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Low Temperature Plasma Sterilizer

Low Temperature Plasma Sterilizer
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Sterilization of the medical equipment has always been a concern for medical community. Today, due to the advent of new technologies and novel medical instruments such as arthroscopes, laparoscopes, endoscopes, optical fibers, etc., sterilization at low temperatures and moistures is continually increasing. The necessary factors in sterilization of medical instruments are low temperature, safe operation, short time cycle, high efficiency, no environmental risks, and ability to pack and maintain sterilized instruments for a suitable time. In order to perform this process, different methods, such as using autoclave, oven, ultraviolet light, ethylene oxide gas, and formaldehyde vapor have been implemented. These techniques, however, because of their disadvantages and problems have been superseded by other instruments like plasma sterilizers.

Plasma sterilization is a low-temperature sterilization technique which can increase the efficiency of medical equipment. In this technique, the device entry is hydrogen peroxide that is a non-poisonous raw material; water and oxygen are the device outputs. The maximum working temperature in this technique is 50 °C and the sterilization time is 60 to 90 minutes; moreover, in this technique aeration is not required.

In this technique, equipment is placed inside the device chamber and the vacuum pump is turned on. After reaching nearly the full vacuum, the hydrogen peroxide is injected into the chamber to diffuse through the chamber and expose all surfaces. In this step which plasma has not yet begun, hydrogen peroxide has the ability to kill microorganisms. Then the generated plasma flow is injected into the sterilization chamber which because of its ionizing effect leads to the formation of free radicals from hydrogen peroxide vapor. In short, under the influence of plasma, the last electron is ejected from the hydrogen peroxide molecule and accelerated towards the desired surface, and results in the electron bombardment inside the chamber. During these interactions, ultraviolet waves and also a number of atoms and molecules with kinetic energy are produced. The by-products in this method are only water and oxygen, since the free radicals have a short half-life. The maximum temperature inside the sterilization chamber is 55 °C which all the medical instruments can withstand it. In different studies, the capability of this method to eliminate all human viruses and microorganisms has been confirmed.

  • Sterilization of temperature- and moisture-sensitive equipment

The PSP-PL-130 Plasma Sterilizer device can sterilize the temperature- and moisture-sensitive instruments such as endoscopes, catheters, cannula, etc., in a short period of time, without production of poisonous and harmful by-products. After finishing the sterilization process using this device, only water and oxygen are produced as by-products which are completely compatible with the environment and not harmful for users and patients. The sterilization process is very fast (28 to 65 minutes) and there is no need for early preparation, which consequently accelerates the rate of performing works in hospitals and treatment centers. Details of technical specifications are presented in the following Table.

 

The plasma sterilizer has the ability to create a nanostructure on the surface, like any other cold plasma devices.

  • The device installation site should be in a way that the device sides and back have at least a 50 and 30 cm gap from the walls, respectively.
  • The temperature of installation site should be between 15 and 40 °C.
  • The air conditioner should preferably be installed on top of the device.
  • The installation site should be equipped with 230 V single-phase power and ground connection. Also the presence of a 32-Amps fuse is necessary.
  • For more details on how to use the device, refer to the device catalog and user guide.
  • Due to the type of consumable material (hydrogen peroxide), use of gloves, masks and protective glasses during handling or using this material is obligatory.

Product Standard

  • Certificate of Nanotechnology

    Certificate of Nanotechnology

    Standard Date : 2019/02/19

    Expire Date : 2022/02/20

  • NanoScale Certification

    NanoScale Certification

    Standard Date : 2019/02/19

    Expire Date : 2022/02/20

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