急性肠缺血的多排螺旋CT研究
|
摘要
第一部分肠系膜动脉栓塞致急性肠缺血的多排螺旋CT实验研究
目的评估多排螺旋CT(MDCT)显示实验性、动脉堵塞性急性肠缺血(AMI)的早期征象及其动态演化规律,以期能早期诊断肠缺血。材料和方法12只巴马猪,随机分成四组,每组3只。应用Seldinger技术经股动脉穿刺,行肠系膜上动脉(SMA)造影后用明胶海绵和血凝块栓塞其部分空肠和回肠分支。于术前、术后3h、6h、9h、12h用MDCT进行平扫和增强后动脉、静脉和延迟三期扫描,并用容积再现(VR)、最大强度投影(MIP)和薄层最大强度投影(TSMIP)技术进行肠系膜血管重建。与DSA对比,观察CT血管造影(CTA)显示肠系膜血管正常解剖、SMA栓塞、肠系膜和肠道结构变化,比较栓塞后各时间点的动态变化。结果12只实验猪均显示急性肠缺血病理改变,随时间延长,缺血呈进行性加重。MDCT及CTA能清晰地显示正常猪的肠道和肠系膜血管解剖。CTA显示全部57支栓塞血管,34支未栓塞血管中,CTA显示29支通畅,5支中断,敏感性和特异性分别为100%和85.3%。TSMIP显示栓塞远端梳状分支血管和毛发状密集直血管消失,以此标准,TSMIP正确定性24个栓塞肠段中的23个和全部12个正常肠段,敏感性和特异性分别为95.8%和100%。早期、直接的肠缺血CT征象为:SMA血管中断,栓塞远端梳状或毛刷状密集直血管消失,以及肠段强化减弱,早期、间接的征象为肠腔扩张及积液。结论MDCT及CTA能清晰地显示正常猪的肠道和肠系膜血管解剖,很可靠地诊断模型猪的动脉堵塞性肠缺血,显示肠缺血的早期变化。
第二部分肠系膜静脉结扎致急性肠缺血的多排螺旋CT实验研究
目的评估多排螺旋CT显示实验性、静脉堵塞性急性肠缺血的早期征象及其动态演化规律。材料和方法12只巴马猪,随机分成三个实验组和一个对照组,每组3只。实验组9只猪经剖腹结扎SMV主干远端空肠、回肠和回结肠支,对照组3只猪仅剖腹分离暴露SMV。于术前、术后6h、12h、18h用MDCT进行平扫和增强后动脉、静脉和延迟期三期扫描,并进行肠系膜血管CTA重建。比较手术前后肠系膜血管、肠道、腹腔形态的动态变化,结果与病理对照。结果9只实验猪均显示急性肠缺血病理改变,随时间延长,缺血呈进行性加重。SMV结扎后6h,肠壁充血、水肿、静脉淤张,病变限于粘膜及粘膜下层;12h水肿加重,病变累及全层,肠壁增厚明显;18h出现粘膜弥漫性坏死、脱落、溃疡,肌纤维断裂、纤维素性渗出,肠腔扩张积液,肠壁变薄。MDCTA可准确显示SMV主干、大属支及其远端小分支直至肠壁边缘的直小静脉,显示SMV结扎点的位置。静脉堵塞性肠缺血的早期MDCT改变为肠壁增厚,系膜水肿,腹水,肠壁强化高于正常,SMA痉挛、充盈欠佳、显影延迟和延长,SMV显影淡、延迟;随时间推移,出现肠壁变薄,肠腔扩张、积液,系膜水肿、腹水加重,肠壁强化减弱。结论结扎猪SMV属支可成功地复制人类静脉堵塞性肠缺血。MDCT能清晰显示肠系膜血管解剖、堵塞的静脉、早期肠缺血改变及其动态演化规律,可靠地诊断静脉堵塞性肠缺血。
第三部分多排螺旋CT肠系膜血管造影的技术优化及三维解剖学研究
目的研究多排螺旋CT肠系膜血管造影(MDCTA)的技术优化方案,观测肠系膜血管的三维影像学解剖。方法140例患者根据扫描准直、重建层厚、对比剂浓度、注射速率和延迟时间分成7个研究组,行全腹部MDCT增强扫描,用VR、MIP和TSMIP技术进行肠系膜血管三维重建,对血管边缘的光滑度及分支级别进行评分,比较不同技术参数、重建方法显示血管的能力。观察和测量100例肠系膜血管的空间解剖特征。结果0.6mm准直时,1.0mm层厚重建的动脉CTA像评分最高,但差异无统计学意义;1.0mm和1.5mm层厚重建的静脉CTV像优于0.6mm层厚,差异有统计学意义,以1.0mm层厚最佳。0.6mm准直优于1.2mm准直,但差异无统计意义。370mgI/ml对比剂在显示肠系膜动脉和静脉方面均优于300mgI/ml,差异有统计意义。注射速率4.0ml/s和5.0ml/s显示动脉优于3.0ml/s,差异有统计意义;显示静脉差异无统计意义。静脉期延迟时间以动脉期延后25s最佳。100例肠系膜血管均清晰显示,VR及MIP像整体性好,可显示3~4级分支,前者空间立体感强,TSMIP可显示5~6级分支至肠壁周围血管网。MDCTA可清晰显示肠系膜血管的位置、起源、管径、走向、分布、吻合支及解剖变异。结论最优化方案为:0.6mm准直、1.0mm重建层厚、对比剂浓度370mgI/ml、4.0ml/s以上注射速率、团注测试法确定动脉期时间和静脉期延迟时间为动脉期延后25s。MDCTA能很好的显示肠系膜血管的三维解剖学特征,为临床诊断和治疗提供依据。
第四部分多排螺旋CT肠系膜血管造影在急性肠缺血中的应用
目的探讨多排螺旋CT肠系膜血管造影(MDCT angiography)在急性肠缺血(AMI)中的应用价值。材料和方法43例经临床或手术病理证实的AMI患者行全腹MDCT平扫、0.6mm准直的动脉期和门脉期扫描,采用VR、MIP和TSMIP血管重建技术进行肠系膜动脉和静脉成像,重点观察肠系膜血管的异常表现,并结合肠道和肠系膜异常征象。结果AMI的原因为:SMA栓塞4例、SMA血栓形成6例,SMV血栓形成13例,SMA夹层5例,绞窄性肠梗阻10例,血管炎5例。43例AMI中,17例手术治疗,其中6例见肠坏死作手术切除,其余11例为肠缺血。7例和19例分别经DSA介入和内科保守治疗,24例好转,1例恶化、1例死亡。MDCTA可清晰地显示AMI的血管异常,如血管堵塞、狭窄或夹层的部位、形态、程度和范围;显示血管走向的异常,如聚拢、推移、扭曲或扭转等;并显示侧枝血管。MDCTA可明确导致AMI的原因,如粥样硬化斑块、栓子、血栓形成、夹层、肿瘤血管侵犯、绞窄性肠梗阻和血管炎等。结论MDCT三维血管成像能很好地显示AMI的直接征象,即肠系膜血管的异常,如结合间接征象可在病变早期诊断AMI并明确病因。
PARTⅠMDCT and CTA of Acute Mesenteric Ischemia Induced by Embolization of SMA in an Experimental Porcine Model
Objective To assess the usefulness of multidetector row CT (MDCT) and CT angiography (CTA) for detecting the early sign of acute mesenteric ischemia (AMI) in experimental porcine model. Materials and Methods 12 pigs were assigned to four groups with 3 pigs in each group. The digital subtraction angiography (DSA) of superior mesenteric artery (SMA) and the embolization of branches of SMA were performed using a percutaneous Seldinger technique, with gel foam and blood clot. MDCT pre- and postcontrast with arterial, venous and delay phase scans, and CTA with three-dimentional reconstrations were carried out at preoperation, 3 h, 6 h, 9 h, and 12 h after occlusion. The normal mesenteric vascular anatomy, arterial occlusion, mesentery and bowel changes, and dynamic evolution were evaluated. Results AMI changes were identified pathologically in all 12 experimental pigs, with the severity corresponding to the time of embolization. CTA showed all 57 embolized branches of SMA and 29 of 34 unoccluded arterial branches with 5 false-positive vessel occlusions. Its sensitivity and specificity were 100% and 85.3% respectively. Thin-slab maximum intensity projection (TSMIP) identified the disappearance of distal combed vessel branches and brush vasa recta, which were clearly delineated in normal bowel segment. Using this criterion, TSMIP correctly defined 23 of 24 ischemic bowel segments and all 12 normal bowel segments with 95.8% of sensitivity and 100% specificity. The early direct ischemic signs were occluded vessels, the disappearance of distal combed or brushy vasa recta, and poor bowel enhancement. The early indirect sign was bowel dilatation with fluid. Conclusion MDCT and CTA reliably define normal and occluded mesenteric vessels in the pig. It can easily detecte ischemic bowel segment by identified early changes of ischemia.
PARTⅡMDCT Evaluation of Acute Mesenteric Ischemia Induced by Ligation of SMV in an Experimental Porcine Model
Objective To evaluate MDCT for detecting the early sign and dynamic evolution of AMI induced by occlusion of SMV in experimental porcine model. Materials and Methods 12 pigs were assigned randomly to three experimental groups and one control group with 3 pigs in each group. After performing laparotomy, SMV was separated and ligated in 9 pigs, and separated wothout ligation in 3 control pigs. MDCT pre- and postcontrast with arterial, venous and delay phase scans, and CTA reconstrations of mesenteric vessels were carried out at preoperation, 6 h, 12 h and 18h after ligation. The changes of mesenteric vessels, bowel, abdominal cavity pre-and post-operation, and dynamic evolution were evaluated. The results were compared with those of pathology. Results AMI changes were identified pathologically in all 9 experimental pigs. The congestion, edema and venular engorgement were found limiting to submucosa at 6h, and involving all layers with thicken wall, hemorrhage, and loss of some mucosa at 12h ligation of SMV. Diffuse necrosis, loss, ulcer and hemorrhage of mucosa, degeneration and fragmentation of muscular fibers, and fibrinous effusion, with bowel dilatation, fluid and thinness were seen at 18h. MDCTA clearly delineated main trunk of SMV, peripheral major and minor tributaries up to brushy vasa recta. It correctly identified the location and shape of ligation. The early ischemic findings were bowel wall thickness, mesenteric stranding, ascites and pronounced bowel enhancement. SMA and its major branches appeared spasm which displaying poor filling and delayed and prolonged visualization, and SMV and its tributaries appeared poor and delayed opacification. With time lapse, thinning bowel wall, dilatating bowel with fluid, aggravating edema of mesentery and acites and poor enhanced bowel were identified. Conclusion Human venous occlusive AMI can be duplicated successfully by the ligation of porcine SMV tributaries. MDCT can reliably define normal and occluded mesenteric vessels, detecte early changes mesenteric ischemia and evolution, and diagnosis venous occlusive AMI.
PARTⅢThe Optimization of Parameters and Anatomical Evaluation of Mesenteric Vessels with MDCT Angiography
Objective To optimize the parameters of multidetector row CT (MDCT) angiography in demonstrating mesenteric vessels and investigate the imaging anatomy of mesenteric vessels. Materials and Method One hundred and forty patients with no abnormal alimentary tract were divided into seven groups with 20 cases each, according to the collimation, slice thickness, the concentration of contrast medium, injection rate and delay time. Enhanced MDCT of whole abdomen were performed, and CT angiograms of mesenteric vessels were reconstructed with volume rendering (VR), maximum intensity projection (MIP) and thin-slab maximum intensity projection (TSMIP). The margin and branches of vessels were scored. The parameters and reconstruction techniques were compared. Three-dimensional (3D) anatomical architectures of 100 cases of mesenteric vessels were analyzed. Results At 0.6mm collimation, CT angiography reconstructed with 1.0mm slice thickness had highest scores in demonstrating mesenteric arteries without statistically significant difference among different slice thickness. CT venography with1.0mm slice thickness was superior to 0.6mm and 1.5mm in demonstrating veins, with statistical difference in the former. CT angiography with 0.6mm collimation was better than that with 1.2mm, with no statistical difference. The 370mgI/ml contrast medium was better than 300mgI/ml in delineating mesenteric arteries as well as veins. The injection rate of 4.0ml/s and 5.0ml/s were superior to 3.0ml/s in demonstrating mesenteric arteries but veins. The optimal delay time of venous phase was 25s behind the arterial phase. Mesenteric vessels were well displayed in all 100 cases. The 3th to 4th -order branches of vessels could be identified in VR and MIP images with better whole view, and better 3D view in the former. In contrast, TSMIP could clearly show the 5th to 6th-order branches of vessels including the vasa recta at the margin of bowel. MDCT angiography clearly displayed the location, origin, diameter, direction, distribution, vascular anastomosis and variation of mesenteric vessels. Conclusion The optimal protocol of MDCT angiography for mesenteric vessels is 0.6mm collimation, 1.0mm slice thickness with 0.5mm increment, 370mgI/ml contrast medium at 4.0ml/s or 5.0ml/s injection rate, the delay time of arterial phase decided by test bolus, and venous phase being 25s behind arterial phase. MDCT with 3D reformatting can clearly visualize the anatomical features of mesenteric vessels; thus it is helpful for the early diagnosis and intervention of pancreatic cancer, ischemic or inflammatory bowel diseases.
