2020
DOI: 10.36740/wlek202004118
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Mathematical Modeling of the Stress-Strain State of the “Bone-Implant” System During the Osteosynthesis With a Philos With Polylactic Acid Implants

Abstract: The aim: To study was to use mathematical modeling in assessing the stress-strain state of the bone-implant system during plate osteosynthesis with a PHILOS plate of a proximal humerus fracture with polylactic acid implants. Materials and methods: Two bone-implant systems with a three-fragment humerus fracture according to the Neer classification (type 11-C1 according to the AO / ASIF classification) were selected for the study, one of which was with additional reinforcement of the head fragment with two polyl… Show more

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Cited by 2 publications
(3 citation statements)
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“…Research in various fields of orthopedic surgery and traumatology requires a methodology that makes it possible to reproduce (simulate) different situations [4][5][6][7]. This methodology can be used to study the biomechanics of the musculoskeletal system both in healthy people and in patients with pathological abnormalities, as well as for modeling various prostheses and implants.…”
Section: General Remarksmentioning
confidence: 99%
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“…Research in various fields of orthopedic surgery and traumatology requires a methodology that makes it possible to reproduce (simulate) different situations [4][5][6][7]. This methodology can be used to study the biomechanics of the musculoskeletal system both in healthy people and in patients with pathological abnormalities, as well as for modeling various prostheses and implants.…”
Section: General Remarksmentioning
confidence: 99%
“…Continuous progress in the field of computing also contributes to the increasing application of mathematical modeling methods in various fields of science. The most popular for solving problems of mathematical modeling (including problems of biomechanics, orthopedics and traumatology) is the finite element method [4][5][6][7][8][9][10]. This method was used to study the behavior of the humerus [3] and hip joints (Femoral Stems) [4], the problems of bone strength [5], simulate the augmentation of the hip bone (femoral bone augmentation) [6], study the features of treatment of Bennett's fractures [7], mechanical properties of the vertebrae [8] and the proximal femur [9].…”
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confidence: 99%
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