RU2059416C1 - Device for prolonged sterile storing of artificial optical lenses - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has case with a cap. The case is filled with physiological solution. The electrodes are submerged into the solution and connected with DC source. Holder provided with containers for placing lenses is mounted inside the case for rotation. Device also has commutator for switching polarity of the electrodes. The electrodes are fixed inside the cap and disposed around the holder in parallel to its axis equidistantly one to others. EFFECT: improved reliability. 3 dwg

Description

 The invention relates to medical equipment, namely to sterile storage of artificial optical lenses (IOL) of contact lenses and artificial lenses. The device is intended for use in laboratories and cabinets of surgical and contact vision correction: as well as in everyday life.

 Known boiler for contact lenses, consisting of a housing with a cover and electrodes located in it, a camera with holes and installed in the last capsule to accommodate contact lenses.

A disadvantage of the known boiler is that the disinfection of contact lenses located in the capsule occurs as a result of heating the capsule with water vapor. However, at temperatures above 70 ° ^C softening methacrylate from which the IOL, which distorts the optical characteristics of the lenses.

 It is also known a device for storing contact lenses, consisting of a housing, a cover and a holder located therein with containers for lenses, the walls of which have openings for the passage of the disinfectant.

 The disadvantage of this device is the need for periodic preparation and replacement of the disinfectant for long-term storage of artificial optical lenses in sterile conditions.

 Closest to the proposed is a device containing a housing, in the cover of which are electrodes immersed in an aqueous solution of sodium chloride and connected to a constant current source.

 The disadvantages of the prototype are the low processing efficiency of the IOL and inconvenience in the operation of the device.

 The present invention makes the operation of the device convenient and safe, improves the efficiency of sterilization of the IOL during prolonged storage of artificial lenses.

This is achieved by the fact that two electrodes and a holder with containers for accommodating the IOL are inserted into the device containing the housing, in the cover of which are two electrodes immersed in an aqueous solution of sodium chloride and connected to a constant current source, along which the axis of rotation is in the coaxial plane 90 uniformly disposed ^about the available four electrode connected through a switch alternately to opposite poles of the DC electric current.

 In FIG. 1 shows a device for long-term sterile storage of IOLs; FIG. 2, section AA in FIG. 1. in FIG. 3 diagram of the connection of electrodes (E) to a constant current source (I).

 A device for long-term sterile storage of the IOL consists of a housing 1, at the bottom of which there is a protrusion 2 for mounting the holder 3 with containers 4, in which the IOL is located. The housing 1 of the device is closed from above by a cover 5, in which electrodes 6 of graphite or titanium are attached. The hole 7 in the center of the cover 5 is used to fix the holder 3 of the IOL in a vertical position. Screws 8 securing the electrodes to the cover 5 are used externally to connect the electrodes 6 to the DC source 10. The electrodes 6 are connected through one and are connected in pairs through the switch 9 to the source 10.

The device operates as follows. Remove the cover 5 with electrodes 6 and fill in the body 1 with a volume of 120 cm ³ physiological saline (8.5 g / l of sodium chloride). The holder 3 with the IOL placed in the housing 1 is lowered in such a way as to fix the holder 3 on the protrusion 2 in the bottom of the housing 1. Close the cover 5 and fix the upper end of the holder 3 in the opening 7 of the cover 5. In this case, the physiological solution through the openings 7 fills the containers 4 holders 3, in which there are IOLs intended for sterilization.

 When you turn on the DC source 10 through the physiological solution, a current begins to flow. As a result of the passage of current in the solution in the anode region, sodium hypochlorite is formed, which is the strongest oxidizing agent.

 Upon receipt of hypochlorite and long-term storage of IOL, it is essential to uniformly distribute hypochlorite throughout the device for effective sterilization of lenses located in different capacities 4 of holder 3. For uniform distribution of hypochlorite formed in the anode region, a switch 9 is turned on between the DC source 10 and electrodes 6 of the device switching the polarity of the voltage across the electrodes after 10 s. 6. The uniformity of the distribution of hypochlorite is also achieved by periodic rotation by holding ator device 3: 7-10 revolutions during the operation of the constant current source 10.

 Sodium hypochlorite destroys the membranes of various microorganisms in solution and on the surface of lenses. Violation of the barrier properties of membranes leads to the death of microorganisms.

The inactivating effect of the electro-treated solutions was tested on the following types of cells: E. coli, yeast cells, Staphylococcus aureus. In the experiment used electroactivated saline solution obtained in the proposed device when passing through a solution of direct current with a density of 10 A / m ² for one hour at room temperature. Survival check was carried out by changing the amount of biomass during periodic cultivation of cells in flasks, on a rocking chair. All examined types of microorganisms at a concentration of 10 ⁴ -10 ⁵ cells / ml died. Moreover, the complete death of microorganisms occurs both during the electrolysis of a suspension of cells and when introduced into the treated cell solution in an amount of 10 ⁴ -10 ⁵ cells per millimeter and incubation for 1 h.

 For long-term storage of IOL under sterile conditions (several months), it is necessary to periodically (for 1 h per day) turn on the DC source. The sterility of IOL storage during periods of time when the source does not work is not violated, since the rate of decomposition of sodium hypochlorite is several days.

 The advantage of the device is also the harmlessness of the lenses during their subsequent use and the complete electrical safety of handling the device.

Claims (1)

 DEVICE FOR LONG STERILE STORAGE OF ARTIFICIAL OPTICAL LENSES, comprising a housing with a lid filled with physiological saline, electrodes immersed in the solution and connected to a direct current source, characterized in that it is provided with a holder with containers for accommodating lenses mounted in a rotationally mounted housing, a switch for switching the polarity of the electrodes, and the electrodes are fixed in the lid and are located around the holder parallel to its axis at the same distance from each other.

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