PARTⅣThe Application of MDCT Angiography of Mesenteric Vessels in Acute Mesenteric Ischemia
Objective To evaluate mesenteeric MDCT angiography in the diagnosis of acute mesenteric ischemia (AMI). Materials and Method 43 cases of AMI proven by clinical criteria, or operation and pathology underwent whole abdomen MDCT precontrast, arterial phase and venous phase with 0.6mm collimation. The mesenteric arteries and veins were reconstructed by using VR, MIP, and TSMIP techniques, and abnormal CT angiography findings as well as abnormal bowel and mesentery were analyzed. Results 43 patients with AMI were resulted from SMA embolism (n=4), SMA thrombosis (n=6), mesenteric and portal venous thrombosis (n=13), SMA dissection (n=5), strangulated bowel obstruction (n=10) and vasculitis (n=5). Among 43 patients with AMI, 17 cases were managed by surgery, with 6 infarctions and 11 ischemias identified. 7 and 19 patients were managed by DSA guided interventional and internal conservative therapy respectively, with improvement in 24 cases, deterioration and death in one case respectively. MDCT angiography showed clearly the position, shape, severity and extent of the vascular occlusion, narrow and dissection. It could also demonstrate the abnormal course and direction of the vessels including vascular gather together, shift, tortuosity, retortion, and twist. Furthermore, the pathogenesis of various conditions leading to AMI including atherosclerotic plaque, emboli, thrombosis, dissection, tumorous invasion, strangulated bowel obstruction and vasculitis could identified by MDCT angiography. Conclusion MDCT angiography can clearly demonstrate the abnormal mesenteric vessels which is the direct sign leading to AMI, and identify AMI and its etiology at early stage, with the combination with its indirect findings.
目的评估多排螺旋CT(MDCT)显示实验性、动脉堵塞性急性肠缺血(AMI)的早期征象及其动态演化规律,以期能早期诊断肠缺血。材料和方法12只巴马猪,随机分成四组,每组3只。应用Seldinger技术经股动脉穿刺,行肠系膜上动脉(SMA)造影后用明胶海绵和血凝块栓塞其部分空肠和回肠分支。于术前、术后3h、6h、9h、12h用MDCT进行平扫和增强后动脉、静脉和延迟三期扫描,并用容积再现(VR)、最大强度投影(MIP)和薄层最大强度投影(TSMIP)技术进行肠系膜血管重建。与DSA对比,观察CT血管造影(CTA)显示肠系膜血管正常解剖、SMA栓塞、肠系膜和肠道结构变化,比较栓塞后各时间点的动态变化。结果12只实验猪均显示急性肠缺血病理改变,随时间延长,缺血呈进行性加重。MDCT及CTA能清晰地显示正常猪的肠道和肠系膜血管解剖。CTA显示全部57支栓塞血管,34支未栓塞血管中,CTA显示29支通畅,5支中断,敏感性和特异性分别为100%和85.3%。TSMIP显示栓塞远端梳状分支血管和毛发状密集直血管消失,以此标准,TSMIP正确定性24个栓塞肠段中的23个和全部12个正常肠段,敏感性和特异性分别为95.8%和100%。早期、直接的肠缺血CT征象为:SMA血管中断,栓塞远端梳状或毛刷状密集直血管消失,以及肠段强化减弱,早期、间接的征象为肠腔扩张及积液。结论MDCT及CTA能清晰地显示正常猪的肠道和肠系膜血管解剖,很可靠地诊断模型猪的动脉堵塞性肠缺血,显示肠缺血的早期变化。
第二部分肠系膜静脉结扎致急性肠缺血的多排螺旋CT实验研究
目的评估多排螺旋CT显示实验性、静脉堵塞性急性肠缺血的早期征象及其动态演化规律。材料和方法12只巴马猪,随机分成三个实验组和一个对照组,每组3只。实验组9只猪经剖腹结扎SMV主干远端空肠、回肠和回结肠支,对照组3只猪仅剖腹分离暴露SMV。于术前、术后6h、12h、18h用MDCT进行平扫和增强后动脉、静脉和延迟期三期扫描,并进行肠系膜血管CTA重建。比较手术前后肠系膜血管、肠道、腹腔形态的动态变化,结果与病理对照。结果9只实验猪均显示急性肠缺血病理改变,随时间延长,缺血呈进行性加重。SMV结扎后6h,肠壁充血、水肿、静脉淤张,病变限于粘膜及粘膜下层;12h水肿加重,病变累及全层,肠壁增厚明显;18h出现粘膜弥漫性坏死、脱落、溃疡,肌纤维断裂、纤维素性渗出,肠腔扩张积液,肠壁变薄。MDCTA可准确显示SMV主干、大属支及其远端小分支直至肠壁边缘的直小静脉,显示SMV结扎点的位置。静脉堵塞性肠缺血的早期MDCT改变为肠壁增厚,系膜水肿,腹水,肠壁强化高于正常,SMA痉挛、充盈欠佳、显影延迟和延长,SMV显影淡、延迟;随时间推移,出现肠壁变薄,肠腔扩张、积液,系膜水肿、腹水加重,肠壁强化减弱。结论结扎猪SMV属支可成功地复制人类静脉堵塞性肠缺血。MDCT能清晰显示肠系膜血管解剖、堵塞的静脉、早期肠缺血改变及其动态演化规律,可靠地诊断静脉堵塞性肠缺血。
第三部分多排螺旋CT肠系膜血管造影的技术优化及三维解剖学研究
目的研究多排螺旋CT肠系膜血管造影(MDCTA)的技术优化方案,观测肠系膜血管的三维影像学解剖。方法140例患者根据扫描准直、重建层厚、对比剂浓度、注射速率和延迟时间分成7个研究组,行全腹部MDCT增强扫描,用VR、MIP和TSMIP技术进行肠系膜血管三维重建,对血管边缘的光滑度及分支级别进行评分,比较不同技术参数、重建方法显示血管的能力。观察和测量100例肠系膜血管的空间解剖特征。结果0.6mm准直时,1.0mm层厚重建的动脉CTA像评分最高,但差异无统计学意义;1.0mm和1.5mm层厚重建的静脉CTV像优于0.6mm层厚,差异有统计学意义,以1.0mm层厚最佳。0.6mm准直优于1.2mm准直,但差异无统计意义。370mgI/ml对比剂在显示肠系膜动脉和静脉方面均优于300mgI/ml,差异有统计意义。注射速率4.0ml/s和5.0ml/s显示动脉优于3.0ml/s,差异有统计意义;显示静脉差异无统计意义。静脉期延迟时间以动脉期延后25s最佳。100例肠系膜血管均清晰显示,VR及MIP像整体性好,可显示3~4级分支,前者空间立体感强,TSMIP可显示5~6级分支至肠壁周围血管网。MDCTA可清晰显示肠系膜血管的位置、起源、管径、走向、分布、吻合支及解剖变异。结论最优化方案为:0.6mm准直、1.0mm重建层厚、对比剂浓度370mgI/ml、4.0ml/s以上注射速率、团注测试法确定动脉期时间和静脉期延迟时间为动脉期延后25s。MDCTA能很好的显示肠系膜血管的三维解剖学特征,为临床诊断和治疗提供依据。
第四部分多排螺旋CT肠系膜血管造影在急性肠缺血中的应用
目的探讨多排螺旋CT肠系膜血管造影(MDCT angiography)在急性肠缺血(AMI)中的应用价值。材料和方法43例经临床或手术病理证实的AMI患者行全腹MDCT平扫、0.6mm准直的动脉期和门脉期扫描,采用VR、MIP和TSMIP血管重建技术进行肠系膜动脉和静脉成像,重点观察肠系膜血管的异常表现,并结合肠道和肠系膜异常征象。结果AMI的原因为:SMA栓塞4例、SMA血栓形成6例,SMV血栓形成13例,SMA夹层5例,绞窄性肠梗阻10例,血管炎5例。43例AMI中,17例手术治疗,其中6例见肠坏死作手术切除,其余11例为肠缺血。7例和19例分别经DSA介入和内科保守治疗,24例好转,1例恶化、1例死亡。MDCTA可清晰地显示AMI的血管异常,如血管堵塞、狭窄或夹层的部位、形态、程度和范围;显示血管走向的异常,如聚拢、推移、扭曲或扭转等;并显示侧枝血管。MDCTA可明确导致AMI的原因,如粥样硬化斑块、栓子、血栓形成、夹层、肿瘤血管侵犯、绞窄性肠梗阻和血管炎等。结论MDCT三维血管成像能很好地显示AMI的直接征象,即肠系膜血管的异常,如结合间接征象可在病变早期诊断AMI并明确病因。
PARTⅠMDCT and CTA of Acute Mesenteric Ischemia Induced by Embolization of SMA in an Experimental Porcine Model
Objective To assess the usefulness of multidetector row CT (MDCT) and CT angiography (CTA) for detecting the early sign of acute mesenteric ischemia (AMI) in experimental porcine model. Materials and Methods 12 pigs were assigned to four groups with 3 pigs in each group. The digital subtraction angiography (DSA) of superior mesenteric artery (SMA) and the embolization of branches of SMA were performed using a percutaneous Seldinger technique, with gel foam and blood clot. MDCT pre- and postcontrast with arterial, venous and delay phase scans, and CTA with three-dimentional reconstrations were carried out at preoperation, 3 h, 6 h, 9 h, and 12 h after occlusion. The normal mesenteric vascular anatomy, arterial occlusion, mesentery and bowel changes, and dynamic evolution were evaluated. Results AMI changes were identified pathologically in all 12 experimental pigs, with the severity corresponding to the time of embolization. CTA showed all 57 embolized branches of SMA and 29 of 34 unoccluded arterial branches with 5 false-positive vessel occlusions. Its sensitivity and specificity were 100% and 85.3% respectively. Thin-slab maximum intensity projection (TSMIP) identified the disappearance of distal combed vessel branches and brush vasa recta, which were clearly delineated in normal bowel segment. Using this criterion, TSMIP correctly defined 23 of 24 ischemic bowel segments and all 12 normal bowel segments with 95.8% of sensitivity and 100% specificity. The early direct ischemic signs were occluded vessels, the disappearance of distal combed or brushy vasa recta, and poor bowel enhancement. The early indirect sign was bowel dilatation with fluid. Conclusion MDCT and CTA reliably define normal and occluded mesenteric vessels in the pig. It can easily detecte ischemic bowel segment by identified early changes of ischemia.
PARTⅡMDCT Evaluation of Acute Mesenteric Ischemia Induced by Ligation of SMV in an Experimental Porcine Model
Objective To evaluate MDCT for detecting the early sign and dynamic evolution of AMI induced by occlusion of SMV in experimental porcine model. Materials and Methods 12 pigs were assigned randomly to three experimental groups and one control group with 3 pigs in each group. After performing laparotomy, SMV was separated and ligated in 9 pigs, and separated wothout ligation in 3 control pigs. MDCT pre- and postcontrast with arterial, venous and delay phase scans, and CTA reconstrations of mesenteric vessels were carried out at preoperation, 6 h, 12 h and 18h after ligation. The changes of mesenteric vessels, bowel, abdominal cavity pre-and post-operation, and dynamic evolution were evaluated. The results were compared with those of pathology. Results AMI changes were identified pathologically in all 9 experimental pigs. The congestion, edema and venular engorgement were found limiting to submucosa at 6h, and involving all layers with thicken wall, hemorrhage, and loss of some mucosa at 12h ligation of SMV. Diffuse necrosis, loss, ulcer and hemorrhage of mucosa, degeneration and fragmentation of muscular fibers, and fibrinous effusion, with bowel dilatation, fluid and thinness were seen at 18h. MDCTA clearly delineated main trunk of SMV, peripheral major and minor tributaries up to brushy vasa recta. It correctly identified the location and shape of ligation. The early ischemic findings were bowel wall thickness, mesenteric stranding, ascites and pronounced bowel enhancement. SMA and its major branches appeared spasm which displaying poor filling and delayed and prolonged visualization, and SMV and its tributaries appeared poor and delayed opacification. With time lapse, thinning bowel wall, dilatating bowel with fluid, aggravating edema of mesentery and acites and poor enhanced bowel were identified. Conclusion Human venous occlusive AMI can be duplicated successfully by the ligation of porcine SMV tributaries. MDCT can reliably define normal and occluded mesenteric vessels, detecte early changes mesenteric ischemia and evolution, and diagnosis venous occlusive AMI.
PARTⅢThe Optimization of Parameters and Anatomical Evaluation of Mesenteric Vessels with MDCT Angiography
Objective To optimize the parameters of multidetector row CT (MDCT) angiography in demonstrating mesenteric vessels and investigate the imaging anatomy of mesenteric vessels. Materials and Method One hundred and forty patients with no abnormal alimentary tract were divided into seven groups with 20 cases each, according to the collimation, slice thickness, the concentration of contrast medium, injection rate and delay time. Enhanced MDCT of whole abdomen were performed, and CT angiograms of mesenteric vessels were reconstructed with volume rendering (VR), maximum intensity projection (MIP) and thin-slab maximum intensity projection (TSMIP). The margin and branches of vessels were scored. The parameters and reconstruction techniques were compared. Three-dimensional (3D) anatomical architectures of 100 cases of mesenteric vessels were analyzed. Results At 0.6mm collimation, CT angiography reconstructed with 1.0mm slice thickness had highest scores in demonstrating mesenteric arteries without statistically significant difference among different slice thickness. CT venography with1.0mm slice thickness was superior to 0.6mm and 1.5mm in demonstrating veins, with statistical difference in the former. CT angiography with 0.6mm collimation was better than that with 1.2mm, with no statistical difference. The 370mgI/ml contrast medium was better than 300mgI/ml in delineating mesenteric arteries as well as veins. The injection rate of 4.0ml/s and 5.0ml/s were superior to 3.0ml/s in demonstrating mesenteric arteries but veins. The optimal delay time of venous phase was 25s behind the arterial phase. Mesenteric vessels were well displayed in all 100 cases. The 3th to 4th -order branches of vessels could be identified in VR and MIP images with better whole view, and better 3D view in the former. In contrast, TSMIP could clearly show the 5th to 6th-order branches of vessels including the vasa recta at the margin of bowel. MDCT angiography clearly displayed the location, origin, diameter, direction, distribution, vascular anastomosis and variation of mesenteric vessels. Conclusion The optimal protocol of MDCT angiography for mesenteric vessels is 0.6mm collimation, 1.0mm slice thickness with 0.5mm increment, 370mgI/ml contrast medium at 4.0ml/s or 5.0ml/s injection rate, the delay time of arterial phase decided by test bolus, and venous phase being 25s behind arterial phase. MDCT with 3D reformatting can clearly visualize the anatomical features of mesenteric vessels; thus it is helpful for the early diagnosis and intervention of pancreatic cancer, ischemic or inflammatory bowel diseases.
