Y Maniwa1, M Okada, N Ishii, K Kiyooka. 1. Department of Surgery Division II, Kobe University School of Medicine, Japan. rk3y-mnw@asahi-net.or.jp
Abstract
BACKGROUND: The use of surgery for metastatic lung cancer has been established recently and the indications have been extended to multiple and bilateral lung metastases. However, in some patients, secondary lung metastasis appears soon after the first pulmonary surgery, making curative treatment very difficult. Postoperative weakness of tumor angiogenesis suppression mechanisms seems to play an important role in the recurrence of lung metastases. To verify this hypothesis, we performed a clinical and an experimental study. RESULTS AND CONCLUSION: The clinical study revealed that serum vascular endothelial growth factor (VEGF), also known as vascular permeability factor, increased after pulmonary surgery. The experimental study showed that VEGF played an important role in the rapid growth of dormant micrometastases of the lung. These results suggested that the postoperative increase of VEGF disrupted angiogenesis suppression and induced the growth of dormant micrometastases early in the postoperative period. It was also demonstrated that this effect of VEGF on micrometastases was abolished by AGM-1470, an angiogenesis inhibitor. In conclusion, postoperative treatment with AGM-1470 might inhibit the early recurrence of malignant tumors.
BACKGROUND: The use of surgery for metastatic lung cancer has been established recently and the indications have been extended to multiple and bilateral lung metastases. However, in some patients, secondary lung metastasis appears soon after the first pulmonary surgery, making curative treatment very difficult. Postoperative weakness of tumor angiogenesis suppression mechanisms seems to play an important role in the recurrence of lung metastases. To verify this hypothesis, we performed a clinical and an experimental study. RESULTS AND CONCLUSION: The clinical study revealed that serum vascular endothelial growth factor (VEGF), also known as vascular permeability factor, increased after pulmonary surgery. The experimental study showed that VEGF played an important role in the rapid growth of dormant micrometastases of the lung. These results suggested that the postoperative increase of VEGF disrupted angiogenesis suppression and induced the growth of dormant micrometastases early in the postoperative period. It was also demonstrated that this effect of VEGF on micrometastases was abolished by AGM-1470, an angiogenesis inhibitor. In conclusion, postoperative treatment with AGM-1470 might inhibit the early recurrence of malignant tumors.
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