SU1169662A1 - Method of chamber sterilization of medical objects - Google Patents

Abstract

METHOD 1 OF RIOP OF STERSHIZATION OF MEDICAL OBJECTS, characterized in that, in order to reduce the sterilization time, the pressure in the chamber is created cyclically from 1 to 25 pulsations at a pressure reduction of 0.1-10.0 MPa and a decrease time of 1-10 seconds.

Description

BACKGROUND OF THE INVENTION The invention relates to medicine. The aim of the invention is to reduce the time required for the sterilization of medical objects. The method is carried out as follows. The materials to be disinfected will tag the camera and cover it. Then (the chamber begins to be supplied with water (saturated steam to warm the chamber,: 1 objects and micro: organisms in it). Microorganisms have a high-quality structure that can let moisture through and have a high osmotic pressure of about 16 vol.; {On moisture contact with microorganisms; 1 the latter are saturated with moisture, the pressure rises in them. Upon completion of the warm-up, the stage of the sterilization wedge begins. At this jjTane, the pressure in the chamber is rapidly relieved with its next pump up to its initial value. not less than 1 ATA, and the time of each cycle, i.e. discharge - lifting no more than 10 seconds. The number of cycles varies from 1 to 25. When the pressure in the chamber rises, the microorganism absorbs moisture, the pressure in it rises, with a sharp depressurization at the stage the sterilization surplus creates a pressure differential between the microorganism and the environment, leading to rupture, i.e., destruction of the microorganism through its pores. In addition, a sharp decrease in pressure in the chamber and the maintenance of increased pressure in the microorganism (t of the microorganism corresponds to ii) leads to boiling moisture in the microorganism, which, in turn, contributes to its more rapid rupture. The minimum number of cycles is determined by the value of the pressure drop in the chamber at the stage of the sterilization loop between the upper and lower pressure points of each cycle. Disinfection with one cycle is both baked with a pressure differential of 4-5 atm with previously removed air from the chamber. The number of cycles increases with a decrease in pressure drop and an increase in the concentration of air in the chamber. . With a pressure drop of 1 atm, the required number of cycles for disinfection is 25. With a pressure drop of less than 1 atm, the duration of disinfection increases abruptly. Increasing cycles above 25 at a pressure drop of less than 1 atm is impractical because it does not lead to a noticeable reduction in the disinfection time. During each cycle, the release of pressure rise is not more than 10 s. This time is the most optimal at which the minimum amount of fluid loss by the microorganism is ensured. When exceeding 10 s, there is a fluid outflow from the microorganism and, therefore, a decrease in pressure in it. This leads either to an unjustifiably increasing disinfection time or to the inefficiency of the entire disinfection process. The depressurization in the last cycle at the sterilization stage leads to the drying of the object and after the X1mer communicates with the atmosphere, the decontamination process ends. The process lasts 5-15 minutes. Medical objects such as cotton wool, cotton fabrics (gowns, sheets), rubber products (surgical gloves), glass products (flasks, test tubes) are placed in the chamber. The chamber is closed and water vapor is fed into it to warm the chamber and the infected objects in it. Upon contact of moisture with microorganisms, the latter are saturated with moisture, and the pressure in them increases. The method is confirmed by specific examples of implementation. Example 1. At the sterilization stage, the pressure in the chamber established at 0.1 Sha is drastically reduced by 0.1 MPa for 10 s, and then raised to the initial value. Discharge-pressure cycles are conducted 25 times. At the end of the last CYCLE, the camera communicates with the atmosphere. The process time is 15 minutes. Example 2. The pressure in the chamber is set at a value of 10 MPa. Avleva sharply dropped on the magnitude of 10 Sha for 1 s. The cyclical nature of this example is 1. The process takes 5 minutes.

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Example 3. The pressure in the cameo-In all cases, a re is set at a value of 6 MPa. full of sterility of objects, the suppression abruptly drop microbes on you. Subtinu 6 MPa for 6 s, and then under-lis, Antracoice, Staffilokkok are understood to the initial value .s that are infected with which they were infected. The number of discharge cycles - lifting objects, die.

pressure in this case is 13. To carry out discharge cycles, the duration of the process of 7 pressure rise was steam generator. 100 kg of steam per hour were used.

Claims (1)

(-54) METHOD FOR CHAMBER STERILIZATION OF MEDICAL OBJECTS, characterized in that, in order to reduce sterilization time, the pressure in the chamber is cyclically generated from 1 to 25 pulsations with a pressure drop of 0.1-10.0 MPa and a drop time of 1-10 from.