Radionuclide therapy using 131I-labeled anti-epidermal growth factor receptor-targeted nanoparticles suppresses cancer cell growth caused by EGFR overexpression

“…At present, clinical monoclonal antibody (mAb)‐mediated radionuclide therapy (radioimmunotherapy, RIT) has become an attractive therapeutic application, as it has the ability to target both the primary tumor site as well as disseminated diseased tissue . Owing to the suitable emission characteristics, facile and affordable production, and amenable chemical properties, 131 I was widespread used as an ideal radionuclide for RIT . Obviously, the method of RIT is based on the selective accumulation of radionuclide‐containing pharmaceuticals only in tumor tissues to acquire high efficiency with minimal health risks .…”

“…7 Owing to the suitable emission characteristics, facile and affordable production, and amenable chemical properties, 131 I was widespread used as an ideal radionuclide for RIT. 8 Obviously, the method of RIT is based on the selective accumulation of radionuclide-containing pharmaceuticals only in tumor tissues to acquire high efficiency with minimal health risks. 9,10 α-Fetoprotein (AFP), a type of specific liver cancer marker, is overexpressed in over 70% of primary hepatic carcinomas.…”

¹³¹I radiolabeled immune albumin nanospheres loaded with doxorubicin for in vivo combinatorial therapy

“…At present, clinical monoclonal antibody (mAb)‐mediated radionuclide therapy (radioimmunotherapy, RIT) has become an attractive therapeutic application, as it has the ability to target both the primary tumor site as well as disseminated diseased tissue . Owing to the suitable emission characteristics, facile and affordable production, and amenable chemical properties, 131 I was widespread used as an ideal radionuclide for RIT . Obviously, the method of RIT is based on the selective accumulation of radionuclide‐containing pharmaceuticals only in tumor tissues to acquire high efficiency with minimal health risks .…”

“…7 Owing to the suitable emission characteristics, facile and affordable production, and amenable chemical properties, 131 I was widespread used as an ideal radionuclide for RIT. 8 Obviously, the method of RIT is based on the selective accumulation of radionuclide-containing pharmaceuticals only in tumor tissues to acquire high efficiency with minimal health risks. 9,10 α-Fetoprotein (AFP), a type of specific liver cancer marker, is overexpressed in over 70% of primary hepatic carcinomas.…”

¹³¹I radiolabeled immune albumin nanospheres loaded with doxorubicin for in vivo combinatorial therapy

“…After its synthesis, the BSA-PCL conjugate was functionalized with antiepidermal growth factor receptor (anti-EGFR) antibody and utilized for targeted RIT. The anti-EGFRlabeled particles exhibited higher cytotoxicity in vitro and in vivo, and higher cellular and tumor uptake in murine cancer models, when compared to particles without the antibody [85]. In a similar rationale, PEGylated liposomes linked to PCL-BSA, functionalized with an RGD peptide and labeled with 131 I, were tested against lung cancer in NCI-H460 tumor-bearing mice, and showed great potential as cancer theranostic agents [86].…”

Radiolabeled Nanoparticles in Nuclear Oncology

“…Radiotherapy is currently well accepted as one of the most effective remedies for cancer. Radionuclide particularly exhibits a great anticancer potential since it can be selectively delivered to lesion by labeling with special materials such as monoclonal antibody, bioactive peptide, etc., leading to a maximum biological effect and damage as little as possible to normal tissue 1 2 3 4 5 . Moreover, nuclide internal irradiation belongs to prolonged low dose rate exposure, but the total cumulative dose can get larger.…”

A combination hepatoma-targeted therapy based on nanotechnology: pHRE-Egr1-HSV-TK/131I-antiAFPMcAb-GCV/MFH