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Purpose The optimal vascular ligation strategy and lymphadenectomy level in oncological sigmoidectomy remain controversial, with inconsistent definitions and a lack of standardized postoperative assessment. This study aimed to anatomically and radiologically define D2 and D3 lymphadenectomy in sigmoid colon cancer and to develop an objective multimodal protocol for postoperative classification of vascular ligation and recurrence patterns. Methods A three-phase multimodal anatomical study was conducted. Phase 1 involved cadaveric dissections simulating D2 lymphadenectomy and D3 dissection with either low or high ligation of the inferior mesenteric artery (IMA). Phase 2 retrospectively assessed 14 patients with pre- and postoperative contrast-enhanced CT scans to classify vascular ligation type and recurrence pattern. Phase 3 validated these findings through AI-assisted computational segmentation and 3D reconstruction. Results In cadaveric simulation, each vascular strategy (D2, D3-low tie, D3-high tie) was anatomically characterized in terms of arterial division point, venous drainage control, and residual mesocolon, allowing systematic differentiation of the three approaches. Radiological evaluation successfully identified the level of vascular ligation in all cases. Among patients with recurrence ( n  = 5), the classification protocol distinguished mesenteric from non-mesenteric recurrences based on vascular territory. The 3D reconstruction phase showed full concordance between the radiological classification and the 3D model regarding both the level of inferior mesenteric artery ligation and the anatomical localization of locoregional recurrence. Conclusion This standardized anatomical–radiological workflow, integrating cadaveric dissection, CT-based vascular analysis, and AI-assisted 3D reconstruction, provides an objective tool to classify the level of vascular ligation performed in oncological sigmoidectomy and to anatomically categorize locoregional recurrence, establishing a foundation for future surgical audit and outcome studies, and representing a step toward AI-supported surgical audit systems capable of standardizing vascular ligation classification and recurrence mapping.

Background We performed three-dimensional (3D) reconstruction to investigate the vascular anatomy, including the inferior mesenteric artery (IMA), left colic artery (LCA), and inferior mesenteric vein (IMV), for laparoscope-assisted left-side colorectal surgery. Furthermore, we also examined the distances from the root of the IMA to the bifurcation of the LCA and to the IMV using 3D imaging. Methods We retrospectively analyzed 46 patients who underwent laparoscope-assisted left-side colorectal surgery via 3D surgical reconstruction at Tsukuba Medical Center Hospital. The branching patterns among the IMA, LCA, and sigmoidal colic artery (SCA) in colon cancer could be classified into three groups (types A, B, and C): type A, in which both arteries (LCA and SCA) branch off from the same point of the IMA; type B, in which the common trunk of the LCA and SCA branches off from the IMA; and type C, in which the LCA and SCA branch off separately from the IMA. The shortest length from the root of the IMA to bifurcation of the LCA and SCA branches ( D mm) or to the IMV ( d mm) was measured by 3D imaging. Results The mean D mm and d mm for all cases were 39.4 ± 11.2 and 27.9 ± 9.21 mm, respectively. The D mm from the IMA root to the LCA or SCA branch in types A, B, and C was 37.8 ± 9.21, 40.5 ± 12.7, and 38.6 ± 10.2 mm, respectively. Similarly, the d mm from the IMA root to the IMV in types A, B, and C was 30.2 ± 11.3, 29.9 ± 7.27, and 25.2 ± 10.3 mm, respectively. Conclusion The present 3D reconstruction technique was useful for determining the 3D vascular anatomical pattern including the relative positions of the IMA, SCA, and IMV during laparoscope-assisted left-side colorectal surgery.

To assess the anatomy of the inferior mesenteric artery (IMA) and its branches by reviewing laparoscopic left-sided colorectal cancer surgery videos and comparing them with preoperative three-dimensional computed tomography (3D-CT) angiography, to verify the accuracy of 3D-CT vascular reconstruction techniques. High-definition surgical videos and preoperative imaging data of 200 patients who underwent laparoscopic left-sided colorectal cancer surgery were analysed, and the alignment of the IMA and its branches in relation to the inferior mesenteric vein (IMV) was observed and summarized. The above two methods were used to measure the length of the IMA and its branches. Of 200 patients, 47.0% had the sigmoid arteries (SAs) arise from the common trunk with the superior rectal artery (SRA), and 30.5% had the SAs arise from the common trunk with the left colic artery (LCA). In 3.5% of patients, the SAs arising from both the LCA and SRA. The LCA, SA, and SRA emanated from the same point in 13.5% of patients, and the LCA was absent in 5.5% of patients. The range of D cm (IMA length measured by intraoperative silk thread) and d cm (IMA length measured by 3D-CT vascular reconstruction) in all cases was 1.84–6.62 cm and 1.85–6.52 cm, respectively, and there was a significant difference between them. (p < 0.001). The lengths between the intersection of the LCA and IMV measured intraoperatively were 0.64–4.29 cm, 0.87–4.35 cm, 1.32–4.28 cm and 1.65–3.69 cm in types 1A, 1B, 1C, and 2, respectively, and there was no significant difference between the groups (p = 0.994). There was only a significant difference in the length of the IMA between the 3D-CT vascular reconstruction and intraoperative observation data, which can provide guidance to surgeons in preoperative preparation.

