胶质母细胞瘤肿瘤治疗场的生物物理和生物机制

Jeremy Pan, Tony Eskandar, Zubair Ahmed, Devendra K Agrawal
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摘要

胶质母细胞瘤(GBM)是侵袭性最强的脑癌之一,中位生存期为 14-30 个月,五年生存率仅为 4-5%,令人沮丧。新诊断出的 GBM 的标准治疗方法(也称为 Stupp 方案)包括最大程度安全的手术切除,然后进行放疗和化疗。尽管有这些治疗方案,复发几乎是不可避免的,这就强调了需要新疗法来对抗 GBM 的侵袭性。肿瘤治疗场(TTFs)是一种相对较新的治疗 GBMs 的方法,当 TTFs 与替莫唑胺联合使用时,在无进展生存期和总生存期方面都取得了可喜的成果。本文对 TTFs 的生物物理和生物学机制、临床疗效进行了评论,并讨论了 EF-11 和 EF-14 等临床试验的结果。这两项试验都表明,TTFs 可以提高无进展生存期和总生存期,同时不会影响生活质量或导致严重的不良反应。尽管 TTFs 的相关费用较高,而且还需要进一步分析以确定将 TTFs 纳入 GBM 治疗的最有效方法,但 TTFs 代表了 GBM 治疗的一大进步,为改善患者预后带来了希望。
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Biophysical and Biological Mechanisms of Tumor Treating Fields in Glioblastoma.

Glioblastoma (GBM) is one of the most aggressive forms of brain cancer that presents with a median survival rate of 14-30 months and along with a discouraging five-year survival rate of 4-5%. Standard treatment of newly diagnosed GBM, also known as the Stupp protocol, includes a maximally safe surgical resection followed by radiation and chemotherapy. Despite these treatment regimens, recurrence is almost inevitable, emphasizing the need for new therapies to combat the aggressive nature of GBMs. Tumor Treating Fields (TTFs) are a relatively new application to the treatment of GBMs, and results have been promising with both progression-free survival and overall survival when TTFs have been used in combination with temozolomide. This article critically reviews the biophysical and biological mechanisms of TTFs, their clinical efficacy, and discusses the results in clinical trials, including EF-11 and EF-14. Both trials have demonstrated that TTFs can enhance progression free survival and overall survival without compromising quality of life or causing severe adverse effects. Despite the high cost associated with TTFs and the need for further analysis to determine the most effective ways to integrate TTFs into GBM treatments, TTFs represent a significant advancement in GBM therapy and offer hope for improved patient prognosis.

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