A novel mouse model of trauma induced heterotopic ossification

Liu, Xuhui; Kang, Hongjun; Shahnazari, Mohammad; Kim, Hubert; Wang, Liping; Larm, Olla; Adolfsson, Lars; Nissenson, Robert A.; Halloran, Bernard P.

doi:10.1002/jor.22500

Cited by 39 publications

(37 citation statements)

References 29 publications

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“…On the other hand, bone injury (osteotomy) alone or in combination with muscle injury increased the proportion of muscle-derived MSCs in the total population of M-MSCs and the osteogenic potential of M-MSCs. This is consistent with a recently published study, in which muscle injury alone failed to induce HO [35] . But muscle injury and the application of a low dose of BMP-2 (bone morphogenetic protein-2), which could not induce ossification alone, induced robust HO.…”

Section: Discussionsupporting

confidence: 93%

Early Detection of Heterotopic Ossification for Effective Prevention and Treatment

Zhang

2014

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Section: Discussionsupporting

confidence: 93%

Early Detection of Heterotopic Ossification for Effective Prevention and Treatment

Zhang

2014

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“…Third, we only evaluated HO BV at a single time point-2 wk after BMP-2 injection in this study. This time point was chosen based on the time course of BMP-2-induced HO we tested in C57/BL6 mice previously [16], in which we found that HO develops no later than 2 wk after BMP-2 injection. However, the mice we used for the previous time course study did not receive surgeries.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies have shown that bone morphogenetic proteins (BMPs) can sufficiently induce HO in mice [15]. Based on this finding, we have recently developed a mouse model of trauma-induced HO by combining intramuscular injection of a small dose of BMP-2 with focal muscle injury [16]. However, this model does not include an SCI component.…”

Section: Introductionmentioning

confidence: 99%

Novel mouse model of spinal cord injury-induced heterotopic ossification

et al. 2014

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Abstract-Heterotopic ossification (HO) develops in about 20% to 30% of patients with spinal cord injury (SCI) and significantly impairs their rehabilitation. There is no effective prevention or treatment for this condition at this time. Our current understanding of its etiology and pathophysiology is limited partially due to the lack of clinically relevant animal models. In this study, we report a novel mouse model of SCI-induced HO by administering a subthreshold dose of bone morphogenetic protein (BMP)-2 to muscles in mice after SCI. Microcomputed tomography scanning showed that an intramuscular injection of 0.25 micrograms of BMP-2 causes significant HO in mice with SCI but not in control (sham surgery) mice. Our analysis of gene expression showed significantly increased BMP signaling in quadriceps following SCI, suggesting that BMP signaling may play a role in SCI-induced HO. Administering 0.25 micrograms of BMP-2 to the front arms of the mice with SCI also results in the development of significant HO but not in control mice. This suggests that SCI causes a systematic osteogenic effect, which is not limited to paralyzed limbs. This novel mouse model will serve as a powerful tool in exploring the molecular mechanisms of SCI-induced HO, which may lead to novel treatment for this disease.

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“…There are also several modalities to recreate pathological ossifications in animal models, including the overexpression or inhibition of mole cular osteoinductive factors, trauma induction, and heterotopic implantation. [16][17][18] However, some of these models are not fully representative of the pathological states, requiring the use of a large number of animals; or are too complex to allow the isolation of individual contributing factors in early phase bone formation, which makes it objectively difficult to answer some essential questions on biological ossification. [16] Developing novel ways to produce ossified tissue is essential for several scientific reasons.…”

Section: Introductionmentioning

confidence: 99%

“…[16][17][18] However, some of these models are not fully representative of the pathological states, requiring the use of a large number of animals; or are too complex to allow the isolation of individual contributing factors in early phase bone formation, which makes it objectively difficult to answer some essential questions on biological ossification. [16] Developing novel ways to produce ossified tissue is essential for several scientific reasons. From a biological perspective, new models will help to develop a deeper understanding of the fundamental processes underlying both early bone development and the pathological ossification events following trauma or injury.…”

Section: Introductionmentioning

confidence: 99%

An In Vitro Model for the Development of Mature Bone Containing an Osteocyte Network

et al. 2017

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Bone is a dynamic tissue that remodels continuously in response to local mechanical and chemical stimuli. This process can also result in maladaptive ectopic bone in response to injury, yet pathological differences at the molecular and structural levels are poorly understood. A number of in vivo models exist but can often be too complex to allow isolation of factors which may stimulate disease progression. A self‐structuring model of bone formation is presented using a fibrin gel cast between two calcium phosphate ceramic anchors. Femoral periosteal cells, seeded into these structures, deposit an ordered matrix that closely resembles mature bone in terms of chemistry (collagen:mineral ratio) and structure, which is adapted over a period of one year in culture. Raman spectroscopy and X‐ray diffraction confirm that the mineral is hydroxyapatite associated with collagen. Second‐harmonic imaging demonstrates that collagen is organized similarly to mature mouse femora. Remarkably, cells differentiated to the osteocyte phase are linked by canaliculi (as demonstrated with nano‐computed tomography) and remained viable over the full year of culture. It is demonstrated that novel drugs can prevent ossification in constructs. This model can be employed to study bone formation in an effort to encourage or prevent ossification in a range of pathologies.

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A novel mouse model of trauma induced heterotopic ossification

Cited by 39 publications

References 29 publications

Early Detection of Heterotopic Ossification for Effective Prevention and Treatment

Early Detection of Heterotopic Ossification for Effective Prevention and Treatment

Novel mouse model of spinal cord injury-induced heterotopic ossification

An In Vitro Model for the Development of Mature Bone Containing an Osteocyte Network

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