PurposeDirect connection between the celiac trunk (CT) and inferior mesenteric artery (IMA) is very rare, knowledge of this anomaly is of great importance to surgeons and anatomists.IntroductionSplanchnic arteries arise from the abdominal aorta (AA). Unusual development of these arteries can lead to considerable variations. Historically there were a lot of classification of the variation in the CT and IMA, none of the classifications describes a direct connection from IMA to CT.Materials and methods We report a rare case in which the connection between the CT and AA was lost and replaced by a direct anastomosis with IMA.Results60 year old male presented to the hospital to undergo a computed tomography scan. Which showed that there was no CT arising from the AA, but there was a large anastomosis arises from the IMA and ended with a short axis and Left gastric artery (LGA), Splenic artery (SA), Common hepatic artery (CHA) arise from this axis, these arteries continued to the stomach and spleen and liver normally. The anastomosis provides the total supply to the CT. The CT branches are normal.ConclusionKnowledge of the arterial anomalies provides an important help in clinical surgical implications especially in organs transplant.

PurposeThe literature reports the presence of the intermesenteric artery (IA), an anastomosis connecting the superior mesenteric artery (SMA) to the inferior mesenteric artery (IMA) in 9–18% of human cadaver dissections. This is the first study describing the morphological and demographic characteristics of the IA based on in vivo imaging.MethodsA total of 150 consecutive abdominal computed tomography (CT) angiographies of adult patients identified by sex and age were analyzed. The IA was assessed for its presence, point of origin, pathway, point of insertion, and diameter at its origin. The diameters of the SMA, IMA, and other arteries from which the IA originated and into which it inserted were measured by CT angiography using Radiant™ and Osirix MD™ software.ResultsThe IA was found in 17 (51.5%) of the females and 60 (51.3%) of the males. The diameters of the SMA and IMA were larger in the males than in the females, but there was no sex difference in the diameter of the IA. The diameter of the SMA was larger than that of the IMA, and the diameter of the IA was smaller than that of the other arteries evaluated. An IA connecting the SMA and IMA trunks was found in 25.9% of the cases, while other connections between the branches of those trunks through an IA occurred less frequently.ConclusionsThe intermesenteric artery is more frequently found than the literature refers and in most of cases directly connects the upper and lower arterial mesenteric circulations.

This study aimed to investigate the impact of the inferior mesenteric artery (IMA) lymph node metastasis [IMALN (+)] on prognosis in left-sided colorectal cancer (LCRC). A total of 285 patients with stage III LCRC and 118 patients with stage IV LCRC who underwent resection of primary tumor between 2005 and 2016 were included. IMALN (+) patients (n=10) had worse overall survival (OS) than patients without IMA lymph node metastasis [IMALN (-); n=275] in stage III LCRC (p=0.007). Multivariate analysis revealed that IMALN (+) was a prognostic factor in stage III LCRC (OS, HR=3.09, p=0.043). Conversely, there was no difference between the OS of IMALN (+) and stage IV LCRC with distant lymph node metastasis only [stage IV LCRC (LYM); n=21; p=0.434]. The prognosis of IMALN (+) was worse than that of IMALN (-); it was similar to that of stage IV LCRC (LYM).

Purpose Intraoperative ultrasound was used to assess the flow velocity in the marginal vessel arch adjacent to the anastomosis, critical for evaluating the anastomotic blood supply. This technique also enabled us to investigate the potential effects of preserving the left colonic artery on the perfusion of the anastomosis. Methods This prospective study included 40 rectal cancer patients who underwent laparoscopic anterior resection between January 2021 and January 2023. The length of the inferior mesenteric artery (IMA) was measured from its origin to the first branch, and the diameters of the mesenteric vessel IMA, left colonic artery (LCA), and marginal mesenteric artery (MMA) were recorded. Blood flow velocity and Doppler ultrasound waveforms of the MMA near the anastomosis were collected. Measurements were taken both before and after clamping the IMA using atraumatic forceps. The tardus parvus pattern of the MMA ultrasound waveforms was recorded to evaluate the hypoperfusion status of the anastomosis. Results The mean velocities of MMA were 47.9 cm/s before clamping and 34.9 cm/s after atraumatic clamping, indicating significant differences ( p  < 0.05). Thirteen patients (32.5%) exhibited a Tardus parvus pattern after IMA atraumatic clamping. Multivariate analysis revealed older age and LCA diameter as independent clinical predictors of the hypoperfusion status after IMA clamping. Conclusions Preservation of the LCA may improve perfusion near the anastomosis during rectal cancer surgery. Older age and LCA diameter can be considered useful predictors of the mesenteric hypoperfusion status after IMA ligation. Intraoperative ultrasound can evaluate the perfusion of the MMA near the anastomosis. Chinese Clinical Trial Registry—Registration number: ChiCTR2000041475