PARTⅣThe Application of MDCT Angiography of Mesenteric Vessels in Acute Mesenteric Ischemia
Objective To evaluate mesenteeric MDCT angiography in the diagnosis of acute mesenteric ischemia (AMI). Materials and Method 43 cases of AMI proven by clinical criteria, or operation and pathology underwent whole abdomen MDCT precontrast, arterial phase and venous phase with 0.6mm collimation. The mesenteric arteries and veins were reconstructed by using VR, MIP, and TSMIP techniques, and abnormal CT angiography findings as well as abnormal bowel and mesentery were analyzed. Results 43 patients with AMI were resulted from SMA embolism (n=4), SMA thrombosis (n=6), mesenteric and portal venous thrombosis (n=13), SMA dissection (n=5), strangulated bowel obstruction (n=10) and vasculitis (n=5). Among 43 patients with AMI, 17 cases were managed by surgery, with 6 infarctions and 11 ischemias identified. 7 and 19 patients were managed by DSA guided interventional and internal conservative therapy respectively, with improvement in 24 cases, deterioration and death in one case respectively. MDCT angiography showed clearly the position, shape, severity and extent of the vascular occlusion, narrow and dissection. It could also demonstrate the abnormal course and direction of the vessels including vascular gather together, shift, tortuosity, retortion, and twist. Furthermore, the pathogenesis of various conditions leading to AMI including atherosclerotic plaque, emboli, thrombosis, dissection, tumorous invasion, strangulated bowel obstruction and vasculitis could identified by MDCT angiography. Conclusion MDCT angiography can clearly demonstrate the abnormal mesenteric vessels which is the direct sign leading to AMI, and identify AMI and its etiology at early stage, with the combination with its indirect findings.
引文
[1] Brandt LJ, Boley SJ. AGA technical review on intestinal ischemia [J]. Gastroenterology, 2000,118(5): 954-968.
[2] Ruotolo RA, Evans SRT. Mesenteric ischemia in the elderly [J]. Gastroenterology, 1999,15(3): 527-557.
[3] Levine JS, Jacobson ED. Intestinal ischemic disorders [J]. Dig Dis, 1995,13(1): 3-24.
[4] Inderbitzi R, Wagner HE, Seiler C, et al. Acute mesenteric ischemia [J]. Eur J Surg, 1992, 158(2): 123-126.
[5] Jrven 0, Laurika J, Salenius JP, et al. Acute intestinal ischemia: a review of 214 cases [J]. Ann Chir Gynaecol, 1994, 83(1): 22-25.
[6] McKinsey JF, Gewertz BL. Acute mesenteric ischemia [J]. Surg Clin North Am, 1997, 77(2): 307-318.
[7] Heys SD, Brittenden J, Crofts TJ. Acute mesenteric ischemia: the continuing difficulty in early diagnosis [J]. Postgrad Med J, 1993, 69(807): 48-51.
[8] Wiesner W, Khurana B, Ji H, et al. CT of acute bowel ischemia [J]. Radiology, 2003,226(3): 635-650.
[9] Balthazar EJ, Liebeskind ME, Macari M. Intestinal ischemia in patients in whom small bowel obstruction is suspected: evaluation of accuracy, limitations, and clinical implications of CT in diagnosis [J]. Radiology, 1997,205(2): 519-522.
[10] Sheedy SP, Earnest IV F, Fletcher JG, et al. CT of small-bowel ischemia associated with obstruction in emergency department patients: diagnostic performance evaluation [J]. Radiology, 2006, 241(3): 729-736.
[11] Lock G. Acute mesenteric ischemia: classification, evaluation and therapy [J]. Acta Gastroenterol Bleg, 2002, 65(4): 220-225.
[12] Oldenburg WA, Lau LL, Rodenberg TJ, et al. Acute mesenteric ischemia: a clinical review [J]. Arch Intern Med, 2004,164(10): 1054-1062
[13] Reinus JF, Brandt LJ, Boley SJ. Ischemic diseases of the bowel [J]. Gastroenterol Clin North Am, 1990, 19(2):319-343.
[14] Shih MP, Hagspiel KD. CTA and MRA in mesenteric ischemia: part I, role in diagnosis and differential diagnosis [J]. Am J Roentgenol, 2007, 188(2): 452-461.
[15] Batellier J, Kieny R. Superior mesenteric artery embolism: eighty-two cases [J]. Ann Vasc Surg ,1990, 4(2): 112-116.
[16]Taourel PG,Deneuville M,Pradel JA,et al.Acute mesenteric ischemia:diagnosis with contrast-enhanced CT[J].Radiology,1996,199(3):632-636.
[17]Horton KM,Corl FM,Fishman EK.CT evaluation of the colon:inflammatory disease[J].RadioGraphics,2000,20(2):399-418.
[18]Horton KM,Corl FM,Fishman EK.CT of nonneoplastic diseases of the small bowel:spectrum of disease[J].J Comput Assist Tomogr,1999,23(3):417-428.
[19]Horton KM,Fishman EK.Multi-detector row CT of mesenteric ischemia:can it be done?[J]RadioGraphics,2001,21(6):1463-1473.
[20]Cademartiri F,Raaijmakers RHJM,Kuiper JW,et al.Multi-detector row CT angiography in patients with abdominal angina[J].RadioGraphics,2004,24(4):969-984.
[21]Kirkpatrick ID,Kroeker MA,Greenberg HM.Biphasic CT with mesenteric CT angiography in the evaluation of acute mesenteric ischemia:initial experience[J].Radiology,2003,229(1):91-98.
[22]Horgan PG,Gorey TF.Operative assessment of intestinal viability[J].Surg Clin North Am,1992,72(1):143-155.
[23]Alpern MB,Glazer G,Francis IR.Ischemic or infarcted bowel:CT findings[J].Radiology,1988,166(1 Pt 1):149-152.
[24]Klein HM,Lensing R,Klosterhalfen B,et al.Diagnostic imaging of mesenteric infarction[J].Radiology,1995,197(1):79-82.
[25]Horton KM,Fishman EK.Volume-render 3D CT of the mesenteric vasculature:normal anatomy,anatomic variants,and pathologic conditions[J].RadioGraphics,2002(1),22:161-172.
[26]Aschoff AJ,Stuber G,Becker BW,et al.Evaluation of acute mesenteric ischemia:accuracy of biphasic mesenteric multi-detector CT angiography[J].Abdom Imaging,2008 Apr 19.[Epub ahead of print]
[27]Park A,Towner RA,Langer JC.Diagnosis of intestinal ischemia in the rat using magnetic resonance imaging[J].J Invest Surg,1993,6(2):177-183.
[28]张小明,杨汉丰,黄小华,等.螺旋CT多期扫描判断闭袢性肠梗阻肠壁缺血的实验研究[J].中华放射学杂志,2005,39(7):755-760.
[29]Kaufman A J,Tarr RW,Holburn GE,et al.Magnetic Resonance Imaging of ischemic bowel in rabbit model[J].Invest Radiol,1988,23(2):93-97.
[30] Kim WY, Kim IO, Kim WS, et al. Sonographic findings in a model of ischemia-induced necrotizing enterocolitis with pathological correlations [J]. Invest Radiol, 2007,42(5): 312-318.
[31] Noer RJ, Derr JW, Johnston CG. The circulation of the small intestine: an evaluation of its revascularizing potential [J]. Ann Surg, 1949,130(4): 608-621.
[32] Rosow DE, Sohani D, Strobel O, et al. Imaging of acute mesenteric ischemia using multidetector CT and CT angiography in a porcine model [J]. J Gastrointest Surg, 2005, 9(9): 1262-1275.
[33] Klein HM, Klosterhailfen B, Kinzel S, et al. CT and MRI of experimentally induced mesenteric ischemia in a porcine model [J]. J Comput Assist Tomogr, 1996, 20(2): 254-261.
[34] Seidel SA, Bradshaw LA, LadipoJK, et al. Noninvasive detection of ischemic bowel [J]. J Vasc Surg, 1999, 30(2): 309-319.
[35] Kim MY, Suh CH, Kim ST, et al. Magnetic Resonance Imaging of bowel ischemia induced by ligation of superior mesenteric artery and vein in a cat model [J]. Abdom Imaging, 2004, 28(2): 187-192.
[36] Noldge G, Grosser G, Kauffmann GW, et al. Angiographic changes after selective and superselective embolization of branches of superior mesenteric artery in the small bowel of the dog [J]. Hepatogastroenterology, 1982, 29(5): 209-212.
[37] Haglund U, Bergqvist D. Intestinal ischemia: the basics [J]. Langenbecks Arch Surg, 1999; 384(3): 233-238.
[38] Longo WE, Ballantyne GH, Gusberg RJ. Ischemic colitis: patterns and prognosis [J]. Dis Colon Rectum, 1992, 35(8): 726-730.
[39] Mitudo S, Brandt LJ. Pathology of intestinal ischemia [J]. Surg Clin North Am, 1992, 72(1): 43-63.
[40] Desai RK, Tagliabue JR, Wegryn SA, et al. Computed tomographic evaluation of wall thickening in the alimentary tract [J]. RadioGraphics, 1991, 11(5):771-783.
[41] Zalcman M, Sy M, Donckier V, et al. Helical CT signs in the diagnosis of intestinal ischemia in small-bowel obstruction [J]. Am J Roentgenol, 2000, 175(6): 1601-1607.
[42] Chou. CT manifestrations of bowel ischemia [J]. Am J Roentgenol, 2002, 178(1): 87-91.
[43] Salzano A, De Rosa A, Carbone M, et al. Computerized tomography features of intestinal infarction: 56 surgically treated patients of which 5 with reversible mesenteric ischemia [J]. Radiol Med (Torino), 1999, 97(4): 246-250.
[44] Balthazar EJ, Yen BC, Gordon RB. Ischemic colitis: CT evaluation of 54 cases [J]. Radiology, 1999, 211(2): 381-388.
[45] Feczko PJ, Mezwa DG, Farah MC, et al. Clinical significance of pneumatosis of the bowel wall [J]. RadioGraphics, 1992, 12(6): 1069-1078.
[46] Rhee RY, Gloviczki P, Mendonca CT, et al. Mesenteric venous thrombosis: still a lethal disease in the 1990s [J]. J Vasc Surg, 1994, 20(5): 688-697.
[47] Morasch MD, Ebaugh JL, Chiou AC, et al. Mesenteric venous thrombosis: a changing clinical entity [J]. J Vasc Surg, 2001, 34(4): 680-684.
[48] Grieshop RJ, Dalsing MC, Cikrit DF, et al. Acute mesenteric venous thrombosis. Revisited in a time of diagnostic clarity [J]. Am Surg, 1991, 57(9): 573-578.
[49] Acosta S, Alhadad A, Svensson P, et al. Epidemiology, risk and prognostic factors in mesenteric venous thrombosis [J]. Br J Surg, 2008 ,95(10): 1245-1251.
[50] Acosta S, Ogren M, Sternby NH, et al. Mesenteric venous thrombosis with transmural intestinal infarction: a population based study [J]. J Vasc Surg, 2005, 41(1): 59-63.
[51] Warshauer DM, Lee JKT, Mauro MA, et al. Superior mesenteric vein thrombosis with radiologically occult cause. A retrospective study os 43 cases [J]. Am J Roentgenol, 2001, 177(4): 837-841.
[52] Bradbury MS, Kavanagh PV, Regan RE, et al. Mesenteric venous thrombosis: diagnosis and noninvasive imaging [J]. RadioGraphics, 2002,22(3): 527-541.
[53] Kreft BK, Strunk H, Flacke S, et al. Detection of thrombosis in the portal venous system: comparison of contrast-enhanced MR angiography with intraarterial digital subtraction angiography [J]. Radiology, 2000,216(1): 86-92.
[54] Bradbury MS, Kavanagh PV, Chen MY, et al. Noninvasive assessment of portomesenteric venous thrombosis: current concepts and imaging strategies [J]. J Comput Assist Tomogr, 2002, 26(3): 392-404.
[55] Wildermuth S, Leschka S, Alkadhi H, et al. Multislice CT in the pre and post interventional evaluation of mesenteric perfusion [J]. Eur Radiol, 2005,15(6):1203-1210.
[56] Zhang J, Duan ZQ, Song QB, et al. Acute mesenteric venous thrombosis: a better outcome achieved through improved imaging techniques and a changed policy of clinical management [J]. Eur J Vasc Endovsc Surg, 2004,28(3): 329-334.
[57] Kumar S, Kamath PS. Acute superior mesenteric venous thrombosis: one disease or two? [J] Am J Gastroenterol, 2003, 98(6): 1299-1304.
[58] Polk HC. Experimental mesenteric venous occlusion III: diagnosis and treatment of induced mesenteric venous thrombosis [J]. Ann Surg, 1966, 163(3): 432-444.
[59] Friedenberg MJ, Polk HC, McAlister WH, et al. Superior mesenteric arteriography in experimental mesenteric venous thrombosis [J]. Radiology, 1965, 85: 38-45.
[60] Jackson BB. Venous occlusion of the terminal ileum: an experimental study [J]. Surgery, 1961,50:322-327.
[61] Boley SJ, Kaleya RN, Brandt LJ. Mesenteric venous thrombosis [J]. Surg Clin North Am, 1992, 72(1): 183-201.
[62] Kim JY, Ha HK, Byun JY, et al. Intestinal infarction secondary to mesenteric venous thrombosis: CT-pathologic correlation [J]. J Comput Assist Tomogr, 1993, 17(3): 382-385.
[63] Grassi R, Di Mizio R, Pinto A, et al. Serial plain abdominal film findings in the assessment of acute abdomen: apastic ileus, hypotonic ileus, mechanical ileus and paralytic ileus [J]. Radiol Med, 2004,108(1-2): 56-70.
