Opti Platinum Shower System
Optimal Protection Beyond the Source™
Integrated shower filter system with an anti-microbial designed throughout for the ultimate human protection
The Opti Platinum Shower System is an innovation to protect against dangerous waterborne pathogens such as Legionella and Pseudomonas. The system includes a pre-filter and replaceable 0.085 μm membrane filter cartridge as part of the handle. The system is essential for the care of immunosuppressed patients in high-risk areas such as bone marrow and organ transplant units, oncology, intensive care, neonatal wards, and any other areas providing patient care.
MODEL No. NLP_OPSPS
Protection for All
- 0.085 μm sterilizing grade hollow fiber membranes
- Reusable Anti-Microbial Shower Head exchangeable with Arm Filter Cartridge
- Compatible with ADA compliant pause adapter
- Robust pre-filtration cartridge
- Tested and complies with Protocol P376 + ASSE LEC 2011-2022 Legionella reduction standards
- Highest healthcare safety standards with NSF P376 Certification
- Retains microorganisms without volume restriction
- Waste reduction, cost reduction with high performance
- Complete Anti-Microbial protection embedded throughout the system
- Integrates with CDC’s Legionella Water Management Plan
Antimicrobial Protection
The science behind the solution
Effective hygiene management starts by equipping the product with built-in protection. Polygiene BioMaster™ is the first line of defense.
Based on innovative silver ion technology, it is integrated into materials during manufacturing allowing the Biomaster to be dispersed throughout the whole item and become an integral part of its structure. The use of silver ions ensures it doesn’t leach and remains bonded to the material, providing continuous antibacterial protection for the product’s entire lifespan.
How it Works
Polygiene BioMaster™ operates on a molecular level, making it highly effective at very low concentrations.
The three-pronged attack stops microbes in their tracks and drastically reduces the microbial load on the showerhead and handle.
Combating the growth of bacteria, fungi, mold, and other microorganisms prevents cross-contamination and facilitates cleaner and safer products, processes, and environments.
The additive fights microbes on three fronts:
- They bind with the cell wall and impede growth.
- They inhibit enzyme production, hampering the cell’s ability to produce energy.
- They disrupt cells’ DNA, preventing cellular replication.
Membrane technology
Hollow fiber membranes have become indispensable tools in the fields of water treatment, healthcare, and biotechnology. Their unique structure and versatile properties make them highly effective for a wide range of separation and filtration processes.
Capillary Membranes
Asymmetrical microporous structure with an internally smooth texture and the ability to perform a high rate at low pressure
Internal Magnification 156x
Ultrafiltration from 0.01 to 0.02 µM with a high porosity (85%)
External Capillary 5,000x
Permanently hydrophilic and resistant to disinfection with chlorine
Compliance Regulations
The fabrication of the filters is based on the standard requirements of ISO 13485:2003 Medical Devices to ensure quality performance. The regulatory requirements are according to Directive 93/42/EEC.
The products are Class Ⅰ Medical Devices and are marked CE to follow the requirements of the regulations. The ABS plastic material that is used to meet the requirements of European Pharmacy – Issue 5, Chapter 3.2.2 “Packaging and plastic closures for pharmaceutical use US-USP VI” – and the material is tested for biological reactivity. The hollow fibres of the micro-filters are selected based on the quality and guarantees ACS & NSF61 & in the process of obtaining CE- Medical (see link attached), NSF 42, 53, 401 & 177 certificates standards.
The products are individually tested to the good state of the membrane and the water resistance of the device to be ensured. The filters also contain an antibacterial component that resists the spreading of microorganisms on the surface of the product; the risk of subsequent contamination is reduced by 99%.
