Peacock Zachary S, Tricomi Brad J, Lawler Matthew E, Faquin William C, Magill John C, Murphy Brian A, Kaban Leonard B, Troulis Maria J
Assistant Professor, Department of Oral and Maxillofacial Surgery, Massachusetts General Hospital, Boston, MA.
Masters Student, University of Massachusetts Boston; Research Fellow, Massachusetts General Hospital, Boston, MA.
J Oral Maxillofac Surg. 2014 Sep;72(9):1773-87. doi: 10.1016/j.joms.2014.01.004. Epub 2014 Jan 16.
To document the bone formation and soft tissue changes in response to automated, continuous, curvilinear distraction osteogenesis (DO) at rates greater than 1 mm/day in a minipig model.
Two groups of Yucatan minipigs underwent automated, continuous, curvilinear DO of the right mandible: group A, 1.5 mm/day (n = 5); and group B, 3.0 mm/day (n = 5). Each minipig underwent 12 mm of distraction followed by 24 days of fixation. The distracted and contralateral mandibles were harvested at the end of fixation. The percentage of surface area (PSA) of the regenerate occupied by bone, fibrous tissue, cartilage, and hematoma was determined using computerized histomorphometric analysis. The control groups consisted of DO wounds distracted discontinuously at 1 mm/day and the nonoperated contralateral mandible. The ipsilateral and contralateral digastric muscles were harvested and stained for proliferating cell nuclear antigen (PCNA), myogenic differentiation-1 (MyoD), and paired Box 7 protein (PAX7).
All 10 minipigs completed the distraction and fixation period. The PSA occupied by bone was similar for groups A (PSA 64.36% ± 5.87%) and B (PSA 63.83% ± 3.37%) and the control group (1 mm/day; PSA 64.89% ± 0.56%) but was less than that on the nonoperated side (PSA 84.67% ± 0.86%). The PSA occupied by cartilage and hematoma in all groups was minimal (<1.1%). The digastric muscles had no abnormal tissue or inflammation, and PAX7, MyoD, and PCNA expression had returned to the baseline levels.
The results of the present study indicate that bone formation in response to automated, continuous, and curvilinear DO at a rate of 1.5 and 3.0 mm/day is nearly identical to that with discontinuous DO at 1 mm/day. In addition, no deleterious effects were found on the digastric muscles.
在小型猪模型中记录在每天大于1毫米的速率下,对自动、连续、曲线性牵张成骨(DO)的骨形成和软组织变化情况。
两组尤卡坦小型猪接受右侧下颌骨的自动、连续、曲线性DO:A组,每天1.5毫米(n = 5);B组,每天3.0毫米(n = 5)。每只小型猪进行12毫米的牵张,随后固定24天。在固定结束时收获牵张侧和对侧下颌骨。使用计算机组织形态计量分析确定再生区域中骨、纤维组织、软骨和血肿所占的表面积百分比(PSA)。对照组包括以每天1毫米间断牵张的DO伤口和未手术的对侧下颌骨。收获同侧和对侧二腹肌,进行增殖细胞核抗原(PCNA)、生肌分化因子-1(MyoD)和配对盒7蛋白(PAX7)染色。
所有10只小型猪均完成牵张和固定期。A组(PSA 64.36% ± 5.87%)、B组(PSA 63.83% ± 3.37%)和对照组(每天1毫米;PSA 64.89% ± 0.56%)中骨所占的PSA相似,但低于未手术侧(PSA 84.67% ± 0.86%)。所有组中软骨和血肿所占的PSA极小(<1.1%)。二腹肌无异常组织或炎症,PAX7、MyoD和PCNA表达已恢复至基线水平。
本研究结果表明,在每天1.5毫米和3.0毫米的速率下,对自动、连续、曲线性DO的骨形成与每天1毫米间断DO的情况几乎相同。此外,未发现对二腹肌有有害影响。