2003
DOI: 10.1359/jbmr.2003.18.3.521
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Suture Growth Modulated by the Oscillatory Component of Micromechanical Strain

Abstract: Sutures are fibrous connective tissue articulations between intramembranous craniofacial bones. Sutures are composed of fibroblastic cells with their matrices in the center and osteogenic cells in the periphery producing a matrix that is mineralized during skeletal growth. Whether oscillatory forces stimulate sutural growth is unknown. In the present work, we applied static and cyclic forces with the same peak magnitude of 5N to the maxilla in growing rabbits and quantified (1) acute in vivo sutural bone strai… Show more

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Cited by 90 publications
(81 citation statements)
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“…Unlike neurocranial sutures, which are regulated via tissue interaction with the dura matter (Opperman et al, 1995;Opperman, 2002), the nasal septal cartilage itself may play an important role in the morphogenesis and regulation of facial sutures (Adab et al, 2002(Adab et al, , 2003. Thus, in addition to passively placing the premaxillary suture under biomechanical strains, thereby promoting osteoblastic and fibroblastic activity (e.g., Rafferty and Herring, 1999;Kopher and Mao, 2002;Mao et al, 2003;Mao, 2006;Katsaros et al, 2006), the nasal septum may also play a more active role in premaxillary suture development.…”
Section: Discussionmentioning
confidence: 99%
“…Unlike neurocranial sutures, which are regulated via tissue interaction with the dura matter (Opperman et al, 1995;Opperman, 2002), the nasal septal cartilage itself may play an important role in the morphogenesis and regulation of facial sutures (Adab et al, 2002(Adab et al, , 2003. Thus, in addition to passively placing the premaxillary suture under biomechanical strains, thereby promoting osteoblastic and fibroblastic activity (e.g., Rafferty and Herring, 1999;Kopher and Mao, 2002;Mao et al, 2003;Mao, 2006;Katsaros et al, 2006), the nasal septum may also play a more active role in premaxillary suture development.…”
Section: Discussionmentioning
confidence: 99%
“…Probably the most interesting experiments involving externally imposed loads are the recent series of papers by Mao and colleagues [76][77][78][79] in which cyclic forces were used. For these procedures animals were typically anesthetized each day for a short period of controlled loading.…”
Section: Cyclic Strain: Anabolic Regardless Of Polaritymentioning
confidence: 99%
“…1A). 18,29,30 During the 12-h loading on the right femoral condyle explant, the left femoral condyle explant of the same rabbit was placed separately in identical organ culture medium but without any exogenous mechanical loading. Once mechanical loading of the right femoral condyle explant was completed, both the control and loaded condyle explants were placed in a rotary bioreactor.…”
Section: Exogenous Mechanical Loadingmentioning
confidence: 99%
“…Upon confirmation of demineralization by X-ray, the specimens were rinsed, dehydrated in graded ethanol, treated with xylene, and embedded in paraffin. 18,29,31 The entire distal femoral condyle, both mechanically loaded and controls, was first bisected along the sagittal midline under dissection microscope. A total of no less than 20 parasagittal sections from the center of the distal femoral condyle were cut sequentially at 6 mm thickness with a microtome, and were stained with hematoxylin and eosin (H&E) and safranin-O/fast green.…”
Section: Tissue Processing and Histological Stainingmentioning
confidence: 99%
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