Company supports new technologies in the healthcare applications. She develops big effort in order to prevent the spread of the nosocomial infections in the healthcare facilities and forces the projects to prevent the spread of viruses and bacteria in hospitals.
The company has available the research and development team working in the scope of ozone technologies and owning the far-reaching know-how resting for patented solutions. Specially the ozone technologies have the key position in these applications.
The project is aimed against consequences of the civilization diseases and nosocomial infections. The main intention of it is improvement of the quality of life generally and it has humanitarian and global character.
- Introduction
The molecule of the Ozone is created from three atoms of Oxygen. The process of creating Ozone can be effectively arranged by the use of corona discharge influence on the Oxygen.
Under such influence the Oxygen molecules are firstly separated and then recombined into molecules of the Ozone consisted from three atoms of Oxygen. The O3 Ozone molecule is very unstable and belongs among strongest oxidizing reagents. Disintegrating Ozone molecule creates back as pure Oxygen.
The O3 molecules remove pathogens, color and odor from the air and water without any chemical residua and change a lot of dangerous chemicals into inactive substances.
We can summarize the ozone is produced from the air (Oxygen), used in oxidizing process and changed back into Oxygen. This simple scheme has the large ecological meaning. The Ozone is safe powerful oxidant for many useful applications. The main condition for using Ozone – each process has to be strictly controlled.
- The spheres solved by the project
The project is aimed on two large scopes:
- The abatement of the nosocomial infections in the hospitals and further health institutions
- The nosocomial infects represent the big problem especially in the hospitals over the world. The bacteria, viruses and other mutated germs present in the big concentration in the hospitals jeopardize patients under treatment. The significant ratio of patients takes a disease outside of the reason of their original hospitalization.
- The lot of needed know how is collected by the team behind these solutions and original approaches based on the patented procedures are available for the project realization.
- The development, preparation and distribution of the ozonized oils manufactured by the use of effective methods.
- The increase of obesity, diabetes and ageing together with inappropriate healthcare programs are the cause of necessity to treat more than 1.5 billion people affected by skin and mucosal infections. The tools of the official medicine are often poorly efficacious
- The ozonized oils are known and desirable for their antibacterial properties as well as their healing properties. Their properties are not very well verified, however they are known from a lot of medicine literature. The project is aimed to analyze these derivatives suggesting the strategy to obtain products with the best characteristics and most effective manufacturing process. The project team has a lot of experience with the production of the ozonized oils based on the more effective methods then they are published in the literature.
- The abatement of the nosocomial infections
Besides the further development of the ozone technologies know-how is the project is in the direct relation to the patented technology and supposes to realize the areas as follows:
- Disinfection washers of bed pans and ducks
- Such washer is patented and supported for the family of the utility models. The project needs:
- License fee – to buy the rights for the production based on the patent and the family of the utility models with respect of the future products.
- Design and prototype of the washer disinfector, lay-out for series production, draft design, construction adjustment for a reasonable series production. Preparation of the control system for the Internet of Things.
- Preparation of series production, production system and production tools design and realization of them. Production start curve, production terms according to the optimal production quality management, verification of the construction elements in accordance with the required quality and reliability and with respect to the individual component properties used accordingly with the conditions of the territorial distribution. Point of view of the potential treatment as regards the ambient temperature, humidity and resistivity against the aggressive environment).
- Preparation and creation of the information system based on the multiplatform, multilingual use and as universal as possible use. Information system will connect all phases of the production chain (research, prototyping, manufacturing, human resources management, supply chain management of materials, components and products, tracking the complete life cycle of products, advertising management, offer, order and sale processes, installation, service, repair, and final disposal and recycling)
4. Disinfection washers and sterilizers of endoscopes
This part of the project has the similar character as the disinfection washers of bed pans and ducks.
The construction of the device has to be enlarged for connections of the ozonized water to the endoscopes and the manipulation with the endoscopes. The number of the production, trade, education and service centers will be a little another. The requirements of the purity – sterilization are higher and the construction of the sterilizers is more complicated.
5. System of the hands disinfection
The use of hands for the patient service represents the place with maximum risk of the transfer of the infections from the doctors and nurses to the patients. The frequency of the direct contacts with the patient is very high. The widespread method of the hands disinfection is the use of chemicals and especially the hands of nurses are suffering from exposition of chemicals.
This part of the project is oriented on the construction of the disinfection devices that use the ozone in the gas form and the ozonized water both combined with the air jet. As the ozonized water as the ozone are driven against hands through the jet system in the relatively closed box. The manipulation with the disinfection media is fully automated and disinfection of hands is very simple.
Each hospital room should be equipped with such devices used as medical staff and patients as visitors.
6. System of the air disinfection – air conditioners
We should mention the ozone suppliers mixed with the air suppliers under the notion conditioner.
The air supplier capacity has to be able to supply all rooms in the hospital. Surgeries are combined with suitable system of the filters.
Such equipment needs to reconstruct inner technology of buildings under the full operation of the institution and will be relatively expensive.
7. System of the hospital water pipes disinfection
Such building facility together with other parts of the project is very similar to the part 3.4. The difference is in the ozonized water net and the construction of the ozonized water suppliers. These are complicated comparatively to the ozone suppliers, to the measurement of the ozone concentration and automated control of the whole process. The building reconstruction could be in the lover size than by the air disinfection; however the number of the water supplies in the rooms could be larger and the water pipes changed.
8. Ozonized oils manufactured by the use of effective methods
Ozonized oils represent part of this project independent on the project parts named earlier. The important feature of this project is large know-how regarding the production practice and the construction of the manufacturing device.
The main difference between commonly used production process and process according project author’s know-how springs in the time of the production and concentration of the ozonides in the oil.
This part of the project count on the ozonization of the oils as follows
- Olive oils
- Hempseed oil
- Sesame oil
- Argan oil
The building up of the production capacities, small research institute with the sophisticated measurement devices, trade and distributor net and cooperation with the universities takes some time and costs depended on the size of the market.
Patent and utility models:
