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引用次数: 1
摘要
人们不断尝试利用纳米给药系统(NDDS)来提高抗肿瘤治疗的效果。近年来,特别是以抗程序性死亡受体1 (anti- programmed death receptor 1, anti-PD-1)为代表的免疫治疗应用得到了大力发展。纳米递送系统在许多方面都具有显著的优势,包括增加不溶性药物的溶解度,增强其靶向能力,延长其半衰期,减少副作用。它不仅可以直接提高抗pd -1免疫治疗的疗效,还可以通过提高化疗、放疗、光热、光动力治疗(PTT/PDT)等治疗方式的有效性,间接增强免疫治疗的抗肿瘤疗效。在此,我们总结近年来发表的利用纳米技术在制药领域提高抗pd -1抗体疗效的研究,分析其特点和不足,并结合目前抗pd -1抗体的临床研究,为未来纳米载体的设计提供参考,从而进一步拓展ndds的临床应用前景。本文分类如下:治疗方法和药物发现>肿瘤疾病的纳米医学。
New advances in pharmaceutical strategies for sensitizing anti-PD-1 immunotherapy and clinical research.
Attempts have been made continuously to use nano-drug delivery system (NDDS) to improve the effect of antitumor therapy. In recent years, especially in the application of immunotherapy represented by antiprogrammed death receptor 1 (anti-PD-1), it has been vigorously developed. Nanodelivery systems are significantly superior in a number of aspects including increasing the solubility of insoluble drugs, enhancing their targeting ability, prolonging their half-life, and reducing side effects. It can not only directly improve the efficacy of anti-PD-1 immunotherapy, but also indirectly enhance the antineoplastic efficacy of immunotherapy by boosting the effectiveness of therapeutic modalities such as chemotherapy, radiotherapy, photothermal, and photodynamic therapy (PTT/PDT). Here, we summarize the studies published in recent years on the use of nanotechnology in pharmaceutics to improve the efficacy of anti-PD-1 antibodies, analyze their characteristics and shortcomings, and combine with the current clinical research on anti-PD-1 antibodies to provide a reference for the design of future nanocarriers, so as to further expand the clinical application prospects of NDDSs. This article is categorized under: Therapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease.
期刊介绍:
Nanotechnology stands as one of the pivotal scientific domains of the twenty-first century, recognized universally for its transformative potential. Within the biomedical realm, nanotechnology finds crucial applications in nanobiotechnology and nanomedicine, highlighted as one of seven emerging research areas under the NIH Roadmap for Medical Research. The advancement of this field hinges upon collaborative efforts across diverse disciplines, including clinicians, biomedical engineers, materials scientists, applied physicists, and toxicologists.
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