Designing an implant for a specific patient can be difficult. No human body is the same – outside as inside. Hence, one implant design will not work for everyone. With the AnyBody Modeling System (AMS), you can test your design with a simulation of the human body. AMS is made with extensive studies and research. Hence, our system gives a realistic, mechanical model. Indeed almost any research on the human body can benefit from this. We take pride in being able to let you test your design on a patient-specific model with our software.
With our patient-specific model, you can upload a screening of your patient to the software. Hence, AMS makes you able to look at the kinematics and kinetics of the patient. Hence, you can test your implant design on the computational patient. With the simulation, you can begin your testing of the implant in the patient’s body. How does a specific motion impact the implant? Can you optimize the design? Can you position it in a better way?
Benefits of testing an implant design
AMS is a great tool for orthopedics to test implant designs and how it works in the body of the specific patient. It does not matter if it is the knee, hip, spine, or any other part of the body.
With AMS, you can test your design thoroughly before operating on the patient. This means you can potentially fix faults in the design. Hence, the software can help you optimize your implant design for any patient you have.
You can test the position of the implant by the patient’s joint kinematics or kinetics. With AMS, you can even take muscles and ligament forces into account. Hence, you can make sure that you can position the implant in the best way in the patient’s body. This is to make sure the joint stability is optimal and to restore the kinematics or kinetics around it.
Do you have any questions about the AnyBody Modeling System or how it can be applied to your work? Please contact us by mail: sales@anybodytech.com. We can also be reached in our Danish department at +45 96 35 42 86. We look forward to answering your questions.