Micro-computed tomography assessment of fracture healing: Relationships among callus structure, composition, and mechanical function

Morgan, Elise F.; Mason, Zachary; Chien, Karen B.; Pfeiffer, Anthony J.; Barnes, George L.; Einhorn, Thomas A.; Gerstenfeld, Louis C.

doi:10.1016/j.bone.2008.10.039

Cited by 218 publications

(240 citation statements)

References 37 publications

(32 reference statements)

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“…Based on our data, it is now possible to make a realistic estimate of the sample size needed for further studies. We estimate 16 to 17 mice/ group/time point would be an appropriate sample size to detect a 60% difference in mean BV/TV with a power of 0.8, which is consistent with sample sizes needed in some other bone repair models such as fracture [44]. Even though we found a difference of approximately 60% with a smaller sample size in our study, a post hoc analysis indicates the power of the experiment was on the order of 0.5.…”

Section: Discussionsupporting

confidence: 78%

“…The sample size utilized in this study is based on and consistent with sample sizes used in other bone repair models [44]. After the conclusion of this study, power analyses were performed for assessing one of the key outcomes in Experiment 3, bone volume per total volume (BV/TV), assuming a power of 0.8, with alpha = 0.05, and expecting a 60% difference between groups (Power and Sample Size Calculations 3.0.43; http://biostat.mc.vanderbilt.edu/Power SampleSize).…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Adult Stem Cell Mobilization Enhances Intramembranous Bone Regeneration: A Pilot Study

McNulty

Virdi

Christopherson

et al. 2012

Clinical Orthopaedics &Amp; Related Research

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Background Stem cell mobilization, which is defined as the forced egress of stem cells from the bone marrow to the peripheral blood (PB) using chemokine receptor agonists, is an emerging concept for enhancing tissue regeneration. However, the effect of stem cell mobilization by a single injection of the C-X-C chemokine receptor type 4 (CXCR4) antagonist AMD3100 on intramembranous bone regeneration is unclear.

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Section: Discussionsupporting

confidence: 78%

Section: Methodsmentioning

confidence: 99%

Adult Stem Cell Mobilization Enhances Intramembranous Bone Regeneration: A Pilot Study

McNulty

Virdi

Christopherson

et al. 2012

Clinical Orthopaedics &Amp; Related Research

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“…Besides the subchondral sclerotic bone changes at the pressure areas of the cage wall with the endplates, different stages of the bone fusion process were shown in the periphery of the cage: bone apposition adjacent to the endplates, appearance of hazy densities indicating matrix calcification/mineralization, and finally formation of trabecular bone within the disc space. Appreciation of the amount and width of these changes was possible with this cross-sectional technique, not demonstrated before with radiography nor with classical CT. With regard to predicting ACIF outcomes, CBCT may demonstrate the amount of bone mineralization is visible, as there are the hazy densities visible before a stable bone bridge is formed [10,11].…”

Section: Discussionmentioning

confidence: 99%

Cone-beam CT to assess bony fusion following anterior cervical interbody fusion

et al. 2015

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Purpose Assessment of bony fusion following anterior cervical interbody fusion (ACIF) is usually done by plain film or CT. We present the first clinical application of Cone-Beam CT (CBCT) to evaluate bony fusion after ACIF. Methods A 56-year-old man with disc herniation at C6-C7 underwent ACIF surgery using a compressed nanocrystalline hydroxyapatite interbody device (nanOss-C, Pioneer Surgical Marquette, MI, USA) and a nanocrystalline hydroxyapatite bone graft filler (nanOss Bioactive, Pioneer Surgical Marquette, MI, USA). Imaging follow-up was performed by CBCT (NewTom 5G, QR Srl, Verona, Italy) at 1 day, 6 weeks, 3 and 9 months postoperatively. Two independent assessors quantitatively measured the greyscale changes of the bone graft filler and qualitatively evaluated the bony fusion process. Results Quantitative analysis of the images showed a steadily increasing matrix density of the bone graft filler over the 9 months follow-up, suggesting increasing calcification. Qualitative evaluation demonstrated different stages of the bone fusion process within the disc space around the cage, at the interface between cage and endplates, and at the interface between bone graft filler and the endplates.Conclusions CBCT provides high-resolution cross-sectional imaging of the cervical spine after ACIF. For the first time, in vivo evaluation of the bone graft filler within the centre of the circumferentially radiodense cage and detailed cross-sectional evaluation of bone fusion was achieved. Confirmation of these promising outlooks of CBCT in a large cohort of ACIF patients is needed with regard to routine clinical application and evaluation of different interbody devices.

