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Long-term peritoneal dialysis (PD) can lead to detrimental changes in peritoneal membrane function, which may be related to the accumulation of glucose degradation products. A previous study demonstrated that 6 months of far-infrared (FIR) therapy may decrease glucose degradation products in PD dialysate. Due to limited literature on this matter, this study aims to investigate the effect of FIR therapy on the peritoneal membrane transport characteristics of PD patients. Patients were grouped according to baseline peritoneal transport status: lower transporters (low and low-average) and higher transporters (high-average and high). Both groups underwent 40 min of FIR therapy twice daily for 1 year. In lower transporters, FIR therapy increased weekly dialysate creatinine clearance (6.91 L/wk/1.73 m2; p = 0.04) and D/P creatinine (0.05; p = 0.01). In higher transporters, FIR therapy decreased D/P creatinine (−0.05; p = 0.01) and increased D/D0 glucose (0.05; p = 0.006). Fifty percent of high transporter patients shifted to high-average status after FIR therapy. FIR therapy may decrease D/P creatinine for patients in the higher transporter group and cause high transporters to shift to high-average status, which suggests the potential of FIR therapy in improving peritoneal membrane function in PD patients.
Cellular organelles and their functions
3.1 The Cell Membrane – Anatomy & Physiology
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Reverse osmosis membranes construction, membrane d'osmose inverse
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Lipid domains in biological membranes: their structural and functional perturbation by free fatty acids and the regulation of receptor mobility. Co-presidential address. - Abstract - Europe PMC
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PDF) Synthesis of membrane proteins in eukaryotic cell-free systems
Osmosis
Reverse osmosis membranes construction, membrane d'osmose inverse
Enhanced Ion Sieving Of Graphene Oxide Membranes Via, 58% OFF
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