[64] Romano S, Lassandro F, Scaglione M, et al. Ischemia and infarction of the small bowel and colon: spectrum of imaging findings [J]. Abdom Imaging, 2006, 31(3): 277-292
[65] Chow CK, Mak CW, Tzeng WS, et al. CT of small bowel ischemia [J]. Abdom Imaging, 2004,29(1): 18-22.
[66] Grendell JH, Ockner PK. Mesenteric venous thrombosis [J]. Gastroenterology, 1982, 82(2): 358-372.
[67] Clark RA, Gallant TE. Acute mesenteric ischemia: angiographic spectrum [J]. Am J Roentgenol, 1984, 142(3): 555-562.
[68] Kumar S, Sarr MG, Kamath PS. Mesenteric venous thrombosis [J]. N Engl J Med, 2001, 345(23): 1683-1688.
[69] Laissy JP, Trillaud H, Douek P. MR angiography: noninvasive vascular imaging of the abdomen [J]. Abdom Imaging, 2002, 27(5): 488-506.
[70]Harward TR,Green D,Bergan JJ,et al.Mesenteric venous thrombosis[J].J Vasc Surg,1989,9(2):328-333.
[71]Vogelzang RL,Gore RM,Anschuetz SL,et al.Thrombosis of the splanchnic veins:CT diagnosis[J].Am J Roentgenol,1988,150(1):93-96.
[72]Rydberg J,Buckwalter KA,Caldemeyer KS,et al.Multisection CT:scanning techniques and clinical applications[J].RadioGraphics,2000,20(6):1787-1806.
[73]Hu H,He HD,Foley WD,et al.Four multidetector-row helical CT:image quality and volume coverage speed[J].Radiology,2000,215(1):55-62.
[74]Anderson SW,Soto JA,Lucey BC,et al.Blunt trauma:feasibility and clinical utility of pelvic CT angiography performed with 64-detector row CT[J].Radiology,2008;246(2):410-419.
[75]Rybicki FJ,Otero HJ,Steigner ML,Initial evaluation of coronary images from 320-detector row computed tomography[J].Int J Cardiovasc Imaging,2008,24(5):535-546.
[76]Horton KM,Fishman EK.Multidetector row and 3D CT of the mesenteric vasculature:normal anatomy and pathology[J].Seminars Ultrasound CT MR,2003,24(5):353-363.
[77]Okino Y,Kiyosue H,Mori H,et al.Root of the small-bowel mesentery:correlative anatomy and CT features of pathologic conditions[J].Radiographics,2001,21(6):1475-1490.
[78]Chou CK,Mak CW,Hou CC,et al.CT of the mesenteric vascular anatomy[J].Abdom Imaging,1997,22(5):477-482.
[79]Zerin JM,DiPietro MA.Mesenteric vascular anatomy at CT:normal and abnormal appearances[J].Radiology,1991,179(3):739-742.
[80]Iannaccone R,Laghi A,Passariello R.Multislice CT angiography of mesenteric vessels[J].Abdom Imaging,2004,29(2):146-152.
[81]Akpinar E,Turkbey B,Karcaaltincaba M,et al.MDCT of inferior mesenteric vein:normal anatomy and pathology[J].Clin Radiol,2008,63(7):819-823.
[82]Kim HJ,Ko YT,Lim JW,et al.Radiologic anatomy of the superior mesenteric vein and branching patterns of the first jejunal trunk:evaluation using multi-detector row CT venography[J].Surg Radiol Anat,2007,29(1):67-75.
[83]赵英林,胡滨成.选择性腹腔动脉、肠系膜上动脉、肾动脉及肠系膜下动脉造影的局部解剖学研究[J].局解手术学杂志,1997,6(3):10-12.
[84]Kock MC,Adriaensen ME,Pattynama PM,et al.DSA versus multi-detector row CT angiography in peripheral arterial disease:randomized controlled trial[J].Radiology,2005,237(2):727-737.
[85]Tanikake M,Shimizu T,Narabayashi Ⅰ,et al.Three-dimensional CT angiography of the hepatic artery:use of multi-detector row helical CT and a contrast agent[J].Radiology,2003,227(3):883-889.
[86]Lell MM,Anders K,Uder M,et al.New techniques in CT angiography[J].Radiographics,2006,26 Suppl 1:45-63.
[87]张燕,金征宇,张竹花,等.多层螺旋CT对周围肺动脉显示能力的研究[J].临床放射学杂志,2005,24(10):879-884.
[88]陈海松,柳澄,刘学静,等.64层CT下肢动脉成像技术研究[J].实用放射学杂志,2006,22(9):1137-1140.
[89]舒健,张小明,黄小华,等.肠系膜上动脉多层螺旋CT血管成像研究[J].中国医学计算机成像杂志,2005,11(2):110-114.
[90]王虎,钟震亚,王庆林.回结肠动脉的观测[J].局解手术学杂志,2003,12(4):262-263
[91]Konen E,Amitai M,Apter S,et al.CT angiography of superior mesenteric artery syndrome[J].Am J Roentgenol,1998,171(5):1279-1281.
[92]Ozkurt H,Cenker MM,Bas N,et al.Measurement of the distance and angle between the aorta and superior mesenteric artery:normal values in different BMI categories[J].Surg Radiol Anat,2007,29(7):595-599.
[93]Ahmed K,Sampath R,Khan MS.Current trends in the diagnosis and management of renal nutcracker syndrome:a review[J].Eur J Vasc Endovasc Surg,2006,31(4):410-416.
[94]符伟军,洪宝发,肖越勇,等.胡桃夹现象的多层螺旋CT血管成像诊断[J],军医进修学院学报,2006,27(1):33-34.
[95]王茂强,刘凤永,段峰,等.慢性肠系膜动脉阻塞性疾病[J].中华老年医学杂志,2007,26(4):335-337.
[96]Song SY,Chung JW,Kwon JW,et al.Collateral pathways in patients with celiac axis stenosis:angiographic-spiral CT correlation[J].RadioGraphic,2002,22(4):881-893.
[97]Cognet F,Ben Salem D,Dranssart M,et al.Chronic mesenteric ischemia:imaging and percutaneous treatment[J].RadioGraphics,2002,22(4):863-879.
[98] Graf 0, Boland GW, Kaufman JA, et al. Anatomic variants of mesenteric veins: depiction with helical CT venography [J]. Am J Roentgenol, 1997, 168(5): 1209-1213.
[99] Zissin R, Rathaus V, Oscadchy A, et al. Intestinal malrotation as an incidental finding on CT in adults [J]. Abdom Imaging, 1999, 24(6): 550-555.
[100]Yamaguchi S, Kuroyanagi H, Milsom JW, et al. Venous anatomy of the right colon: precise structure of the major veins and gastrocolic trunk in 58 cadavers [J]. Dis Colon Rectum, 2002, 45(10): 1337-1340.
[101] Jin G, Tuo H, Sugiyama M, et al. Anatomic study of the superior right colic vein: its relevance to pancreatic and colonic surgery [J]. Am J Surg, 2006,191(1): 100-103.
[102] Mori H, McGrath FP, Malone DE, et al. The gastrocolic trunk and its tributaries: CT evaluation [J]. Radiology, 1992, 182(3): 871-877.
[103]ChenSJ. 肠系膜上静脉外科干的解剖测量[J]. 中华外科杂志, 1982, 20(4): 227-229.
[104]Ibukuro K, Ishii R, Fukuda H, et al. Collateral venous pathways in the transverse mesocolon and greater omentum in patients with pancreatic disease [J]. Am J Roentgenol, 2004,182(5): 1187-1193.
[105]Horton KM, Fishman EK. Multidetector CT angiography of pancreatic carcinoma: part 2, evaluation of venous involvement [J]. Am J Roentgenol, 2002, 178(4): 833-836.
[106]Horton KM, Fishman EK.Multidetector CT angiography of pancreatic carcinoma: part 1, evaluation of arterial involvement [J]. Am J Roentgenol, 2002, 178(4): 827-831.
[107]Lu DS, Reber HA, Krasny RM, et al. Local staging of pancreatic cancer: criteria for unresectability of major vessels as revealed by pancreatic-phase, thin-section helical CT [J]. Am J Roentgenol, 1997, 168(6): 1439-1443.
[108]Raptopoulos V, Steer ML, Sheiman RG, et al. The use of helical CT and CT angiography to predict vascular involvement from pancreatic cancer: correlation with findings at surgery [J]. Am J Roentgenol, 1997, 168(4): 971-977.
[109]Kawamoto S, Lawler LP, Horton KM, et al. MDCT of intraductal papillary mucinous neoplasm of the pancreas: evaluation of features predictive of invasivecarcinoma [J]. Am J Roentgenol, 2006, 186(3): 687-695.
[110]Zamboni GA,Kruskal JB,Vollmer CM,et al.Pancreatic adenocarcinoma:value of multidetector CT angiography in preoperative evaluation[J].Radiology,2007,245(3):770-778.
[111]Brennan DD,Zamboni G,Sosna J,et al.Virtual Whipple:preoperative surgical planning with volume-rendered MDCT images to identify arterial variants relevant to the Whipple procedure[J].Am J Roentgenol,2007,188(5):W451-W455.
[112]Madureira AJ.The comb sign[J].Radiology,2004,230(3):783-784.
[113]陈明,李选,谢敬霞.急性肠缺血的多层螺旋CT评价[J].中国医学科学院学报,2006,28(1):80-83.
[114]Brofman N,Atri M,Hanson JM,et al.Evaluation of bowel and mesenteric blunt trauma with multidetector CT[J].Radiographics,2006,26(4):1119-1131.
[115]Pereira JM,Sirlin CB,Pinto PS,et al.Disproportionate fat stranding:a helpful CT sign in patients with acute abdominal pain[J].Radiographics,2004,24(3):703-715.
[116]Saba L,Mallarini G..Computed tomographic imaging findings of bowel ischemia[J].J Comput Assist Tomogr,2008,32(3):329-340.
[117]Segallo E,Mortele KJ,Ji H,et al.Acute small bowel ischemia:CT imaging findings[J].Seminars Ultrasound CT MR,2003,24(5):364-376.
[118]Orihashi K,Sueda T,Okada K,et al.Perioperative diagnosis of mesenteric ischemia in acute aortic dissection by transesophageal echocardiography[J].Eur J Cardiothorac Surg,2005,28(6):871-876.
[119]Vignati PV,Welch JP,Ellison L,et al.Acute mesenteric ischemia caused by isolated superior mesenteric artery dissection[J].J Vasc Surg,1992,16(1):109-112.
[120]Suzuki S,Furui S,Kohtake H,et al.Isolated dissection of the superior mesenteric artery:CT findings in six cases[J].Abdom Imaging,2004,29(2):153-157.
[121]Kim AY,Ha HK.Evaluation of suspected mesenteric ischemia.Efficacy of radiologic studies[J].Radiol Clin N Am,2003,41(2):327-342.
[122]Rha SE,Ha HK,Lee SH,et al.CT and MR imaging findings of bowel ischemia from various primary causes[J].RadioGraphics,2000,20(1):29-42.
[123]Frager D,Baer JW,Medwid SW,et al.Detection of intestinal ischemia in patients with acute small-bowel obstruction due to adhesions or hernia:efficacy of CT [J].Am J Roentgenol,1996,166(1):67-71.
[124]Matolo NW,Albo D Jr.Gastrointestinal complications of collagen vascular diseases:surgical implications.Am J Surg,1971,122(5):678-682
[125]Ha HK,Lee SH,Rha SE,et al.Radiologic features of vasculitis involving the gastrointestinal tract.RadioGraphics,2000,20(3):779-794.
[126]Kim JK,Ha HK,Byun JY,et al.CT differentiation of mesenteric ischemia due to vasculitis and thromboembolic Disease.J Comput Assist Tomogr.2001,25(4):604-611
[127]Byun JY,Ha HK,Yu SY,et al.CT features of systemic lupus erythematosus in patients with acute abdominal pain:emphasis on ischemic bowel disease.Radiology,1999,211(1):203-209.
[128]宋彬,徐隽,罗小华,等.以急性腹痛为主要表现的SLE缺血性肠病的螺旋CT征象[J].中国医学影像技术,2004,20(9):1396-1399.
[129]Acosta S,Ogren M,Sternby NH,et al.Fatal nonocclusive mesenteric ischaemia:population-based incidence and risk factors[J].J Intern Med,2006,259(3):305-313.
[130]Mirvis SE,Shanmuganathan K,Erb R.Diffuse small-bowel ischemia in hypotensive adults after blunt trauma(shock bowel):CT findings and clinical significance[J].Am J Roentgenol,1994,163(6):1375-1379.
[131]Yamada Y,Nishimura S,Inoue T,et al.Anorexia nervosa with ischemic necrosis of the segmental ileum and cecum[J].Intern Med,2000,40(4):304-307.
[132]Bozlar U,Turba UC,Hagspiel KD.Nonocclusive mesenteric ischemia:findings at multidetector CT angiography[J].J Vasc Interv Radiol,2007,18(10):1331-1333.
[133]Mitsuyoshi A,Obama K,Shinkura N,et al.Surival in nonocclusive mesenteric ischemia:early diagnosis by multidetector row computed tomography and early treatment with continuous intravenous high-dose prostaglandin E_1[J].Ann Surg,2007,246(2):229-235.
[134]Trompeter M,Brazda T,Remy CT,et al.Non-occlusive mesenteric ischemia:etiology,diagnosis,and interventional therapy[J].Eur Radiol,2002,12(5):1179-1187.
[1]Brandt L J,Boley SJ.AGA technical review on intestinal ischemia[J].Gastroenterology,2000,118(5):954-968.
[2]Ruotolo RA,Evans SRT.Mesenteric ischemia in the elderly[J].Gastroenterology,1999,15(3):527-557.
[3]Levine JS,Jacobson ED.Intestinal ischemic disorders[J].Dig Dis,1995,13(1):3-24.
[4]Inderbitzi R,Wagner HE,Seiler C,Stirnemann P,Gertsch P.Acute mesenteric ischemia[J].EurJ Surg,1992,158(2):123-126.