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“…The newly formed fracture callus tissue was spatially segmented from the native cortical bone in the 2D tomograms. (20,21) Briefly, the outside of the callus was manually delineated and refined through an automated intensity matching procedure to contour the outer boundary. The periosteal surface of the native cortical bone was manually delineated to define the callus and cortical boundaries, thus isolating the callus volume of interest (Supporting Fig.…”

Section: Analysis Of Fracture Callus Formationmentioning

confidence: 99%

“…For these calculations, both TV and BV were normalized by the length of the callus. (20) Histological, immunohistochemistry, and quantitative PCR assessments of the callus tissue were performed as described. (9,10,22) (Details are available in the Supporting Information-Methods and Supporting Tables 1 and 2.…”

Section: Analysis Of Fracture Callus Formationmentioning

confidence: 99%

Loss of Gi G-Protein-Coupled Receptor Signaling in Osteoblasts Accelerates Bone Fracture Healing

Wang

Hsiao

Lieu

et al. 2015

Journal of Bone and Mineral Research

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G-protein-coupled receptors (GPCRs) are key regulators of skeletal homeostasis and are likely important in fracture healing. Because GPCRs can activate multiple signaling pathways simultaneously, we used targeted disruption of G i -GPCR or activation of G s -GPCR pathways to test how each pathway functions in the skeleton. We previously demonstrated that blockade of G i signaling by pertussis toxin (PTX) transgene expression in maturing osteoblastic cells enhanced cortical and trabecular bone formation and prevented agerelated bone loss in female mice. In addition, activation of G s signaling by expressing the G s -coupled engineered receptor Rs1 in maturing osteoblastic cells induced massive trabecular bone formation but cortical bone loss. Here, we test our hypothesis that the G i and G s pathways also have distinct functions in fracture repair. We applied closed, nonstabilized tibial fractures to mice in which endogenous G i signaling was inhibited by PTX, or to mice with activated G s signaling mediated by Rs1. Blockade of endogenous G i resulted in a smaller callus but increased bone formation in both young and old mice. PTX treatment decreased expression of Dkk1 and increased Lef1 mRNAs during fracture healing, suggesting a role for endogenous G i signaling in maintaining Dkk1 expression and suppressing Wnt signaling. In contrast, adult mice with activated G s signaling showed a slight increase in the initial callus size with increased callus bone formation. These results show that G i blockade and G s activation of the same osteoblastic lineage cell can induce different biological responses during fracture healing. Our findings also show that manipulating the GPCR/cAMP signaling pathway by selective timing of G s and G i -GPCR activation may be important for optimizing fracture repair.

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Micro-computed tomography assessment of fracture healing: Relationships among callus structure, composition, and mechanical function

Cited by 218 publications

References 37 publications

Adult Stem Cell Mobilization Enhances Intramembranous Bone Regeneration: A Pilot Study

Adult Stem Cell Mobilization Enhances Intramembranous Bone Regeneration: A Pilot Study

Cone-beam CT to assess bony fusion following anterior cervical interbody fusion

Loss of Gi G-Protein-Coupled Receptor Signaling in Osteoblasts Accelerates Bone Fracture Healing

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