TY - JOUR
T1 - High Biofidelity 3D Biomodel Reconstruction from Soft and Hard Tissues (Knee), FEM, and 3D Printing
T2 - A Three-Dimensional Methodological Proposal
AU - Marquet-Rivera, Rodrigo Arturo
AU - Urriolagoitia-Sosa, Guillermo
AU - Hernández-Vázquez, Rosa Alicia
AU - Romero-Ángeles, Beatriz
AU - Mastache-Miranda, Octavio Alejandro
AU - Urriolagoitia-Calderón, Guillermo
N1 - Publisher Copyright:
© 2021 Rodrigo Arturo Marquet-Rivera et al.
PY - 2021
Y1 - 2021
N2 - The modelling of biological structures has allowed great advances in Engineering, Biology, and Medicine. In turn, these advances are seen from the design of footwear and sports accessories, to the design of prostheses, accessories and rehabilitation treatments. The reproduction of the various tissues has gone through an important evolution thanks to the development of computer systems and programs. However, knowledge of the medical-biological and engineering areas continues to be required, and it involves a considerable investment of time and resources. The resulting biomodels still require great precision. The present work shows a methodology that allows to optimize computational resources and reduce elaboration time of biomodels. Through this methodology, it is possible to generate a biomodel of high biofidelity of a human knee. This biomodel is constituted by hard tissues (cortical and trabecular bones) and soft tissues (ligaments and meniscus) resulting in the modelling of the lower third of the femur, the tibial plateaus, the anterior cruciate ligament, posterior cruciate ligament, external lateral ligament, interior lateral ligaments, and the meniscus. With this model and methodology, it is possible to perform numerical analyses that will provide results very similar to those of real life. As, the methodology allows to assign the mechanical properties to each tissue and the anatomical structure.
AB - The modelling of biological structures has allowed great advances in Engineering, Biology, and Medicine. In turn, these advances are seen from the design of footwear and sports accessories, to the design of prostheses, accessories and rehabilitation treatments. The reproduction of the various tissues has gone through an important evolution thanks to the development of computer systems and programs. However, knowledge of the medical-biological and engineering areas continues to be required, and it involves a considerable investment of time and resources. The resulting biomodels still require great precision. The present work shows a methodology that allows to optimize computational resources and reduce elaboration time of biomodels. Through this methodology, it is possible to generate a biomodel of high biofidelity of a human knee. This biomodel is constituted by hard tissues (cortical and trabecular bones) and soft tissues (ligaments and meniscus) resulting in the modelling of the lower third of the femur, the tibial plateaus, the anterior cruciate ligament, posterior cruciate ligament, external lateral ligament, interior lateral ligaments, and the meniscus. With this model and methodology, it is possible to perform numerical analyses that will provide results very similar to those of real life. As, the methodology allows to assign the mechanical properties to each tissue and the anatomical structure.
UR - http://www.scopus.com/inward/record.url?scp=85104469227&partnerID=8YFLogxK
U2 - 10.1155/2021/6688164
DO - 10.1155/2021/6688164
M3 - Artículo
C2 - 33880378
AN - SCOPUS:85104469227
SN - 2314-6133
VL - 2021
JO - BioMed Research International
JF - BioMed Research International
M1 - 6688164
ER -