Objective: For patients with paroxysmal atrial fibrillation, superior vena cava isolation on the basis of pulmonary vein isolation may further improve the long-term success rate of radiofrequency ablation. We aimed to explore the efficacy and safety of superior vena cava isolation by high-power and short-duration (HPSD) ablation plus conventional radiofrequency ablation (RA) in patients with paroxysmal atrial fibrillation. Methods: It was a prospective randomized controlled study. From January 1, 2019 to June 1, 2020, 180 patients who underwent radiofrequency ablation for paroxysmal atrial fibrillation in our center were consecutively screened. Patients were eligible if there was a trigger potential and the muscle sleeve length was greater than 3 cm. A total of 60 eligible patients were finally included and randomly divided into HPSD group (HPSD plus RA) and common power and duration (CPD) group (CPD plus RA) by random number table method (n=30 in each group). Efficacy was evaluated by ablation points, isolation time and ablation time. Safety was evaluated by the incidence of POP, cardiac tamponade, phrenic nerve injury, sinoatrial node injury and all-cause. Results: Superior vena cava isolation was achieved by 14 (13, 15) points in the HPSD group, which was significantly less than that in the CPD group (20(18, 22), P<0.001). The superior vena cava isolation time was 8 (7, 9) minutes in the HPSD group, which was significantly shorter than in the CPD group (17(14, 20) minutes, P<0.001). The average ablation time significantly shorter in HPSD group than in CPD group (78.0(71.1, 80.0) s vs. 200(167.5, 212.5)s, P<0.001). The average impedance drop was more significant in the HPSD group than in the CPD group (20.00(18.75, 21.00)Ω (and the percentage of impedance drop was 15%) vs. 12.00(11.75, 13.25)Ω (the percentage of impedance decrease was 12%), P<0.001). There was 1 POP (3.3%) in the HPSD group, and 3 POPs (10.0%) in the CPD group (P>0.05). There was no cardiac tamponade, phrenic nerve injury, sinoatrial node injury and death in both groups. Conclusions: HPSD technique for the isolation of superior vena cava is safe and effective in patients with paroxysmal atrial fibrillation undergoing conventional radiofrequency ablation.
Humans ; Atrial Fibrillation/surgery* ; Vena Cava, Superior/surgery* ; Prospective Studies ; Treatment Outcome ; Radiofrequency Ablation

Humans ; Mediastinal Neoplasms/therapy* ; Superior Vena Cava Syndrome/therapy* ; Vena Cava, Superior/surgery*

Objective: To evaluate the effectiveness and safety of Pul-Stent as the treatment of postoperative branch pulmonary artery stenosis in children with congenital heart disease. Methods: This was a retrospective study. Thirty-three patients who underwent Pul-Stent implantation in Shanghai Children's Medical Center due to postoperative residual pulmonary artery stenosis from August 2014 to June 2015 were included. The immediate curative effect, follow-up and complications of Pul-Stent implantation were assessed. Comparisons between groups were performed with unpaired Student t test. Results: Pul-Stent implantation of 33 patients (19 males and 14 females) were performed successfully. Thirty-one patients underwent percutaneous stenting, and 2 patients underwent hybrid stenting. A total of 35 Pul-Stents were implanted (19 of model small, 15 of model medium and one of model large), 23 stents were planted in the proximal left pulmonary artery and 12 stents were in the proximal right pulmonary artery. The initial diameter of dilation balloon ranged from 6 to 16 mm, and the long sheath of percutaneous implantation ranged from 8 to 10 F in 29 patients (29/31, 94%). After stenting, the diameter of the narrowest segment of pulmonary artery increased from (4.0±1.7) mm to (9.1±2.1) mm in all patients (t=-21.60, P<0.001). The pressure gradient at the stenosis in 26 patients after biventricular correction decreased from (30.5±12.3) mmHg (1 mmHg=0.133 kPa) to (9.9±9.6) mmHg (t=12.92, P<0.001), and the right ventricular to aortic pressure ratio decreased from 0.57±0.14 to 0.44±0.12 (t=7.44, P<0.001). The pressure of the superior vena cava after stenting in 5 patients after cavopulmonary anastomosis decreased from (17.0±1.9) mmHg to (14.0±0.7) mmHg (t=2.86, P=0.046). Two patients died during reoperation for repairing other cardiac malformations. The remaining 31 patients were clinically stable during the follow-up period of (5.3±1.6) years, and one stent fracture was found on chest X-ray. Cardiac catheterization reexaminations in 16 patients showed that restenosis was found in one stent, while stent position and patency were satisfactory in the remaining stents. Nine children underwent post-dilation without stent fracture, displacement or aneurysm formation. Cardiac tomography showed no stent stenosis, fracture observed, or significant change in diameter of the stent in 8 patients. The inner diameter and pulmonary blood perfusion could not be accurately evaluated due to artifacts by cardiac magnetic resonance imaging in 4 patients. Conclusions: Pul-Stent has good compliance and adequate radial strength, and can dilate further over time to accommodate for somatic growth. It performs safely and effectively in treating post-operative branch pulmonary artery stenosis in children.
Child ; China ; Female ; Follow-Up Studies ; Heart Defects, Congenital/surgery* ; Humans ; Male ; Pulmonary Artery/surgery* ; Retrospective Studies ; Stenosis, Pulmonary Artery/surgery* ; Stents ; Treatment Outcome ; Vena Cava, Superior

