2019
DOI: 10.1115/1.4043970
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Mechanobiological Mechanisms of Load-Induced Osteoarthritis in the Mouse Knee

Abstract: Osteoarthritis (OA) is a degenerative joint disease that affects millions of people worldwide, yet its disease mechanism is not clearly understood. Animal models have been established to study disease progression by initiating OA through modified joint mechanics or altered biological activity within the joint. However, animal models often do not have the capability to directly relate the mechanical environment to joint damage. This review focuses on a novel in vivo approach based on controlled, cyclic tibial c… Show more

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Cited by 7 publications
(7 citation statements)
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“…35 Intraarticular fracture models are also associated with alterations in mechanical stress within the joint as a result of changes in gait and presence of a fracture callus. 36,37 In contrast, tibial loading does not injure stabilizing tissues in the joint or change the gait of the loaded limb, 38,39 and changes in joint mechanics are limited to the development of osteophytes, which are thought to stabilize the joint rather than contribute to the progression of cartilage loss. 40,41 Although tibial loading changes joint structures, the apparent changes in joint biomechanics are not as severe as models that disrupt the joint capsule or fracture tissue.…”
Section: Discussionmentioning
confidence: 99%
“…35 Intraarticular fracture models are also associated with alterations in mechanical stress within the joint as a result of changes in gait and presence of a fracture callus. 36,37 In contrast, tibial loading does not injure stabilizing tissues in the joint or change the gait of the loaded limb, 38,39 and changes in joint mechanics are limited to the development of osteophytes, which are thought to stabilize the joint rather than contribute to the progression of cartilage loss. 40,41 Although tibial loading changes joint structures, the apparent changes in joint biomechanics are not as severe as models that disrupt the joint capsule or fracture tissue.…”
Section: Discussionmentioning
confidence: 99%
“…5,62,[64][65][66] Rodent models are broadly used. 63, [67][68][69][70] Approaches to induce OA differ ( Figure 2). OA can be induced by direct damage of knee joint cartilage by application of monosodium iodoacetate (MIA model) or other harmful agents.…”
Section: In Vitro and In Vivo Disease Models For Elucidation Of Oa Thmentioning
confidence: 99%
“… 76 Novel models based on joint cartilage overloading by high impact or cyclic overloading (inducing non-invasively posttraumatic joint injury leading to posttraumatic OA [PTOA]) have also been proposed. 68 , 77 In addition, more specific models have been described such as creating surgically patellofemoral OA by shortening the patellar ligament and thereby, changing the position of the patella and hence, its fitting accuracy in the femoropatellar groove 78 or facet joint OA in the spine of rats. 79 Finally, estrogen-deprivation by ovariectomy is also used 62 to induce OA, being simultaneously a well-known model for osteoporosis.…”
Section: In Vitro and In Vivo Disease Models For Elucidation Of Oa Thmentioning
confidence: 99%
“…To test our hypothesis, we induced OA pathology in wild type (WT, C57Bl/6) mice by applying cyclic compression (9.0N peak load, 1200 cycles, 4Hz frequency, 5 days/week) to the left tibiae of young (10-week-old) and adult (26-week-old) female mice. This loading regimen induces cartilage matrix damage, including proteoglycan loss, fibrillation, and erosion as well as osteophyte formation (7)(8)(9)(10). In all studies, the contralateral limbs served as the control.…”
Section: T Cells In Ipsilateral Lymph Nodes Increased With Cyclic Tibmentioning
confidence: 99%