Accession Number:

ADA455025

Title:

Compatibility of CW Agent Degrading Enzymes with Disinfectants and Foams

Descriptive Note:

Conference paper

Corporate Author:

EDGEWOOD CHEMICAL BIOLOGICAL CENTER ABERDEEN PROVING GROUND MD RESEARCH AND TECHNOLOGY DIR

Personal Author(s):

• Cheng, Tu-Chen
• Rastogi, Vipin K.
• DeFrank, Joseph J.
• Fry, Ilona

Report Date:

2003-11-19

Pagination or Media Count:

10.0

Abstract:

Over the years our group developed a non-corrosive, non-toxic, environmentally safe and userfriendly chemical agent decontaminant advanced catalytic enzyme system - ACES in a dry powder form. The ACES is capable of hydrolyzingdetoxifying organophosphorus OP-based neurotoxic chemical warfare CW agents, i.e. G-type, V-type, and related OP based hazardous industrial materials. Bacterial enzymes, OPH V- and G-type and pesticides, OPAA G-type and squid DFPase G-type are the three key biocatalysts capable of detoxifying toxic materials. Retention of catalytic activity of ACES in the presence of several water-soluble and biodegradable commercial fire-fighting agentsfoams, degreasers, and laundry detergent, provides effective and efficient decontamination not just for large areas, but also for fire suppressing. In addition, the formulation affords personnel decontamination in skin creamlotions, and personnel protection through enzyme-impregnated clothing and filters. Here, we report the retention of catalytic activity of ACES in commercial disinfectants Biocidal ZF and EcoTru . Over 50 enzyme activity was retained in the presence of Biocidal ZF . Whereas a 40 enzyme activity was detected in the presence of EcoTru , over 65-85 enzyme activity was retained when enzymes were protected using dendritic polymers. Biological decontamination experiments with biological warfare agent BWA surrogates showed varying degrees of bactericidal activity 2-10 log kill when these disinfectants and several commerical foams were tested individually. These commercial compounds were compatible with the ACES enzyme activity. Our findings are consistent with the concept that ACES can be incorporated into commercial disinfectants with a real potential for developing broad range decontamination systems for CBW agents.

Descriptors:

• *ENZYMES
• *FOAM
• *DECONTAMINATION MATERIALS
• *DISINFECTION
• INDUSTRIES
• COMMERCE
• BIOLOGICAL AGENTS
• DECONTAMINATION
• BIOLOGY
• EFFICIENCY
• RETENTION(GENERAL)
• CHEMICAL AGENTS
• CHEMICAL WARFARE AGENTS
• DENDRITIC STRUCTURE
• DRY MATERIALS
• PERSONNEL
• CATALYSIS
• CATALYSTS
• DETERGENTS
• PROTECTION
• CHEMICAL WARFARE
• NEUROTOXINS
• GERMICIDES
• PESTICIDES
• HAZARDOUS MATERIALS
• BIOLOGICAL WARFARE
• COMPATIBILITY
• BACTERIA
• MATERIALS
• POLYMERS
• POWDERS
• TOXICITY

Subject Categories:

• Biochemistry
• Hygiene and Sanitation
• Miscellaneous Materials
• Chemical, Biological and Radiological Warfare

Distribution Statement:

APPROVED FOR PUBLIC RELEASE