应用Mimics软件构建钩骨3D可视化解剖学研究

doi:10.13418/j.issn.1001-165x.2020.06.006

中国临床解剖学杂志 ›› 2020, Vol. 38 ›› Issue (6): 652-656.doi: 10.13418/j.issn.1001-165x.2020.06.006

应用Mimics软件构建钩骨3D可视化解剖学研究

魏明杰¹，徐永清²，罗浩天²，吴一芃²，王毅²，张旭林²，吴欢²，许育健²，袁礼波²

1.昆明医科大学研究生院，昆明 650000； 2.中国人民解放军联勤保障部队第九二O医院骨科，昆明 650032

收稿日期:2019-09-15 出版日期:2020-11-25 发布日期:2020-12-08
通讯作者: 徐永清，教授，主任医师，博士生导师，E-mail： xuyongqingkm@163.net
作者简介:魏明杰(1992-)，男，安徽滁州人，在读硕士，医师，主要研究方向：显微外科和创伤骨科，Tel：15288368413；E-mail：15288368413@163.com
基金资助:
云南省创伤骨科临床医学中心（ZX20191001）

Application of Mimics software to construct 3D visual anatomy of hamate bone

WEI Ming-jie¹,XU Yong-qing²,LUO Hao-tian²,WU Yi-peng²,WANG Yi²,ZHANG Xu-lin²,WU Huan²,XU Yu-jian²,YUAN Li-bo²

1. Postgraduate Department of Kunming Medical University，Kunming 650000，China；2. Department of Orthopaedics, the 920th Hospital of Joint Logistics Support Force of Chinese People's Liberation Army，Kunming 650032，China

Received:2019-09-15 Online:2020-11-25 Published:2020-12-08

摘要/Abstract

摘要： 目的　利用Mimics软件3D可视化分析钩骨形态及其骨内血管走行，为钩骨骨折治疗及其相关手术提供解剖学基础。方法　选用成人新鲜上肢标本12例，灌注后行Micro-CT扫描，将所得数据导入Mimics软件重建钩骨及其血供。结果　钩骨有3个非关节面。背侧和掌侧表面呈三角形，掌侧面尺侧向掌侧延伸形成钩骨钩。钩骨钩分为顶部，中部及基底部。钩骨远端关节面与第4、5掌骨基底部形成腕掌关节，桡侧与头状骨形成关节，尺侧与三角骨形成关节。在背侧非关节面由微小动脉网分支成数根滋养血管进入钩骨体内，并在各方向分支营养钩骨体。在掌侧非关节面钩骨体钩骨钩移行处，即钩骨钩基底部桡侧1-2根滋养血管直接或分支进入骨内，并分别向钩骨体及钩骨钩内走行。部分标本钩骨钩基底部尺侧出现滋养血管由此进入骨内并向钩骨钩内分支走行。钩骨钩顶端有单独的小血管进入并在骨内分支。钩骨钩基底部桡侧滋养血管骨内分支分别与由钩骨体背侧及钩骨钩顶端滋养血管骨内分支相互吻合。结论　钩骨体和钩骨钩内血供丰富，较难发生缺血性坏死。钩骨钩骨折保守治疗不愈合可能是由骨折类型及移位程度较大导致。

