Puncture and Drainage Surgery for Intracerebral Hemorrhage Guided by 3D Printing Puncture Guide Plate

Objectives: Accurate puncture is the key to ensure the effect of puncture and drainage surgery for intracerebral hemorrhage. It usually uses CT to guide the drainage tube to reach the center of the hematoma cavity, which has the problems of inaccurate positioning using 2D images and high requirements for surgeon’s experience in brain anatomy and imaging diagnosis. The aim of this study was to use a 3D printing puncture guide plate to guide the puncture and drainage surgery for intracerebral hemorrhage. Methods: The CT images were imported into 3D Slicer software to reconstruct 3D models of the head skin and intracerebral hematoma. The target was set in the center of the hematoma and the puncture path from the target to the entry point was designed, the 3D model of puncture guide plate was constructed and saved as stereolithography format file, which was imported into 3D printer to print. During surgery, the drainage tube was placed in the center of the hematoma guided by the 3D printing puncture guide plate, and the blood clot was extracted by the suction syringe. Results: Eight patients with hypertensive intracerebral hemorrhage were treated with puncture and drainage surgery guided by 3D printing puncture guide plate. The average operation time of the 8 surgeries was 17.63 minutes. The drainage tubes were all precisely placed in the center of the hematoma, and the blood clots were all successfully extracted. The positioning errors of the 8 drainage tubes were between 1.76 mm and 2.68 mm, and the mean value was 2.10±0.32 mm. The hematoma clearance rate of the 8 patients was between 74.18% and 96.73%, and the mean value was 85.14±6.71%. Conclusions: The puncture and drainage surgery for intracerebral hemorrhage guided by 3D printing puncture guide plate helps to quickly and effortlessly localize intracerebral hematoma and achieves satisfactory hematoma clearance rate.