摘要
根据肿瘤与健康组织的微环境差异,若能控制抗癌药物或磁共振造影剂(MRCA),使其与PhysIOL精确匹配。在靶向肿瘤部位的需要,它有望获得更好的治疗效果和更准确的诊断。近十年来,刺激性纳米材料一直是研究的热点。可用于癌症的治疗和诊断,因为它们具有许多优良的功能,如体内成像、联合靶向给药和系统控释、延长循环时间等。。在各种刺激纳米系统中,pH-刺激模式被认为是最普遍的策略,因为实体肿瘤酸中毒。当暴露在弱酸性肿瘤微环境中时,pH反应。纳米平台会因其结构和表面特性而产生物理化学变化,从而导致药物释放或增强对比度。在这篇综述中,我们重点讨论了各种p的设计。H反应的纳米平台,并讨论了药物释放控制或开关在MRCA中的机制。本文还讨论了细胞内化对这些纳米平台的作用。S通过酸性肿瘤细胞的内吞作用。同时,讨论了纳米平台对酸性细胞内pH(如内吞体、溶酶体)的响应,以及提高药物释放的途径。Mance和磁共振对比增强。更好地理解这些响应pH的纳米平台,将有助于设计更高效的纳米医学,以应对在co中遇到的挑战。介入诊断和化疗。
关键词: pH反应,磁共振造影剂,药物输送系统,对比增强,控释,癌症诊断和化疗。
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