关键词: 钩骨, 　骨内血管, 　解剖学, 　Mimics软件

Abstract: Objective　To analyze the morphology of the hook bone and its intravascular bone shape by using the mimics software 3D visualization , which provided an anatomical basis for the treatment of hook fracture and its related surgery.　Methods　Twelve cases of fresh upper limb specimens were selected. After perfusion, Micro-CT scan was performed. The data were imported into Mimics software to reconstruct the hooked bone and its blood supply.　Results　The hooked bone had 3 non-articular surfaces. The dorsal and volar surfaces were triangular, and the lateral side of the palm extended laterally to the volar side to form a hooked bone hook. The hooked bone hook was divided into a top side, a middle side and a base side. The distal joint surface of the hooked bone and the base of the 4th and 5th metacarpal bones formed the carpometacarpal joint, the radial side and the head bone formed a joint, and the ulnar side and the triangular bone formed a joint. The non-articular surface on the dorsal side was branched into a number of nourishing blood vessels into the bone of the hook bone by the micro-arterial network, and the hooked bone blood supply supplied in all directions. In the volar side of the non-articular surface hooked bone, which was, the 1-2 root nourishing blood vessels of the basal part of the hooked bone hook branched into the bone directly, and travelled to the hooked bone body and the hooked bone hook respectively. Part of the specimen had a nourishing blood vessel on the ulnar side of the base of the hooked bone, thereby entering the bone and branching into the hooked bone. There were separate small blood vessels at the tip of the hooked bone that entering and branching within the bone. The iliac bone branch of the humerus at the base of the hooked bone was consistent with the intravascular branch of the trophoblastic nucleus from the dorsal side of the hook bone and the hook of the hook.　Conclusions　The blood supply in the hook bone is rich, and ischemic necrosis is difficult to occur. The conservative treatment of nonunion of hook-and-loop fractures may be caused by the type of fracture and the degree of displacement.

Key words: Hamate bone, , , Intraosseous vessels, , , Anatomy, 　Mimics software

中图分类号:

魏明杰, 徐永清, 罗浩天, 吴一芃, 王毅, 张旭林, 吴欢, 许育健, 袁礼波. 应用Mimics软件构建钩骨3D可视化解剖学研究[J]. 中国临床解剖学杂志, 2020, 38(6): 652-656.

WEI Ming-jie, XU Yong-qing, LUO Hao-tian, WU Yi-peng, WANG Yi, ZHANG Xu-lin, WU Huan, XU Yu-jian, YUAN Li-bo. Application of Mimics software to construct 3D visual anatomy of hamate bone[J]. Chinese Journal of Clinical Anatomy, 2020, 38(6): 652-656.

参考文献 12

[1]	Andress MR, Peckar VG. Fracture of the hook of the hamate[J]. Br J Radiol，1970,43(506):141-143.
[2]	Kose O, Ege T, Guler F. Bilateral fractures of the hook of the hamate: a bicycle handlebar injury[J]. J Hand Surg Eur Vol，2014, 39(7):788-789.
[3]	Tan HK, Chew N, Chew KT, et al. Clinics in diagnostic imaging (156). Golf-induced hamate hook fracture[J]. Singapore Med J，2014, 55(10):517-520.
[4]	Scheufler O, Radmer S, Andresen R. Dorsal percutaneous cannulated mini-screw fixation for fractures of the hamate hook[J]. Hand Surg， 2012, 17(2):287-293.
[5]	Scheufler O, Radmer S, Erdmann D, et al. Therapeutic alternatives in nonunion of hamate hook fractures[J]. Ann Plastic Surg，2005, 55(2):149-154.
[6]	Scheufler O, Radmer S, Erdmann D, et al. Current treatment of hamate hook fractures[J].Handchir Mikrochir Plast Chir，2006, 38(5): 273-282.
[7]	Gaillard J, Roy-Maillot S, Masmejean EH. Tendon rupture of the flexor digitorum profundus of the little finger secondary to hamate non-union[J]. Chir Main, 2015, 34(1): 44-48.
[8]	Failla JM, Amadio PC. Recognition and treatment of uncommon carpal fractures[J]. Hand Clin, 1988, 4(3):469-476.
[9]	Xiong G, Dai L, Zheng W, et al. Clinical classification and treatment strategy of hamate hook fracture[J]. J Huazhong Univ Sci Technolog Med Sci，2010, 30(6): 762-766.
[10]	Panagis JS, Gelberman RH, Taleisnik J, et al. The arterial anatomy of the human carpus. Part II: The intraosseous vascularity[J]. J Hand Surg, 1983, 8(4): 375-382.
[11]	Failla JM. Hook of hamate vascularity: vulnerability to osteonecrosis and nonunion[J]. J Hand Surg Am， 1993,18(6):1075-1079.
[12]	王鼎予, 李旭, 沈重成, 等. Micro-CT下钩骨骨内微小动脉三维构筑的临床解剖学研究[J]. 北京大学学报(医学版), 2018, 50(2):245-248.

