Human Femoral Fracture & Hip Osteoarthritis Model - 3B Smart Anatomy
Brand: 3B Scientific
SKU 1000175
This elderly hip joint model was developed to provide patients understandable information, e.g. before surgery. It shows the right hip joint of an elderly person in half natural size. In addition to the external anatomy of the hip joint, a frontal section through the femoral neck is shown in relief on the base. The hip joint model shows the femoral fractures that occur most commonly in practice as well as typical wear and tear symptoms of the hip joint (coxarthrosis or hip osteoarthritis). The following fractures are shown on the hip joint:
Every original 3B Scientific anatomy model now includes these additional FREE features:
To unlock these benefits, simply scan the label located on your model and register online. All 3B Smart Anatomy features are completely free of charge for you. Click here to learn more.
3B Smart Anatomy explained in 90 seconds:
- Medial femoral neck fracture
- Lateral femoral neck fracture
- Fracture through the trochanteric region (pertrochanteric femoral fracture)
- Fracture below the trochanters (subtrochanteric femoral fracture)
- Femoral shaft fracture
- Femoral head fracture
- Fracture of the greater trochanter
- Fracture or avulsion of the lesser trochanter (avulsion fracture of the lesser trochanter) Femoral fracture and hip osteoarthritis mounted on base.
Every original 3B Scientific anatomy model now includes these additional FREE features:
- Free access to the anatomy course 3B Smart Anatomy, hosted inside the award-winning Complete Anatomy app by 3D4Medical
- The 3B Smart Anatomy course includes 23 digital anatomy lectures, 117 different virtual anatomy models and 39 anatomy quizzes to test your knowledge
- Bonus: FREE warranty upgrade from 3 to 5 years with every product registration
To unlock these benefits, simply scan the label located on your model and register online. All 3B Smart Anatomy features are completely free of charge for you. Click here to learn more.
3B Smart Anatomy explained in 90 seconds: