This project aims to develop an effective deep learning system to generate numerical implant geometry based on 3D defective skull models from CT scans. This technique is beneficial for the design of implants to repair skull defects above the Frankfort horizontal plane.
Designing a personalized implant to restore the protective and aesthetic functions of the patient's skull is challenging. The skull defects may be caused by trauma, congenital malformation, infection, and iatrogenic treatments such as decompressive craniectomy, plastic surgery, and tumor resection. The project aims to develop a deep learning system with 3D shape reconstruction capabilities. The system will meet the requirement of designing high-resolution 3D implant numerical models efficiently. A collection of skull images were used for training the deep learning system. Defective models in the datasets were created by numerically masking areas of intact 3D skull models. The final implant design should be verified by neurosurgeons using 3D printed models.
Study Type
OBSERVATIONAL
Enrollment
6
With the consent of the patient, we will assist in the production of images of 3D defect blocks for free (3D deep learning neural network system (3D DNN) system process planning), complete the repair and reconstruction under the clinical routine surgery, and track the repair results after surgery. meet medical needs.
Linkou Chang Gung Memorial Hospital
Taoyuan, Taiwan
RECRUITINGNumber of patients where there is no need to adapt the Patient Specific Implant (PSI) edges
Number of patients where there is no need to adapt the Patient Specific Implant (PSI) edges
Time frame: 6 weeks after surgery by standardised questionnaire
Number of patients where there is no need to augment/fill clefts between the Patient Specific Implant (PSI) and patient´s bone
Number of patients where there is no need to augment/fill clefts between the Patient Specific Implant (PSI) and patient´s bone
Time frame: 6 weeks after surgery by standardised questionnaire
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