were originally designed for cleaning
All of the manufacturers of surgical instruments and surgical instrument containers recommend the use of neutral ph surgical instrument cleaners.
Newly developed neutral ph all-in-ONE and ONEcleaner enzyme detergent surgical instrument cleaners have been shown to be effective in optimizing the efficacy of the passive oxide layer. This provides a longer life for stainless steel surgery instruments.
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Surgical instrument cleaners with a high or low pH have been shown to erode the passive layer. Lipase enzyme detergent cleaners breakdown fat to cleave fatty acid residue from the glycerol residue in a neutral fat or a phospholipid. Amylase enzyme detergent cleaners breakdown starch to catalyze the hydrolysis of starch to sugar to produce carbohydrate derivatives. Carbohydrate enzyme detergent cleaners breakdown starch to a lower level to catalyze the hydrolysis of higher carbohydrates to lower forms. Protease enzyme detergent cleaners breakdown blood including the proteinases and peptidases, to catalyze the hydrolytic breakdown of proteins. Common misunderstandings exist pertaining to the application of enzymatic enzyme detergents including the times and temperatures for optimal enzyme detergent cleaning outcomes. Although generalities can be misleading for specific applications accurate and detailed parameters for the use of enzymatic enzyme detergents that can render a high probability of excellent cleaning outcomes. Enzyme Detergent Cleaners The optimal temperature for maximum enzymatic enzyme detergent cleaning performance peaks at 137 degrees Fahrenheit (137 degree Fahrenheit = 58.33 degree Celsius). The cleaning activity of the enzyme detergents at temperatures below and above this point is less but does offer cleaning value. The cleaning activity of the enzyme detergents does not stop at this temperature but is does lessen as the temperature increases.
clean residue free.