Traumatic Humeral Diaphysis Extrusion and Replantation With Periosteal Involvement.

Journal of Medical Cases Pub Date : 2022-08-01 Epub Date: 2022-08-19 DOI:10.14740/jmc3975
Wyatt McGilvery, Christian Hasson, Montri Daniel Wongworawat, Maciej Witkos
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Abstract

Open fractures that produce an extruded long bone diaphysis, such as this case, are an exceedingly rare incident, with even fewer cases documented, leading to difficult medical decision-making for the operative management of such situations. Options for operative management include replantation following sterilization of the extruded fragment, bone transport, a vascularized fibular graft, and even allograft reconstruction. Each option is associated with high and variable levels of risk. The authors report a case study of a 35-year-old female, status post motor vehicle collision (MVC), who sustained a fracture and expulsion of her humeral diaphysis during the incident. She presented to the emergency department by ambulance after colliding into a light post at 50 miles per hour. Upon presentation and examination, the patient scored 14 on the Glascow Coma Scale (GCS) with a positive Focused Assessment with Sonography in Trauma (FAST) exam, consistent with splenic and hepatic injuries. In addition to this, the patient exhibited a flaccid left upper extremity combined with an absent left radial pulse and a small puncture wound on the left anterolateral antecubital area. Radiographic imaging revealed a 6-inch fragment of mid to distal humeral diaphysis missing. Moments later the initial Emergency Medical Services (EMS) crew returned from the scene of the accident with the missing 6-inch fragment of humerus contained in an emesis bag, which was found on the floorboard of the patient's vehicle. This fragment was preserved at -20 °C for 2 days and later used as an autograft in an open reduction internal fixation surgery. This case highlights and details the techniques for proper storage, treatment, and sterilization of the bone fragment during the period of patient stabilization following trauma, to optimize the replantation and union of the fragment. This includes contrasting the different techniques that could be utilized to preserve and sterilize bony fragments, such as autoclaving, gamma radiation, chemical sterilization with iodine, or deciding whether the fragment needs to be discarded altogether with the utilization of allograft.

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累及骨膜的外伤性肱骨骨干挤压与再植。
开放性骨折导致长骨骨干挤压,如本例,是一种极为罕见的事件,记录在案的病例更少,导致这种情况的手术治疗难以做出医疗决策。手术治疗的选择包括挤压碎片消毒后再植,骨运输,带血管的腓骨移植物,甚至同种异体移植物重建。每种选择都与高风险和可变风险水平相关联。作者报告了一个35岁女性的案例研究,机动车碰撞(MVC)后状态,在事故中持续骨折和肱骨骨干排出。在以每小时50英里的速度撞上一根灯柱后,她被救护车送到了急诊室。经就诊和检查,患者Glascow昏迷评分(GCS)为14分,创伤超声聚焦评估(FAST)检查阳性,符合脾和肝损伤。除此之外,患者表现为左上肢松弛,并伴有左桡动脉脉搏缺失,左肘前外侧区域有小穿刺伤。x线影像显示肱骨中段至远端缺失6英寸碎片。不久之后,急救医疗服务(EMS)的第一批工作人员从事故现场返回,他们在病人的汽车地板上找到了一个呕吐袋,里面装着丢失的6英寸肱骨碎片。该碎片在-20°C保存2天,随后在切开复位内固定手术中用作自体移植物。本病例强调并详细介绍了创伤后患者稳定期间骨碎片的适当储存、治疗和消毒技术,以优化碎片的再植和愈合。这包括比较保存和消毒骨碎片的不同技术,如高压灭菌、伽马辐射、碘化学灭菌,或决定是否需要使用同种异体移植物将碎片完全丢弃。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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