[5]Jrven O,Laurika J,Salenius JP,et al.Acute intestinal ischemia:a review of 214cases[J].Ann Chir Gynaecol,1994,83(1):22-25.
[6]McKinsey JF,Gewertz BL.Acute mesenteric ischemia[J].Surg Clin North Am,1997,77(2):307-318.
[7]Heys SD,Brittenden J,Crofts TJ.Acute mesenteric ischemia:the continuing difficulty in early diagnosis[J].Postgrad Med J,1993,69(807):48-51.
[8]Wiesner W,Khurana B,Ji H,et al.CT of acute bowel ischemia[J].Radiology,2003,226(3):635-650.
[9]Kirkpatrick ID,Kroeker MA,Greenberg HM.Biphasic CT with mesenteric CT angiography in the evaluation of acute mesenteric ischemia:initial experience[J].Radiology,2003,229(1):91-98.
[10]Bradbury AW,Brittenden J,McBride K,et al.Mesenteric ischemia:a multidisciplinary approach[J].Br J Surg,1995,82(11):1446-1459.
[11]Newman TS,Magnuson TH,Ahrendt SA,et al.The changing faces of mesenteric infarction[J].Am Surg,1998,64(7):611-616.
[12]Cogent F,Salem DB,Dranssart M,et al.Chronic Mesenteric Ischemia:imaging and percutaneous treatment[J].RadioGraphic,2002,22(4):863-880.
[13]Rosenblum JD,Boyle CM,Schwartz LB.The mesenteric circulation:anatomy and physiology[J].Surg Clin North Am 1997;77:289-306.
[14]Kornblith PL,Boley SJ,Whitehouse BS.Anatomy of the splanchnic circulation [J].Surg Clin North Am,1992,72(1):1-30
[15] Geboes K, Geboes KP, Maleux G. Vascular anatomy of the gastrointestinal tract [J]. Baillieres Best Pract Res Clin Gastroenterol, 2001, 15(1): 1-14.
[16] Michels NA, Siddharth P, Kornblith PL, et al. Routes of collateral circulation of the gastrointestinal tract as ascertained in a dissection of 500 bodies [J]. Int Surg, 1968,49(1): 8-28.
[17] Fisher DF, Fry WJ. Collateral mesenteric circulation [J]. Surg Gynecol Obstet, 1987, 164(5): 487-492.
[18] Horton KM, Fishman EK. Volume-render 3D CT of the mesenteric vasculature: normal anatomy, anatomic variants, and pathologic conditions [J]. RadioGraphics, 2002,22(1): 161-172.
[19] Gallavan RH, Jr, Parks DA, Jacobson ED. Pathophysiology of the gastrointestinal circulation. In: Schulz S, Woods J, eds. Handbook of physiology: the gastrointestinal system [M]. Bethesda, Md: American Physiological Society, 1989, 1713-1732.
[20] Quamar MI, Read AE. Intestinal blood flow [J]. Q J Med, 1985, 56(220): 417-419.
[21] Matthews JG, Parks TG. Ischaemic colitis in the experimental animal. I. Comparison of the effects of acute and subacute vascular occlusion [J]. Gut, 1976, 17(9): 671-676.
[22] Matthews JG, Parks TG. Ischaemic colitis in the experimental animal. II. Role of hypovolaemia in the production of the disease [J]. Gut, 1976,17(9): 677-684.
[23] Haglund U, Bergqvist D. Intestinal ischemia: the basics [J]. Langenbecks Arch Surg, 1999, 384(3): 233-238.
[24] Longo WE, Ballantyne GH, Gusberg RJ. Ischemic colitis: patterns and prognosis [J]. Dis Colon Rectum, 1992, 35(8): 726-730.
[25] Chou. CT manifestrations of bowel ischemia [J]. Am J Roentgenol, 2002, 178(1): 87-91.
[26] Taourel PG, Deneuville M, Pradel JA, et al. Acute mesenteric ischemia: diagnosis with contrast-enhanced CT [J]. Radiology, 1996, 199(3): 632-636.
[27] Bradbury AW, Murie JA. Ruckley CV. Role of the leucocyte in the pathogenesis of vascular disease [J].Br J Surg, 1993,80(12): 1503-1512.
[28] Turnage RH, Guice KS, Oldham KT. Endotoxinaemia and remote organ injury following intestinal reperfusion [J]. J Surg Res, 1994, 56(6): 571-578.
[29] Bibbo C, Petschenik AJ, Reddell MT, et al. Bacterial translocation after mesenteric ligation in dogs [J]. J Invest Surg, 1996, 9(4): 293-303.
[30] Weixiong H, Aneman A, Nilsson U, et al. Quantification of tissue damage in the feline small intestine during ischaemia-reperfusion: the importance of free radicals [J]. Acta Physiol Scand, 1994, 150(3): 241-250.
[31] Fontes B, Moore FA, Moore EE, et al. Gut ischemia indices bone marrow failure and increases risk of infection [J]. J Surg Res, 1994, 57(4): 505-509.
[32] Harward TR, Brooks DL, Flynn TC, Seeger JM. Multiple organ dysfunction after mesenteric artery revascularization [J]. J Vase Surg, 1993, 18(3): 459-467.
[33] Landow L, Andersen LW. Splanchnic ischemia and its role in multiple organ failure [J]. Acta Anaesthesiol Scand, 1994, 38(7): 626-639.
[34] Lock G. Acute mesenteric ischemia: classification, evaluation and therapy [J]. Acta Gastroenterol Bleg, 2002, 65(4): 220-225.
[35] Oldenburg WA, Lau LL, Rodenberg TJ, et al. Acute mesenteric ischemia: a clinical review [J]. Arch Intern Med, 2004, 164(10): 1054-1062.
[36] Reinus JF, Brandt LJ, Boley SJ. Ischemic diseases of the bowel [J]. Gastroenterol Clin North Am, 1990, 19(2): 319-343.
[37] Shih MP, Hagspiel KD. CTA and MRA in mesenteric ischemia: part I, role in diagnosis and differential diagnosis [J]. Am J Roentgenol, 2007, 188(2): 452-461.
[38] Batellier J, Kieny R. Superior mesenteric artery embolism: eighty-two cases [J]. Ann Vasc Surg, 1990,4(2): 112-116.
[39] Moolenaar W, Lamers CB. Cholesterol crystal embolisation to the alimentary tract [J]. Gut, 1996, 38(2): 196-200.
[40] Matolo NW, Albo D Jr. Gastrointestinal complications of collagen vascular diseases: surgical implications [J]. Am J Surg, 1971,122(5): 678-682.
[41] Kim JK, Ha HK, Byun JY, et al. CT differentiation of mesenteric ischemia due to vasculitis and thromboembolic Disease [J]. J Comput Assist Tomogr, 2001, 25(4): 604-611.
[42] Kushik S, Federle MP, Schur PH, et al. Abdominal thrombotic and ischemic manifestations of the antiphospholipid antibody syndrome: CT findings in 42 patients [J]. Radiology, 2001, 218(3): 768-771.
[43] Byun JY, Ha HK, Yu SY, et al. CT features of systemic lupus erythematosus in patients with acute abdominal pain: emphasis on ischemic bowel disease [J]. Radiology, 1999, 211(1): 203-209.
[44] Ha HK, Lee SH, Rha SE, et al. Radiologic features of vasculitis involving the gastrointestinal tract [J]. RadioGraphics, 2000, 20(3): 779-794.
[45] Trinh TD, Jones B, Fishman EK. Amyloidosis of the colon presenting as ischemic colitis: a case report and review of the literature [J]. Gastrointest Radiol, 1991,16(2): 133-136.
[46] Johnson JS, Short AK, Hutchison A, et al. Small intestinal infarction: a fatal complication of systemic oxalosis [J]. J Clin Pathol, 2000, 53(9): 720-721.
[47] Hamed RM, Ghandour K. Abdominal angina and intestinal gangrene: a catastrophic presentation of arterial fibromuscular dysplasia—case report and review of the literature [J]. J Pediatr Surg, 1997, 32(9): 1379-1380.
[48] Rha SE, Ha HK, Lee SH, et al. CT and MR imaging findings of bowel ischemia from various primary causes [J]. RadioGraphics, 2000, 20(1): 29-42
[49] Clavien PA, Durig M, Harder F. Venous mesenteric infarction: a particular entity [J]. Br J Surg, 1988, 75(3): 252-255.
[50] Grendell JH, Ockner RK. Mesenteric venous thrombosis [J]. Gastroenterology, 1982, 82(2): 358-372.
[51] Maloisel F. Role of coagulation disorders in mesenteric ischemia [J]. J Chir, 1996, 133(9-10): 442-447.
[52] Warshauer DM, Lee JKT, Mauro MA, et al. Superior mesenteric vein thrombosis with radiologically occult cause. A retrospective study os 43 cases [J]. Am J Roentgenol, 2001, 177(4): 837-841.
[53] Rademaker J. Veno-occlusive disease of the colon: CT findings [J]. Eur Radiol, 1998, 8(8): 1420-1421.
[54] Frager D, Baer JW, Medwid SW, et al. Detection of intestinal ischemia in patients with acute small-bowel obstruction due to adhesions or hernia: efficacy of CT [J]. Am J Roentgenol, 1996, 166(1): 67-71
[55] Sheedy SP, Earnest IVF, Fletcher JG, et al. CT of small-bowel ischemia associated with obstruction in emergency department patients: diagnostic performance evaluation [J]. Radiology, 2006, 241(3): 729-736.
[56] Gumaste VV, Gupta R, Wasserman D, et al. Colonic involvement in acute pancreatitis [J]. Am J Gastroenterol, 1995, 90(4): 640-641.
[57] Mirvis SE, Shanmuganathan K, Erb R. Diffuse small bowel ischemia in hypotensive adults after blunt trauma (shock bowel): CT findings and clinical significance [J]. Am J Roentgenol. 1994, 163(6): 1375-1379.
[58] Yamada Y, Nishimura S, Inoue T, et al. Anorexia nervosa with ischemic necrosis of the segmental ileum and cecum [J]. Intern Med, 2000, 40(4): 304-307.
[59] Bharucha AE, Tremaine WJ, Johnson CD, et al. Ischemic proctosigmoiditis [J]. Am J Gastroenterol, 1996, 91(11): 2305-2309.
[60] Horton KM, Fishman EK. Multi-detector row CT of mesenteric ischemia: can it be done? [J]. RadioGraphics, 2001, 21(6): 1463-1473.
[61] Cademartiri F, Raaijmakers RHJM, Kuiper JW, et al. Multi-detector row CT angiography in patients with abdominal angina [J]. RadioGraphics, 2004,24(4): 969-984.
[62] Hong KC, Freeny PC. Pancreaticoduodenal arcades and dorsal pancreatic artery: comparison of CT angiography with three-dimensional volume rendering, maximum intensity projection, and shaded-surface display [J]. Am J Roentgenol, 1999, 172(4): 925-931.
[63] Bartnicke BJ, Balfe DM. CT appearance of intestinal ischemia and intramural hemorrhage [J]. Radiol Clin North Am, 1994, 32(5): 845-860.
[64] Ha HK, Rha SE, Kim AY, et al. CT and MR diagnosis of intestinal ischemia [J]. Semin Ultrasound CT MR, 2000, 21(1): 40-55.
[65] Horton KM, Corl FM, Fishman EK. CT evaluation of the colon: inflammatory disease [J]. RadioGraphics, 2000, 20(2): 399- 418.
[66] Simon AM, Birnbaum BA, Jacobs JE. Isolated infarction of the cecum: CT findings in two patients [J]. Radiology, 2000, 214(2): 513-516.
[67] Desai RK, Tagliabue JR, Wegryn SA, et al. Computed tomographic evaluation of wall thickening in the alimentary tract [J]. RadioGraphics, 1991, 11(5): 771-783.
[68] Teefey SA, Roarke MC, Brink JA, et al. Bowel wall thickening: differentiation of inflammation from ischemia with color Doppler and duplex US [J]. Radiology, 1996, 198(2): 547-551.
[69] Alpern MB, Glazer G, Francis IR. Ischemic or infarcted bowel: CT findings [J]. Radiology, 1988, 166(1 Pt 1): 149-152.
[70] Klein HM, Lensing R, Klosterhalfen B, et al. Diagnostic imaging of mesenteric infarction [J]. Radiology, 1995, 197(1): 79-82.
[71] Salzano A, De Rosa A, Carbone M, et al. Computerized tomography features of intestinal infarction: 56 surgically treated patients of which 5 with reversible mesenteric ischemia [J]. Radiol Med (Torino), 1999, 97(4): 246-250.
[72] Balthazar EJ, Yen BC, Gordon RB. Ischemic colitis: CT evaluation of 54 cases [J]. Radiology, 1999, 211(2): 381-388.
[73] Horton KM, Corl FM, Fishman EK. CT of nonneoplastic diseases of the small bowel: spectrum of disease [J]. J Comput Assist Tomogr, 1999, 23(3): 417-428.
[74] Zalcman M, Sy M, Donckier V, et al. Helical CT signs in the diagnosis of intestinal ischemia in small bowel obstruction [J]. Am J Roentgenol, 2000,175(6): 1601-1607.
[75] Fujimoto T, Fukuda T, Uetani M, et al. Unenhanced CT findings of vascular compromise in association with intussusception in adults [J]. Am J Roentgenol, 2001, 176(5): 1167-1171.
[76] Feczko PJ, Mezwa DG, Farah MC, et al. Clinical significance of pneumatosis of the bowel wall [J]. RadioGraphics, 1992, 12(6): 1069-1078.
[77] Sebastia C, Quiroga S, Espin E, et al. Portomesenteric vein gas: pathologic mechanisms, CT findings, and prognosis [J]. RadioGraphics, 2000,20(5): 1213-1226.
