1.The value of non-invasive examinations in the diagnosis of arterosclerosis obliterans of lower limbs
Bing ZHU ; Xiaohu GE ; Jie LIU ; Xuesong LI ; Minghui OU ;
Chinese Journal of General Surgery 1997;0(06):-
Objective To evaluate the value of non invasive examinations in the diagnosis of vascular disease of lower extremity. Methods Segmental systemic pressure (SEG), pulse volume recorder (PVR) and continuous wave (CW) were adopted to examination of 36 patients with arterosclerosis obliterans of lower limbs, and the foundings were compared with that of MRA and operation . Results In all 36 cases, non invasive examinations detected abdominal aorta and common iliac artery with femoral artery occlusion in 12 cases ,femoropoplitea artery occlusion in 28 cases, popliteal artery and the distal artery occlusion in 16 case; MRA together with operation confirmed abdominal aorta and common iliac artery with femoral artery occlusion in 11 cases, femoropopliteal artery occlusion in 32 cases and popliteal artery and the distal artery occlusion in 13 cases. The accurent diagnosis rate of non invasive examination was 85.7%. Conclusions Although PVR has not yet been used to replace the arteriography to directly observe the local situation of arterial lesions , it can preliminarily determine the obstruction sites and severe degree of the occluded arteries. PVR has convenient and reliability in the diagnosis,evaluation of the therapeutic effect and the postoperative follow up of blood vessel diseases,it is worthy to be widely applied in the clinical practice.
2.Prevention and treatment of cerebral complications in patients with carotid stenosis in perioperative period
Minghui OU ; Bi JIN ; Ping Lü ; Jianguo WANG ; Xiaoyang FU ; Xiaokai WANG
Chinese Journal of General Surgery 2011;26(8):668-670
Objective To investigate the causes of and prevention for cerebral complications in perioperative period in patients with carotid stenosis. Methods The causes and treatment of cerebral complications among 133 cases of carotid stenosis during perioperative period from May 2004 to Jun 2009 were analysed retrospectively. Results Among 133 cases, 94 cases underwent carotid endarterectomy (CEA) and 39 cases had carotid artery stenting(CAS). Cerebral complications developed in 16 cases including 3 cases of more than two attacks. 5 cases suffered from tansient ischemia attacks (TIA)or cerebral ischemia before operation. 5 developed TIA or cerebral hyperperfusion syndrome (CHPS) among those undergoing CEA and 4 developed TIA or CHPS among CAS cases. During postoperative period, 8 cases developed TIA, CHPS,cerebral infarction or cerebral hemorrhage. Conclusions Prevention and treatment of cerebral complications is extremely important durning surgical therapy of carotid stenosis.
3.Variation of gross tumor volume and clinical target volume definition for lung cancer
Jun LIANG ; Minghui LI ; Dongfu CHEN ; Jima Lü ; Guangfei OU ; Zhouguang HUI ; Guishan FU ; Zhong ZHANG ; Rong ZHENG ; Jianrong DAI ; Lühua WANG
Chinese Journal of Radiation Oncology 2011;20(4):282-285
Objective To study the variation of gross tumor volume (GTV) and clinical target volume (CTV) definition for lung cancer between different doctors.Methods Ten lung cancer patients with PET-CT simulation were selected from January 2008 to December 2009.GTV and CTV of these patients were defined by four professors or associate professors of radiotherapy independently.Results The mean ratios of largest to smallest GTV and CTV were 1.66 and 1.65, respectively.The mean coefficients of variation for GTV and CTV were 0.20 and 0.17, respectively.System errors of CTV definition in three dimension were less than 5 mm, which was the largest in inferior and superior (0.48 cm,0.37 cm,0.32 cm;F=0.40,0.60,0.15,P=0.755,0.618,0.928).Conclusions The variation of GTV and CTV definition for lung cancer between different doctors exist.The mean ratios of largest to smallest GTV and CTV were less than 1.7.The variation was in hilar and mediastinum lymphanode regions.System error of CTV definition was the largest (<5 mm) in cranio-caudal direction.