Features
The Nodular hyperplasia of the Prostate is a 3D printed anatomical model designed for medical professionals, educators, and students. It offers a lifelike representation of benign prostatic hyperplasia (BPH) for teaching, demonstration, and surgical planning. Choose this model for its clinical accuracy, educational value, and exceptional detail that supports the understanding of prostate pathology.
Visualize Prostate Pathology with Lifelike Precision
This advanced 3D printed model vividly displays the anatomy and pathological changes of Nodular hyperplasia of the Prostate. The cross-section features numerous nodules, measuring 2 to 10 mm, showcasing the hallmark appearance of BPH. Crafted for education, this model demonstrates the effects of nodular hyperplasia, such as median lobe enlargement and urethral obstruction, often observed in older males. The model uses high-quality materials and professional imaging to create a tactile, detailed tool for teaching, hands-on training, and patient communication. Every clinical feature, including obstruction of the bladder outlet and enlarged prostate, is accurately reproduced to guide learners through symptom evaluation, diagnosis, and management strategies.
Features and Benefits
- 3D printed from real clinical data for educational accuracy
- Displays multiple nodules from 2 to 10 mm in diameter
- Shows cross-sectional prostate structure and median lobe enlargement
- Made with durable, clinical-grade materials
- Ideal for teaching, demonstration, and surgical planning
- Supports hands-on anatomy education and professional training
Indications for Use
- Medical and anatomical education on BPH
- Teaching urinary obstruction and retention in older men
- Examining the effects of nodular hyperplasia on the prostate gland
- Preparation for clinical and urology exams
- Demonstrating surgical management techniques for BPH
Size Guide
- Specimen dimensions match enlarged prostate glands seen in BPH
- Nodules on cut surface range from 2 mm to 10 mm in diameter



















