Ordered porous materials for blood purification

Abstract

Blood purification is an essential part of biomedical engineering, as well as a rapidly developing field in medicine. Hemoperfusion, which physically separates impurities from blood using adsorbents, offers an effective method for blood purification. However, traditional hemoperfusion adsorbents suffer from various limitations, such as low adsorption capacity and poor hemocompatibility. In recent years, ordered porous materials (OPMs), as a new type of material, have been emerging in the research of blood purification. OPMs exhibit several unique properties that make them ideal candidates for blood purification adsorbents, including a regularly arranged, adjustable pore structure and high specific surface area. Researchers have developed and synthesized various types of OPMs and studied their applications in hemoperfusion, demonstrating their potential to outperform conventional adsorption materials. This review covers the synthesis and properties of OPMs, as well as their applications in hemoperfusion. The authors also discuss the potential of OPMs for future clinical applications in blood purification. Based on these discussions, it appears that OPMs show an exciting avenue for further research in the field of blood purification.