Upper Limb

14 Products

Hand

This 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 and Canal of Guyon. The palmar aponeurosis hasbeen removed to demonstrate the course of the tendons through the palm, the superficial muscles of the thenar and hypothenar eminences (abductors and flexors), and the lumbrical muscles arising from the flexor digitorum tendon. Detailed anatomical description on request.

€522.41*

Upper Limb

This 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 limb except over the dorsum of the scapula, proximal arm, and over the hand. The superficial veins, including the median cubital vein, have been maintained; with the cephalic and basilica preserved from the wrist to the deltopectoral groove and termination in the brachial vein, respectively. Detailed anatomical description on request.

€2,621.57*

Cubital Fossa

This 3D printed cubital fossa displays a superficial dissection of the right distal arm and proximal forearm. The skin and superficial fascia has been removed anteriorly, medially and laterally to expose the superficial veins (basilic, cephalic, and median cubital) and cutaneous (medial, lateral and posterior antebrachial) nerves.Detailed anatomical description on request.

€706.86*

Upper Limb - elbow, forearm and hand

This 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 lateral to medial. The bicipital aponeurosis has been divided to reveal the structures deep to it. Detailed anatomical description on request.

€1,398.25*

Forearm and hand - superficial and deep dissection

This 3D printed specimen preserves a mixed superficial and deep dissection of the anterior aspect of a right distal arm, forearm and hand. Detailed anatomical description on request.

€1,433.95*

Deep upper limb and hand

This 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. Detailed anatomical description on request.

€1,172.15*

Shoulder - deep dissection of a right shoulder girdle, preserving a complete scapula, lateral clavicle, and proximal humerus

This 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 highlight the cross-sectional thickness of the belly within thesubscapular fossa. Detailed anatomical description on request.

€827.05*

Shoulder - deep dissection of the left shoulder joint, musculature, and associated nerves and vessels

This 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 from its origin to expose the underlying deeper structuresof the shoulder joint and rotator cuff musculature. Detailed anatomical description on request.

€872.27*

Cubital fossa - muscles, large nerves and the brachial artery

This 3D printed specimen presents a left distal arm and proximal forearm with all skin, subcutaneous fat and superficial cutaneous nerves and veins removed. The elbow region partially flexed to display the arrangement of muscles and neurovascular structures of the cubital fossa. Detailed anatomical description on request.

€628.32*

Forearm and hand - deep dissection

This 3D printed specimen of a left upper limb preserves a deep dissection from the distal humerus to the palmar surface of hand. Detailed anatomical description on request.

€871.08*

Right thoracic wall - axilla, and the root of the neck

This 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. Structures within the right chest wall are visible deep to the parietal pleura, including the ribs, muscles of the intercostal spaces and the origins of the neurovascular bundle in each intercostal space. The pectoralis major has been reflected medially towards the sectioned edge of the specimen to expose pectoralis minor which acts as a useful landmark as it divides the axillaryartery into its three parts. The clavicle has had its middle 1/3 removed, but the subclavius muscle has been retained. The brachial plexus and many of its branches are seen almost in its entirety from the roots of C5-T1 to its termination as it exits the axilla to enter the arm. Detailed anatomical description on request.

€2,933.35*

Shoulder (left) - Superficial muscles and axillary/brachial artery

This 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 as it progresses distally to become the brachial artery.The muscles attached to the clavicle have been preserved including the subclavius muscle attachment to the inferior border of the clavicle and the deltoid covering the lateral aspect of the proximal upper limb (overlying the origins of the long head of biceps brachii and the lateral head of triceps brachii). Detailed anatomical description on request.

€1,482.74*

Upper Limb Ligaments

This 3D printed specimen presents the entire upper limb skeleton and ligaments from the pectoral girdle to the hand. Detailed anatomical description on request.

€1,386.35*

Upper Limb - biceps, bones and ligaments

This 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 inferiorly in the bicipital groove, whereas the short head of biceps arises from the coracoid process. The bifid insertion of the muscle as the bicipital aponeurosis and the rounded tendon which can be seen winding around the radius to insert into the radial tuberosity are clearly discernable. Detailed anatomical description on request.

€1,372.07*

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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