Enzyme Detergent Cleaners Understandings
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 Optimal Temperatures:
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.
Enzyme Detergent Cleaner Product Usage:
The use of Enzyme Detergent Cleaners of various compositions and concentrations is becoming common. The enzymatic enzyme detergent cleaner industry is the largest single market for enzymes, at rate of 25 - 30% of total sales. Details of which enzymes are used within enzymatic enzyme detergent cleaners and the ways in which they are best used, are rarely been published.
Enzyme Detergent Surgical Instrument Lubricating Cleaners
Enzyme Detergent Surgical Instrument lubricating cleaners cut surgical instrument cleaning costs are preloaded in sponges for cleaning endoscopes.
Enzymes are proteins produced by all living organisms that act as catalysts to speed up chemical reactions that would otherwise occur at a much slower rate or not at all. The enzymes (the catalysts) are materials that help reactions move from a beginning to an end. Enzymes are not used up in the reaction so they are available to help multiple reactions. Enzymes fit their target substrates like a lock fits a key. The active site of the enzyme is open only to specific target substances (i.e., substrates) with a matching chemical and 3-dimensional shape. If the substrate doesn't fit, it can't enter and no reaction occurs. This makes the action of enzymes highly specific for their substrates. The appropriate enzyme is needed for effective cleaning of specific types of debris.
The four Enzyme Detergent Cleaners that are necessary to effectively remove the emulsified bioburden from surgical instruments are: Lipase Enzyme Detergent Cleaners to breakdown fat and emulsified fatty acid residue from the glycerol residue, Amylase Enzyme Detergent Cleaners to breakdown starches and to catalyze the hydrolysis of starches, Carbohydrase Enzyme Detergent Cleaners to breakdown starch to lower level carbohydrates, and Protease Enzyme Detergent Cleaners to breakdown blood including proteinases and peptidases.