Silk Nanofiber Carriers for Both Hydrophilic and Hydrophobic Drugs to Achieve Improved Combination Chemotherapy

Abstract: Combination chemotherapy is considered an effective strategy to inhibit tumor growth. When nanocarriers are utilized in the process, both physical and chemical modifications are usually required to enable the co‐loading of chemotherapeutic drugs with different properties. Here, beta‐sheet‐rich silk nanofibers were co‐loaded with hydrophilic doxorubicin (DOX) and hydrophobic paclitaxel (PTX) through a sequential physical blending‐centrifugation‐blending process. The ratio and amount of DOX and PTX on the nanofi… Show more

“…The biochemical properties, such as oxygen permeability [3] and noninflammatory biocompatibility of its decomposition products, [2] also enable silk as a practical material in various fields ranging from biomedical to apparel applications. [4][5][6][7][8][9] The chain structure of silk, which predominantly consists of alanine-glycine amino acid units and also includes serine, threonine, aspartic acid, glutamic acid, and tyrosine units that can be altered by chemical means, [2] makes silk fibroin an attractive material for application areas. [10] However, since these protein fiber surfaces are a good source of carbon and nitrogen for the growth of microorganisms, the deforming effect of microorganisms that can adhere to the surface causes the deterioration of its strength and changes in its original color, and a limitation to the use of silk in the practical applications.…”

Design of Silk Fabric Surface with Enhanced Antiseptic Properties through Graft Modification and Iodophor Integration

“…The biochemical properties, such as oxygen permeability [3] and noninflammatory biocompatibility of its decomposition products, [2] also enable silk as a practical material in various fields ranging from biomedical to apparel applications. [4][5][6][7][8][9] The chain structure of silk, which predominantly consists of alanine-glycine amino acid units and also includes serine, threonine, aspartic acid, glutamic acid, and tyrosine units that can be altered by chemical means, [2] makes silk fibroin an attractive material for application areas. [10] However, since these protein fiber surfaces are a good source of carbon and nitrogen for the growth of microorganisms, the deforming effect of microorganisms that can adhere to the surface causes the deterioration of its strength and changes in its original color, and a limitation to the use of silk in the practical applications.…”

Design of Silk Fabric Surface with Enhanced Antiseptic Properties through Graft Modification and Iodophor Integration