1、医学文献翻译中英对照Current usage of three-dimensional computed tomography angiography for the diagnosis and treatment of ruptured cerebral aneurysmsKenichi Amagasaki MD, Nobuyasu Takeuchi MD, Takashi Sato MD, Toshiyuki Kakizawa MD, Tsuneo Shimizu MD Kanto Neurosurgical Hospital, Kumagaya, Saitama, JapanSumma
2、ry Our previous study suggested that 3D-CT angiography could replace digital subtraction (DS) angiography in most cases of ruptured cerebral aneurysms, especially in the anterior circulation. This study reviewed our further experience. One hundred and fifty patients with ruptured cerebral aneurysms
3、were treated between November 1998 and March 2002. Only 3D-CT angiography was used for the preoperative work-up study in patients with anterior circulation aneurysms, unless the attending neurosurgeons agreed that DS angiography was required. Both 3D-CT angiography and DS angiography were performed
4、in patients with posterior circulation aneurysms, except for recent cases that were possibly treated with 3D-CT angiography alone. One hundred sixteen (84%) of 138 patients with ruptured anterior circulation aneurysms underwent surgical treatment, but additional DS angiography was required in 22 cas
5、es (16%). Only two recent patients were treated surgically with 3D-CT angiography alone in 12 patients with posterior circulation aneurysms. Most patients with ruptured anterior circulation aneurysms could be treated successfully after 3D-CT angiography alone. However, additional DS angiography is s
6、till necessary in atypical cases. 3D-CT angiography may be limited to complementary use in patients with ruptured posterior circulation aneurysms.a 2003 Elsevier Ltd. All rights reserved.Keywords: 3D-CT angiography, cerebral aneurysm, subarachnoid haemorrhage, surgeryINTRODUCTIONRecently, three-dime
7、nsional computed tomography (3D-CT) angiography has become one of the major tools for the identification of cerebral aneurysms because it is faster, less invasive, and more convenient than cerebral angiography.17 Patients with ruptured aneurysms could be treated under diagnoses based on only 3D-CT a
8、ngiography.5;6 3D-CT angiography has some limitations for the preoperative work-up for ruptured cerebral aneurysms, so additional digital subtraction (DS) angiography is still necessary, especially for aneurysms in the posterior circulation.8 Our previous study suggested that 3D-CT angiography could
9、 replace DS angiography in most patients with ruptured cerebral aneurysms in the anterior circulation.1 This study reviewed our experience of treating ruptured cerebral aneurysms in the anterior and posterior circulations based on 3D-CT angiography in 150 consecutive patients to assess the current u
10、sage of 3D-CT angiography.METHODS AND MATERIALPatient populationWe treated 150 patients, 60 men and 90 women aged from 23 to 80 years (mean 57.5 years), with ruptured cerebral aneurysm identified by 3D-CT angiography between November 1998 and March 2002.Managementof casesThe presence of nontraumatic
11、 subarachnoid haemorrhage (SAH) was confirmed by CT or lumbar puncture findings of xanthochromic cerebrospinal fluid. 3D-CT angiography was performed routinely in all patients. DS angiography was performed in patients with anterior circulation aneurysms only if additional information was considered
12、necessary following a consensus interpretation of the initial CT and 3D-CT angiography by four neurosurgeons. Patients with ruptured aneurysms in the posterior circulation underwent both 3D-CT angiography and DS angiography except for two recent patients with typical vertebral arteryposterior inferi
13、or cerebellar artery (VA-PICA) aneurysm.Typical saccular aneurysms were treated by clipping surgery.Fusiform and dissecting aneurysms were treated by proximal occlusion by either surgery or endovascular treatment with or without bypass surgery. Regrowth of bleeding aneurysms was treated by either su
14、rgery or endovascular treatment. Postoperatively, all patients were managed with aggressive prevention and treatment of vasospasm including intra-arterial infusion of papaverine or transluminal angioplasty.3D-CT angiography acquisition and postprocessing CT angiography was performed with a spiral CT
15、 scanner (CT-W 3000 AD; Hitachi, Ibaraki, Japan). Acquisition used a standard technique starting at the foramen magnum, with injection of 130 ml of nonionic contrast material (Omnipaque; Daiichi Pharmaceutical,Tokyo, Japan). The source images of each scan were transferred to an off-line computer wor
16、kstation (VIP station; Teijin System Technology, Japan). Both volume-rendered images and maximum intensity projection images of the cerebral arteries were constructed. The anterior circulation and posterior circulation were evaluated separately on the volume-rendered images, after a general superior
