Elbow Joint Regional Anesthesia and Drainage Training Model
Exceptionally Realistic
Detailed design and simulation of the elbow joint including humerus, radial and ulnar bones.
Detailed design and simulation of the neighboring muscles, tendons and ligaments.
Multimodal (CT/US/MRI)
CT/US /MR-compatible training model provides realistic imaging of skeletal tissue, soft tissue and the internal organs with similar US/MR/X-ray intensity using ultrasound/MRI/CT scan, fluoroscopy or simple X-ray.
Life-like Procedure
Realistic simulation of skin-needle interaction and soft tissue-needle interaction
Feels like real human tissue.
Gain experience in diagnostic imaging as well as interventional practice such as joint tapping and local anesthesia.
External landmarks such as olecranon, medial and lateral epicondyls are, accurately, simulated.
Our unique phantom manufacturing process incorporates sophisticated production of nano-polymer elements that mimic tissue elasticity, attenuation, speed of sound, tissue recoil, and tissue resistance with respect to the needle.
Durable and Efficient
Durable: resistant to dehydration and decomposition
No replacement part is needed (a really durable model does not need any replacement part)
Self-healing
High resistance to fire and extreme temperature
Easily portable: The purchase includes a case for easier transportation, though no specific storage is required.
Accessories for easier practice are included, such as practice sheets and a repair kit (in case of accidental damage).
Our product is used to gain expertise at the desired time and location, without any risk, cost or inconvenience
Become comfortable with ultrasound transducer maneuvering and machine settings as well as MRI and CT image acquisition.
Returns are accepted within the first thirty days, no questions asked
Custom made models can be ordered
Manufactured in the USA
Green: Our new polymer nanofibers are earth friendly.
The materials and fluid used in the model are inert with no toxicity. To further minimize any possibility of allergy the model is covered by an inert gloss of 3 micrometer thickness.
Size/weight