重新解读肠系膜血管解剖结构的三维虚拟和/或物理模型，第二部分：与脾曲癌手术相关的解剖结构。

Re-interpreting mesenteric vascular anatomy on 3D virtual and/or physical models, part II: anatomy of relevance to surgeons operating splenic flexure cancer.

机构信息

Department of Gastrointestinal Surgery, Østfold Hospital Trust, Grålum, Norway.

Institute for Clinical Medicine, University of Oslo, Oslo, Norway.

出版信息

Surg Endosc. 2022 Dec;36(12):9136-9145. doi: 10.1007/s00464-022-09394-5. Epub 2022 Jun 30.

DOI:10.1007/s00464-022-09394-5

PMID:35773607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9652173/

Abstract

BACKGROUND

The splenic flexure is irrigated from two vascular areas, both from the middle colic and the left colic artery. The challenge for the surgeon is to connect these two vascular areas in an oncological safe procedure.

MATERIALS AND METHODS

The vascular anatomy, manually 3D reconstructed from 32 preoperative high-resolution CT datasets using Osirix MD, Mimics Medical and 3-matic Medical Datasets, were exported as STL-files, video clips, stills and supplemented with 3D printed models.

RESULTS

Our first major finding was the difference in level between the middle colic and the inferior mesenteric artery origins. We have named this relationship a mesenteric inter-arterial stair. The middle colic artery origin could be found cranial (median 3.38 cm) or caudal (median 0.58 cm) to the inferior mesenteric artery. The lateral distance between the two origins was 2.63 cm (median), and the straight distance 4.23 cm (median). The second finding was the different trajectories and confluence pattern of the inferior mesenteric vein. This vein ended in the superior mesenteric/jejunal vein (21 patients) or in the splenic vein (11 patients). The inferior mesenteric vein confluence could be infrapancreatic (17 patients), infrapancreatic with retropancreatic arch (7 patients) or retropancreatic (8 patients). Lastly, the accessory middle colic artery was present in ten patients presenting another pathway for lymphatic dissemination.

CONCLUSION

The IMV trajectory when accessible, is the solution to the mesenteric inter-arterial stair. The surgeon could safely follow the IMV to its confluence. When the IMV trajectory is not accessible, the surgeon could follow the caudal border of the pancreas.

摘要

背景

脾曲由来自中结肠动脉和左结肠动脉的两个血管区域供血。外科医生的挑战是在保证肿瘤安全的前提下将这两个血管区域连接起来。

材料和方法

使用 Osirix MD、Mimics Medical 和 3-matic Medical 数据集手动从 32 个术前高分辨率 CT 数据集重建血管解剖结构，将其导出为 STL 文件、视频剪辑、静态图像，并辅以 3D 打印模型。

结果

我们的第一个主要发现是中结肠动脉和肠系膜下动脉起源之间的水平差异。我们将这种关系命名为肠系膜动脉间阶梯。中结肠动脉起源可位于肠系膜下动脉起源的颅侧（中位数 3.38cm）或尾侧（中位数 0.58cm）。两者之间的外侧距离为 2.63cm（中位数），直线距离为 4.23cm（中位数）。第二个发现是肠系膜下静脉的不同走行和汇合模式。这条静脉汇入肠系膜上静脉/空肠静脉（21 例）或脾静脉（11 例）。肠系膜下静脉的汇合可以在胰下（17 例）、胰下伴胰后弓（7 例）或胰后（8 例）。最后，10 例患者存在副中结肠动脉，这是另一种淋巴扩散途径。

结论

当肠系膜下静脉可到达时，它是解决肠系膜动脉间阶梯的方法。外科医生可以安全地沿着肠系膜下静脉到达其汇合处。当肠系膜下静脉不可到达时，外科医生可以沿着胰腺的尾侧边界进行操作。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c42d/9652173/3b0b70d14531/464_2022_9394_Fig1_HTML.jpg

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重新解读肠系膜血管解剖结构的三维虚拟和/或物理模型，第二部分：与脾曲癌手术相关的解剖结构。

Re-interpreting mesenteric vascular anatomy on 3D virtual and/or physical models, part II: anatomy of relevance to surgeons operating splenic flexure cancer.

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料和方法

结果

结论

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