MediPure™ IV filters with a CYROLITE® housing ensure safe infusions
- MediPure™ Adult IV filters from ITW Medical protect patients from bacteria, microparticles and trapped air
- Filter housings made of CYROLITE® can be sterilized and are robust, disinfectants- and pressure-resistant
- ITW Medical is planning to use CYROLITE® CG-97 again for the next generation of filters
Bacteria, microparticles and trapped air can all lead to complications during infusion therapy. Infusion filters, such as the MediPure™ Adult IV filters from ITW Medical, reduce the risk of contamination and thus increase patient safety. And the CYROLITE® medical plastic from Röhm contributes to this improvement of patient outcome.
“The construction combines a hydrophobic membrane for venting air that supports self-priming and a hydrophilic filter membrane for bacterial retention.”
Effectively filtering out risks
Infusions allow a fast-acting and precisely dosed administration of medication in intensive care, either directly via the blood stream or via fluids that stabilize the circulatory system. However, sometimes bacteria or minuscule foreign objects are introduced to the patient's blood circulation in the process, for example, when infusion solutions are contaminated or material particles detach when puncturing the rubber plug. In these cases, myriad micro- and nanoparticles can circulate during a 24-hour infusion therapy. Another risk of intravenous (IV) infusions comes from air entering the vein, which, in the worst-case, could cause an air embolism. Inline infusion filters that are connected to the infusion tube significantly lower these risks.
One such filter is the MediPure™ Adult IV filter from ITW Medical. The American company is a leading manufacturer of fluid management components for medical applications. Its portfolio includes self-priming infusion filters that both block bacteria and particles and divert air. Inside the filters are parallel chambers with a polyethersulfone filter membrane with a pore diameter of 0.2 or 1.20 micrometers, depending on the product type. “The construction combines a hydrophobic membrane for venting air that supports self-priming and a hydrophilic filter membrane for bacterial retention” explains Rutuja Joshi, product developer at ITW Medical.
Röhm's specialties for daily hospital routine
ITW Medical manufactures robust, transparent filter housings from CYROLITE® CG-97. CYROLITE® special molding compounds from Röhm are acrylic-based copolymers. They are specifically developed for medical devices and compliant with the USP Class IV and ISO 10993-1 regulatory requirements. “CYROLITE® products are contact-compatible with medical fluids, medications as well as a wide range of oncology drugs and carriers. In addition, our CYROLITE® CG-97 grade is highly resistant to disinfectants and lipids” explains Maurice Biagini, Commercial Director Medical at Röhm. “While the disinfectants resistance prevents stress cracking from contact with disinfectants, such as isopropyl alcohol, the lipid resistance ensures the retention of the housing’s mechanical performance . The excellent optical clarity of the material is maintained even after gamma sterilization.”
Its good processing properties mean that components made from CYROLITE® are customizable, for example with different filter connections for the MediPure™ Adult IV filter.
“The three decisive criteria for us were the sterilization ability, alcohol resistance and extraordinary transparency.”
CYROLITE® is reliable – even under pressure
Properties that have also impressed ITW: “The three decisive criteria for us were the sterilization ability, alcohol resistance and extraordinary transparency,” says Joshi, explaining why ITW Medical decided on CYROLITE® CG-97.
“We also place great importance on the material's pressure resistance. After all, an infusion filter should not rip or burst under any circumstances, even if liquid accumulates in the system.”
Unique selling proposition of the next generation of MediPure™filters
“CYROLITE® is one of the reasons why our filters can withstand pressure for such a long time,” emphasizes the product developer from ITW. An increase in pressure resistance is a quality with which the medical technology company aims to stand out from the competition even more by introducing the next product generation. ITW Medical is relying on the proven CYROLITE® CG-97 material from Röhm for the new MediPure™ Adult IV filters that are scheduled to be launched in 2021.
With 3,500 employees and 14 production sites worldwide, Röhm is one of the leading manufacturers in the methacrylate business. The medium-sized company with branches in Germany, China, the USA, Mexico, and South Africa has more than 80 years of experience in methacrylate chemistry and a strong technology platform. Our best-known brands include PLEXIGLAS®, ACRYLITE®, MERACRYL®, DEGALAN®, DEGAROUTE® and CYROLITE®.
Polymethyl methacrylate (PMMA) products from Röhm are sold on the European, Asian, African and Australian continent under the registered trademarks PLEXIGLAS® and PLEXIMID®, in the Americas under the registered trademarks ACRYLITE® and ACRYMID®.
May 19, 2022
Transparent and robust urine meters made from CYROLITE® play a crucial role in the treatment of urology patients
Jun 25, 2021
Surgical suction handle made of CYROLITE® improves the treatment of bone defects
Pioneering medical technology
Dec 02, 2020
CYROLITE® meets the highest standards for plastics for the centric plate system (Zentrik-Platten-System – ZPS®) from Baumann Dental
Plastics for medical technology
Dec 20, 2019
Diagnostics with micro-components made of CYROLITE® reduce bleeding risks
Bleeding that occurs during or after surgery can be correctly and promptly diagnosed for targeted treatment.
Mar 15, 2019
Qosina Utilizes CYROLITE® G-20 HIFLO to Create New Disposable Luer Lock Connector
In order to keep up with customer demand and production needs, Qosina, a global supplier of single-use medical devices, recently selected Roehm’s CYROLITE® G-20 HIFLO acrylic-based copolymer compound to manufacture their own specialized luer lock connector.