Download presentation
Published byAdele Sparks Modified over 9 years ago
2
Purpose Describe how our Pathene 500 product can add additional protection capability. Understand how the technology works and what a difference in health it could provide you. Determine if there is a good fit between your needs and our offerings, and if it is a good product for your business or needs.
3
Antimicrobial Technology
Pathene 500 protects virtually all solid surfaces and fabrics from a broad array of disease and odor causing micro-organisms, including all forms of MRSA. Pathene 500 inhibits biological growth on treated surfaces for as long as 90 days. On surfaces with little or no friction the molecule will bind for years.
4
Why Use Pathene 500 Safe, effective and easy to use
Works on virtually all surfaces and fabrics Can be mixed with other cleaning agents Keeps laundry from spreading microorganisms Neutralizes and prevents offensive odours Stops mould and mildew Cost savings Long-lasting Multiple application methods Health Canada Approved Patented Technology
5
Superbugs are on the rise
Infection is the #1 cause of death worldwide and the #3 cause of death in USA. Superbug mutations caused by sterilants, chemicals. 25 years ago, 80% of infection was controlled by antibiotics. Today, less than 50% of infections are deemed controllable. Health problems caused by the growth of bacteria, fungi, algae, mould, and mildew in living and work areas are ever-increasing. Mould is more lethal than asbestos and more prevalent.
6
Pathene 500 - A Micro-biostatic Surface Protectant
How it Works Electron Microscope View Microbes land on the surface protectant Microbes’ membranes are ruptured by the surface protectant and die Surface remains poised to kill next microbe Not a leaching poison, does not use depleting heavy metals Continues to protect in-between cleanings Colorless and odorless Water-based, easy to handle and low risk for workers to use
7
Partial list of microbial control
Algae Anabaena cylindrica Chlorophyta (green) protococcus Chlorophyta (green) selenastrum gracile Chlorophyta (green) sp. Chlorophyta (yellow-green) sp. Chrysophyta (brown) Cyanophyta (blue-green) anabaena Cyanophyta (blue-green) oscillatoria Cyanophyta (blue-green) sp. Gonium sp. (strain LB 9c) Pleuroccus sp. (strain LB 11) Selenastrum gracile Bacteria (gram positive) Bacillus sp. (vegetative cell) Bacillus subtilis Enterococcus sp. Micrococcus lutea Micrococcus sp. Staphylococcus aureus Staphylococcus epidermidis St reptococcus faecalis Streptococcus mutans Streptococcus pyogenes nclnerwDacrer calcwacencus Fungi Aspergillus flarres Asperg illus flavus Aspergillus niger Asperg illus sydowl Asperg illus terreus Aspergillus versicolor Aureobasidium pullulans Chaetomium globosum Cephaldascus fragans Gloeophyllum trabeum Penicillium ch rysogenum Penicillium funiculosum Penicillium pinophilum Penicillium variabile Poria placenta Pullularia pullulans Trichoderm sp. madison P-42 Trichoderma vi ride Trichophyton interdigital Trichophyton mentagrophytes Yeast Candida al bicans Candida pseudotropicalls Saccharomyces cerevisiae Bacteria (gram negative) Aerobacter aerogenes Aeromonas hydrophila Citrobacter deversus Citrobacter freundii Enterobacter aglomerans Enterobacter cloacae Escherichia coli Klebsiel laoxytoca Klebsiella pneumoniae Morganella morganii Mycobacterium tuberculosis Proteus mirabilis Proteus vulgaris Pseudomonas aeruginosa Pseudomonas fluorescens Pseudomonas putida Salmonella chloeraesius Salmonella typhi Salmonella typhimurium Salmonella typhosa Serratia liquifaciens Serratia marcescens Treponema hyodysen teriae Xanthomonas campestrisa .
8
Pathene 500 Usage Spray it on or wash it in.
Becomes active within 3 minutes of application and starts to work as soon as micro-organisms come into contact with the treated surface. It then works continuously to maintain a consistently lower bio-burden than would be expected on a surface not protected by Pathene 500. Normal cleaning of the treated surfaces is necessary in order for Pathene 500 ’s antimicrobial spikes to continue their effectiveness. Dirt build-up, paint, dead microbes, etc. can cover the treatment, preventing it from killing micro-organisms.
9
Pathene 500 Laundry Treatment Pathene 500 and Fabric Softener Combined
An independent, long-term hospital study showed that Pathene 500 reduced microbe counts in many cases by over 99% on fabrics and other surfaces (Study is available upon request.) Pathene 500 has been shown to significantly reduce the staph counts and subsequent staph infections on oil rigs. Pathene 500 treatment increases the longevity of fabrics, is Health Canada Approved, as it “inhibits deterioration caused by bacteria.”
10
Pathne 500 Laundry Treatment Pathene 500 and Fabric Softener Combined
Items normally laundered Fabrics that can’t be “tracked” or have high turnover Use every wash -Add 1% of the weight of the fabric being washed. Use in every wash and Pathene 500 protection increases, as shown in a study (Study is available upon request.) Only $0.03 -$.04 per pound Items not regularly laundered and/or can’t be laundered Curtains, room dividers, and upholstered furniture. Fabrics that can be tracked such as an individual uniforms One Time Usage - Add 5% of the weight of the fabric being washed. It’s 5% active ingredient used one-time gives antimicrobial protection for the useful life of the fabric. Only $0.15 -$0.18 per pound
11
Case Study privacy curtains
From CBS News – Link available upon request Scientists swabbed 43 hospital curtains twice a week for three weeks. They analyzed 180 samples, and found germs on 119. Twenty-six percent of curtains tested positive for the potentially deadly antibiotic-resistant Staphylococcus aureus bacteria known as MRSA, and 44 percent tested positive for a form of Enterococcus bacteria - some of which were antibiotic resistant. Researchers also placed 13 new curtains in a hospital for the study. Within a week, 12 were contaminated. Pathene 500 Hospital Study Microbial Counts: Baseline - 2/25/ Follow-Up 3/21/ >10 Follow-Up 3/30/ Through June >10
12
Disease Spreads through the air
Cardinal Health believes at least 18% of hospital-acquired infections are airborne 2009 ASHRAE study clearly identifies a series of pathogens that move through the air and through HVAC systems Adenovirus Influenza virus Rebeola virus Meningococcal Disease Mumps virus Pertussis Parvovirus B19 Respiratory Syncitial Virus Rubella virus Tuberculosis
13
Questions? More Information?
Sean Patrick Canada Antibacterial Solutions Inc. Operations Manager Office: Cell:
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.