Lower Limb

22 Products
Female right pelvis superficial and deep structures
This 3D printed female right pelvis preserves both superficial and deep structures of the true and false pelves, as well as the inguinal ligament, the obturator membrane and canal, and both the greater and lesser sciatic foramina. Somewhat unique is the removal of portions of the peritoneum (a grayish colour) to create ‘windows’ displaying extraperitoneal structures. Detailed anatomical description on request.
Popliteal Fossa
This 3D printed specimen preserves the distal thigh and proximal leg, dissected posteriorly to demonstrate the contents of the popliteal fossa and surrounding region. The proximal cross-section demonstrates the anterior, posterior and medial compartment muscles, with the femoral artery and vein visible within the adductor canal. The sciatic nerve and great saphenous vein are also visible. Detailed anatomical description on request.
Female left pelvis and proximal thigh
This 3D printed female left pelvis and proximal thigh preserves both superficial and deep structures of the true and false pelves, inguinal region, femoral triangle, and gluteal region. The specimen has been sectioned transversely through the fourth lumbar vertebra, displaying thecross-section of the musculature (epaxial musculature, psoas and quadratus lumborum muscles) and cauda equina within the vertebral canal. The ventral and dorsal roots of the cauda equina are also visible exiting the intervertebral and sacral foramina in the sagittal section. Detailed anatomical description on request.
Female right pelvis
This 3D printed specimen represents a female right pelvis, sectioned along the midsagittal plane and transversely across the level of the L4 vertebrae and the proximal thigh. The specimen has been dissected to demonstrate the deep structures of the true and false pelves, the inferior anterior abdominal wall and inguinal region, femoral triangle and gluteal region. Detailed anatomical description on request.
Foot - Plantar surface & superficial dissection on the dorsum
This 3D printed specimen is a left foot with superficial structures exposed on the dorsum, and the superficial layer of muscles and nerves on the plantar surface. The anterior portion of the plantar aponeurosis has largely been removed to expose the first layer of muscles. Detailed anatomical description on request.
Male left pelvis and proximal thigh
This 3D printed male left pelvis and proximal thigh (sectioned through the midsagittal plane in the midline and transversely through the L3/4 intervertebral disc) shows superficial and deep structures of the true and false pelves, inguinal and femoral region. In the transverse section, the epaxial musculature, abdominal wall musculature (rectus abdominis, external and internal abdominal obliques, transversus abdominis), psoas major and quadratus lumborum are visible and separated from each other and the superficial fat by fascial layers such as the rectus sheath and the thoracolumbar fascia. The psoas major muscle lies lateral to the external iliac artery, with the left testicular artery and vein lying on its superficial surface. More laterally (and moving inferiorly), the ilioinguinal nerve, the lateral cutaneous nerve of the thigh and the femoral nerve are positioned over the superficial surface of the iliacus muscle. Detailed anatomical description on request.
Foot - Structures of the plantar surface
This 3D print records the anatomy of a right distal leg and the deep structures of the plantar surface of the foot. Proximally, the tibia, fibula, interosseous membrane, and leg muscles are discernable in cross-section. Medially, at the level of the ankle joint, the long tendons of the dorsi- and plantar-flexors are visible superficial to the capsular and extra capsular ligaments. Detailed anatomical description on request.
Foot - Superficial and deep dissection of distal leg and foot
This 3D printed specimens preserves a mixed superficial and deep dissection of a left distal leg and foot. Posteriorly, the compartment muscles and neurovascular structures have been removed to isolate the tendocalcaneous and expose the body of the calcaneus. Detailed anatomical description on request.
Foot - Deep plantar structures
This 3D printed specimen provides a view of deep plantar structures of a right foot. Medially, the cut edge of the great saphenous vein is visible within the superficial fascia, just anterior to the cut edges of the medial and lateral plantar arteries and nerves overlying the insertion of the tibialis posterior muscle. The superficial fascias, the plantar aponeurosis, and superficial musculature have been removed to expose the deep (third layer) of musculature. Detailed anatomical description on request.
Lower limb – superficial dissection with male left pelvis
This 3D printed specimen combines the Lower limb – superficial dissection (Ref.no. MP1816) with the male left pelvis (Ref.no. MP1765). Detailed anatomical description on request.
Popliteal Fossa distal thigh and proximal leg
This 3D printed specimen preserves the distal thigh and proximal leg, dissected posteriorly to demonstrate the contents of the popliteal fossa and surrounding region. Detailed anatomical description on request.
Male Pelvis
This multipart 3D printed specimen represents the inferior portions of our larger posterior abdominal wall print (MP1300) that displays the inferior posterior abdominal wall, the pelvic cavity and the proximal thigh (including the gluteal regions and femoral triangles).Lower posterior abdominal wall and false pelvis: The specimen is transected at approximately the level of the L2/L3 intervertebral disc. The common iliac veins unite to form the inferior vena cava. The common iliac arteries are close to uniting at the top of the print. The iliacus and psoas musclesare easy to identify, the latter has a prominent psoas minor tendon. They can be seen to unite as they pass under the inguinal ligament. The nerves of the iliac fossa (from superior to inferior: ilioinguinal nerve, lateral cutaneous nerve of thigh, femoral nerve ) and their course is clearly visible, as is the genitofemoral nerves on the surface of psoas muscle. The ureters also descend on the superficial surface of the psoas and cross from its lateral to its medial border. They enter the pelvis at the bifurcation of the common iliac arteries into external and internal arteries. The external iliac arteries and veins running along the pelvic brim are clearly visible, as is the vas deferens crossing the brim from the deep inguinal ring to enter the pelvis. Detailed anatomical description on request.