Background This study was aimed to explore the clinical application of dual-energy computed tomography (DECT) monoenergetic plus (mono+) imaging to evaluate anatomical variations in the inferior mesenteric artery (IMA). Methods The clinical and imaging data of 212 patients who had undergone total abdominal DECT were retrospectively analyzed. The post-processing mono+ technique was used to obtain 40-keV single-level images in the arterial phase. Three-dimensional reconstruction was performed to evaluate the relationship between the IMA root position and the spinal level, IMA length, and IMA branch type, as well as the position of the left colic artery (LCA) and inferior mesenteric vein (IMV) at the IMA root level. Results The IMA root was located at the L3 level in 78.3% of cases and at the L2/L3 level in 3.3%. The highest vertebral level of IMA origin was L2 (4.2%), and the lowest was L4 (7.1%). The distance from the IMA root to the level of the sacral promontory was 99.58 ± 13.07 mm, which increased with the elevation of the IMA root at the spinal level. Of the patients, 53.8% demonstrated Type I IMA, 23.1% Type II, 20.7% Type III, and 2.4% Type IV. The length of the IMA varied from 13.6 to 66.0 mm. 77.3% of the IMAs belonged to Type A, the adjacent type, and 22.7% to Type B, the distant type. Conclusion DECT mono+ can preoperatively evaluate the anatomical characteristics of the IMA and the positional relationship between the LCA and IMV at the IMA root level, which would help clinicians plan individualized surgery for patients. Highlights DECT mono+ optimal energy level can preoperatively determine the position of the IMA root. DECT mono+ can preoperatively evaluate the anatomical characteristics of the IMA. DECT mono+ can preoperatively determine the positional relationship between the LCA and IMV at the IMA root level.

Background Despite significant advances in imaging and endoscopic diagnostic techniques, adequate localization of gastrointestinal bleeding (GIB) can be challenging. Provocative angiography (PROVANGIO) has not been part of the standard diagnostic algorithms yet. We sought to examine the ability of PROVANGIO to identify the bleeding source when conventional radiography fails. Methods Patients undergoing PROVANGIO for GIB during 2008–2014 were retrospectively included. Demographics and periprocedural patient characteristics were recorded. PROVANGIO was performed in a multidisciplinary setting, involving interventional radiology, surgery and anesthesiology teams, ready to intervene in case of uncontrolled bleeding. The procedure included conventional angiography of the celiac, superior and inferior mesenteric arteries (SMA, IMA) followed by a stepwise bleeding provocation with anticoagulating, vasodilating and/or thrombolytic agent administration, combined with angiography. Results Twenty-three PROVANGIO were performed. Patients were predominantly male (15, 65.2%), and hematochezia was the most common presenting symptom (12, 52.2%). Patients with a positive PROVANGIO had lower Charlson comorbidity index (1 vs. 7, p  = 0.009) and were less likely to have a prior history of GIB (14.3% vs. 87.5%, p  = 0.001). PROVANGIO localized bleeding in 7 (30%) patients. In 6 out of 7 patients, the bleeding source was identified in the SMA and, in one case, in the IMA distribution. The bleeding was controlled angiographically in four cases, endoscopically in one case and surgically in the remaining two. No complications related to PROVANGIO were detected. Conclusions In our series, PROVANGIO safely identified the bleeding source, and provided that necessary safeguards are put into place, we recommend incorporating it in the diagnostic algorithms for GIB management.

BackgroundVariations of the vasculature at splenic flexure by left colic artery (LCA) and middle colic artery (MCA) remain ambiguous.ObjectivesThis study aim to investigate the anatomical variations of the branches from LCA and MCA at splenic flexure area.MethodsUsing ultra-thin CT images (0.5-mm thickness), we traced LCA and MCA till their merging site with paracolic marginal arteries through maximum intensity projection (MIP) reconstruction and computed tomography angiography (3D-CTA).ResultsA total of 229 cases were retrospectively enrolled. LCA ascending branch approached upwards till the distal third of the transverse colon in 37.6%, reached the splenic flexure in 37.6%, and reached the lower descending colon in 23.1%, and absent in 1.7% of the cases. Areas supplied by MCA left branch and aMCA were 33.2%, 44.5% and 22.3% in the proximal, middle and distal third of transverse colon of the cases, respectively. The accessory MCA separately originated from the superior mesenteric artery was found in 17.9% of the cases. Mutual correlation was found that, when the LCA ascending branch supplied the distal transverse colon, MCA left branch tended to feed the proximal transverse colon; when the LCA ascending branch supplied the lower part of descending colon, MCA left branch was more likely to feed the distal third of transverse colon.ConclusionsVasculature at splenic flexure by LCA and MCA varied at specific pattern. This study could add more anatomical details for vessel management in surgeries for left-sided colon cancer.