In vivo evaluation of PEGylated-liposome encapsulating gadolinium complexes for gadolinium neutron capture therapy

脂质体 体内 辐照 放射化学 中子温度 放射治疗 化学 核医学 中子 材料科学 医学 放射科 生物 生物化学 物理 生物技术 有机化学 量子力学 核物理学
作者
Woong Hee Lee,Ki‐Hye Jung,Ji‐Ae Park,Jung Young Kim,Yong Jin Lee,Yongmin Chang,Jeongsoo Yoo
出处
期刊:Biochemical and Biophysical Research Communications [Elsevier BV]
卷期号:568: 23-29 被引量:14
标识
DOI:10.1016/j.bbrc.2021.06.045
摘要

Abstract Gadolinium neutron capture therapy (GdNCT) is a form of binary radiotherapy. It utilizes nuclear reactions that occur when gadolinium-157 is irradiated with thermal neutrons, producing high-energy γ -rays and Auger electrons. Herein, we evaluate the potential of GdNCT for cancer treatment using PEGylated liposome incorporated with an FDA-approved MRI contrast agent. The clinical gadolinium complex (Gadovist®) was successfully encapsulated inside the aqueous core of PEGylated liposomes by repeated freeze and thaw cycling. At a concentration of 152 μM Gd, the Gd-liposome showed high cytotoxicity upon thermal-neutron irradiation. In animal experiments, when a CT26 tumor model was administered with Gd-liposomes (19 mg 157Gd per kg) followed by 20-min irradiation of thermal neutron at a flux of 1.94 × 104 cm−2 s−1, tumor growth was suppressed by 43%, compared to that in the control group, on the 23rd day of post-irradiation. After two-cycle GdNCT treatment at a 10-day interval, tumor growth was more efficiently retarded. On the 31st day after irradiation, the weight of the excised tumor in the GdNCT group (38 mg 157Gd per kg per injection) was only 30% of that of the control group. These results demonstrate the potential of GdNCT using PEGylated liposomes containing MRI contrast agents in cancer treatment.

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