Objective To investigate the clinical effect of percutaneous endovascular interventional treatment for bilateral iliofemoral venous thrombosis. Methods From November 2012 to February 2016, the clinical data of 18 patients with bilateral iliofemoral venous thrombosis were retrospectively analyzed. All patients including 7 males and 11 females, aged from 51 to 86 years with an average of (66.2±7.8) years old. All patients underwent interventional treatment, and mechanical aspiration thrombectomy was performed under the protection of inferior vena cava filter at the acute or subacute phase; those whose venography showed iliac vein stenosis received balloon dilatation and self-expandable stents immediately. Iliac vein stenosis received balloon dilatation and self-expandable stents immediately at the chronic phase. Results The treatment was successful in all patients. The circumference difference of thigh and calf was (7.3±2.1) and (4.6±2.7) cm respectively before and after treatment. Thirteen patients with stenosis or occlusion of the iliac vein were treated with adjunctive balloon dilatation and stent placement, and 20 self-expandable stents were inserted successfully. All the patients were followed up for 12–34 months with an average of (21.5±7.3) months; stenosis or occlusion of the stent were seen in 1 patient after 9 months; post thrombotic syndrome was observed in 1 patient after 12 months. The 12-month primary patency rate and secondary patency rate was 88.9% (16/18) and 100.0% (18/18), respectively. Conclusion Endovascular interventional therapy of bilateral iliofemoral venous thrombosis is a safe and effective method.
The patient underwent prostatectomy before two months. After the operation, he suffered from intermittent fever, chest tightness, and suffocation. Combined with the history, symptoms, signs, laboratory examination, echocardiography, imaging examination (CT), and the positive blood culture for Enterococcus faecalis, the admitting diagnosis was aortic stenosis and insufficiency, mitral insufficiency, cardiac function grade Ⅲ (New York Heart Association grade), infective endocarditis, and aneurysm of aortic sinus. After 4-week antimicrobial drug treatment, the patient was in a stable condition with normal body temperature, multiple negative blood cultures, and normal laboratory-related examinations. After careful and sufficient preparation, transcatheter aortic valve replacement operation was performed in the hybrid operating room with 32 mm Venus-A valve. The operation was successful and the patient was discharged on the seventh day after operation. He continued to be treated with antimicrobial drugs for 4 weeks after surgery, and his temperature was normal. He had no chest tightness, asthma, or other symptoms. One, three, and six months after operation, blood tests and erythrocyte sedimentation rate were normal, electrocardiogram showed sinus rhythm, and echocardiography showed a maximum aortic valve pressure difference of 7 mm Hg (1 mm Hg=0.133 kPa), no perivalvular leak and no pericardial effusion.
Objective To evaluate the clinical efficacy and safety of endovascular therapy for spontaneous isolated superior mesenteric artery dissection (SISMAD). Methods The clinical data of 17 patients with SISMAD, who were treated at author's hospital during the period from March 2009 to May 2016, were retrospectively analyzed. According to the Sakamoto angiographic classification, patients were divided into typeⅠ (n=3), typeⅡ (n=5), and type Ⅲ (n=9). Three patients with type Ⅰ were treated with conservative treatment first, and then 2 were treated with endovascular therapy as the poor reaction. The other patients were treated with endovascular treatment right a way. Results Conservative treatment was success in 1 case, 16 patients were treated with endovascular treatment, the technical success rate was 100%, one stent was used in 11 patients and two stents were used in 5 patients, and the blood in the true lumen of superior mesenteric artery (SMA) restored, no major complications occurred. Seventeen patients were followed-up for 3-36 months (mean of 19 months) and the followed-up rate was 100%, no abdominal pain occurred in 17 cases, CTA showed that no dissecting aneurysm was observed and the stents were patent of SMA. Conclusion Interventional therapy is a safe and effective method for SISMAD.
