Cleaning surgical instruments properly can prevent corrosion. Cleaning surgical instruments properly can prevent stains and pitting.
The primary purpose of cleaning surgical instruments is to remove all inorganic and organic proteinaceous bioburden material from the internal and external surfaces cleaning surgical instruments inside and out with careful attention to cleaning cannulated surgical instruments. The secondary purpose of surgical instrument cleaners is to maintain and improve the passive layer of surgical stainless steel. The passive layer is provided by the manufacturer of the surgical instruments, within the surgical stainless steel, to prevent corrosion. Proper cleaning of surgical instrument will maintain and improve this passive layer. For more information go to surgical instrument cleaners that avoid corrosion. The optimal surgical instrument cleaning protocol will break down surgical bioburden and clean the surface. Inadequate cleaning and the improper use of surgical instrument cleaners can result in material remaining on the surgical instrument which will prevent disinfection and sterilization fluids or gases reaching all parts of the potentially contaminated device. Inadequate sterilization or disinfection sterilization and may in turn result in transmission of infectious organisms when the device is reused. The proper use of endoscope cleaners when cleaning the intricate design and delicate materials of flexible scopes complicate the cleaning process. This requires repetitive and consistent oversight. Cleaning surgical instruments is the Prerequisite for Sterilization. The reprocessing decontamination surgical instruments, whether done manually or automatically in a surgical instrument washer decontaminator disinfector, can only be effective if cleaning is adequate. Four enzyme surgical instrument cleaning solutions clean residue free. Cleaning surgical instruments properly can prevent corrosion. Cleaning surgical instruments properly can prevent pitting. The ONEcleaner eye surgical instrument cleaners have been shown to be effective in removing stains, hard water deposits, and encrusted bioburden, while being safe to use for rigid or flexible scopes. The cleaning efficacy of enzyme surgical instrument cleaning solutions is determined by the ratio of enzymes to bioburden. The higher the proportion of enzymes the higher the efficacy. As a result, if the surgical instrument cleaning solutions become laden with bioburden from previous cleaning, the efficacy of the enzyme cleaning concentrates is lower. When a cleaning concentrate states that is it multi-tiered, the inference is that is contains: protease enzyme which break protein debris into smaller, more soluble subunits, amylase enzyme which catalyses the breakdown of starch, and lipase enzyme which breaks up fat-containing debris and carbohydrates. When a detergent cleaning concentrate states that is it high-level, the inference is that is contains a high concentration of enzymes. When a cleaning concentrate states that is provides enzyme activity the inference is that is contains enzymes but this is usually is a misrepresentation of ingredients for a detergent cleaning concentrate that does not contain enzymes. Enzymes are effective and they are costly for manufacturers to include in the formulation. As is true for all detergent cleaning concentrates, the most effective test is against your most difficult cleaning challenge. The two most common tests for cleaning concentration efficacy that are commercially available are the TOSI Test and the film test. Be aware that some manufacturers use advertising text and product names that imply enzymes are an active ingredient but do not actually include enzymes in their product formulation.