Polyethylene oxide–polyacrylic acid–folic acid (PEO‐PAAc) nanogel as a 99mTc targeting receptor for cancer diagnostic imaging

Nanoparticles are frequently used as targeting delivery systems for therapeutic and diagnostic radiopharmaceuticals. Polyethylene oxide–polyacrylic acid (PEO–PAAc) nanogel was prepared via γ‐radiation‐induced polymerization. Variable factors affecting nanoparticles size were investigated. The nanogel was radiolabeled with the imaging radioisotope 99mTc and finally conjugated with folic acid to target folate receptor actively. PEO–PAAc–folic acid gel was characterized by dynamic light scattering (DLS) and atomic force microscopy (AFM). Biodistribution was studied in normal mice and solid tumor‐bearing mice via intravenous and intratumor injections of the radiolabeled PEO–PAAc–folic acid nanogel. Results of biodistribution showed high selective uptake of the prepared complex in tumor muscle compared with normal muscle for both intravenous and intratumor injections. The T/NT ratio was found to be 6.186 and 294.5 for intravenous and intratumor injections, respectively. Consequently, 99mTc–PEO–PAAc–folic acid complex could be a promising agent for cancer diagnostic imaging. Polyethylene oxide–polyacrylic acid nanogel was prepared via γ‐radiation‐induced polymerization. The nanogel was radiolabeled with the imaging radioisotope 99mTc and finally conjugated with folic acid to target folate receptor actively. Biodistribution results showed high selective uptake of the prepared complex in tumor muscle compared with normal muscle for both intravenous and intratumor injections. T/NT ratio was 6.186 and 294.5 for intravenous and intratumor injections, respectively. Consequently, 99mTc–PEO–PAAc–folic acid complex could be a promising agent for cancer diagnostic imaging.