FX high-flux and FX low-flux dialyzers

Radial dialysate flow

• The pinnacle structure of the polypropylene housing ensures a uniform dialysate flow around the entire fibre bundle
• A high packing density of the fibre bundle and a special wavy fiber structure avoid dialysate channeling
• Combined, these features enable the constant performance of all FX dialysers

Optimum fibre dimensions

• The reduced inner diameter and wall thickness of the fibre increase the internal filtration and minimise diffusive resistance
• A significant increase of both the diffusive and convective clearances is therefore achieved, allowing for the efficient removal of a broad spectrum of uraemic toxins 

Technology

Helixone^®: the advanced polysulfone membrane 

• Nanotechnology membrane fabrication procedures (Nano Controlled Spinning Technology, NCS™) provide Helixone^® with a highly defined pore structure and distribution at the innermost, separating region of the membrane^1,2
• Unlike conventional pores, which were rough and uneven in shape, the pores in the inner layer of the Helixone^® membrane are smooth and cylindrical
• This reduces the molecules' resistance when travelling through the pores and allows for enhanced removal

Helixone^® has been specially designed to meet the demands of both low-flux and high-flux therapies:

• More even distribution of pores
• Estimated increased average pore size of 1.8 nm (low-flux) and 3.3 nm (high-flux)
• Increased performance per unit of surface area

INLINE steam sterilisation: the benefits

• Highly pure, sterile and pyrogen-free dialysers without any potentially harmful residues from sterilisation
• The biocompatibility of membranes remains unaffected by sterilisation
• The optimised use of resources due to low rinsing volumes: only 500 ml is required
• Dry dialysers with minimised risk of contamination due to microbial growth