Anti-angiogenesis therapy is a new anti-cancer strategy based on the fact that tumor growth is angiogenesis-dependent. The rationals of anti-angiogenesis are the following: the therapeutic target is tumor endothelial cells which are more genetically stable, more homogeneous, and with lower mutation rate; the anti-angiogenesis drugs can contact endothelial cells directly, with higher potency and lower drug barriers and side effects; the aim of anti-angiogenesis therapy is to block the oxygen and nutrition supply from vessels, instead of killing tumor r ells per se; the aim of anti-angiogenesis is to reduce tumor size instead of eradicate tumor which are different from traditional chemotherapy. The strategies of anti-angiogenesis include decreasing angiogenesis activators and their receptors; increasing endogenous or synthetic angiogenesis inhibitors; direct affecting ting inner increasing endogenous or synthetic angiogenesis inhibitors; direct affecting receptors; increasing endogenous or synthetic angiogenesis inhibitors; direct affecting inner linings of tumor vessels; providing matrix metallo-proteinase inhibitors, etc. Through the research of angiogenesis and underatanding of molecular biology of tumors, we can elucidate the potentials of anti-angiogenesis in delaying the progression of precancerous lesions to invasive cancers, inhibiting tumor growth by inhibiting tumor angiogenesis with the final goals of curing primary and metastatic tumors. There were more than 75 anti-angiogenesis drugs which have entered the clinical trial from pre-clinical trials. Among them, 12 drugs e. g. avastin, marimastat, interferon, thalidomide, etc have already entered phase 3 clinical trials and shown obvious therapeutic potential. However, there are still some difficulties remained unsolved e. g. the adjustment of optimal biologic dose, the determination of therapeutic scheduling and biologic end points, the selection of appropriate patients, the combination of anti-angiogenesis with other modalities such as chemotherapy and/or radiotherapy individual angiogenesis profiling, etc. The future directions for anti-angiogenesis therapy may include: combining several anti-angiogenesis agents; combining anti-angiogenesis and traditional chemotherapy, and/or radiotherapy; the use of specific vessel markers as direct vessel targets to block the supplying vessels; the use of hematopoietic stem cells as therapeutic targets; the sophisticated understanding of inner linings of tumor vessels; the search of newer image systems of surrogate markers to monitor tumor vessel functions; the increase of oxygen tension in order to increase drug efficacy; the adjustment of pharmaceutical drugs according to individual genetic background. From present studies, anti-angiogenesis off offers a new highlight of anti-cancer therapy in different stages of cancer. However, there are still some problems that remain to be solved during the transition of clinical trials.