[1]	陈柱宏, 李严兵, 黄华军, 林羲疆, 曾参军. 单一改良腹直肌旁切口治疗骨盆后环损伤合并对侧前环损伤的解剖研究[J]. 中国临床解剖学杂志, 2023, 41(6): 633-639.
[2]	耿凯龙, 邓伟, 张向南, 汪丁松, 王宏宇, 刘澒洞, 李雷, 鞠文, 周正虎, 唐林峰, 巨积辉, 侯瑞兴. 猪股骨头内血管铸型标本制备技术的研究[J]. 中国临床解剖学杂志, 2023, 41(4): 490-492.
[3]	王德昌, 龚浙溢, 廖承浩, 支沙沙, 邹旭菲, 胡耀辉, 王凯, 娄阳云, 李婷. 新鲜猪心房室传导轴的显微解剖[J]. 中国临床解剖学杂志, 2023, 41(3): 254-257.
[4]	吴世源, 何浩强, 陈正和, 牟永告, 李严兵, 黄文华, 钟世镇. 多模态融合技术三维重建岩上静脉[J]. 中国临床解剖学杂志, 2023, 41(3): 270-276.
[5]	张玉军, 巨积辉, 赵强, 王本元, 程贺云, 鞠文. 单纯钢丝加压固定法治疗骨性锤状指的解剖学研究[J]. 中国临床解剖学杂志, 2023, 41(2): 128-131.
[6]	赵志恒, 吴玥, 张静, 杨子涛, 张钦涌, 王庆伟, 程敬亮, 车英玉. 基于静动态磁共振成像比较正常青年男女盆底解剖结构及功能特征的差异[J]. 中国临床解剖学杂志, 2023, 41(2): 143-149.
[7]	李至彦, 陈熙璞, 蔡明辉, 程书文, 岑少钦, 阿布都哈卡尔·克拉木, 马德华, 王朝, 李玉露, 张昕昕, 邹卫, 朱成楚, 易龙. 正常胸廓比CT影像解剖学测量及其临床意义[J]. 中国临床解剖学杂志, 2023, 41(1): 28-30.
[8]	黄阳亮, 钟祎, 刘少喻. 环抱法切除胸椎黄韧带骨化症的临床疗效与解剖学基础[J]. 中国临床解剖学杂志, 2023, 41(1): 87-91.
[9]	潘保顺, 陈金水, 方镇, 高明杰. 寰枢椎后方结构解剖学研究及临床意义[J]. 中国临床解剖学杂志, 2022, 40(6): 633-638.
[10]	彭鹏, 黄刚, 朱美松, 李鉴轶. 下颈椎前路椎弓根皮质骨螺钉的解剖学研究[J]. 中国临床解剖学杂志, 2022, 40(5): 505-510.
[11]	张磊, 张华强, 金玉峰, 张梦瑶, 周鑫, 李炳坤, 唐小高. 基于MRI喙锁韧带的解剖学参数分析[J]. 中国临床解剖学杂志, 2022, 40(3): 259-262.
[12]	胡定祥, 李长辉, 陈亮, 马晨曦, 黄河, 郑瑞清. 基于CT三维重建的肩胛骨关节盂形态学分型及临床意义[J]. 中国临床解剖学杂志, 2022, 40(2): 150-153.
[13]	宋占锋, 吴占勇, 叶启彬, 陆志方. 上颈性眩晕发生的颈交感神经及第2颈神经的解剖学因素观察[J]. 中国临床解剖学杂志, 2022, 40(1): 1-3.
[14]	肖忠洲, 刘家明, 黄山虎, 刘志礼. 新型防神经根损伤双螺纹椎弓根螺钉解剖学依据[J]. 中国临床解剖学杂志, 2021, 39(5): 507-512.
[15]	张向南, 邓伟, 张松强, 李雷, 周广良, 居发新, 鞠文, 周正虎, 李关兴, 巨积辉, 侯瑞兴. 猪股骨头支持带动脉入头分支的解剖学研究[J]. 中国临床解剖学杂志, 2021, 39(2): 130-133.

应用Mimics软件构建钩骨3D可视化解剖学研究

Application of Mimics software to construct 3D visual anatomy of hamate bone

可视化

摘要/Abstract

引用本文

使用本文

参考文献 12

相关文章 15

Metrics

本文评价

推荐阅读 0