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Silver Breeze - Désinfectant Naturel Surpuissant - Dr Clark
Silver Breeze - Spray - 200 ml
Highly effective disinfectant
Désinfectant Naturel Surpuissant.
Pulvérisateur - Flacon de 200 ml Outre la toxicité des produits de synthèse, aucun désinfectant chimique n'est aussi efficace que le Silver Breeze, et de loin!
Silver Breeze: Un Désinfectant inodore de haut standard
Sûr pour les êtres humains, les animaux et l'environnement!
Silver Breeze agit efficacement contre les champignons, les bactéries et les virus, et empêche durablement leur prolifération!
Ce désinfectant est basé sur l'effet métallique de l'argent et l'effet oxydant du péroxyde d'oxygène (H2O2).
La combinaison de ces deux produits provoque une synergie rendant le Silver Breeze hautement efficace, même pour éradiquer les films microbiens.
Silver Breeze est, de par le monde, l'un des très rares désinfectants capables de détruire ces films bactériens potentiellement dangereux.
Silver Breeze est inodore, n'irrite pas la peau ou les muqueuses et ne provoque pas d'allergies.
Silver Breeze n'est ni cancérigène ni mutagène.
Dans la maison et à ses abords les emplacements où dorment les chiens et les chats sont un terrain de prédilection pour les parasites et microbes pathogènes.
Silver Breeze garantit une longue durée de désinfection sans causer aucun dommage à vos animaux familiers!
Liste des germes pathogènes testés désinfectés avec succès avec Silver Breeze:
Absidia corymbiféra Galionella sp. Pichia membranaefaeciens
Aeromonas salmonicida G. candidum Poliovirus 1
Agrobacterium radiobacter Proteus mirabilis
Alternaria alternata Hepatitis B Proteus vulgaris
Anthrax (Bacillus anthracis) Hepatitis C surrogate(BVDV) Pseudomonas aeruginosa
Aspergillus niger Herpes simplex type 1 Pseudomonas alcaligenes
Aspergillus niger-spores HIV-1 Pseudomonas chlororaphis
Astenionella formosa Pseudomonas fluorescens
Influenza A Virus Pseudomonas spec.
Bacillus cereus Pseudomonas syringaae pv. Tomato
Bacillus mesenterious Klebsiella oxytoca
Bacillus subtilis Klebsiella pneumoniae Ralstonia picketti
Bacillus subtilis spores Rhizopus
S.B. Aspergillus fumigatus Adenovirus) Lactobacillus brevis Rotatoria g.sp-
Bacillus circulants vegetative und Sporen Lactobacillus lindneri
Bacillus sp. Marine Lactobacillus plantarum Saccaromyces cerevisiae
Bacteria cinerea Lactobacillus sp. Saccaromyces uvarum
Bacteria erwinia Lactobacillus wild type Sacch. Cereivisia var. Uvarum
Botrytis cinerea Legionella pneumophila ssp. Carlsbergensis
Burkholderia cepacia Leuconostoc mesenteroides Salmonella enteritidis
Listeria inoqua Salmonella paratyphi
Campylobacter jejuni Listeria monocytogenes Salmonella sp.
Candida albicans Salmonella typhimurium
CDC gr. IV c-2 Melosira var. Salmonella typhi
Chlamidomonas sp. MRSA Salmonella typhosa
Cholera (V. cholerae) Microsporum gypseum Sarcina lutes
Chryseomonas luteola Micrococcus luteus Staphylococcus agalactiae
Chroomonas norstedtli Micrococci marine Staphylococcus albus
Ciliata g.sp. Micrococcus pyogenes aureus Staphylococcus aureus
Citro. Fre. Micrococcus roseus Staphylococcus faecium
Cladosporium cladosporoides Micrococcus candidus Staphylococcus marcescens
Clostridium novyi Mucor Staphylococcus hantzschlii
Clostridium perfringens Mycobacterium phlei Streptococcus faecalis
Clostridium sporogenes Micobacterium smegmatis Streptococcus lactis
Coagulase +ve staphylococci Micobacterium spez. Streptococcus pyogenes
Comomonas acidovorans
Corynebact. Nagleria fowleri Trichophyton mentagrophytes
Criptomonas sp. Naumaniella sp. Pseudorabies virus
Neisseria meningitidis Trophozoite protozoa inl. Amoebae
Dermatophagoides pteronyssinus Newcastle Disease Virus Tuberculosis (Mycobacterium
Nitzschia sp. Tuberculosis, resistant strain H37RV)
ECBO Virus Tuberculosis (Mycobacterium
Enterobacter aerogenes Ochrobactrum anthorpi Tuberculosis, wild-type strain)
Enterococcus faecium Orthopoxvirus vaccinia
Enterococcus faecalis Vaccina Virus
Enterococcus hirae Papovavirus SV-40 VRE
Erwinia carotovora Paramyxo Virus V. parahaemolyticus
Eschericia coli Pasteurella
Pedicoccus damnosus Xanthomonas campestris
Silver Breeze a été approuvé par les autorités sanitaires suisses.
