目的 分析彩色多普勒超声对肝硬化患者门静脉血流改变的评价作用。 方法 选择2010年1月-2011年4月收治的50例肝硬化患者作为观察组,其中代偿期患者27例,失代偿期患者23例;同时设置健康对照组50名,比较两组的门静脉内径(Dpv)、门静脉平均血流速度(Vpv)、门静脉血流量(Qpv)。 结果 观察组患者的Dpv增宽,Vpv减慢,Qpv减少,与对照组比较,差异均有统计学意义(P<0.05);且失代偿期患者的改变更为明显,与代偿期患者间差异有统计学意义(P<0.05)。 结论 彩色多普勒超声检查门静脉血流改变可以对肝硬化患者进行初步确诊。
Objective To observe the time-intensity curve characteristics of contrast agents in intraocular tumor. Methods A total of 236 patients (238 eyes) with intraocular tumor were enrolled in this study. All the patients received regular ophthalmologic examination, two dimensional ultrasound, color doppler ultrasonography and contrast-enhanced ultrasonography. There were 166 patients (166 eyes) with choroidal melanoma, 16 patients (18 eyes) with choroidal metastatic carcinoma, 52 patients (52 eyes) with choroidal hemangioma, two patients (two eyes) with retinal hemangioma. The whole process of contrast-enhanced ultrasound were recorded, and exported as t images of Dicom format. These images were processed by Sonoliver software (Tomteck Company, Germany) to drawn the time-intensity curve of contrast agents in the intraocular tumors. Results All intraocular lesions were completely filled with contrast agent, concentric filling from the periphery to the center can be documented in some cases. The time-intensity curve of choroidal hemangioma and retinal hemangioma were basically the same. The time-intensity curve of choroidal melanoma and choroidal metastatic carcinoma were also basically the same. In the filling phase, all tumors were rapid filling type. In the regression phase, contrast agent subsided earlier than in control tissue within the melanoma or metastatic carcinoma lesions, but subsided synchronous or slightly faster than in control tissue within the choroidal hemangioma and retinal hemangioma lesions. Among 166 eyes with choroidal melanoma, 138 eyes (83.1%) were in full compliance with the above changes, 28 eyes (16.9%) were largely in line with these changes. All the eyes (100.0%) with choroidal metastatic carcinoma, choroidal hemangioma and retinal hemangioma were in full compliance with the above changes. Conclusion Time-intensity curve is quickly filling and fast regression for malignant intraocular tumors, but is quickly filling and slow regression for benign intraocular tumors.
Objective To investigate the changes of ocular hemodynamics in patients with retinal vein occlussion(RVO). Methods The hemodynamic parameters(PSV,EDV,PI,Vmax)of central retinal artery(CRA)and central retinal vein(CRV)were measured in the involved eyes(n=48) with RVO and the contralateral clinically healthy eyes(n=39) and in the control eyes(n=40) by color Doppler imaging (CDI)(ATLHDI3000). Results Peak systolic velocity (PSV) and end diastolic velocity (EDV) were significantly lower in the CRA of involved eyes and clinically healthy eyes of patients with RVO compared with control eyes,and pulsatility index(PI)was significantly higher in the CRA of involved eyes of patients with RVO compared with control eyes.PSV were significantly lower in the CRA of involved eyes of patients with RVO compared with their clinically healthy eyes.Pulsatility index(PI)was significantly higher in the CRA of involved eyes of patients with RVO compared with their clinically healthy eyes.Maximun vein velocity (Vmax) was significantly lower in the CRV of involved eyes and clinically healthy eyes of patients with RVO compared with control eyes. Conclusion The changes of hemodynamics in CRA,CRV of involved eyes of patients with RVO may invade their clinically healthy eyes.CDI may be helpful to early diagnosis for RVO. (Chin J Ocul Fundus Dis,1998,14:111-113)
