The materials for 3D printing have been applied from traditional plastic and metal materials, and gradually evolved into the printing of food materials. Based on the characteristics of fast 3D printing and customization, is there any chance to successfully apply 3D printing technology to generate tissues and organs of living organisms? This research applies TRIZ systematic innovation technology to identify and analyze 3D biological printing procedures and materials. In the core problem, apply the principle of invention to find many feasible procedures. After the systematic integration and application, several kinds of inflammation symptoms of the human body are quickly relieved, and then the tissues and organs of the human body are repaired. In the future, it should have considerable industrial utilization value in the preventive maintenance of organisms. The contributions of this research are:(1) Establish a biological problem model based on system innovation technology, and analyze and propose the core problems of failure; (2) Use the 40 invention principle to efficiently use biological materials to restore the failed tissues and organs to recovery. Some features.