3D PRINTING OF FEMORAL BONE
This 3D-printed model of the pelvic bone is a high-quality anatomical replica created for training, surgical planning and medical education. Manufactured using precise additive technology, it accurately reproduces the structure, contours and details of the human pelvic bone, making it an excellent tool for students, physicians and researchers.
The model helps visualize complex anatomical relationships, practice surgical procedures and explain diagnoses to patients in a clear, practical way. Lightweight yet durable, it is suitable for use in classrooms, hospitals or simulation labs. Realistic texture and proportions ensure effective training and professional application.
KEY ADVANTAGES:
Manufacturing Speed
Only 48 hours
Personalized Approach
Tailored for each specific patient
Biomaterials
Replaced by bone tissue
No Repeat Surgeries
No additional procedures required
PRODUCT DEVELOPMENT STAGES
Analysis of user needs, market trends and competitors. Data collection helps identify the problems the product must solve and the value it delivers. At this stage, key requirements and the overall product vision are formed.
Creating concepts, prototypes and product structure. The main focus is on usability, ergonomics and functionality. Rapid prototyping allows ideas to be tested before moving to production.
Implementation of technical aspects of the product: design, engineering and 3D modeling. The team brings concepts to life, ensuring quality and compliance with technical requirements.
INDICATIONS
- Educational Use: This is a training model not intended for surgical implantation or use on humans.
- Surgical Planning: This is a training model not intended for surgical implantation or use on humans.
- Patient Communication: This is a training model not intended for surgical implantation or use on humans.
CONTRAINDICATION
- Not for Implantation: This is a training model not intended for surgical implantation or use on humans.
- Not a Diagnostic Tool: This is a training model not intended for surgical implantation or use on humans.
- Limited Lifespan: This is a training model not intended for surgical implantation or use on humans.
Analysis of the fit accuracy of a custom Groningen temporomandibular joint (TMJ) prosthesis
Read the article here and watch the surgical video.
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3D Printing of Femoral Bone
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SCIENTIFIC SOURCES
Advances in 3D Printing of Surgical Guides
A detailed study of the accuracy and efficiency of 3D-printed guides in orthopedic surgery.
Learn more →Advances in 3D Printing of Surgical Guides
A detailed study of the accuracy and efficiency of 3D-printed guides in orthopedic surgery.
Learn more →Advances in 3D Printing of Surgical Guides
A detailed study of the accuracy and efficiency of 3D-printed guides in orthopedic surgery.
Learn more →Advances in 3D Printing of Surgical Guides
A detailed study of the accuracy and efficiency of 3D-printed guides in orthopedic surgery.
Learn more →
FREQUENTLY ASKED QUESTIONS
Yes! We offer fully customized models based on your medical scans. Contact our team to discuss the details.
We use Biodrook’s own equipment for production based on the provided model. All products comply with ISO 13485 standards.
The sterile implant, ready for surgical use, is delivered to the surgeon. Over time it is fully replaced by bone tissue.
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