Nanotechnological approaches to address photosensitizers’ limitations: towards improved clinical applicability of photodynamic therapy

Chemistry squared Pub Date : 2022-12-21 DOI:10.28954/2022.csq.12.001
Ana B. Caballero, P. Gamez, Guglielmo Spinelli
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Abstract

Photodynamic therapy (PDT) uses a combination of molecular oxygen, light and a photosensitizer (PS) to generate singlet oxygen or reactive oxygen species (ROS), which can eradicate tumoral cells. All currently approved PSs for cancer treatment are molecular PSs. To date, no nanoparticlebased PSs are used clinically although it has widely been shown that nanotechnology may help to improve the properties of molecular PSs; for instance, molecular PSs suffer from some intrinsic limitations that undermine their therapeutic efficacy. In the present minireview, the most critical weaknesses exhibited by molecular PSs are described, and the potential use of nanoparticles (NPs) to address them and to reach the clinics is discussed.
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纳米技术方法解决光敏剂的局限性:改善光动力治疗的临床适用性
光动力疗法(PDT)使用分子氧、光和光敏剂(PS)的组合来产生单线态氧或活性氧(ROS),从而可以根除肿瘤细胞。目前所有被批准用于癌症治疗的ps都是分子ps。迄今为止,尽管纳米技术可能有助于改善分子PSs的性能,但尚未在临床上使用基于纳米颗粒的PSs;例如,分子ps受到一些内在限制,从而削弱了其治疗效果。在本综述中,描述了分子ps所表现出的最关键的弱点,并讨论了纳米颗粒(NPs)的潜在用途,以解决这些问题并达到临床。
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Chemistry squared
Chemistry squared
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