Objective To explore the effectiveness of arterial crisis after replantation of limb treated by ultrasound guided Fogarty balloon catheter. Methods Between January 2012 and July 2016, 27 patients suffered from arterial crisis after replantation of limb were treated with ultrasound guided Fogarty balloon catheter combined with thrombolytic anticoagulant. There were 18 males and 9 females with the age of 19-51 years (mean, 32 years). The limb mutilation position was at knee joint in 3 cases, lower limb in 9 cases, ankle joint in 6 cases, elbow joint in 2 cases, forearm in 4 cases, and wrist joint in 3 cases. The arterial crisis happened at 2.5-18 hours (mean, 7.5 hours) after limb replantation surgery. Color doppler ultrasonography was used to diagnose the arterial thrombosis, finally the anastomotic thrombosis were found in 16 cases, non-anastomotic thrombosis in 7 cases, and combined thrombosis in 4 cases. All the thrombosis were deteced in the arteries with the length of 0.8-3.9 cm. Results No complication such as vascular perforation, rupture, air embolism, thromboembolism, wound infection, or sepsis happened after operation. Arterial crisis occurred again in 3 cases at 1.5-13.5 hours after limb replantation and treated by arterial exploration, 1 case was treated successfully; 2 cases had arterial occlusion and partial necrosis of limb, and got amputation treatment at last. The rest 24 cases survived with the incision healing by first stage. In the 24 cases, 1 case suffered from acute myonephropathic metabolic syndrome and corrected after hemodialysis; 1 case suffered from acute liver functional damage and corrected by comprehensive treatment of internal medicine. The 24 patients were followed up 7-38 months (mean, 11 months). At last follow-up, blood supply of the limb was good with normal skin temperature and improved sense of feeling, activity, and swelling. According to Chinese Medical Association of hand surgery to the upper extremity function assessment standard, the results were excellent in 12 cases, good in 8 cases, and fair in 4 cases with an excellent and good rate of 83.3%. Conclusion Ultrasound guided Fogarty balloon catheter treatment of posterior replantation of arterial crisis can accurately locate the thrombosis, get the thrombus fast and invasive minimally to avoid the blind and repeated thrombectomy, and obtain certain effectiveness.
Objective To evaluate the applicability of Transcranial Doppler (TCD) monitoring in brain protection in the process of aortic dissection surgical procedure. Methods From Feburary 2007 to November 2007, six patients with type I aortic dissection underwent surgical procedure in Xuanwu Hospital of Capital Medical University. All patients are male with their age ranged from 48 to 60 years. During the operation, right subclavian arterial cannulation technique was used to protect the brain, and TCD monitoring was adopted to guide cerebral perfusion. The function of nervous system after operation was observed, and the minimental state examination (MMSE) was used to assess the cognitive function of the patients. A twoyear followup was done to monitor patients’ aorta condition. Results The time of cardiopulmonary bypass (CPB) was 136 to 350 minutes. The time of selected cerebral perfusion was 20 to 65 minutes. The lowest cerebral blood flow was 31% of basic level according to TCD monitoring. All patients were successfully treated without neurological complication and cognitive dysfunction when discharged from hospital. MMSE score was 28 to 30 points. During the twoyear followup after operation, all aortic false lumen were closed and there was no dissection recurrence. Conclusion Monitoring blood change with TCD monitoring technique is safe and effective in evaluating brain protection by selective cerebral perfusion in aortic dissection surgical procedure.
OBJECTIVE: To study the effect of color doppler flow imaging(CDFI) technique in the design of axial pattern flap. METHODS: From April 1996 to June 1999, 10 patients with residual wound were adopted in this study. Among them, there were seven males and three females, the area of wounds ranged from 6 cm x 8 cm to 15 cm x 20 cm. Before operation, the axial pattern flaps were designed by traditional method, then CDFI technique with high frequency(5.0-7.5 MHz) was used for examining the major supply artery of the flap. At last, the modified flaps were transferred to cover the wounds. RESULTS: All the patients except one case completed the operation successfully. The cosmetic and function of the flaps were excellent. CONCLUSION: CDFI is a simple, direct and accurate method for detecting the supply artery of axial pattern flap. This technique should be popularized to avoid the blindness of flap design.