A ce sujet, voir le texte (anglais) ci-dessous:
Disinfectant spray approved by Swiss Authorities
SILVER BREEZE has been approved by the Swiss Federal Health Office (SFOPH.) and has been registered with the following numbers as a disinfectant spray for commerce:
(Swiss Federal Office of Public Health)
SFOPH T Nr. (Swiss legislation): 104893
Poisoning class (Swiss legislation): free
SFOPH E Nr. (Swiss regulation on disinfectant products): 1520
Extracts from the Swiss regulation:
According to the regulation on disinfectant and disinfection products, SILVER BREEZE is approved by the chemical department of SFOPH and has been added to the toxicological list. This product must fulfil the requirements of the toxicological norms, as well as the regulation on disinfectant and disinfection products, before being placed on the market.
Each product on the market needs a registration dossier that must be transmitted to the chemical department.
The biocides of chemical disinfectants reduce the numbers of microbes on surfaces, the structure or metabolism of the microbe is destroyed. For a product to be considered effective, a sufficient number of micro-organisms have to be eliminated.
It is the duty of the registered to prove the effectiveness of the product. The microbes are subdivided into bacteria, mycosis, myco-bacteria (pathogen of tuberculosis), viruses and spore-forming bacteria.
In order to define a product as “disinfectant” in Switzerland, it must be capable to act against bacteria and mycosis. The effectiveness is tested on a certain quantity of bacteria and mycosis, which can change according to the regulations in force. In addition to the standard requirements, further organisms, such as salmonellas, viruses, myco-bacteria, spores, etc have to be specifically listed on the label. The effectiveness of each single group has to be demonstrated separately.
SFOPH carry out an evaluation of the dossier, and decide the effectiveness of the disinfectant from the reports received from the experts. The text on the label and the instructions must be conform to the properties and the effectiveness.
Once the above requirements are fulfilled, the disinfectants receives approval and a SFOPH-E number.
Anaylses for the determination of the effectiveness (according to SFOPH requirements)
In order to prove the effectiveness of a product, the experts have established standard tests, wherein the general principles are listed.
For over 20 years, standard tests exist in various countries. In order to unify the methods of these tests, and the evaluation of the Control Authorities, the European Committee for the Standardization (CEN) has created a technical committee for disinfectant products, the CT216. We are in a transition phase, in which, to prove the effectiveness of a product, it must fulfil the “regional” tests, some of which are existing since a short or a long period (AFNOR,DGHM), as well as the European regulations.
The evaluations will be approved according to the general pre-established regulations, which are existing since a long time, except when these diverge excessively from the European regulations.
In order to establish the properties of the biocides, an experimental part consisting of three phases has been supplied. Each phase or stage supplies further information regarding the strong and weak points of the product.
Phase 1:
Phase 1 consists on a qualitative suspension test. An evaluation takes place to see if the product has a basic effect against specific organisms. The product is diluted with water in order to reach various concentrations. This is a qualitative test, as the result will show if the product, in the various tested concentrations, is effective or not. Further interfering substances are not added in this phase of the tested concentrations.
Phase 2:
Phase 2/Stage 1 consists on a quantitative suspension test. Not only the product is diluted in water, but interfering substances are added, which stimulate an organic load. Such a load is often encountered in practice, since we find dirty surfaces, instruments or hands to be disinfected. This phase is important, since certain substances react to proteins and in this way are hindered, and the product looses its effectiveness. It is a quantitative test, as the reduction of the number of specific organisms, calculated in log10-stages is transmitted.
Phase 3:
Phase 3/Stage 2 exposes a decisive stage, as the experimental conditions of the tests are confronted with the circumstances, which predominate during the application in practice. In other words, practical conditions are created with these tests. Contrary to the tests of the two above-mentioned stages, which are the same for all types of application, in this last phase, the tests differ according to the field of application of the disinfectant.
SILVER BREEZE, produced for the public, serves as a disinfectant for surfaces, and therefore has been tested in phase 3 being considered suitable in this application field.
These three test phases supply the necessary knowledge for the approval of the effectiveness of SILVER BREEZE, produced for the public, effective against various specific organisms, efficient on various concentrations of application and effective within established time limits. Since these tests are standardized, a reliable confrontation of the compositions of the various active substances is possible.
SILVER BREEZE has been classified by the Control Authorities as a very effective disinfectant, since the reduction of the number of micro-organisms treated with SILVER BREEZE has satisfied the severe legislative requirements, which is more than:
5 log 10 for bacteria
4 log 10 for mycosis
4 log 10 for viruses
Various micro-organisms used for the diverse phases of tests 1 – 3
- Enterovirus Polio1, Stamm SABIN, culture on cell VERO
- Adenovirus human Typus, culture on cell KB
- Orthopoxvirus Vaccinia, culture on cell VERO
- Aspergillus niger, ATCC 8739
- Candida albicans, ATCC 10231
- E. coli, ATCC 10536 and 25922, K12 NCTC 10535
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