17、 view was obtained. The anterior circulation was evaluated by first observing the anterior communicating artery (ACoA) by rotating the view, and then each side of the carotid system by rotating the image with editing out of the contralateral carotid artery. The posterior circulation was also evaluat
18、ed by rotating the image but without editing out of any vessel. Once a possible rupture site was found, the view was zoomed and closely rotated with the other vessels edited out. Theaneurysm size was measured on 3D-CT angiography as the larger of the length of the dome or the width of the neck. Mani
19、pulation was performed by the scanner technician, with a neurosurgeon to provide editing assistance.DS angiography acquisitionStandard selective three- or four-vessel DS angiograms with frontal, lateral, and oblique projections were obtained. The 3D-CT angiogram was always available as a guide for p
20、ossible additional DS angiography projections. Aneurysm size was measured with DS angiography when the quality of 3D-CT angiography was inadequate. All patients except elderly patients or patients in severe condition underwent DS angiography postoperatively.Grading of patientsThe clinical conditions
21、 of the patients at admission were classified according to the Hunt and Kosnik grade.9 Clinical outcome was determined at 3 months according to the Glasgow Outcome Scale.10RESULTSThe aneurysm locations and sizes are shown in Table 1. One hundred sixteen (84%) of 138 cases of aneurysms in the anterio
22、r circulation were treated after only 3D-CT angiography, and 22 cases (16%) required additional DS angiography. Ten of 12 cases of aneurysms in the posterior circulation required both 3D-CT angiography and DS angiography, but two recent cases of typical VA-PICA aneurysm were clipped after only 3D-CT
23、 angiography (Fig. 1). The first 10 of the 22 cases in the anterior circulation, which required additional DS angiography were described previously, 1 so the most recent 12 patients are listed in Table 2. These recent cases included some atypical aneurysms. Cases 6 and 8 had a fusiform aneurysm of t
24、he internal carotid artery (ICA). Additional DS angiography was performed to obtain haemodynamic information. ICA trapping with superficial temporal artery-middle cerebral artery anastomosis was performed in Case 6 because the atherosclerotic arteries failed to demonstrate the balloon occlusion test
25、 (Fig. 2). ICA occlusion by endovascular treatment was performed in Case 8 because the patient could tolerate the balloon occlusion test. Cases 4, 9, and 10 suffered regrowth of bleeding aneurysms after clipping surgery. Clip artifacts prevented evaluation of the ruptured site as well as identificat
26、ion of de novo aneurysms in these cases (Fig. 3). Surgical clipping was performed in Cases 4 and 10 and endovascular treatment in Case 9. Case 11 had an ACoA aneurysm associated with an arteriovenous malformation (AVM) (Fig. 4). DS angiography was performed to evaluate the AVM. Case 12 had a large I
27、CA-posterior communicating artery (PCoA) aneurysm, and additional DS angiography was performed because the PCoA could not be detected by 3D-CT angiography (Fig. 5). Cases 1, 2, 3, 5, and 7 presented with small aneurysms, and DS angiography was performed to exclude other lesions as well as to obtain
28、information about the proximal ICA for patients with supraclinoid type aneurysms.Table 1 Distribution and size of cerebral aneurysms in 150 consecutive patientsSite No. of patientsAnterior circulation 138ICA (supraclinoid) 3ICA bifurcation 1ICA-OphA 3ICA-PCoA 39 (1)ICA fusiform 2ACoA 50Distal ACA 4M
29、CA 36 (1)Posterior circulation 12PCA 1BA tip 3BA-SCA 1BA trunk 1 (1)VA-PICA 3VA dissecting 3 (1)Size (mm)5 42P5 to 12 99P12 9Number in parentheses indicates patients who underwent endovascular treatment.OphA, ophthalmic artery; ACA, anterior cerebral artery; MCA, middle cerebral artery; PCA, posteri
30、or cerebral artery; BA, basilar artery; SCA, superior cerebellar artery.Table 2 Twelve patients with ruptured anterior circulation aneurysms whounderwent additional DS angiographyCase No. Location Size (mm)1 lt. ICA-PCoA 3.12 ACoA 2.23 lt. ICA supraclinoid 1.64 lt. ICA-PCoA 7.85 lt. ICA supraclinoid
31、 2.46 lt. ICA (fusiform) 11.87 lt. ICA-PCoA 3.28 rt. ICA (fusiform) 18.89 lt. MCA 9.610 lt. ICA-PCoA 10.511 ACoA 10.112 lt. ICA-PCoA 18.2The surgical findings correlated well with the 3D-CT angiography or DS angiography. Table 3 shows the condition on admission and outcome at 3 months after surgery. Some patients with good grades on admission died of severe spasm, acute brain swelling, or poor general condition, but these outcomes were not related to the preoperative radiological information.DISCUSSIONThe present study of ruptured aneurysms in b
