ObjectiveTo observe the clinical effect of super-selective ophthalmic artery or selective carotid artery thrombolytic therapy for central retinal artery occlusion (CRAO). MethodsTwelve CRAO patients (12 eyes) were enrolled in this study. The patients included 7 males and 5 females. The age was ranged from 19 to 68 years old, with an average of (50.0±3.5) years. The disease duration was from 8 to 72 hours, with a mean of 18 hours. All the patients were received the treatment of super-selective ophthalmic artery or selective carotid artery thrombolysis with urokinase (total 0.20-0.4 million U) and injection of papaverine 30 mg. Five patients received the treatment of super-selective ophthalmic artery thrombolytic therapy, 7 patients received the treatment of selective carotid artery thrombolytic therapy (4 patients because of the financial issues, 3 patients because of thin ophthalmic artery). According to the visual acuity of post-treatment and pre-treatment, the therapeutic effects on vision were defined as effective markedly (improving three lines or more), effective (improving two lines) and no effect (no change or a decline). According to the arm-retinal circulation time (A-Rct) and filling time of retinal artery and its branches (FT) on fluorescence fundus angiography (FFA), the therapeutic effects on retinal circulation were defined as effective markedly (A-Rct 15 s, FT 2 s), effective (A-Rct was improved but in the range of 16-20 s, FT was in 3-8 s) and no effect (A-Rct was improved but 21 s, FT 9 s). ResultsThe vision changes showed effective markedly in 5 eyes (41.7%), effective in 5 eyes (41.7%), no effect in 2 eyes (16.6%). The total therapeutic efficiency on vision was 83.4%. The retinal circulation was improved in all eyes after treatment, including effective markedly in 8 eyes (67.0%), effective in 4 eyes (33.0%). The total therapeutic efficiency on retinal circulation was 100.0%. No complications occurred in these 12 patients during the treatment or follow-up, such as puncture site hematoma, intracranial hemorrhage, cerebral embolism, eye movement abnormalities, retinal and vitreous hemorrhage. ConclusionSuper-selective ophthalmic artery and selective carotid artery thrombolytic therapy were effective in the treatment of CRAO.
ObjectiveTo investigate therapeutic method, curative effect, and prognosis of inferior vena cava (IVC) blocking Budd-Chiari syndrome (BCS) with thrombosis. MethodsClinical data of 128 BCS patients with membranous or short-segment occlusion of IVC as well as IVC thrombosis, who accepted interventional treatment in The Affiliated Hospital of Zhengzhou University from Apr. 2004 to Jun. 2012, were retrospectively analyzed. Comparison of the difference on effect indicators between predilation group and stent filter group was performed. ResultsThereinto, 9 patients with fresh IVC thrombosis were treated with agitation thrombolysis (agitation thrombolysis group), 56 patients were predilated by small balloon (predilation group), for the rest 63 patients, a stent filter was deployed (stent filter group). Besides 1 stent filter fractured during the first removal attempt and had to be extracted surgically in the stent filter group (patients suffered with sent migration), in addition, the surgeries of other patients were technically successful without procedure-related complication. effect indicators were satisfactory in all patients, and there were no statistical differences between predilation group and stent filter group in dosage of urokinase, urokinase thrombolysis time, hospital stay, and incidence of complication (P > 0.05), but the cost of predilation group was lower than that of stent filter group (P < 0.01). All of the 128 patients were followed-up postoperation, and the duration range from 18 to 66 months with an average of 44.2 months. During the follow-up period, reobstruction of the IVC was observed in 13 patients without thrombosis, of which 1 patient in agitation thrombolysis group, 6 patients in predilation group, and 6 patients in stent filter group. There was no significant difference in recurrence rate between predilation group and stent filter group (P > 0.05). Patients with recurrence got re-expansion treatment, and no stenosis or thrombogenesis recurred. ConclusionsAgitation thrombolysis for fresh IVC trombosis in the patients with BCS is safe and effective. Predilation and stent filter techniques are all effective in the treatment of BCS with chronic IVC thrombosis, but the former technique seems to be more economic.