[78] Sato O, Okamoto H, Matsumoto H. Emergency CT scan for the diagnosis of superior mesenteric artery embolism: report of 2 cases [J]. Int Angiol, 2003,22(4): 438 -440
[79] Wildermuth S, Leschka S, Alkadhi H, et al. Multislice CT in the pre- and postinterventional evaluation of mesenteric perfusion [J]. Eur Radiol, 2005,15(6): 1203-1210
[80] Aschoff AJ, Stuber G, Becker BW, et al. Evaluation of acute mesenteric ischemia: accuracy of biphasic mesenteric multi-detector CT angiography [J]. Abdom Imaging, 2008, Apr 19. [Epub ahead of print]
[81] Zandrino F, Musante F, Gallesio I, et al. Assessment of patients with acute mesenteric ischemia: multislice computed tomography signs and clinical performance in a group of patients with surgical correlation [J]. Minerva Gastroenterol Dietol, 2006, 52(3): 317-325.
[82] Wiesner W, Mortele KJ, Glickman JN, et al. Pneumatosis intestinalis and portomesenteric venous gas in intestinal ischemia: correlation of CT findings with severity of ischemia and clinical outcome [J]. Am J Roentgenol, 2001, 177: 1319-1323.
[2] Ruotolo RA, Evans SRT. Mesenteric ischemia in the elderly [J]. Gastroenterology, 1999,15(3): 527-557.
[3] Levine JS, Jacobson ED. Intestinal ischemic disorders [J]. Dig Dis, 1995,13(1): 3-24.
[4] Inderbitzi R, Wagner HE, Seiler C, et al. Acute mesenteric ischemia [J]. Eur J Surg, 1992, 158(2): 123-126.
[5] Jrven 0, Laurika J, Salenius JP, et al. Acute intestinal ischemia: a review of 214 cases [J]. Ann Chir Gynaecol, 1994, 83(1): 22-25.
[6] McKinsey JF, Gewertz BL. Acute mesenteric ischemia [J]. Surg Clin North Am, 1997, 77(2): 307-318.
[7] Heys SD, Brittenden J, Crofts TJ. Acute mesenteric ischemia: the continuing difficulty in early diagnosis [J]. Postgrad Med J, 1993, 69(807): 48-51.
[8] Wiesner W, Khurana B, Ji H, et al. CT of acute bowel ischemia [J]. Radiology, 2003,226(3): 635-650.
[9] Balthazar EJ, Liebeskind ME, Macari M. Intestinal ischemia in patients in whom small bowel obstruction is suspected: evaluation of accuracy, limitations, and clinical implications of CT in diagnosis [J]. Radiology, 1997,205(2): 519-522.
[10] Sheedy SP, Earnest IV F, Fletcher JG, et al. CT of small-bowel ischemia associated with obstruction in emergency department patients: diagnostic performance evaluation [J]. Radiology, 2006, 241(3): 729-736.
[11] Lock G. Acute mesenteric ischemia: classification, evaluation and therapy [J]. Acta Gastroenterol Bleg, 2002, 65(4): 220-225.
[12] Oldenburg WA, Lau LL, Rodenberg TJ, et al. Acute mesenteric ischemia: a clinical review [J]. Arch Intern Med, 2004,164(10): 1054-1062
[13] Reinus JF, Brandt LJ, Boley SJ. Ischemic diseases of the bowel [J]. Gastroenterol Clin North Am, 1990, 19(2):319-343.
[14] Shih MP, Hagspiel KD. CTA and MRA in mesenteric ischemia: part I, role in diagnosis and differential diagnosis [J]. Am J Roentgenol, 2007, 188(2): 452-461.
[15] Batellier J, Kieny R. Superior mesenteric artery embolism: eighty-two cases [J]. Ann Vasc Surg ,1990, 4(2): 112-116.
[16]Taourel PG,Deneuville M,Pradel JA,et al.Acute mesenteric ischemia:diagnosis with contrast-enhanced CT[J].Radiology,1996,199(3):632-636.
[17]Horton KM,Corl FM,Fishman EK.CT evaluation of the colon:inflammatory disease[J].RadioGraphics,2000,20(2):399-418.
[18]Horton KM,Corl FM,Fishman EK.CT of nonneoplastic diseases of the small bowel:spectrum of disease[J].J Comput Assist Tomogr,1999,23(3):417-428.
[19]Horton KM,Fishman EK.Multi-detector row CT of mesenteric ischemia:can it be done?[J]RadioGraphics,2001,21(6):1463-1473.
[20]Cademartiri F,Raaijmakers RHJM,Kuiper JW,et al.Multi-detector row CT angiography in patients with abdominal angina[J].RadioGraphics,2004,24(4):969-984.
[21]Kirkpatrick ID,Kroeker MA,Greenberg HM.Biphasic CT with mesenteric CT angiography in the evaluation of acute mesenteric ischemia:initial experience[J].Radiology,2003,229(1):91-98.
[22]Horgan PG,Gorey TF.Operative assessment of intestinal viability[J].Surg Clin North Am,1992,72(1):143-155.
[23]Alpern MB,Glazer G,Francis IR.Ischemic or infarcted bowel:CT findings[J].Radiology,1988,166(1 Pt 1):149-152.
[24]Klein HM,Lensing R,Klosterhalfen B,et al.Diagnostic imaging of mesenteric infarction[J].Radiology,1995,197(1):79-82.
[25]Horton KM,Fishman EK.Volume-render 3D CT of the mesenteric vasculature:normal anatomy,anatomic variants,and pathologic conditions[J].RadioGraphics,2002(1),22:161-172.
[26]Aschoff AJ,Stuber G,Becker BW,et al.Evaluation of acute mesenteric ischemia:accuracy of biphasic mesenteric multi-detector CT angiography[J].Abdom Imaging,2008 Apr 19.[Epub ahead of print]
[27]Park A,Towner RA,Langer JC.Diagnosis of intestinal ischemia in the rat using magnetic resonance imaging[J].J Invest Surg,1993,6(2):177-183.
[28]张小明,杨汉丰,黄小华,等.螺旋CT多期扫描判断闭袢性肠梗阻肠壁缺血的实验研究[J].中华放射学杂志,2005,39(7):755-760.
[29]Kaufman A J,Tarr RW,Holburn GE,et al.Magnetic Resonance Imaging of ischemic bowel in rabbit model[J].Invest Radiol,1988,23(2):93-97.
[30] Kim WY, Kim IO, Kim WS, et al. Sonographic findings in a model of ischemia-induced necrotizing enterocolitis with pathological correlations [J]. Invest Radiol, 2007,42(5): 312-318.
[31] Noer RJ, Derr JW, Johnston CG. The circulation of the small intestine: an evaluation of its revascularizing potential [J]. Ann Surg, 1949,130(4): 608-621.
[32] Rosow DE, Sohani D, Strobel O, et al. Imaging of acute mesenteric ischemia using multidetector CT and CT angiography in a porcine model [J]. J Gastrointest Surg, 2005, 9(9): 1262-1275.
[33] Klein HM, Klosterhailfen B, Kinzel S, et al. CT and MRI of experimentally induced mesenteric ischemia in a porcine model [J]. J Comput Assist Tomogr, 1996, 20(2): 254-261.
[34] Seidel SA, Bradshaw LA, LadipoJK, et al. Noninvasive detection of ischemic bowel [J]. J Vasc Surg, 1999, 30(2): 309-319.
[35] Kim MY, Suh CH, Kim ST, et al. Magnetic Resonance Imaging of bowel ischemia induced by ligation of superior mesenteric artery and vein in a cat model [J]. Abdom Imaging, 2004, 28(2): 187-192.
[36] Noldge G, Grosser G, Kauffmann GW, et al. Angiographic changes after selective and superselective embolization of branches of superior mesenteric artery in the small bowel of the dog [J]. Hepatogastroenterology, 1982, 29(5): 209-212.
[37] Haglund U, Bergqvist D. Intestinal ischemia: the basics [J]. Langenbecks Arch Surg, 1999; 384(3): 233-238.
[38] Longo WE, Ballantyne GH, Gusberg RJ. Ischemic colitis: patterns and prognosis [J]. Dis Colon Rectum, 1992, 35(8): 726-730.
[39] Mitudo S, Brandt LJ. Pathology of intestinal ischemia [J]. Surg Clin North Am, 1992, 72(1): 43-63.
[40] Desai RK, Tagliabue JR, Wegryn SA, et al. Computed tomographic evaluation of wall thickening in the alimentary tract [J]. RadioGraphics, 1991, 11(5):771-783.
[41] Zalcman M, Sy M, Donckier V, et al. Helical CT signs in the diagnosis of intestinal ischemia in small-bowel obstruction [J]. Am J Roentgenol, 2000, 175(6): 1601-1607.
[42] Chou. CT manifestrations of bowel ischemia [J]. Am J Roentgenol, 2002, 178(1): 87-91.
[43] Salzano A, De Rosa A, Carbone M, et al. Computerized tomography features of intestinal infarction: 56 surgically treated patients of which 5 with reversible mesenteric ischemia [J]. Radiol Med (Torino), 1999, 97(4): 246-250.
[44] Balthazar EJ, Yen BC, Gordon RB. Ischemic colitis: CT evaluation of 54 cases [J]. Radiology, 1999, 211(2): 381-388.
[45] Feczko PJ, Mezwa DG, Farah MC, et al. Clinical significance of pneumatosis of the bowel wall [J]. RadioGraphics, 1992, 12(6): 1069-1078.
[46] Rhee RY, Gloviczki P, Mendonca CT, et al. Mesenteric venous thrombosis: still a lethal disease in the 1990s [J]. J Vasc Surg, 1994, 20(5): 688-697.
[47] Morasch MD, Ebaugh JL, Chiou AC, et al. Mesenteric venous thrombosis: a changing clinical entity [J]. J Vasc Surg, 2001, 34(4): 680-684.
[48] Grieshop RJ, Dalsing MC, Cikrit DF, et al. Acute mesenteric venous thrombosis. Revisited in a time of diagnostic clarity [J]. Am Surg, 1991, 57(9): 573-578.
[49] Acosta S, Alhadad A, Svensson P, et al. Epidemiology, risk and prognostic factors in mesenteric venous thrombosis [J]. Br J Surg, 2008 ,95(10): 1245-1251.
[50] Acosta S, Ogren M, Sternby NH, et al. Mesenteric venous thrombosis with transmural intestinal infarction: a population based study [J]. J Vasc Surg, 2005, 41(1): 59-63.
[51] Warshauer DM, Lee JKT, Mauro MA, et al. Superior mesenteric vein thrombosis with radiologically occult cause. A retrospective study os 43 cases [J]. Am J Roentgenol, 2001, 177(4): 837-841.
[52] Bradbury MS, Kavanagh PV, Regan RE, et al. Mesenteric venous thrombosis: diagnosis and noninvasive imaging [J]. RadioGraphics, 2002,22(3): 527-541.
[53] Kreft BK, Strunk H, Flacke S, et al. Detection of thrombosis in the portal venous system: comparison of contrast-enhanced MR angiography with intraarterial digital subtraction angiography [J]. Radiology, 2000,216(1): 86-92.
[54] Bradbury MS, Kavanagh PV, Chen MY, et al. Noninvasive assessment of portomesenteric venous thrombosis: current concepts and imaging strategies [J]. J Comput Assist Tomogr, 2002, 26(3): 392-404.
[55] Wildermuth S, Leschka S, Alkadhi H, et al. Multislice CT in the pre and post interventional evaluation of mesenteric perfusion [J]. Eur Radiol, 2005,15(6):1203-1210.
[56] Zhang J, Duan ZQ, Song QB, et al. Acute mesenteric venous thrombosis: a better outcome achieved through improved imaging techniques and a changed policy of clinical management [J]. Eur J Vasc Endovsc Surg, 2004,28(3): 329-334.
[57] Kumar S, Kamath PS. Acute superior mesenteric venous thrombosis: one disease or two? [J] Am J Gastroenterol, 2003, 98(6): 1299-1304.
[58] Polk HC. Experimental mesenteric venous occlusion III: diagnosis and treatment of induced mesenteric venous thrombosis [J]. Ann Surg, 1966, 163(3): 432-444.
[59] Friedenberg MJ, Polk HC, McAlister WH, et al. Superior mesenteric arteriography in experimental mesenteric venous thrombosis [J]. Radiology, 1965, 85: 38-45.
[60] Jackson BB. Venous occlusion of the terminal ileum: an experimental study [J]. Surgery, 1961,50:322-327.
[61] Boley SJ, Kaleya RN, Brandt LJ. Mesenteric venous thrombosis [J]. Surg Clin North Am, 1992, 72(1): 183-201.
[62] Kim JY, Ha HK, Byun JY, et al. Intestinal infarction secondary to mesenteric venous thrombosis: CT-pathologic correlation [J]. J Comput Assist Tomogr, 1993, 17(3): 382-385.
[63] Grassi R, Di Mizio R, Pinto A, et al. Serial plain abdominal film findings in the assessment of acute abdomen: apastic ileus, hypotonic ileus, mechanical ileus and paralytic ileus [J]. Radiol Med, 2004,108(1-2): 56-70.
[64] Romano S, Lassandro F, Scaglione M, et al. Ischemia and infarction of the small bowel and colon: spectrum of imaging findings [J]. Abdom Imaging, 2006, 31(3): 277-292
[65] Chow CK, Mak CW, Tzeng WS, et al. CT of small bowel ischemia [J]. Abdom Imaging, 2004,29(1): 18-22.
[66] Grendell JH, Ockner PK. Mesenteric venous thrombosis [J]. Gastroenterology, 1982, 82(2): 358-372.
[67] Clark RA, Gallant TE. Acute mesenteric ischemia: angiographic spectrum [J]. Am J Roentgenol, 1984, 142(3): 555-562.
[68] Kumar S, Sarr MG, Kamath PS. Mesenteric venous thrombosis [J]. N Engl J Med, 2001, 345(23): 1683-1688.
[69] Laissy JP, Trillaud H, Douek P. MR angiography: noninvasive vascular imaging of the abdomen [J]. Abdom Imaging, 2002, 27(5): 488-506.
