Synthesis of ceramic tubular membrane from low‐cost clay precursors for blood purification application as substitute of commercial dialysis membrane

Abstract: Background There has been a surge of interest in the preparation of membranes for clinical applications, chiefly for hemodialysis and hemofiltration. Despite numerous benefits, the exploitation of polymeric materials for dialysis membrane preparation remains unsatisfactory due to lack of proper physicochemical properties and biocompatibility. Therefore, this work focuses on the preparation of a ceramic membrane in a tubular configuration using an extrusion method and a clay material mixture. The biocompatibili… Show more

“…6,7 Synchronously, less allergic, less cloggable, and more biocompatible ceramic membranes and clay mixtures have also been investigated as alternative materials for polymer and polymer-based composites. 8,9 With increasing progress in the development of nanomaterials and nanotechnology, the volume and weight of the blood filtration systems are drastically reduced, and the patient's life quality has increased after the emergence of artificial kidneys (AKs). 10−13 These microblood purification (hemodialysis and/or ultrafiltration) devices reinforce dysfunctional kidneys by maintaining proper GFR without any obstacle to a patient to move independently.…”

“…During the last 15 years, the number of patients struggling with chronic kidney disease (CKD) has increased, although most reasons of CKD, such as genetics and smoking habits, are well known and shared with the community. − Unlike acute kidney disease, a definitive treatment has not been found yet for CKD, considering that conventional devices reduce a patient’s daily activities and comfort. , Although high-flux hemodialysis machines are extremely efficient in shortening a patient’s hospital retention time by assisting in increasing the reduced glomerular filtration rate (GFR) due to CKD, mechanically stable polymeric membranes inside the dialyzers may cause allergic reactions during operation. Therefore, scientists are still researching to enhance the biocompatibility and antibacterial behavior of polymeric hemodialysis membranes. , Synchronously, less allergic, less cloggable, and more biocompatible ceramic membranes and clay mixtures have also been investigated as alternative materials for polymer and polymer-based composites. , …”

Electrostatic Repulsive Features of Free-Standing Titanium Dioxide Nanotube-Based Membranes in Biofiltration Applications

“…6,7 Synchronously, less allergic, less cloggable, and more biocompatible ceramic membranes and clay mixtures have also been investigated as alternative materials for polymer and polymer-based composites. 8,9 With increasing progress in the development of nanomaterials and nanotechnology, the volume and weight of the blood filtration systems are drastically reduced, and the patient's life quality has increased after the emergence of artificial kidneys (AKs). 10−13 These microblood purification (hemodialysis and/or ultrafiltration) devices reinforce dysfunctional kidneys by maintaining proper GFR without any obstacle to a patient to move independently.…”

“…During the last 15 years, the number of patients struggling with chronic kidney disease (CKD) has increased, although most reasons of CKD, such as genetics and smoking habits, are well known and shared with the community. − Unlike acute kidney disease, a definitive treatment has not been found yet for CKD, considering that conventional devices reduce a patient’s daily activities and comfort. , Although high-flux hemodialysis machines are extremely efficient in shortening a patient’s hospital retention time by assisting in increasing the reduced glomerular filtration rate (GFR) due to CKD, mechanically stable polymeric membranes inside the dialyzers may cause allergic reactions during operation. Therefore, scientists are still researching to enhance the biocompatibility and antibacterial behavior of polymeric hemodialysis membranes. , Synchronously, less allergic, less cloggable, and more biocompatible ceramic membranes and clay mixtures have also been investigated as alternative materials for polymer and polymer-based composites. , …”

Electrostatic Repulsive Features of Free-Standing Titanium Dioxide Nanotube-Based Membranes in Biofiltration Applications

Nano-clay modified membranes: A promising green strategy for microalgal antifouling filtration