To assess the efficacy and safety of thrombolytic therapy. Electronic search was applied to the Cochrane Airways Group register (MEDLINE, EMBASE, CINAHL standardized searches) with the date up to 2003 April. Hand searched respiratory journals and meeting abstracts. All randomized controlled trials comparing thrombolytic therapy with heparin alone or surgical intervention (eg. embolectomy) met the inclusion criteria. Two reviewers independently selected trials, assessed trial quality and extracted the data.
ObjectiveTo investigate the therapeutic method and effect of thrombolysis via superselective ophthalmic artery catheterization treating central retinal artery occlusion (CRAO).Methods9 patients with CRAO were treated by urokinase infusion via superselective ophthalmic artery catheterization with Seldinger technique.ResultsIn the 9 patients, the visual acuity was improved to different extent in 8, and remained unchanged in 1. No complications was found during the treatment in any patients.ConclusionsThrombolysis via super-selective ophthalmic artery catheterization for CRAO can improve the visual acuity of most of the patients in different degrees. No positive relation exists in clinical therapeutic effect, time of onset, quantity of urokinase and the visual acuity before the treatment. The method of thrombolysis via super-selective ophthalmic artery catheterization for CRVO is safe and reliable.(Chin J Ocul Fundus Dis, 2005,21:22-24)
Objective To explore the awareness of thrombolytic therapy for acute ischemic stroke in inpatients with a history of stroke and with a high risk of stroke. Methods From January to August 2012, using self-designed questionnaire, trained neurologists conducted the face to face investigation in 500 inpatients with a high risk of stroke, including those with a history of stroke in Department of Neurology in the Second Affiliated Hospital of Chongqing Medical University. Results A total of 467 valid questionnaires were recovered. Only 16.1% (75/467) patients were aware of thrombolytic therapy for acute stroke, of whom 50.7% (38/75) knew the time window of thrombolytic therapy. Awareness of thrombolytic therapy was higher in patients aged 56-70 years, with a higher level of education and income, and in those who knew at least 3 stroke warning signs and those with a history of stroke. While awareness of the time window of thrombolytic therapy was higher in those unmarried or widowed and with a history of stroke. Multiple logistic regression analysis showed that awareness of thrombolytic therapy was independently associated with age, education level, knowledge of stroke warning signs and a history of stroke; awareness of the time window was associated with marital status and a history of stroke (P<0.05). Conclusions Inpatients with a history of stroke and with a high risk of stroke in the Department of Neurology have poor awareness of thrombolytic therapy for acute ischemic stroke. It is necessary to improve the level of patients’ knowledge about thrombolytic therapy for acute stroke by health education.
Objective To observe the clinical effect of intravenous thrombolytic therapy for central retinal artery occlusion (CRAO) with poor effect after the treatment of arterial thrombolytic therapy. Methods Twenty-four CRAO patients (24 eyes) with poor effect after the treatment of arterial thrombolytic therapy were enrolled in this study. There were 11 males and 13 females. The age was ranged from 35 to 80 years, with the mean age of (56.7±15.6) years. There were 11 right eyes and 13 left eyes. The visual acuity was tested by standard visual acuity chart. The arm-retinal circulation time (A-Rct) and the filling time of retinal artery and its branches (FT) were detected by fluorescein fundus angiography (FFA). The visual acuity was ranged from light sensation to 0.5, with the average of 0.04±0.012. The A-Rct was ranged from 18.0 s to 35.0 s, with the mean of (29.7±5.8) s. The FT was ranged from 4.0 s to 16.0 s, with the mean of (12.9±2.3) s. All patients were treated with urokinase intravenous thrombolytic therapy. The dosage of urokinase was 3000 U/kg, 2 times/d, adding 250 ml of 0.9% sodium chloride intravenous drip, 2 times between 8 - 10 h, and continuous treatment of FFA after 5 days. Comparative analysis was performed on the visual acuity of the patients before and after treatment, and the changes of A-Rct and FT. Results After intravenous thrombolytic therapy, the A-Rct was ranged from 16.0 s to 34.0 s, with the mean of (22.4±5.5) s. Among 24 eyes, the A-Rct was 27.0 - 34.0 s in 4 eyes (16.67%), 18.0 - 26.0 s in 11 eyes (45.83%); 16.0 - 17.0 s in 9 eyes (37.50%). The FT was ranged from 2.4 s to 16.0 s, with the mean of (7.4±2.6) s. Compared with before intravenous thrombolytic therapy, the A-Rct was shortened by 7.3 s and the FT was shortened by 5.5 s with the significant differences (χ2=24.6, 24.9; P<0.01). After intravenous thrombolytic therapy, the visual acuity was ranged from light sensation to 0.6, with the average of 0.08±0.011. There were 1 eye with vision of light perception (4.17%), 8 eyes with hand movement/20 cm (33.33%), 11 eyes with 0.02 - 0.05 (45.83%), 2 eyes with 0.1 - 0.2 (8.33%), 1 eye with 0.5 (4.17%) and 1 eye with 0.6 (4.17%). The visual acuity was improved in 19 eyes (79.17%). The difference of visual acuity before and after intravenous thrombolytic therapy was significant (χ2=7.99, P<0.05). There was no local and systemic adverse effects during and after treatment. Conclusion Intravenous thrombolytic therapy for CRAO with poor effect after the treatment of arterial thrombolytic therapy can further improve the circulation of retinal artery and visual acuity.
