Patent ID: 8359118

Claim:
A method of producing a flexible vessel model for simulating a surgical operation which comprises: forming a steric shape of blood stream based on a image data of the blood stream in a target part of a predesignated artery or vein in contrast enhanced computer tomogram; obtaining data on a steric shape of a vascular membrane by adding thickness of the vascular membrane to a surface shape of the steric shape of blood stream; cutting out data on the steric shape of a vascular membrane in the target part from the data on a steric shape of the vascular membrane obtained above with a space domain in a manner such that the space domain contains the target part having a prescribed size; preparing a three-dimensional data of the vascular membrane in a manner such that the steric shape of the vascular membrane in the target part is suspended in the space domain; inputting the three-dimensional data into a computer of a precise lamination modeling machine equipped with jet nozzles capable of jetting a flexible polymer in a form of minute liquid droplets having a diameter of 50 μm or smaller and jet nozzles capable of jetting a supporting material in a form of minute liquid droplets having a diameter of 50 μm or smaller; outputting a data of a planar thin layer comprising a vascular membrane portion area and a space portion area obtained by cutting the three-dimensional data with planes parallel with a bottom face of the three-dimensional data into a prescribed thin unit layer having a thickness of 0.1 mm or smaller based on the three-dimensional data input into the computer; forming the vascular membrane portion area having a thickness of the thin unit layer by jetting droplets of the flexible polymer by outputting the data of the vascular membrane portion area and simultaneously forming the supporting material layer by outputting the data of the space portion area as a jet nozzle signal to jet the droplets of the supporting material, and thereby conducting a procedure to form a vascular vessel model surrounded by the supporting material in the thin unit layer of the three-dimensional data having a thickness of 0.1 mm or smaller, and repeating above procedure successively for each of the planar thin unit layers from a bottom layer to an uppermost layer in the three-dimensional data to obtain a block matrix in which the flexible vessel model formed with the flexible polymer and having a steric shape of the vascular membrane is suspended at an inside of a matrix of the supporting material having an outside shape corresponding to the three-dimensional data; removing the supporting material attached to the outside of the flexible vessel model, and taking out the flexible vessel model embedded at an inside of the block matrix from the block matrix; and removing the supporting material present at an inside of the taken out flexible vessel model through openings of the vessel model.