Nonclinical pharmacodynamics of boron neutron capture therapy using direct intratumoral administration of a folate receptor targeting novel boron carrier

IF 3.7 Q1 CLINICAL NEUROLOGY
Kohei Tsujino, Hideki Kashiwagi, Kai Nishimura, Yoshiki Fujikawa, Ryozo Kayama, Yusuke Fukuo, R. Hiramatsu, N. Nonoguchi, T. Takata, Hiroki Tanaka, Minoru Suzuki, N. Hu, K. Ono, M. Wanibuchi, Kei Nakai, Hiroyuki Nakamura, Shinji Kawabata
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Abstract

Boron Neutron Capture Therapy (BNCT) is a precise particle radiation therapy known for its unique cellular targeting ability. The development of innovative boron carriers is crucial for the advancement of BNCT technologies. Our previous study demonstrated the potential of PBC-IP administered via Convection-Enhanced Delivery (CED) in an F98 rat glioma model. This approach significantly extended rat survival in neutron irradiation experiments, with half achieving long-term survival, akin to a cure, in a rat brain tumor model. Our commitment to clinical applicability has spurred additional non-clinical pharmacodynamic research, including an investigation into the effects of cannula position and the time elapsed post-CED administration. In comprehensive in vivo experiments conducted on an F98 rat brain tumor model, we meticulously examined the boron distribution and neutron irradiation experiments at various sites and multiple time intervals following CED administration. The PBC-IP showed substantial efficacy for BNCT, revealing minimal differences in tumor boron concentration between central and peripheral CED administration, although a gradual decline in intratumoral boron concentration post-administration was observed. Therapeutic efficacy remained robust, particularly when employing cannula insertion at the tumor margin, compared to central injections. Even delayed neutron irradiation showed notable effectiveness, albeit with a slightly reduced survival period. These findings underscore the robust clinical potential of CED-administered PBC-IP in the treatment of malignant gliomas, offering adaptability across an array of treatment protocols. This study represents a significant leap forward in the quest to enhance BNCT for the management of malignant gliomas, opening promising avenues for clinical translation.
利用叶酸受体靶向新型硼载体在肿瘤内直接给药进行硼中子俘获疗法的非临床药效学研究
硼中子俘获疗法(BNCT)是一种精确的粒子放射疗法,以其独特的细胞靶向能力而闻名。创新性硼载体的开发对 BNCT 技术的发展至关重要。我们之前的研究表明,在 F98 大鼠胶质瘤模型中,通过对流增强给药(CED)给药的 PBC-IP 具有潜力。这种方法大大延长了大鼠在中子辐照实验中的存活时间,在大鼠脑肿瘤模型中,有一半的大鼠获得了长期存活,相当于治愈。我们对临床适用性的承诺促进了更多的非临床药效学研究,包括插管位置和 CED 给药后时间的影响。 在对 F98 大鼠脑肿瘤模型进行的综合体内实验中,我们仔细检查了硼的分布情况以及 CED 给药后不同部位和多个时间间隔的中子辐照实验。 PBC-IP 显示了对 BNCT 的巨大疗效,尽管观察到给药后肿瘤内硼浓度逐渐下降,但中心和外周 CED 给药后肿瘤内硼浓度的差异极小。与中心注射相比,在肿瘤边缘插入插管的疗效尤其显著。即使是延迟中子辐照也有显著疗效,只是生存期略有缩短。这些研究结果凸显了CED给药PBC-IP在治疗恶性胶质瘤方面的强大临床潜力,为一系列治疗方案提供了适应性。 这项研究标志着我们在加强BNCT治疗恶性胶质瘤方面取得了重大进展,为临床转化开辟了广阔的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.20
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0.00%
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审稿时长
12 weeks
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