Objective To discuss the clinical effect and value of stent placement combined with mechanical aspiration thrombectomy for acute iliofemoral venous thrombosis with iliac vein occlusion. Methods From October 2004 to December 2011, interventional treatment were performed in 273 patients with acute iliofemoral venous thrombosis and iliac vein occlusion, including left side of 235 cases and right side of 38 cases. Antegrade femoral vein under local anesthesia, an 8-14F catheter was inserted into iliofemoral vein with the guidance of guide wire to aspirate thrombus directly, 53 patients used 18-24F large lumen sheath to aspirate thrombus. As for the femoralpopliteal vein thrombus, a “cross sheath” was inserted to affected iliac vein with the help of guide wire capture technique, a guide wire was introd-uced to popliteal vein, then a Fogarty balloon catheter was inserted and extracted thrombus to iliac vein, mechanical aspiration thrombectomy was performed again. After iliofemoral vein thrombus were removed completely, percutaneous transluminal angioplasty (PTA) and stenting were performed for stenosis or occlusion displayed by venography. Results Thrombus removal were completely cleared (degreeⅢ) in 219 cases (80.22%), partly cleared (degreeⅡ) in 49 cases (17.95%), and minimal cleared (degreeⅠ) in 5 cases (1.83%). The effect of stent placement:were cured in 235 cases (86.08%), excellent in 29 cases (10.62%), mild in 2 cases (2.57%), and invalid in 7 cases (0.73%). Total effective rate was 99.27% (271/273), the average days in hospital was 7.5 days. Tumescence and pain of affected limb disappeared or relieved after interventional therapy for 1-2 days. The followe up effect:3-6 months, 7-12 months, 13-24 months, and 25-36 months after treatment of iliac vein patency were 94.87%,93.73%,87.08%,and 84.13% respectively. Conclusion Mechanical aspiration thrombectomy combined with stent placement for acute lower extremity deep venous thrombosis and iliac vein obstruction is an effective and safe treatment for its notable therapeutic effect and the short hospitalization time.
ObjectiveTo investigate the effect of vascular interventional technique in arterial injuries of damage control surgery.MethodsA retrospective review was made on clinical data of 31 arterial injuries cases who received damage control surgery from March 2011 to June 2018. All cases underwent endovascular therapy for arterial injuries in No. 960 Hospital of Chinese People’s Liberation Army, and then the definitive operation was operated as soon as the vital signs became stable.ResultsThe surgery was successful in all patients, and the operation time was 43–100 min (average of 57 min), the intraoperative blood loss was 50–200 mL (average of 80 mL). Bleeding was successful controlled in 11 cases with covered stents, 9 cases with multiple overlapping bare stents, and 11 cases with spring coil, all cases with shock were improved immediately. There were no perioperative mortality or procedure-related complication occurred. All cases were discharged from hospital smoothly after two-phase surgery. All the patients were followed up for 6 to 24 months [(17±5) months]. Two patients with covered stent lumen stenosis less than 50% as showed by angiography, and no secondary treatment was required. In addition, blood flow patency was kept in the rest of artery, no bleeding occurred in injured artery. During the follow-up period, the collateral vessels of 9 patients treated with multi-layerbare stent overlapping technique were unobstructed. Stent migration, fracture or leakage was not found during the follow-up period. Patients recovered well after definitive surgery, they had good fracture healing with a disability rate of 0.ConclusionRational application of vascular interventional technique in damage control surgery is a safe and effective treatment method for arterial injuries combined with other traumas.
ObjectiveTo investigate treatment methods and effect of endovascular interventional therapy for visceral artery aneurysms.MethodsThe clinical data of 32 patients with visceral artery aneurysms, who were treated in the No. 960 Hospital of PLA from February 2011 to April 2018, were retrospectively analyzed. It was proveded by the CT or digital subtraction angiography before the interventional therapy. The implantation of covered stent, coil embolization together with stent implantation, double stents placement or pure coil embolization were performed. The postoperative antithrombotic therapy was adopted in the patients accepted the stent implantation. The CT angiography was performed on the month of 1, 6, 12, 24 or the patient was uncomfortable after the treatment to evaluate the obstruction condition of the aneurysms, stent blood flow, and branches arteries, etc..ResultsThe success rate of the endovascular interventional therapy was 100%. In the 11 patients underwent the implantation of covered stent, the postoperative angiography showed that the stent lumen was patent and the aneurysm was not visualized. In the 9 patients underwent the coil embolization together with stent implantation and 3 patients underwent the double stents placement, the postoperative angiography results of the aneurysm showed that it was faintly visualized and the branch arteries were not involved. In the 9 patients underwent the pure coil embolization, the postoperative angiography showed that the aneurysm was not visualized. No perioperative mortality or procedure related complications occurred. No case was lost during the follow-up of a median period of 25.5 (6–48) months. During the follow-up, one patient developed the mild abdominal pain in one month, which disappeared after the symptomatic medication management. Except for 1 patient developed the mild stent stenosis (<30%) on the 12th month after the procedure, the stent and the branch arteries of the other patients were completely patent, and no aneurysms recurred.ConclusionFor treatment of visceral artery aneurysms, endovascular interventional therapy is safe and effective and shows an excellent short-term and mid-term effects.