ObjectiveTo evaluate the therapeutic effects of super-selective arterial catheterization with thrombolysis for central retinal artery occlusion (CRAO).MethodsThe clinical data of 16 patients with CRAO were collected. Aortic arch angiography with the catheterization through femoral artery firstly, and then the selective internal carotid artery angiography had been performed on all of the patients, including 12 ones who had undergone the urokinase thrombolysis therapy.ResultsIn the 16 patients, 3 with the severe straitness of the internal carotid artery and 1 with occlusion of incision of the ocular artery had not been treated by thrombolysis; and the others with occlusion of arterial trunk and CRAO had undergone thrombolysis therapy successfully. After the treatment, the visual acuity of the patients had improved in different degree and no systemic side effect had been found during the treatment.ConclusionsSuper-selective arterial catheterization with thrombolysis for CRAO may improve the visual acuity of the patients. The effects and risks of this treatment should be evaluated in further study.(Chin J Ocul Fundus Dis, 2005,21:20-21)
Objective To evaluate the clinical effect of Nd:YAG laser embolysis combined urokinase thrombolysis therapy for branch retinal artery occlusion. Methods Thirty-four eyes of 34 patients with branch or hemiretinal artery occlusion (RAO) were studied. All patients were confirmed according to the diagnosis criteria of RAO at acute stage, disease course ranged from 12 hours to nine days. Local retinal edema and the yellowish white embolus within the retinal arteriole could be observed by color photograph and fundus fluorescein angiography (FFA) examination. Nd:YAG laser therapy was given to all eyes, which focused on the embolus by an ocular contact lens. The laser pulse was delivered directly and gradually by 0.3-0.9 mJ according to embolus condition. Fundus photographs and FFA were taken before and immediately after the laser treatment. On the next day after laser treatment, all patients received urokinase thrombolysis therapy through intravenous drip of 100 000200 000IU per time by two times for five consecutive days. Follow-up time ranged from two to three days after drug treatment and all patients accepted FFA, visual acuity and visual field examination. According to early angiography images of fluorescence filling, the recovery will be graded into full recovery, great recovery, partial recovery and invalid. Results After laser treatment, most eyes showed immediate recovery of blood flow in the occluded arteriole in fundus examination. Complete, great, and partial recovery were found in 13 eye (38.2%), 11 eyes (32.4%), and five eyes (14.7%) respectively by FFA examination; five eyes (14.7%) did not response to the treatment. After urokinase thrombolysis therapy, complete, great, and partial recovery were found in 16 eye (47.1%), 15 eyes (44.1%), and three eyes (8.8%). The difference of visual acuity was statistically significant before and after the combined treatment (chi;2=30.7,P<0.05). In most cases, visual field defect showed lighter than before. No systemic complications were observed during the combined treatment. Conclusion Nd:YAG laser embolysis combined urokinase thrombolysis therapy for branch retinal artery occlusion is effective and relatively safe.