[70]Harward TR,Green D,Bergan JJ,et al.Mesenteric venous thrombosis[J].J Vasc Surg,1989,9(2):328-333.
[71]Vogelzang RL,Gore RM,Anschuetz SL,et al.Thrombosis of the splanchnic veins:CT diagnosis[J].Am J Roentgenol,1988,150(1):93-96.
[72]Rydberg J,Buckwalter KA,Caldemeyer KS,et al.Multisection CT:scanning techniques and clinical applications[J].RadioGraphics,2000,20(6):1787-1806.
[73]Hu H,He HD,Foley WD,et al.Four multidetector-row helical CT:image quality and volume coverage speed[J].Radiology,2000,215(1):55-62.
[74]Anderson SW,Soto JA,Lucey BC,et al.Blunt trauma:feasibility and clinical utility of pelvic CT angiography performed with 64-detector row CT[J].Radiology,2008;246(2):410-419.
[75]Rybicki FJ,Otero HJ,Steigner ML,Initial evaluation of coronary images from 320-detector row computed tomography[J].Int J Cardiovasc Imaging,2008,24(5):535-546.
[76]Horton KM,Fishman EK.Multidetector row and 3D CT of the mesenteric vasculature:normal anatomy and pathology[J].Seminars Ultrasound CT MR,2003,24(5):353-363.
[77]Okino Y,Kiyosue H,Mori H,et al.Root of the small-bowel mesentery:correlative anatomy and CT features of pathologic conditions[J].Radiographics,2001,21(6):1475-1490.
[78]Chou CK,Mak CW,Hou CC,et al.CT of the mesenteric vascular anatomy[J].Abdom Imaging,1997,22(5):477-482.
[79]Zerin JM,DiPietro MA.Mesenteric vascular anatomy at CT:normal and abnormal appearances[J].Radiology,1991,179(3):739-742.
[80]Iannaccone R,Laghi A,Passariello R.Multislice CT angiography of mesenteric vessels[J].Abdom Imaging,2004,29(2):146-152.
[81]Akpinar E,Turkbey B,Karcaaltincaba M,et al.MDCT of inferior mesenteric vein:normal anatomy and pathology[J].Clin Radiol,2008,63(7):819-823.
[82]Kim HJ,Ko YT,Lim JW,et al.Radiologic anatomy of the superior mesenteric vein and branching patterns of the first jejunal trunk:evaluation using multi-detector row CT venography[J].Surg Radiol Anat,2007,29(1):67-75.
[83]赵英林,胡滨成.选择性腹腔动脉、肠系膜上动脉、肾动脉及肠系膜下动脉造影的局部解剖学研究[J].局解手术学杂志,1997,6(3):10-12.
[84]Kock MC,Adriaensen ME,Pattynama PM,et al.DSA versus multi-detector row CT angiography in peripheral arterial disease:randomized controlled trial[J].Radiology,2005,237(2):727-737.
[85]Tanikake M,Shimizu T,Narabayashi Ⅰ,et al.Three-dimensional CT angiography of the hepatic artery:use of multi-detector row helical CT and a contrast agent[J].Radiology,2003,227(3):883-889.
[86]Lell MM,Anders K,Uder M,et al.New techniques in CT angiography[J].Radiographics,2006,26 Suppl 1:45-63.
[87]张燕,金征宇,张竹花,等.多层螺旋CT对周围肺动脉显示能力的研究[J].临床放射学杂志,2005,24(10):879-884.
[88]陈海松,柳澄,刘学静,等.64层CT下肢动脉成像技术研究[J].实用放射学杂志,2006,22(9):1137-1140.
[89]舒健,张小明,黄小华,等.肠系膜上动脉多层螺旋CT血管成像研究[J].中国医学计算机成像杂志,2005,11(2):110-114.
[90]王虎,钟震亚,王庆林.回结肠动脉的观测[J].局解手术学杂志,2003,12(4):262-263
[91]Konen E,Amitai M,Apter S,et al.CT angiography of superior mesenteric artery syndrome[J].Am J Roentgenol,1998,171(5):1279-1281.
[92]Ozkurt H,Cenker MM,Bas N,et al.Measurement of the distance and angle between the aorta and superior mesenteric artery:normal values in different BMI categories[J].Surg Radiol Anat,2007,29(7):595-599.
[93]Ahmed K,Sampath R,Khan MS.Current trends in the diagnosis and management of renal nutcracker syndrome:a review[J].Eur J Vasc Endovasc Surg,2006,31(4):410-416.
[94]符伟军,洪宝发,肖越勇,等.胡桃夹现象的多层螺旋CT血管成像诊断[J],军医进修学院学报,2006,27(1):33-34.
[95]王茂强,刘凤永,段峰,等.慢性肠系膜动脉阻塞性疾病[J].中华老年医学杂志,2007,26(4):335-337.
[96]Song SY,Chung JW,Kwon JW,et al.Collateral pathways in patients with celiac axis stenosis:angiographic-spiral CT correlation[J].RadioGraphic,2002,22(4):881-893.
[97]Cognet F,Ben Salem D,Dranssart M,et al.Chronic mesenteric ischemia:imaging and percutaneous treatment[J].RadioGraphics,2002,22(4):863-879.
[98] Graf 0, Boland GW, Kaufman JA, et al. Anatomic variants of mesenteric veins: depiction with helical CT venography [J]. Am J Roentgenol, 1997, 168(5): 1209-1213.
[99] Zissin R, Rathaus V, Oscadchy A, et al. Intestinal malrotation as an incidental finding on CT in adults [J]. Abdom Imaging, 1999, 24(6): 550-555.
[100]Yamaguchi S, Kuroyanagi H, Milsom JW, et al. Venous anatomy of the right colon: precise structure of the major veins and gastrocolic trunk in 58 cadavers [J]. Dis Colon Rectum, 2002, 45(10): 1337-1340.
[101] Jin G, Tuo H, Sugiyama M, et al. Anatomic study of the superior right colic vein: its relevance to pancreatic and colonic surgery [J]. Am J Surg, 2006,191(1): 100-103.
[102] Mori H, McGrath FP, Malone DE, et al. The gastrocolic trunk and its tributaries: CT evaluation [J]. Radiology, 1992, 182(3): 871-877.
[103]ChenSJ. 肠系膜上静脉外科干的解剖测量[J]. 中华外科杂志, 1982, 20(4): 227-229.
[104]Ibukuro K, Ishii R, Fukuda H, et al. Collateral venous pathways in the transverse mesocolon and greater omentum in patients with pancreatic disease [J]. Am J Roentgenol, 2004,182(5): 1187-1193.
[105]Horton KM, Fishman EK. Multidetector CT angiography of pancreatic carcinoma: part 2, evaluation of venous involvement [J]. Am J Roentgenol, 2002, 178(4): 833-836.
[106]Horton KM, Fishman EK.Multidetector CT angiography of pancreatic carcinoma: part 1, evaluation of arterial involvement [J]. Am J Roentgenol, 2002, 178(4): 827-831.
[107]Lu DS, Reber HA, Krasny RM, et al. Local staging of pancreatic cancer: criteria for unresectability of major vessels as revealed by pancreatic-phase, thin-section helical CT [J]. Am J Roentgenol, 1997, 168(6): 1439-1443.
[108]Raptopoulos V, Steer ML, Sheiman RG, et al. The use of helical CT and CT angiography to predict vascular involvement from pancreatic cancer: correlation with findings at surgery [J]. Am J Roentgenol, 1997, 168(4): 971-977.
[109]Kawamoto S, Lawler LP, Horton KM, et al. MDCT of intraductal papillary mucinous neoplasm of the pancreas: evaluation of features predictive of invasivecarcinoma [J]. Am J Roentgenol, 2006, 186(3): 687-695.
[110]Zamboni GA,Kruskal JB,Vollmer CM,et al.Pancreatic adenocarcinoma:value of multidetector CT angiography in preoperative evaluation[J].Radiology,2007,245(3):770-778.
[111]Brennan DD,Zamboni G,Sosna J,et al.Virtual Whipple:preoperative surgical planning with volume-rendered MDCT images to identify arterial variants relevant to the Whipple procedure[J].Am J Roentgenol,2007,188(5):W451-W455.
[112]Madureira AJ.The comb sign[J].Radiology,2004,230(3):783-784.
[113]陈明,李选,谢敬霞.急性肠缺血的多层螺旋CT评价[J].中国医学科学院学报,2006,28(1):80-83.
[114]Brofman N,Atri M,Hanson JM,et al.Evaluation of bowel and mesenteric blunt trauma with multidetector CT[J].Radiographics,2006,26(4):1119-1131.
[115]Pereira JM,Sirlin CB,Pinto PS,et al.Disproportionate fat stranding:a helpful CT sign in patients with acute abdominal pain[J].Radiographics,2004,24(3):703-715.
[116]Saba L,Mallarini G..Computed tomographic imaging findings of bowel ischemia[J].J Comput Assist Tomogr,2008,32(3):329-340.
[117]Segallo E,Mortele KJ,Ji H,et al.Acute small bowel ischemia:CT imaging findings[J].Seminars Ultrasound CT MR,2003,24(5):364-376.
[118]Orihashi K,Sueda T,Okada K,et al.Perioperative diagnosis of mesenteric ischemia in acute aortic dissection by transesophageal echocardiography[J].Eur J Cardiothorac Surg,2005,28(6):871-876.
[119]Vignati PV,Welch JP,Ellison L,et al.Acute mesenteric ischemia caused by isolated superior mesenteric artery dissection[J].J Vasc Surg,1992,16(1):109-112.
[120]Suzuki S,Furui S,Kohtake H,et al.Isolated dissection of the superior mesenteric artery:CT findings in six cases[J].Abdom Imaging,2004,29(2):153-157.
[121]Kim AY,Ha HK.Evaluation of suspected mesenteric ischemia.Efficacy of radiologic studies[J].Radiol Clin N Am,2003,41(2):327-342.
[122]Rha SE,Ha HK,Lee SH,et al.CT and MR imaging findings of bowel ischemia from various primary causes[J].RadioGraphics,2000,20(1):29-42.
[123]Frager D,Baer JW,Medwid SW,et al.Detection of intestinal ischemia in patients with acute small-bowel obstruction due to adhesions or hernia:efficacy of CT [J].Am J Roentgenol,1996,166(1):67-71.
[124]Matolo NW,Albo D Jr.Gastrointestinal complications of collagen vascular diseases:surgical implications.Am J Surg,1971,122(5):678-682
[125]Ha HK,Lee SH,Rha SE,et al.Radiologic features of vasculitis involving the gastrointestinal tract.RadioGraphics,2000,20(3):779-794.
[126]Kim JK,Ha HK,Byun JY,et al.CT differentiation of mesenteric ischemia due to vasculitis and thromboembolic Disease.J Comput Assist Tomogr.2001,25(4):604-611
[127]Byun JY,Ha HK,Yu SY,et al.CT features of systemic lupus erythematosus in patients with acute abdominal pain:emphasis on ischemic bowel disease.Radiology,1999,211(1):203-209.
[128]宋彬,徐隽,罗小华,等.以急性腹痛为主要表现的SLE缺血性肠病的螺旋CT征象[J].中国医学影像技术,2004,20(9):1396-1399.
[129]Acosta S,Ogren M,Sternby NH,et al.Fatal nonocclusive mesenteric ischaemia:population-based incidence and risk factors[J].J Intern Med,2006,259(3):305-313.
[130]Mirvis SE,Shanmuganathan K,Erb R.Diffuse small-bowel ischemia in hypotensive adults after blunt trauma(shock bowel):CT findings and clinical significance[J].Am J Roentgenol,1994,163(6):1375-1379.
[131]Yamada Y,Nishimura S,Inoue T,et al.Anorexia nervosa with ischemic necrosis of the segmental ileum and cecum[J].Intern Med,2000,40(4):304-307.
[132]Bozlar U,Turba UC,Hagspiel KD.Nonocclusive mesenteric ischemia:findings at multidetector CT angiography[J].J Vasc Interv Radiol,2007,18(10):1331-1333.
[133]Mitsuyoshi A,Obama K,Shinkura N,et al.Surival in nonocclusive mesenteric ischemia:early diagnosis by multidetector row computed tomography and early treatment with continuous intravenous high-dose prostaglandin E_1[J].Ann Surg,2007,246(2):229-235.
[134]Trompeter M,Brazda T,Remy CT,et al.Non-occlusive mesenteric ischemia:etiology,diagnosis,and interventional therapy[J].Eur Radiol,2002,12(5):1179-1187.
[1]Brandt L J,Boley SJ.AGA technical review on intestinal ischemia[J].Gastroenterology,2000,118(5):954-968.
[2]Ruotolo RA,Evans SRT.Mesenteric ischemia in the elderly[J].Gastroenterology,1999,15(3):527-557.
[3]Levine JS,Jacobson ED.Intestinal ischemic disorders[J].Dig Dis,1995,13(1):3-24.
[4]Inderbitzi R,Wagner HE,Seiler C,Stirnemann P,Gertsch P.Acute mesenteric ischemia[J].EurJ Surg,1992,158(2):123-126.
[5]Jrven O,Laurika J,Salenius JP,et al.Acute intestinal ischemia:a review of 214cases[J].Ann Chir Gynaecol,1994,83(1):22-25.
[6]McKinsey JF,Gewertz BL.Acute mesenteric ischemia[J].Surg Clin North Am,1997,77(2):307-318.
[7]Heys SD,Brittenden J,Crofts TJ.Acute mesenteric ischemia:the continuing difficulty in early diagnosis[J].Postgrad Med J,1993,69(807):48-51.
[8]Wiesner W,Khurana B,Ji H,et al.CT of acute bowel ischemia[J].Radiology,2003,226(3):635-650.
[9]Kirkpatrick ID,Kroeker MA,Greenberg HM.Biphasic CT with mesenteric CT angiography in the evaluation of acute mesenteric ischemia:initial experience[J].Radiology,2003,229(1):91-98.
[10]Bradbury AW,Brittenden J,McBride K,et al.Mesenteric ischemia:a multidisciplinary approach[J].Br J Surg,1995,82(11):1446-1459.
