New Research on 3D-Printed Neck Phantoms for Ultrasound-Guided Procedures
University of Cincinnati and University of Central Florida Collaboration
Researchers from the University of Cincinnati and the University of Central Florida have developed a novel method for creating detailed 3D-printed neck phantoms. These phantoms are designed to aid in ultrasound-guided procedures and device testing in the field of otolaryngology.
Study Highlights:
Objective: To create cost-effective, anatomically accurate neck phantoms for medical training and device testing.
Method: Using CT scans and 3D printing technology, the team created customized agar molds that replicate the cervical vertebrae, trachea, common carotid arteries, internal jugular veins, thyroid gland, and surrounding soft tissues.
Results: The phantoms demonstrated echogenicity comparable to living tissue, making them suitable for ultrasound training and testing.
Advantages: These phantoms are low-cost, customizable, and reusable, offering a practical alternative to commercial models.
Future Directions:
The researchers aim to further refine the anatomical accuracy of the phantoms and validate their utility in clinical training and device testing. This advancement holds significant potential for improving ultrasound training and enhancing patient safety in otolaryngology.
Reference: Hasson, A. M., Patel, R. D., Sissoko, C. A., Brattain, L., & Dion, G. R. (2024). 3D-printed neck phantoms with detailed anatomy for ultrasound-guided procedure and device testing. Laryngoscope Investigative Otolaryngology, 9(4), e1309. Link.
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