2015
DOI: 10.1016/j.cmpb.2014.10.007
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Growth plate stress distribution implications during bone development: A simple framework computational approach

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Cited by 35 publications
(42 citation statements)
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“…Claes and Heigele 20 reported that intramembranous bone formation occurs within a certain range of strain and stress, otherwise endochondral bone or connective tissue are formed. Guevara et al 21 proposed a computational approach to find the effect of stress distribution during the development of long bone. Here, we propose a mechanobiological model that combines the influence of mechanical stimuli with a reaction-diffusion model to predict and explain the process of cranial vault bone formation and development in the mouse.…”
Section: Introductionmentioning
confidence: 99%
“…Claes and Heigele 20 reported that intramembranous bone formation occurs within a certain range of strain and stress, otherwise endochondral bone or connective tissue are formed. Guevara et al 21 proposed a computational approach to find the effect of stress distribution during the development of long bone. Here, we propose a mechanobiological model that combines the influence of mechanical stimuli with a reaction-diffusion model to predict and explain the process of cranial vault bone formation and development in the mouse.…”
Section: Introductionmentioning
confidence: 99%
“…Mechanical stress is known as a major factor in the development of bone and cartilage [29]. Changes in stress distribution in the patellofemoral joint will affect cartilage metabolism; positional mismatches between the patella and femoral trochlea may lead to OA [30][31][32].…”
Section: Discussionmentioning
confidence: 99%
“…С другой стороны, в наших ранних исследованиях изменения в активности росткового хряща наблюдались и при полном исключении каких-либо клеточно-гуморальных воздействий на него [17]. Поэтому можно предположить, что у пациентов с заболеванием позвоночника замедление роста стопы происходило вследствие угнетения ростковых зон ее костей на фоне нарушения баланса распределения нагрузки в пределах стопы, что приводило к неадекватному изменению механических стимулов [18]. Известно, что одной из основных функций стопы является рессорная, которая заключается в способности сводов стопы гасить энергию удара, возникающего в момент касания стопы с опорой во время ходьбы или бега.…”
Section: Discussionunclassified