3D scanning captures the physical dimensions and features of an object using lasers or light. The data collected is converted into a digital 3D model. This model can be used for analysis, modification, or 3D printing.
Captures Physical Data
Resolution and Accuracy
Creates Digital Models
Applications
Software Processing
Integration with 3D Printing
Virtual Surgical Planning (VSP) uses 3D imaging and computer simulations to plan surgeries before performing them. It creates personalized, detailed models of a patient’s anatomy, allowing surgeons to optimize techniques, improve precision, and reduce risks, leading to better outcomes and faster recovery.
3D Imaging
Personalized Planning
Preoperative Simulation
Enhanced Precision
Risk Reduction
Improved Outcomes
Patient-Specific Models are 3D-printed replicas of a patient’s anatomy, created using medical imaging data like CT or MRI scans. These models are custom-designed for individual patients and are used to assist in preoperative planning, surgical simulation, and treatment planning. The goal is to ensure a more accurate and personalized approach to procedures.
Custom-Made for Each Patient
Creation Process
Surgical Planning
Enhanced Communication
Applications
Reduced Surgery Time
Patient-Specific Guides/Jigs are custom-made, 3D-printed tools designed to assist surgeons during procedures by ensuring precise placement and alignment based on a patient's unique anatomy. These guides are tailored to fit an individual’s anatomical features, providing greater accuracy and efficiency in surgery.
Customization
Improved Precision
Surgical Assistance
Reduced Intraoperative Time
Enhanced Outcomes
Minimized Risk
Patient-Specific Implants (PSIs) are custom-made implants designed and manufactured to fit an individual’s unique anatomy. These implants are typically created using 3D printing technology and are based on detailed imaging data (such as CT or MRI scans) of the patient’s body. PSIs are commonly used in complex surgeries to ensure a perfect fit, enhance surgical precision, and improve recovery outcomes.
Tailored Fit
Creation Process
Improved Surgical Precision
Reduced Complications
Faster Recovery and Better Outcomes
Orthopedic Surgeries