This project focuses on the development of a precision multi-organ surgical planning model aided by artificial intelligence (AI), computer-aided design (CAD), multi-material 3D printing, and multimodal 3D modeling. The integration of these advanced technologies aims to enhance the accuracy and efficiency of preoperative planning for complex surgical procedures involving multiple organs. By leveraging AI and CAD, the project seeks to create detailed, patient-specific 3D models that incorporate various imaging modalities. These models will be used to guide multi-material 3D printing, producing highly accurate replicas of anatomical structures. The ultimate goal is to improve surgical outcomes by providing surgeons with precise and comprehensive tools for planning and executing intricate surgeries.
Study Type
OBSERVATIONAL
Enrollment
150
Utilization of 3D reconstruction technology to assist in preoperative planning and surgical procedures for thoracic surgery patients.
This group did not use 3D reconstruction for surgical navigation
Affiliated Hospital of Hebei University
Baoding, Hebei, China
Operation Time
Measure the total duration of the surgery in minutes.
Time frame: During the surgery
Blood Loss
Assess the total blood loss during surgery in milliliters.
Time frame: During the surgery
Postoperative Complications
Record any complications within 30 days post-surgery.
Time frame: Within 30 days post-surgery
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