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去铁胺可恢复放射治疗后骨折愈合过程中骨痂的大小、矿化和机械强度。

Deferoxamine restores callus size, mineralization, and mechanical strength in fracture healing after radiotherapy.

机构信息

Ann Arbor, Mich. From the Plastic Surgery Section, Craniofacial Research Laboratory, and the Department of Orthopedic Surgery, Orthopedic Research Laboratory, University of Michigan.

出版信息

Plast Reconstr Surg. 2013 May;131(5):711e-719e. doi: 10.1097/PRS.0b013e3182865c57.

DOI:10.1097/PRS.0b013e3182865c57
PMID:23629110
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3641519/
Abstract

BACKGROUND

Therapeutic augmentation of fracture-site angiogenesis with deferoxamine has proven to increase vascularity, callus size, and mineralization in long-bone fracture models. The authors posit that the addition of deferoxamine would enhance pathologic fracture healing in the setting of radiotherapy in a model where nonunions are the most common outcome.

METHODS

Thirty-five Sprague-Dawley rats were divided into three groups. Fracture, irradiated fracture, and irradiated fracture plus deferoxamine. The irradiated fracture and irradiated fracture plus deferoxamine groups received a human equivalent dose of radiotherapy [7 Gy/day for 5 days, (35 Gy)] 2 weeks before mandibular osteotomy and external fixation. The irradiated fracture plus deferoxamine group received injections of deferoxamine into the fracture callus after surgery. After a 40-day healing period, mandibles were dissected, clinically assessed for bony union, imaged with micro-computed tomography, and tension tested to failure.

RESULTS

Compared with irradiated fractures, metrics of callus size, mineralization, and strength in deferoxamine-treated mandibles were significantly increased. These metrics were restored to a level demonstrating no statistical difference from control fractures. In addition, the authors observed an increased rate of achieving bony unions in the irradiated fracture plus deferoxamine-treated group when compared with irradiated fracture (67 percent and 20 percent, respectively).

CONCLUSIONS

The authors' data demonstrate nearly total restoration of callus size, mineralization, and biomechanical strength, and a threefold increase in the rate of union with the use of deferoxamine. The authors' results suggest that the administration of deferoxamine may have the potential for clinical translation as a new treatment paradigm for radiation-induced pathologic fractures.

摘要

背景

用去铁胺增强骨折部位的血管生成已被证明可以增加长骨骨折模型中的血管生成、骨痂大小和矿化。作者假设,在非愈合是最常见结果的放射治疗模型中,添加去铁胺会增强病理性骨折愈合。

方法

35 只斯普拉格-道利大鼠被分为三组。骨折组、放射骨折组和放射骨折加去铁胺组。放射骨折和放射骨折加去铁胺组在下颌骨切开术和外固定前 2 周接受人类等效剂量的放射治疗[每天 7Gy,连续 5 天,(35Gy)]。放射骨折加去铁胺组在手术后向骨折骨痂内注射去铁胺。在 40 天的愈合期后,解剖下颌骨,进行临床骨愈合评估、微计算机断层扫描成像和张力测试至失效。

结果

与放射骨折相比,去铁胺治疗的下颌骨骨痂大小、矿化和强度的指标均显著增加。这些指标恢复到与对照骨折无统计学差异的水平。此外,与放射骨折相比,作者观察到放射骨折加去铁胺治疗组达到骨性愈合的比例增加(分别为 67%和 20%)。

结论

作者的数据表明,使用去铁胺几乎完全恢复了骨痂大小、矿化和生物力学强度,并使愈合率增加了三倍。作者的结果表明,去铁胺的给药可能具有作为放射诱导病理性骨折新治疗模式的临床转化潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42ee/3641519/fed103902cc0/nihms443839f1.jpg

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