Lower Limb - deep dissection of a left pelvis and thigh
This 3D printed specimen presents a deep dissection of a left pelvis and thigh to show the course of the femoral artery and sciatic nerve from their proximal origins to the midshaft of the femur. Proximally, the pelvis has been sectioned along the mid-sagittal plane and the pelvic viscera are removed. In the pelvis the coccygeus muscle spans between the sacrum and iliac spine and the obturator artery and nerve entering the obturator canal superior to the obturator membrane. Detailed anatomical description on request.
Lower limb – superficial dissection
This 3D printed specimen represents the remainder of the lower limb portions of our male abdominopelvic and proximal thigh specimen (MP1765), sectioned proximally near midthigh and continuous to the partially dissected foot. The transverse section through the thigh exposes the neurovascular structures of the anterior, medial and posterior compartments. Detailed anatomical description on request.
Knee Joint, flexed
This 3D printed specimen demonstrates the ligaments of the knee joint with the leg in flexion. In the anterior view, with the patella and part of the patellar ligament removed, the medial and lateral menisci and anterior and posterior cruciate ligaments are visible. Detailed anatomical description on request.
Flexed knee joint deep dissection
This 3D printed specimen displays a deep dissection of a left knee joint with the internal joint capsule structures relative to superficial tissues in a flexed position. Detailed anatomical description on request.
Lower Limb - deep dissection
This 3D printed specimen consists of a right partial lower limb sectioned just proximal to the knee joint and complete through a partially dissectedfoot exposing the structures on the dorsum. Detailed anatomical description on request.
Lower Limb Musculature
This 3D printed specimen preserves a superficial dissection of the lower limb musculature from the mid-thigh to mid-leg, as well as nerves and vessels of the popliteal fossa. The insertions of the muscles of the anterior, middle and posterior compartments of the thigh are visible, including the pes anserinus medially and the iliotibial tract laterally. The capsule of the knee joint has been opened anteriorly to demonstrate the menisci and the tibial and fibular collateral ligaments. Detailed anatomical description on request. Detailed anatomical description on request.
Foot - Parasagittal cross-section
This 3D printed specimen provides a parasagittal cross-section through the medial aspect of the right distal tibia and foot, displaying the skeletal structures of the medial longitudinal arch of the foot and surrounding soft-tissue structures. Detailed anatomical description on request.
Knee Joint, extended
This 3D printed specimen demonstrates the ligaments of the knee joint with the leg in extension; it represents the same specimen as MP1800 knee joint printed in a flexed position. Both tibial and fibular collateral ligaments are intact. Detailed anatomical description on request.
Lower Limb superficial veins
This 3D printed specimen presents a superficial dissection of a left lower limb, from just proximal to the knee joint to a complete foot. The skin and superficial fascia have been removed to display the superficial venous structures of the leg including the dorsal venous plexus, great saphenous vein (including numerous tributaries), and the small saphenous vein (including numerous tributaries) on the crural fascia. Detailed anatomical description on request.
Foot - Superficial and deep structures of the distal leg and foot
This 3D printed specimen presents both superficial and deep structures of a right distal leg and foot. Proximally, the posterior compartment of the leg has been dissected to remove the triceps surae muscles and tendocalcaneous to demonstrate the deep muscles of the compartment (tibialis posterior, flexor digitorum longus, flexor hallucis longus). Detailed anatomical description on request.

Human body replicas to improve teaching!

Erler-Zimmer's groundbreaking Anatomy Series features a unique and unrivalled collection of colourised human body replicas specifically designed to enhance teaching and learning. This premium collection of highly accurate human anatomy has been created directly from radiological data or real specimens using the latest imaging techniques. The 3D Human Anatomy Series offers a cost-effective way to meet your specific teaching and demonstration needs across the curriculum in medicine, health sciences and biology. A detailed description of the anatomy represented in each 3D printed specimen is included. What are the advantages of the Monash 3D Anatomy Series compared to plastic models or real human plastinates? Each body replica has been carefully developed from selected radiological patient data or dissected human bodies of the highest quality, chosen by a highly skilled team of anatomists at Monash University's Human Anatomy Teaching Centre, to represent clinically important areas of anatomy in a quality and detail not possible with conventional models - it is real anatomy, not stylised. Each body replica has been rigorously checked by the highly qualified team of anatomists at Monash University's Human Anatomy Teaching Centre to ensure the anatomical accuracy of the final product. The body replicas are not real human tissue and are therefore not subject to any restrictions on transport, import or use in educational institutions that do not have permission to use cadavers. The exclusive 3D Anatomy Series avoids these and other ethical issues that arise when dealing with plastinated human remains.

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