Erler-Zimmer Models (56)
Medial Orbit
Model#: EZ26This 3D print displays the orbital contents and its close relations as viewed from the medial perspective when the majority of the lateral wall of the nasal cavity and the intervening ethmoidal sinuses have been...
Superior Orbit
Model#: EZ24This 3D printed model captures a dissection in which the calvaria and cerebrum have been removed to expose the floors of the anterior and middle cranial fossae. The midbrain has been sectioned at the level...
Head and visceral column of the neck
Model#: EZ23This 3D print specimen preserves a series of features of the head and visceral column of the neck: The face: On the right side of the head the parotid gland has been removed to reveal...
Deep face/Infratemporal fossa
Model#: EZ22In this 3D printed specimen of a midsagittally-sectioned right face and neck, the ramus, coronoid process and head of the mandible have been removed to expose the deep part of the infratemporal fossa. The pterygoid...
Head and Neck
Model#: EZ21This 3D printed specimen of a parasagittally sectioned head and neck demonstrates a range of anatomical features: Lateral aspect of the face: A window has been created to expose the parotid region. The pinna of...
Temporal Bone Model, Set of 3
Model#: EZ19This 3 part 3D printed model derived from CT data highlights the complex anatomy of the temporal bone including bone ossicles, canals, chambers, foramina and air spaces. In addition, the spatial relations between temporal bone...
Dural Skull
Model#: EZ18This 3D print of a dissected and opened cranial cavity displays the dural folds and dural venous sinuses, including the falx cerebri (preserved by a retained midsagittal portion of the calvaria. The intact tentorium cerebelli...
Circle of Willis
Model#: EZ17This 3D printed specimen demonstrates the intracranial arteries that supply the brain relative to the inferior portions of the viscero- and neurocranium. This print was created by careful segmentation of angiographic data. The model shows...
Hand
Model#: EZ16This 3D printed specimen demonstrates a superficial dissection of a left hand and wrist. Anteriorly, the transverse carpal and palmar carpal ligaments have been removed to expose the tendons and nerves traversing the carpal tunnel...
Shoulder - deep dissection of a right shoulder girdle
Model#: EZ15This 3D printed specimen preserves a deep dissection of a right shoulder girdle, consisting of a complete scapula, lateral clavicle, and proximal humerus. In the anterior view, the subscapularis muscle is present but sectioned to...
Shoulder - deep dissection of the left shoulder joint, musculature, and associated nerves and vessels
Model#: EZ14This 3D printed specimen presents a deep dissection of the left shoulder joint, musculature, and associated nerves and vessels of the scapula and proximal humerus (to near midshaft). Anteriorly, the deltoid muscle has been detached...
Shoulder (left) - Superficial muscles and axillary/brachial artery
Model#: EZ13This printed 3D left shoulder specimen consists of the scapula, humerus (sectioned near midshaft) and clavicle (sectioned at midshaft) with the superficial muscles around the shoulder joint, the rotator cuff muscles and the axillary artery...
Right thoracic wall - axilla, and the root of the neck
Model#: EZ12This 3D printed specimen preserves a dissection of the right thoracic wall, axilla, and the root of the neck. The specimen is cut just parasagittally and the visceral contents of the chest have been removed....
Upper Limb - biceps, bones and ligaments
Model#: EZ10This 3D-printed specimen shows the origin and insertion of biceps (most other arm and shoulder muscle bellies have been removed). The long head of biceps arises from the supraglenoid tubercle (hidden from view) and travels...
Forearm and hand - deep dissection
Model#: EZ9This 3D printed specimen of a left upper limb preserves a deep dissection from the distal humerus to the palmar surface of hand.
Deep upper limb and hand
Model#: EZ8This 3D print of a superficially dissected right upper limb specimen displays a mixture of the vascular, nervous and muscular anatomy of the distal arm, forearm and hand.
Forearm and hand - superficial and deep dissection
Model#: EZ7This 3D printed specimen preserves a mixed superficial and deep dissection of the anterior aspect of a right distal arm, forearm and hand.
Upper Limb - elbow, forearm and hand
Model#: EZ6This 3D-printed specimen displays a great deal of upper limb anatomy. In the distal arm and elbow/ cubital fossa region it shows the arrangement of the biceps tendon, brachial artery and median nerve arranged from...
Upper Limb
Model#: EZ5This 3D-printed specimen demonstrates the superficial anatomy of a left upper limb from the blade of the scapula to the hand. The skin and superficial and deep fascia has been removed from most of the...
Posterior Body Wall / Ventral Deep Dissection
Model#: EZ4This 3D printed specimen complements our dorsal dissection specimen (MP1400) by presenting a ventral deep dissection of axial anatomy from the head, neck, axillae, thorax, and abdomen to the proximal portion of the thighs. The...
Nervous System Dissection (posterior view)
Model#: EZ3This 3D printed specimen presents a unique view of axial anatomy, presenting a dorsal deep dissection of the head, neck, axillae, thorax, abdomen, and gluteal regions. The removal of the posterior portions of the cranium...
Posterior Abdominal wall
Model#: EZ2This large 3D-printed specimen displays the entire male posterior abdominal wall from the diaphragm to the pelvic brim, as well as pelvic anatomy and to the proximal thigh. This same individual specimen is also available...
Head, Neck and Shoulder with angiosomes
Model#: EZ1This large 3D printed specimen displays a great deal of anatomy spanning the head, neck, thorax, axillae and upper limbs.
Foot - Parasagittal cross-section
Model#: EZ51This 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.
