贝伐单抗联合放疗或放化疗治疗实体肿瘤:科学依据和临床试验综述

Benjamin Schmidt, Hae-June Lee, Sandra Ryeom, Sam S Yoon
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引用次数: 20

摘要

放射治疗或放化疗联合治疗是局部控制许多肿瘤类型的重要组成部分,包括胶质母细胞瘤、直肠癌和胰腺癌。在化疗中加入抗血管生成药物现在是包括结直肠癌和非鳞状细胞肺癌在内的各种转移性癌症的标准治疗方法。抗血管生成药物可以通过血管正常化和内皮细胞损伤的增强等机制增加放射或放化疗对原发性肿瘤的疗效。最常用的抗血管生成药物贝伐单抗是一种人源化单克隆抗体,可结合并中和血管内皮生长因子a (VEGF-A)。数十项临床前研究几乎一致表明,VEGF-A或其受体的抑制可以增强放射治疗对实体肿瘤的作用,并且这种增强作用通常与辐射的类型或时间表以及VEGF-A抑制剂递送的时间无关。目前有几项临床试验将贝伐单抗与放疗或放化疗相结合,用于局部控制各种原发性、复发性和转移性肿瘤,其中许多早期试验显示出令人鼓舞的结果。贝伐单抗给药过程中会出现一些额外的毒性,但常见的毒性如高血压和蛋白尿通常很容易控制,而严重的毒性很少见。在未来,贝伐单抗和其他抗血管生成药物可能成为难以局部控制肿瘤的放射和放化疗方案的常见补充。
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Combining Bevacizumab with Radiation or Chemoradiation for Solid Tumors: A Review of the Scientific Rationale, and Clinical Trials.

Radiation therapy or the combination of radiation and chemotherapy is an important component in the local control of many tumor types including glioblastoma, rectal cancer, and pancreatic cancer. The addition of anti-angiogenic agents to chemotherapy is now standard treatment for a variety of metastatic cancers including colorectal cancer and non-squamous cell lung cancer. Anti-angiogenic agents can increase the efficacy of radiation or chemoradiation for primary tumors through mechanisms such as vascular normalization and augmentation of endothelial cell injury. The most commonly used anti-angiogenic drug, bevacizumab, is a humanized monoclonal antibody that binds and neutralizes vascular endothelial growth factor A (VEGF-A). Dozens of preclinical studies nearly uniformly demonstrate that inhibition of VEGF-A or its receptors potentiates the effects of radiation therapy against solid tumors, and this potentiation is generally independent of the type or schedule of radiation and timing of VEGF-A inhibitor delivery. There are now several clinical trials combining bevacizumab with radiation or chemoradiation for the local control of various primary, recurrent, and metastatic tumors, and many of these early trials show encouraging results. Some added toxicities occur with the delivery of bevacizumab but common toxicities such as hypertension and proteinuria are generally easily managed while severe toxicities are rare. In the future, bevacizumab and other anti-angiogenic agents may become common additions to radiation and chemoradiation regimens for tumors that are difficult to locally control.

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The influence of Cox-2 and bioactive lipids on hematological cancers. Exosomes Function in Pro- and Anti-Angiogenesis. Intracellular and Extracellular miRNAs in Regulation of Angiogenesis Signaling. Combining Bevacizumab with Radiation or Chemoradiation for Solid Tumors: A Review of the Scientific Rationale, and Clinical Trials. Vascular Mimicry: Concepts and Implications for Anti-Angiogenic Therapy.
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