Accumulating literature reveals that tumor growth is closely related to angiogenesis Tumor should turn on the 'anglogenic switch' in order to expand beyond the size of 1-2 mm,. The angiogenic switch is based on the balance hypothesis, which is governed by angiogenesis activators and inhibitors. The timing of angiogenit switch varies in different tumors; it ran happen before, during or alter the malignant trans-formation. Recent literature showed the tumor neovessels might come from angiogenesis, in which capillaries arise from the pet-existing capillaries; and vasculogenesis, in which capillaries arise de front circulating endothelial progenitor cells, i. e., angioblasts. Traditionally, vasculogenesis was thought to happen only in the embryonic stage. However, tumor neovessel formation has been found to originate limo both angiogenesis and vasculogenesis; this challenges n iv stage. Meanwhile, it also has been shown that the inner linings of tumor vessels are not consisted Completely by homogenous endothelial cells. Instead, tumor cells themselves, as well as both tumor, tells and endothelial cells in mosaic pattern, participate in the formation formation of inner walls of tumor vessels in certain highly invasive types of tumors. Tumor neovessels have pleomorphic characteristics such as heterogeneity, versatility highly permeability, multiple vascular markers, and turbulent blood flow with no lymphatic vessels within tumors. Their unique characteristics make therapeutic drug delivery difficult. Therefore, there are still many problems existing in animal experiments and clinical trials in anti-angiogenesis therapy. Anti-angiogenesis therapy is a new anti-cancer strategy by lowering the angiogenesis activators or increasing the angiogenesis inhibitors to attack tumor endothelial cells as its target, instead of tumor cells per se with the final goal of tumor dormancy, called dormancy therapy. Thus, antiangiogenesis offers promising potential, when compared with traditional chemotherapy. Recent studies revealed 'metronomic scheduling' with long term, low dose continuous scheduling of chemotherapeutic agents has better results, as compared with traditional schedule with single high dose followed by long term recovery periods. The administration of metronomic scheduling is contiuous, long term and low dosage which is much lower than the traditional maximal tolerance dose. The therapeutic targets are the stable endothelial cells, instead of highly variable tumor cells, with expected less drug resistance during long term administration. The present problems concerning preclinical study of anti-aogiogenesis therapy remains to be solved as follows. 1)The subcutaneous inoculations (xenograft) of tumor cells can represent spontaneous and orthototic human cancers; 2) The monitor systems should be different from those of traditional chemotherapy, because the aim of anti-angiogenesis therapy is tumor dormancy, which is different from traditional chemotherapy; 3)It is difficult to differentiate fast-growing cells from slow-growing cells in animal experiments; 4) It is difficult to differentiate mature and immature tumor vessels in animal experiments ;5) The study periods of present animal experiment designs are still not long enough to elucidate the toxicity of long term administration of anti-angiogenesis therapy; 6)It is difficult to implement the results of animal experiments directly to human responses; 7) Long term toxicity and drug delivery barriers are still the concerned problems.