Features
The Female left pelvis and proximal thigh is a high-fidelity 3D printed anatomical model crafted for medical educators, students, and healthcare professionals. It offers unparalleled detail of the female pelvis and upper thigh, helping users understand complex pelvic, femoral, and gluteal anatomy. Choose this model to enhance clinical teaching, surgical planning, or in-depth study with accurate cross-sectional views.
Experience Unmatched Anatomical Detail with the Female left pelvis and proximal thigh Model
This meticulously constructed model showcases both superficial and deep anatomical structures of the true and false pelves, inguinal region, femoral triangle, and gluteal region. Precision sectioning through the fourth lumbar vertebra reveals musculature such as the epaxial group, psoas, quadratus lumborum, and the cauda equina in the vertebral canal. Identifiable ventral and dorsal nerve roots exiting via intervertebral and sacral foramina make this an invaluable tool for anatomy education and clinical reference. Rely on the Female left pelvis and proximal thigh model for unparalleled educational and practical value in any clinical or academic setting.
Features and Benefits
- 3D printed from real anatomical data for maximum accuracy
- Exposes both superficial and deep anatomical structures
- Shows true and false pelves, inguinal area, femoral triangle, and gluteal region
- Sectioned at fourth lumbar vertebra for cross-sectional study
- Displays muscles including epaxial, psoas, and quadratus lumborum
- Reveals cauda equina within the vertebral canal
- Delineates ventral and dorsal roots exiting intervertebral and sacral foramina
- Clinical-grade and education standard, ideal for teaching and reference
Indications for Use
- Medical and allied health education
- Surgical and procedural planning
- Anatomy teaching for students and professionals
- Reference for anatomical dissection or research
Size Guide
- Life-size anatomical scale
- Dimensions represent an average adult female left pelvis and upper thigh
- Model accurately preserves spatial relationships and cross-sectional anatomy





