Objective To discuss the clinical effect and value of minimally invasive therapy on lower extremity deep venous thrombosis (DVT). Methods The clinical data of 911 patients with acute lower extremity DVT from April 1998 to December 2011 were analyzed retrospectively. There were 489 males,422 females;the age ranged from 23-86 years old with (58.72±11.95) years old. Five hundred and sixty-eight patients occurred on the left leg,343 patients on the right leg. There were 487 cases of central type,166 cases of peripheral type,258 cases of mixed type. All the patients were implanted inferior vena cava filter under local anesthesia,then inserted an 8-14 F catheter via the femoral vein of the affected limbs to suck mechanically thrombus. Five hundred and twenty-seven cases of iliofemoral vein thrombus were inserted into sheathing canal with the help of technique of guide wire griped. The guide wire could be plugged into femoral vein,even more far,with the help of sheathing canal. Following the guide wire,a diameter-10 mm balloon catheter was used to pull the thrombus to iliac vein,with the watching of DSA,so it could be sucked from iliac vein. Before sucking thrombus,a diameter-12 mm balloon was put into the confluence of inferior vena cava and iliac vein,in case of thrombus fall off with blood flow to block inferior vena cava. Results Among 911 patients,423 cases were only treated by sucking thrombus,275 cases sucking thrombus plus endovascular thrombolysis,91 cases sucking thrombus plus endovascular thrombolysis plus percutaneous transluminal angioplasty (PTA),122 cases sucking thrombus plus endovascular thrombolysis plus PTA plus stenting,the average hospital stay was 7.5 d. ① Discharge success rate:907 (99.56%) cases were successful by interventional therapy,4 (0.44%) cases were failed. Nine hundred and eleven patients were performed mechanical thrombus suction,which was 556 cases of gradeⅢ,142 cases of gradeⅡ,213 cases of gradeⅠ. Among 213 cases of gradeⅠ,there were 91 cases only underwent PTA treatment for economic reasons or advanced stage malignant tumors,122 cases underwent PTA plus stenting. The circumferences of affected limb and the differences of circumference of healthy and affected limbs knees above and below 15 cm at discharge were significantly smaller than those at admission (P<0.01). Twenty-seven cases underwent anticoagulation and thrombolytic therapy after operation,which occurred mild subcutaneous bleeding,gum bleeding,epistaxis,hematuria,and the symptoms were disappearance after adjusting drugs. All the patients did not appear to complications such as bleeding,vessel dissection. ② Follow-up effective rate:After 6 to 12 months follow-up,there were 714 (78.38%) cases of excellent,136 (14.92%) cases of good,57 (6.26%) cases of middle,4 (0.44%) cases of poor. After 13 to 24 months follow-up,there were 691 (76.18%) cases of excellent,151 (16.65%) cases of good,65 (7.17%) cases of middle;65 cases occurred restenosis that the PTA and stent placement was underwent again, blood flow of 58 cases completely restored,blood flow of 7 cases partly recovered,and the contrast agent didn’t retent. After 25 to 36 months follow-up,there were 681 (75.08%) cases of excellent,128 (14.11%) cases of good,98 (10.81%) cases of middle;98 cases of limb swelling were not satisfied,and the patients still had a sense of pain after walking,but the symptoms obviously improved as compared with preoperative symptoms,the patients were advised to wear stretch socks with no further interventional therapy. Conclusions Minimally invasive therapy on lower extremity DVT can eliminate thrombus from venous cavity more early,restore the unobstructed flow instantly,preserve the function of venous valve in a greater degree. It has an advantage of minimally invasive,less complications,and notable clinic effect of short-term and medium-term follow-up.