ObjectiveTo observe the effect of interventional thrombolytic therapy for central retinal artery occlusion (CRAO) with ipsilateral internal carotid artery occlusion via supratrochlear artery retrogradely or external carotid artery anterogradely.MethodsNine CRAO patients (9 eyes) were enrolled in this study, including 5 males and 4 females. The mean age was (45.2±18.1) years. The mean onset duration was 24 hours. There were 4 eyes with vision of no light perception, 3 eyes with light perception and 2 eyes with hand movement. Fundus fluorescein angiography (FFA) examination showed that the retinal artery was filled with delayed fluorescence. The peak of fluorescence was seen in the anterior part of the artery, and some of the eyes showed retrograde filling. The arm-retinal circulation time (A-Rct) was ≥35 s in 4 eyes, ≥35 s - <25 s in 5 eyes. The filling time of retinal artery and its branches (FT) was ≥15 s in 2 eyes, ≥12 s - <15 s in 3 eyes, ≥9 s - <12 s in 4 eyes. All the patients received the treatment of interventional thrombolytic therapy via supratrochlear artery retrogradely (8 eyes) or external carotid artery anterogradely (1 eye) according to the indications and contraindications of thrombolytic therapy in acute cerebral infraction patients. Urokinase (0.4 million U in total) was intermittently injected into the arteries. After artery thrombolysis, the changes of digital subtraction angiography (DSA), filling time of retinal artery and its branches on FFA within 24 hours and the visual acuity were observed. According to the A-Rct and FT on FFA, the therapeutic effects on retinal circulation were defined as effective markedly (A-Rct≤15 s, FT≤2 s) , effective (A-Rct was improved but in the range of 16 - 20 s, FT was in 3 - 8 s) and no effect (A-Rct was improved but ≥21 s, FT≥9 s). The related local or systemic complications were recorded.ResultsAfter the injection of urokinase into the catheter, the ophthalmic artery and its branches were increased in 6 eyes (66.7%), and the development of the eye ring was significantly more than that of the eyes before thrombolysis. The circulation time in ophthalmic artery was speeded up for 2 s before thrombolysis in 3 eyes, 3 s in 3 eyes, and 4 s in 2 eyes. Within 24 hours after thrombolysis treatment, the A-Rct was significantly decreased than that of before interventional therapy. The retinal circulation was effective markedly in 4 eyes (44.4%), effective in 4 eyes (44.4%) and no effect in 1 eyes (11.2%) . The vision was improved 3 lines in 4 eyes (44.4%), 2 lines in 3 eyes (33.3%), 1 line in 1 eye (11.2%) and no change in 1 eye (11.2%). There were no abnormal eye movements, vitreous hemorrhage and incision hematoma, intracranial hemorrhage, cerebral embolism, and other local and systemic adverse effectives during the follow-up.ConclusionsThe interventional thrombolytic therapy via supratrochlear artery retrogradely or external carotid artery anterogradely for CRAO with the ipsilateral internal carotid artery occlusion can improve retinal circulation and vision. There are no related local or systemic complications.
Objective To explore the effect of xue-shuan-tong(panax notoginsang saponins,PNS)or isovalaemic haemodilution(IHD)and PNS combining IHD treatment on activities of fibrinolysis and hemorrheology in patients with retinal vein occlusion (RVO). Methods Seventy-three patients with RVO were allocated at random to 3 groups which were treated with PNS,IHD and PNS combining IHD.The activities of t-PA and PAI,rheological parameters and visual acuity before and after treatment were observed. Results At the end of treatment,significantly increased activity of t-PA and decrease of PAI was found in combined treatment group and PNS group,but the difference before and after treatment was not significant in IHD group.Furthermore,except the plasma viscosity in IHD group,the other hemorrheological parameters in all the petients of 3 groups revealed to be improving.One month after treatment,the parameters return completely to normal in both PNS and IHD groups; while the whole blood apparent relative viscosity in low shear rate,RBC aggregation and RBC deformability maintained still in lower level,and also the visual acuity resumed better and quicker in combined group. Conclusion Combined treatment of PNS and IHD can both regulate the activity of fibrinolysis and decrease the blood viscosity of patients with RVO for a period of relatively long time and increase the effect of treatment. (Chin J Ocul Fundus Dis,1998,14:7-9)