Validated preclinical studies have provided evidence that anti-vascular endothelial growth factor(VEGF) compounds enhance the activity of subsequent antitumor therapy, but the mechanism of this potentiation is far fro...Validated preclinical studies have provided evidence that anti-vascular endothelial growth factor(VEGF) compounds enhance the activity of subsequent antitumor therapy, but the mechanism of this potentiation is far from clear. The most widespread explanation is enhanced delivery of therapeutics due to vascular remodeling, lower interstitial pressure, and increased blood flow. While the antiangiogenic efects on vascular morphology have been fairly consistent in both preclinical and clinical settings, the improvement of tumor vessel function is debated. This review focuses on the efect of anti-VEGF therapy on tumor microenvironment morphology and functions, and its therapeutic beneits when combined with other therapies. The uptake and spatial distribution of chemotherapeutic agents into the tumor after anti-VEGF are examined.展开更多
基金supported by Grants from the Italian Association for Cancer Research(IG14532 and 12182 to RG)the Fondazione CARIPLO(No.2011-0614 to MC)
文摘Validated preclinical studies have provided evidence that anti-vascular endothelial growth factor(VEGF) compounds enhance the activity of subsequent antitumor therapy, but the mechanism of this potentiation is far from clear. The most widespread explanation is enhanced delivery of therapeutics due to vascular remodeling, lower interstitial pressure, and increased blood flow. While the antiangiogenic efects on vascular morphology have been fairly consistent in both preclinical and clinical settings, the improvement of tumor vessel function is debated. This review focuses on the efect of anti-VEGF therapy on tumor microenvironment morphology and functions, and its therapeutic beneits when combined with other therapies. The uptake and spatial distribution of chemotherapeutic agents into the tumor after anti-VEGF are examined.