OBJECTIVE: To summarize the surgical experience of totally implantable venous access port in children with malignant tumors, and to explore the coping methods of surgical complications. METHODS: The clinical data of 165 children with malignant tumors implanted in totally implantable venous access port in Department of Pediatric Surgery, Peking University First Hospital from January 2017 to December 2019 were retrospectively analyzed. The operation process, complications and treatment of complications were observed and counted. RESULTS: The children in this group were divided into external ju-gular vein incision group (n=27) and internal jugular vein puncture group (n=138) according to different surgical methods, and the latter was divided into ultrasound guided puncture group (n=95) and blind puncture group (n=43). No puncture complications occurred in the external jugular vein incision group, and the average time for successful catheterization and the number of times for catheter to enter the superior vena cava were more than those in the internal jugular vein puncture group [(9.26±1.85) min vs. (5.76±1.56) min, (1.93±0.87) times vs. 1 time], with statistical significance. The average time of successful catheterization, the success rate of one puncture, the average number of punctures and the incidence of puncture complications in the ultrasound guided right internal jugular vein puncture group were better than those in the blind puncture group [(5.36±1.12) min vs. (6.67±1.99) min, 93.68% (89/95) vs. 74.42% (32/43), (1.06±0.24) times vs. (1.29±0.55) times, 2.11% (2/95) vs. 11.63% (5/43)], with statistically significant differences. The total incidence of complications in this study was 12.12% (20/165). Pneumothorax occurred in 1 case, artery puncture by mistake in 1 case, local hematoma in 5 cases, venous access port related infection in 4 cases (venous access port local infection in 2 cases, catheter related blood flow infection in 2 cases), subcutaneous tissue thinning on the surface of port seat in 2 cases, port seat overturning in 1 case, poor transfusion in 4 cases (catheter discount in 1 case, catheter blockage in 3 cases), and foreign bodies gathered around the subcutaneous pipeline in 2 cases. There were no complications, such as catheter rupture, detachment and catheter clamping syndrome. CONCLUSION Totally implantable venous access port can provide safe and effective infusion channels for children with malignant tumors. Right external jugular vein incision and ultrasound-guided right internal jugular vein puncture are reliable surgical methods for children's totally implantable venous access port implantation. Surgeons should fully understand the complications of the venous access port, take measures to reduce the occurrence of complications, and properly handle the complications that have occurred.
Humans ; Child ; Catheterization, Central Venous/methods* ; Retrospective Studies ; Vena Cava, Superior ; Jugular Veins/surgery* ; Neoplasms/surgery*

Atrial Fibrillation/surgery* ; Cardiac Tamponade/surgery* ; Catheter Ablation/adverse effects* ; Humans ; Radiofrequency Ablation ; Treatment Outcome ; Vena Cava, Superior/surgery*

