To study the repairing process of elastic fiber after anastosis of artery, 90 femoral arteries of rats were divided and end-to-end anastomosis was performed. 3,7,14,21,30, and 90 days after anastomosis, the arteries were harvested and the restructuring of the elastic fiber of ananstomosed arteries was studied with formic acid digestion method and observed under scanning electronic microscope. Three main stages could be identified in the course of elastic fiber restructaring: stage 1, quiescent stage; stage 2, proliferation stage; and stage 3, reconstruction stage. After anastomosis of an artery, there was a remodeling process involving elastic fibers, and the repair of elastic fiber takes a neointimal model. The amount of elastic fiber increases markedly 30 days after the anastomosis, and its morphological structure becomes stable.

Objective To study the methods of three dimensional reconstruction of digitized virtual breast invasive ductal carcionma and sterical characteristic of tumor growth.Methods The specimens were sliced into 0.2 mm continuous sections on transversal plane with the computerized miller,and photographs were taken with digital camera.3DDOCTOR software was used to make three dimensional block diagram and the thin sectional and three dimentional characteristics of breast invasive ductal carcionma were observed.Results Every structure of breast in thin section was clear.Stereo image of breast solid could be shown satisfactorily.Every shape of stereo image and the structure of breast could be shown by revolving the three dimensional image in different direction,beneficial to us in understanding the dimensional growth pattern of tumor.Conclusion The sliced image of breast invasive ductal carcionma database was exact.The image of three dimentional reconstruction was clear,which could reflect the structural feature and growth pattern of breast carcinoma in the breast exactly and be conducive to the evaluation of tumor margin in breast conservation therapy.

Objective To study on how to remove the background in the digital images of visible human body.Methods After removing most of the background with standardized thresholds segmentation,we did identification,connection and noise-removing work against the edge around the target verge,and then the results of these two methods were combined to get the final image.Results Complex segmentation technology based on edge and thresholds effectively removed the background in the image of human body.Conclusion Compared with other segmentation algorithm,the algorithm presented here has better practical effect.

Objective To reconstruct the Chinese visible human (CVH) dataset with the reconstruction algorithm, the Visualization Toolkit (VTK), and to realize long-distance accessing and alternating operation associated with virtual reality modeling language (VRML) under web condition. Methods 3D structure of the humerus was reconstructed and put out in web condition by applying the methed of capturing data of digitalized visible human. Results The 3D structure of the humerus was successfully reconstructed. These 3D images displayed the anatomical relationships of the structures of the humerus in explore windows with any angle and scale. All reconstructed structures were represented conveniently. Conclusion Based on VTK and VRML, 3D reconstruction of the humerus is realized, which will provide the support and reference for further research on the others structure's visualization of human body, and also for Visualization in Scientific Computing and long-distance teaching in anatomy.