive effects, a common technical result is achieved - the destruction and removal of a pathologically altered lens of various hardness with one disposable device through an ultra-small incision of the fibrous membrane of the eye, while reducing the morbidity and time of the operation.

Claims (1)

A device for destroying and removing a cataractically altered lens of the eye, containing a handle inserted into each other with a tube gap, connected by means of hoses to irrigation and aspiration systems, the internal of which is movable, the electric drive is connected to the electronic system, and the drive and systems are equipped with remotes control and indication, and coordinated by an external foot control, characterized in that the device contains a tip consisting of a shielding metal or polymer th tube with a diameter of 0.4 to 1.2 mm and a metal or polymer microfreza made in the form of a tube or a monolithic rod with a distal end tapered from one or two or more sides at an angle from 0 to 80 degrees from the transverse axis and inserted the gap inside the shielding tube, while the shielding tube is made round or horizontal, the microfreza in the form of a tube is made round or oval, and in the form of a rod made round or oval or triangular or quadrangular square or rectangular Oh, in addition, the shielding tube is fixedly connected to the polymer handle and can be used both for irrigation and aspiration, and the microfreeze is extended and fixed freely in the handle with the possibility of rotational and / or longitudinal and / or lateral vibrational - vibrational multidirectional movements, with if microfreza is used in the form of a tube, then a shielding tube is connected to the hose of the irrigation system by means of a handle, and microfreza is connected to the hose of the aspiration system if microfreza is used in the form of a rod , then the shielding tube is connected to the aspiration system, and the irrigation system is brought to the eye through a separate incision using a micro fitting, then the suction and irrigation hoses are connected to the corresponding control systems via pressure sensors and peristaltic or hydrodynamic pumps, while in the irrigation system the fluid is in the front chamber fed by gravity, and is actively pumped by the pump at a given pressure, the microfiller drive is detachably attached to the handle on the side or back, and the cable or hose yes it is connected to the control system through a speed and direction controller, while high-speed brushless or collector electric drives operating via gears or a pneumatic pump operating through a turbine are used as microfrez drives.