Plastic syringes are a very common tool in medical and experimental scenarios. Before use, they must be disinfected to ensure that the syringes are clean and hygienic to avoid bacterial or viral infection. Currently, there are three common methods for disinfecting plastic syringes.
1. Alcohol disinfection
Alcohol disinfection is a widely used and easy-to-operate disinfection method. The standard operation uses 70% concentration of medical alcohol. The steps for performing disinfection are summarized as follows:
(1) Disassemble the syringe and separate the piston and needle.
(2) Immerse the syringe and its components completely in a special container containing 70% medical alcohol.
(3) Shake the container slightly to ensure that the alcohol can evenly cover and penetrate every part of the syringe surface.
(4) Remove the syringe and its components and let them dry naturally until they are suitable for use.
It should be emphasized that when performing alcohol disinfection, excessive application or wiping should be avoided to avoid damaging the surface material and thus affecting the effectiveness of the injection operation. At the same time, alcohol is flammable. The entire disinfection process must strictly comply with fire prevention regulations to prevent accidental injuries caused by alcohol splashing.
2. High-temperature steam sterilization
High-temperature steam sterilization is another standard sterilization method, which mainly relies on automatic autoclaves or steam sterilization equipment. The sterilization cycle is usually 20 to 30 minutes, and the temperature must reach or exceed 121°C.
3. Ultraviolet disinfection
Ultraviolet disinfection is a sterilization technology that uses ultraviolet radiation to effectively eliminate most bacteria and viruses. During the implementation process, the plastic syringe and its components need to be exposed to a UV light source to ensure that their surface receives sufficient ultraviolet radiation. However, the scope of ultraviolet disinfection is limited to the surface of the object and cannot penetrate the interior to kill hidden bacteria. In addition, ultraviolet rays pose a certain radiation risk to the human body. Therefore, necessary personal protection measures must be taken during the operation to reduce potential health risks.