[11]Newman TS,Magnuson TH,Ahrendt SA,et al.The changing faces of mesenteric infarction[J].Am Surg,1998,64(7):611-616.
[12]Cogent F,Salem DB,Dranssart M,et al.Chronic Mesenteric Ischemia:imaging and percutaneous treatment[J].RadioGraphic,2002,22(4):863-880.
[13]Rosenblum JD,Boyle CM,Schwartz LB.The mesenteric circulation:anatomy and physiology[J].Surg Clin North Am 1997;77:289-306.
[14]Kornblith PL,Boley SJ,Whitehouse BS.Anatomy of the splanchnic circulation [J].Surg Clin North Am,1992,72(1):1-30
[15] Geboes K, Geboes KP, Maleux G. Vascular anatomy of the gastrointestinal tract [J]. Baillieres Best Pract Res Clin Gastroenterol, 2001, 15(1): 1-14.
[16] Michels NA, Siddharth P, Kornblith PL, et al. Routes of collateral circulation of the gastrointestinal tract as ascertained in a dissection of 500 bodies [J]. Int Surg, 1968,49(1): 8-28.
[17] Fisher DF, Fry WJ. Collateral mesenteric circulation [J]. Surg Gynecol Obstet, 1987, 164(5): 487-492.
[18] Horton KM, Fishman EK. Volume-render 3D CT of the mesenteric vasculature: normal anatomy, anatomic variants, and pathologic conditions [J]. RadioGraphics, 2002,22(1): 161-172.
[19] Gallavan RH, Jr, Parks DA, Jacobson ED. Pathophysiology of the gastrointestinal circulation. In: Schulz S, Woods J, eds. Handbook of physiology: the gastrointestinal system [M]. Bethesda, Md: American Physiological Society, 1989, 1713-1732.
[20] Quamar MI, Read AE. Intestinal blood flow [J]. Q J Med, 1985, 56(220): 417-419.
[21] Matthews JG, Parks TG. Ischaemic colitis in the experimental animal. I. Comparison of the effects of acute and subacute vascular occlusion [J]. Gut, 1976, 17(9): 671-676.
[22] Matthews JG, Parks TG. Ischaemic colitis in the experimental animal. II. Role of hypovolaemia in the production of the disease [J]. Gut, 1976,17(9): 677-684.
[23] Haglund U, Bergqvist D. Intestinal ischemia: the basics [J]. Langenbecks Arch Surg, 1999, 384(3): 233-238.
[24] Longo WE, Ballantyne GH, Gusberg RJ. Ischemic colitis: patterns and prognosis [J]. Dis Colon Rectum, 1992, 35(8): 726-730.
[25] Chou. CT manifestrations of bowel ischemia [J]. Am J Roentgenol, 2002, 178(1): 87-91.
[26] Taourel PG, Deneuville M, Pradel JA, et al. Acute mesenteric ischemia: diagnosis with contrast-enhanced CT [J]. Radiology, 1996, 199(3): 632-636.
[27] Bradbury AW, Murie JA. Ruckley CV. Role of the leucocyte in the pathogenesis of vascular disease [J].Br J Surg, 1993,80(12): 1503-1512.
[28] Turnage RH, Guice KS, Oldham KT. Endotoxinaemia and remote organ injury following intestinal reperfusion [J]. J Surg Res, 1994, 56(6): 571-578.
[29] Bibbo C, Petschenik AJ, Reddell MT, et al. Bacterial translocation after mesenteric ligation in dogs [J]. J Invest Surg, 1996, 9(4): 293-303.
[30] Weixiong H, Aneman A, Nilsson U, et al. Quantification of tissue damage in the feline small intestine during ischaemia-reperfusion: the importance of free radicals [J]. Acta Physiol Scand, 1994, 150(3): 241-250.
[31] Fontes B, Moore FA, Moore EE, et al. Gut ischemia indices bone marrow failure and increases risk of infection [J]. J Surg Res, 1994, 57(4): 505-509.
[32] Harward TR, Brooks DL, Flynn TC, Seeger JM. Multiple organ dysfunction after mesenteric artery revascularization [J]. J Vase Surg, 1993, 18(3): 459-467.
[33] Landow L, Andersen LW. Splanchnic ischemia and its role in multiple organ failure [J]. Acta Anaesthesiol Scand, 1994, 38(7): 626-639.
[34] Lock G. Acute mesenteric ischemia: classification, evaluation and therapy [J]. Acta Gastroenterol Bleg, 2002, 65(4): 220-225.
[35] Oldenburg WA, Lau LL, Rodenberg TJ, et al. Acute mesenteric ischemia: a clinical review [J]. Arch Intern Med, 2004, 164(10): 1054-1062.
[36] Reinus JF, Brandt LJ, Boley SJ. Ischemic diseases of the bowel [J]. Gastroenterol Clin North Am, 1990, 19(2): 319-343.
[37] Shih MP, Hagspiel KD. CTA and MRA in mesenteric ischemia: part I, role in diagnosis and differential diagnosis [J]. Am J Roentgenol, 2007, 188(2): 452-461.
[38] Batellier J, Kieny R. Superior mesenteric artery embolism: eighty-two cases [J]. Ann Vasc Surg, 1990,4(2): 112-116.
[39] Moolenaar W, Lamers CB. Cholesterol crystal embolisation to the alimentary tract [J]. Gut, 1996, 38(2): 196-200.
[40] Matolo NW, Albo D Jr. Gastrointestinal complications of collagen vascular diseases: surgical implications [J]. Am J Surg, 1971,122(5): 678-682.
[41] Kim JK, Ha HK, Byun JY, et al. CT differentiation of mesenteric ischemia due to vasculitis and thromboembolic Disease [J]. J Comput Assist Tomogr, 2001, 25(4): 604-611.
[42] Kushik S, Federle MP, Schur PH, et al. Abdominal thrombotic and ischemic manifestations of the antiphospholipid antibody syndrome: CT findings in 42 patients [J]. Radiology, 2001, 218(3): 768-771.
[43] Byun JY, Ha HK, Yu SY, et al. CT features of systemic lupus erythematosus in patients with acute abdominal pain: emphasis on ischemic bowel disease [J]. Radiology, 1999, 211(1): 203-209.
[44] Ha HK, Lee SH, Rha SE, et al. Radiologic features of vasculitis involving the gastrointestinal tract [J]. RadioGraphics, 2000, 20(3): 779-794.
[45] Trinh TD, Jones B, Fishman EK. Amyloidosis of the colon presenting as ischemic colitis: a case report and review of the literature [J]. Gastrointest Radiol, 1991,16(2): 133-136.
[46] Johnson JS, Short AK, Hutchison A, et al. Small intestinal infarction: a fatal complication of systemic oxalosis [J]. J Clin Pathol, 2000, 53(9): 720-721.
[47] Hamed RM, Ghandour K. Abdominal angina and intestinal gangrene: a catastrophic presentation of arterial fibromuscular dysplasia—case report and review of the literature [J]. J Pediatr Surg, 1997, 32(9): 1379-1380.
[48] Rha SE, Ha HK, Lee SH, et al. CT and MR imaging findings of bowel ischemia from various primary causes [J]. RadioGraphics, 2000, 20(1): 29-42
[49] Clavien PA, Durig M, Harder F. Venous mesenteric infarction: a particular entity [J]. Br J Surg, 1988, 75(3): 252-255.
[50] Grendell JH, Ockner RK. Mesenteric venous thrombosis [J]. Gastroenterology, 1982, 82(2): 358-372.
[51] Maloisel F. Role of coagulation disorders in mesenteric ischemia [J]. J Chir, 1996, 133(9-10): 442-447.
[52] Warshauer DM, Lee JKT, Mauro MA, et al. Superior mesenteric vein thrombosis with radiologically occult cause. A retrospective study os 43 cases [J]. Am J Roentgenol, 2001, 177(4): 837-841.
[53] Rademaker J. Veno-occlusive disease of the colon: CT findings [J]. Eur Radiol, 1998, 8(8): 1420-1421.
[54] Frager D, Baer JW, Medwid SW, et al. Detection of intestinal ischemia in patients with acute small-bowel obstruction due to adhesions or hernia: efficacy of CT [J]. Am J Roentgenol, 1996, 166(1): 67-71
[55] Sheedy SP, Earnest IVF, Fletcher JG, et al. CT of small-bowel ischemia associated with obstruction in emergency department patients: diagnostic performance evaluation [J]. Radiology, 2006, 241(3): 729-736.
[56] Gumaste VV, Gupta R, Wasserman D, et al. Colonic involvement in acute pancreatitis [J]. Am J Gastroenterol, 1995, 90(4): 640-641.
[57] Mirvis SE, Shanmuganathan K, Erb R. Diffuse small bowel ischemia in hypotensive adults after blunt trauma (shock bowel): CT findings and clinical significance [J]. Am J Roentgenol. 1994, 163(6): 1375-1379.
[58] Yamada Y, Nishimura S, Inoue T, et al. Anorexia nervosa with ischemic necrosis of the segmental ileum and cecum [J]. Intern Med, 2000, 40(4): 304-307.
[59] Bharucha AE, Tremaine WJ, Johnson CD, et al. Ischemic proctosigmoiditis [J]. Am J Gastroenterol, 1996, 91(11): 2305-2309.
[60] Horton KM, Fishman EK. Multi-detector row CT of mesenteric ischemia: can it be done? [J]. RadioGraphics, 2001, 21(6): 1463-1473.
[61] Cademartiri F, Raaijmakers RHJM, Kuiper JW, et al. Multi-detector row CT angiography in patients with abdominal angina [J]. RadioGraphics, 2004,24(4): 969-984.
[62] Hong KC, Freeny PC. Pancreaticoduodenal arcades and dorsal pancreatic artery: comparison of CT angiography with three-dimensional volume rendering, maximum intensity projection, and shaded-surface display [J]. Am J Roentgenol, 1999, 172(4): 925-931.
[63] Bartnicke BJ, Balfe DM. CT appearance of intestinal ischemia and intramural hemorrhage [J]. Radiol Clin North Am, 1994, 32(5): 845-860.
[64] Ha HK, Rha SE, Kim AY, et al. CT and MR diagnosis of intestinal ischemia [J]. Semin Ultrasound CT MR, 2000, 21(1): 40-55.
[65] Horton KM, Corl FM, Fishman EK. CT evaluation of the colon: inflammatory disease [J]. RadioGraphics, 2000, 20(2): 399- 418.
[66] Simon AM, Birnbaum BA, Jacobs JE. Isolated infarction of the cecum: CT findings in two patients [J]. Radiology, 2000, 214(2): 513-516.
[67] Desai RK, Tagliabue JR, Wegryn SA, et al. Computed tomographic evaluation of wall thickening in the alimentary tract [J]. RadioGraphics, 1991, 11(5): 771-783.
[68] Teefey SA, Roarke MC, Brink JA, et al. Bowel wall thickening: differentiation of inflammation from ischemia with color Doppler and duplex US [J]. Radiology, 1996, 198(2): 547-551.
[69] Alpern MB, Glazer G, Francis IR. Ischemic or infarcted bowel: CT findings [J]. Radiology, 1988, 166(1 Pt 1): 149-152.
[70] Klein HM, Lensing R, Klosterhalfen B, et al. Diagnostic imaging of mesenteric infarction [J]. Radiology, 1995, 197(1): 79-82.
[71] Salzano A, De Rosa A, Carbone M, et al. Computerized tomography features of intestinal infarction: 56 surgically treated patients of which 5 with reversible mesenteric ischemia [J]. Radiol Med (Torino), 1999, 97(4): 246-250.
[72] Balthazar EJ, Yen BC, Gordon RB. Ischemic colitis: CT evaluation of 54 cases [J]. Radiology, 1999, 211(2): 381-388.
[73] Horton KM, Corl FM, Fishman EK. CT of nonneoplastic diseases of the small bowel: spectrum of disease [J]. J Comput Assist Tomogr, 1999, 23(3): 417-428.
[74] Zalcman M, Sy M, Donckier V, et al. Helical CT signs in the diagnosis of intestinal ischemia in small bowel obstruction [J]. Am J Roentgenol, 2000,175(6): 1601-1607.
[75] Fujimoto T, Fukuda T, Uetani M, et al. Unenhanced CT findings of vascular compromise in association with intussusception in adults [J]. Am J Roentgenol, 2001, 176(5): 1167-1171.
[76] Feczko PJ, Mezwa DG, Farah MC, et al. Clinical significance of pneumatosis of the bowel wall [J]. RadioGraphics, 1992, 12(6): 1069-1078.
[77] Sebastia C, Quiroga S, Espin E, et al. Portomesenteric vein gas: pathologic mechanisms, CT findings, and prognosis [J]. RadioGraphics, 2000,20(5): 1213-1226.
[78] Sato O, Okamoto H, Matsumoto H. Emergency CT scan for the diagnosis of superior mesenteric artery embolism: report of 2 cases [J]. Int Angiol, 2003,22(4): 438 -440
[79] Wildermuth S, Leschka S, Alkadhi H, et al. Multislice CT in the pre- and postinterventional evaluation of mesenteric perfusion [J]. Eur Radiol, 2005,15(6): 1203-1210
[80] Aschoff AJ, Stuber G, Becker BW, et al. Evaluation of acute mesenteric ischemia: accuracy of biphasic mesenteric multi-detector CT angiography [J]. Abdom Imaging, 2008, Apr 19. [Epub ahead of print]
[81] Zandrino F, Musante F, Gallesio I, et al. Assessment of patients with acute mesenteric ischemia: multislice computed tomography signs and clinical performance in a group of patients with surgical correlation [J]. Minerva Gastroenterol Dietol, 2006, 52(3): 317-325.
[82] Wiesner W, Mortele KJ, Glickman JN, et al. Pneumatosis intestinalis and portomesenteric venous gas in intestinal ischemia: correlation of CT findings with severity of ischemia and clinical outcome [J]. Am J Roentgenol, 2001, 177: 1319-1323.