Radiation Crosslinked Smart Peptide Nanoparticles: A New Platform for Tumor Imaging

Abstract: Nanoparticles have been employed to develop nanosensors and drug carriers that accumulate in tumors. Thus, it is necessary to control the particle size, surface potential, and biodegradability of these nanoparticles for effective tumor accumulation and safe medical application. In this study, to form a nanoparticle platform suitable for diagnostic and drug delivery system (DDS) applications, peptides composed of aromatic amino acid residues were designed and synthesized based on the radiation crosslinking mech… Show more

“…In order to establish a nanoparticle platform suitable for diagnostic and drug delivery applications, peptides composed of aromatic amino acid residues were designed and synthesized by means of radiation crosslinking mechanism of proteins. The peptide nanoparticles with particle size of~100 nm produced by γ-irradiation (5-15 kGy dose range) displayed a positive surface potential, maintained biodegradability and were stable in water and phosphate buffer solution during actual diagnosis [36].…”

Radiation-Assisted Synthesis of Polymer-Based Nanomaterials

“…In order to establish a nanoparticle platform suitable for diagnostic and drug delivery applications, peptides composed of aromatic amino acid residues were designed and synthesized by means of radiation crosslinking mechanism of proteins. The peptide nanoparticles with particle size of~100 nm produced by γ-irradiation (5-15 kGy dose range) displayed a positive surface potential, maintained biodegradability and were stable in water and phosphate buffer solution during actual diagnosis [36].…”

Radiation-Assisted Synthesis of Polymer-Based Nanomaterials

Development of carboxymethyl cellulose/gelatin hybrid hydrogels via radiation-induced cross-linking as novel anti-adhesion barriers

Development of environmentally friendly soft contact lenses made from cellulose-derived hydrogel materials