最近,一篇发表于国际杂志A C S Biom aterials Science&Engineering上的研究论文中,来自美国杜克大学的科学家们设计了一种新方法用以开发潜在的纳米癌症疗法;这种方法可以使得水凝胶薄层沉积在纳米壳表面,而这种纳米颗粒仅有100纳米厚,其可以吸收红外线并且产生热量,当其加热时特殊的水凝胶就会失去水分,释放诸如糖类等分子。文章中研究者将水凝胶沉积于作用肿瘤的纳米壳上,并且以化疗药物涂层覆盖,Jennifer W est教授说道,我们的思路是将破坏肿瘤的热疗法同局部药物运输相结合,这种组合拳或是最有效的癌症治疗手段,研究表明许多化疗药物都可以有效作用于发热的 Recently, in a research paper published in the international journal ACS Biomterials Science & Engineering, scientists from Duke University in the United States devised a new approach to developing potential nanometer cancer therapies; this approach enables thinner hydrogel The layers deposit on the surface of the nanoshells and the nanoparticles are only 100 nanometers thick, which absorbs infrared light and generates heat. When heated, the specific hydrogel loses moisture and releases molecules such as sugars. In the article, researchers deposited hydrogels on nanocomposites that act on tumors and were covered with chemotherapeutic coatings, Professor Jennifer W est said. Our idea was to combine tumor-destroying thermotherapy with topical drug delivery. This Combination of boxing or the most effective cancer treatment, studies have shown that many chemotherapy drugs can effectively act on fever