Human Leg and Foot 3D Model Erler-Zimmer Human Leg and Foot 3D Printed Model

Erler-Zimmer GmbH & Co. KG 3D model of the human leg and foot:

• Model MP1765: This 3D printed male left pelvis and proximal femur model (cut through the midsagittal plane in the middle and transversely through the L3/4 intervertebral disc) shows the superficial and deep structures of the true and false pelvis, inguinal, and femoral regions.
• Model MP1770: This multi-part 3D printed specimen represents the lower regions of our larger deeper posterior abdominal wall press (MP1300), showing the lower posterior abdominal wall, pelvic cavity, and proximal femur (including the gluteus regions and femoral triangles).
• Model MP1780: This 3D printed female left pelvis and proximal femur model preserves both superficial and deeper structures of the true and false pelvis, the inguinal region, the femoral triangle, and the gluteal region.
• Model MP1783: This 3D printed female right pelvis model preserves both superficial and deeper structures of the true and false pelvis, as well as the inguinal ligament, obturator membrane and canal, and the greater and lesser gluteal foramina.
• Model MP1785: This 3D printed specimen represents a female right pelvis, sectioned through the midsagittal plane and horizontally through the L4 vertebrae and proximal femur.
• Model MP1800: This 3D printed example demonstrates the ligaments of the knee joint with the leg bent.
• Model MP1805: This 3D printed example shows the knee ligaments with the leg extended; this is the same example as the MP1800 knee printed in a bent position.
• Model MP1807: This 3D printed specimen represents a deep dissection of the left knee joint, with the internal structures of the joint capsule in a flexed position relative to the superficial tissues.
• Model MP1809: This 3D printed specimen consists of a right partial lower limb cut right at the knee joint and a partially excised foot, revealing structures on the digestive tract.
• Model MP1810: This 3D printed specimen preserves superficial dissections of the lower limb muscles from the midfemur to the midcalf, as well as the nerves and vessels of the popliteal field.
• Model MP1813: This 3D printed specimen provides a deep dissection view of the left pelvis and femur, showing the femoral artery and nerve from their proximal origins to the mid-femur.
• Model MP1815: This 3D printed specimen presents superficial and deeper dissections of the right lower leg, from directly in front of the knee joint to the full leg.
• Model MP1816: This 3D printed specimen represents the remaining parts of our male abdomino-pelvic and proximal femoral segment, sectioned through the mid-thigh and extending to the partially dissected foot.
• Model MP1818: This 3D printed specimen combines the Lower Limb - Superficial Dissection (Ref.no. MP1816) with the Male Left Pelvis (Ref.no. MP1765).
• Model MP1820: This 3D printed specimen preserves the distal femur and proximal tibia, dissected posteriorly to show the contents of the popliteal field and surrounding regions.
• Model MP1830: This 3D printed specimen preserves the distal femur and proximal tibia, dissected posteriorly to show the contents of the popliteal field and surrounding regions.
• Model MP1850: This 3D printed specimen provides a parasagittal section through the medial aspect of the right distal tibia and foot, revealing the bony structures of the medial arch of the ankle and the surrounding soft tissues.
• Model MP1900: This 3D printed model depicts the anatomy of the right distal leg and the deep structures of the foot.
• Model MP1910: This 3D printed example is a left foot with superficial structures on the dorsum and a superficial layer of muscles and nerves on the plantar surface.
• Model MP1920: This 3D printed specimen preserves mixed superficial and deeper dissections of the left distal leg and foot.
• Model MP1930: This 3D printed specimen presents the superficial and deeper structures of the right distal leg and foot.
• Model MP1940: This 3D printed specimen provides deep plantar structures of the right foot.

3D models of human legs and feet – Erler-Zimmer Anatomy Group

More information: on the manufacturer's website or send us an inquiry!