抗表皮生长因子受体共轭锰核酞菁铋纳米复合材料用于双重成像引导的乳腺癌治疗。

IF 8.1 Q1 ENGINEERING, BIOMEDICAL Biomaterials research Pub Date : 2024-11-07 eCollection Date: 2024-01-01 DOI:10.34133/bmr.0092
Sudip Mondal, Sumin Park, Van Tu Nguyen, Vu Hoang Minh Doan, Jaeyeop Choi, Cao Duong Ly, Duc Tri Phan, Thi Thuy Truong, Tan Hung Vo, Dinh Tuan Nguyen, Umapada Pal, Byeongil Lee, Junghwan Oh
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引用次数: 0

摘要

癌症仍然是一项严峻的全球健康挑战,需要探索副作用最小的创新治疗模式。其中一个前景广阔的途径是将靶向光热/光动力疗法(PTT/PDT)协同整合,利用专门设计的功能纳米材料进行精确的癌症诊断和治疗。本研究介绍了一种用于精确癌症成像和治疗的复合生物材料--抗表皮生长因子受体共轭锰核酞菁铋(anti-EGFR-MPB)。这种生物材料是通过溶热工艺合成的,能有效治疗小鼠模型中的乳腺癌并为其成像。其生物仿生设计可精确靶向癌细胞,并通过双重成像进行实时监测。这种复合材料的生物仿生设计可精确靶向癌细胞,而双重成像技术则可对治疗进行实时观察和监测。体内检查证实,808 纳米激光照射后,肿瘤组织受到严重破坏,而且没有复发。复合材料显示出很强的荧光/光声成像(PAI)对比度,有助于恶性肿瘤的检测。生物检测和组织学分析证实了纳米复合材料在诱导癌细胞凋亡方面的功效。这种复合材料提供的集成式靶向双图像引导光疗大大提高了癌症治疗的精确性和有效性,实现了约 33.8% 的惊人光热效率。我们的研究结果证明了抗 EGFR-MPB 纳米复合材料在体外和体内光声图像引导的 PTT 和 PDT 中的实用性。使用 250 μg/ml 的纳米复合材料并用 1.0 W/cm2 808-nm 激光照射 7 分钟,是治疗三阴性乳腺癌的最佳策略。
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Precision Cancer Therapy Enabled Anti-Epidermal Growth Factor Receptor-Conjugated Manganese Core Phthalocyanine Bismuth Nanocomposite for Dual Imaging-Guided Breast Cancer Treatment.

Cancer remains a formidable global health challenge, demanding the exploration of innovative treatment modalities with minimized side effects. One promising avenue involves the synergistic integration of targeted photothermal/photodynamic therapy (PTT/PDT), utilizing specially designed functional nanomaterials for precise cancer diagnosis and treatment. This study introduces a composite biomaterial, anti-epidermal growth factor receptor-conjugated manganese core phthalocyanine bismuth (anti-EGFR-MPB), synthesized for precise cancer imaging and treatment. The biomaterial, synthesized via a solvothermal process, effectively treats and images breast cancer in mouse models. Its biomimetic design targets cancer cells precisely, with dual imaging for real-time monitoring. The biomimetic design of the composite enables precise targeting of cancer cells, whereas the dual imaging allows for real-time visualization and monitoring of the treatment. In vivo examinations confirm substantial damage to tumor tissues with no recurrence following 808-nm laser irradiation. The composite shows strong fluorescence/photoacoustic imaging (PAI) contrast, aiding malignancy detection. Biological assays and histological analyses confirmed the efficacy of the nanocomposite in inducing apoptosis in cancer cells. The integrated targeted dual image-guided phototherapy offered by this composite substantially enhances the precision and efficacy of cancer therapy, achieving an impressive photothermal efficiency of ~33.8%. Our findings demonstrate the utility of the anti-EGFR-MPB nanocomposite for both in vitro and in vivo photoacoustic image-guided PTT and PDT. The optimal treatment strategy for triple-negative breast cancer is found to be the use of 250 μg/ml of nanocomposite irradiated with 1.0 W/cm2 808-nm laser for 7 min.

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