This paper introduced surgical treatment of malignancy-related superior vena cava syndrome. Typical cases were presented with diagnostic radiology results. Authors focused on the main approach to the malignancy-related superior vena cava syndrome of surgery. In order to make it simple for junior doctors to learn and practice, all 4 operation methods were described in details. The writer hopes it would be helpful for all the young thoracic surgeons.
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Humans ; Neoplasm Metastasis ; Superior Vena Cava Syndrome ; diagnostic imaging ; etiology ; surgery ; Thymoma ; complications ; diagnostic imaging ; surgery ; Thymus Neoplasms ; complications ; diagnostic imaging ; surgery ; Vena Cava, Superior ; diagnostic imaging ; pathology ; surgery

Lead insertion for cardiac implantable electronic devices requires venous access into the right side of the heart. The access route commonly used is from the axillary vein, through the subclavian vein and the superior vena cava. However, in patients with congenital heart malformations or those with vascular stenosis, and/or those who have undergone previous cardiac surgery, the passage of leads might be difficult, and the implantation procedure would show restricted scope. In such cases, insertion of leads through the hepatic vein is known to be a safe procedure. We report 2 cases of patients with limited vascular access who underwent lead implantation using the transhepatic approach—1 patient who underwent placement of an implantable cardioverter defibrillator and the other who underwent placement of a permanent pacemaker.
Axillary Vein ; Constriction, Pathologic ; Defibrillators ; Defibrillators, Implantable ; Heart ; Hepatic Veins ; Humans ; Subclavian Vein ; Thoracic Surgery ; Vena Cava, Superior

This study aimed to investigate the causes and managements of the fractures and migrations of the implantable venous access port catheter (IVAPC). The fracture or migration of IVAPC occurred in 4 patients who were treated between May 2012 and January 2014 in Union Hospital, Wuhan, China. The port catheter leakage was found in 2 cases during drug infusion. Catheters that dislodged to the superior vena cava and right atrium were confirmed by port angiogram. The two dislodged catheters were successfully retrieved by interventional procedures. Catheter fracture occurred in two cases during port removal. One catheter was eventually removed from the subclavian vein through right clavicle osteotomy and subclavian venotomy, and the other removed by external jugular venotomy. Flushing the port in high pressure and injury of the totally implantable venous access port (TIVP) during implantation are usually responsible for catheter displacement. Interventional retrieval procedure can be used if the catheter dislodges to the vena cava and right atrium. Catheter fracture may occur during removal if clipping syndrome occurs or the catheter is sutured very tight during implantation.
Angiography ; Catheters, Indwelling ; Central Venous Catheters ; Child ; Child, Preschool ; Device Removal ; methods ; Equipment Failure ; Equipment Failure Analysis ; Female ; Heart Atria ; diagnostic imaging ; surgery ; Humans ; Male ; Middle Aged ; Osteotomy ; methods ; Suture Techniques ; Vena Cava, Superior ; diagnostic imaging ; surgery ; Young Adult

OBJECTIVETo evaluate the effectiveness and safety of endovascular stent insertion for non-small cell lung cancer patients with superior vena cava syndrome.

METHODSWe retrospectively studied 123 patients referred to our hospital for the treatment of non-small cell lung cancer presenting with superior vena cava syndrome. Patients were devided in two groups according to the use of endovascular stent insertion in superior vena cava syndrome or not. 64 patients underwent endovascular stent insertion was designed as the stenting group and 59 without stenting as control group. The differences between the two groups in complete response, complication and survival were analyzed.

RESULTSThe complete response rate of superior vena cava obstruction was 92.0% for the stenting group, and 42.0% for the control group, showing a significant difference between the two groups (P < 0.001). The median time to complete response was (3.76 ± 2.83) days in the stenting group, significantly shorter than that of the control group (28.08 ± 16.06) days (P < 0.001). The relapse rate after complete response was 12.0% in the stenting group and 16.0% in the control group, showing a non-significant difference between the two groups (P = 0.607). The median time to relapse was 2.7 months in the stenting group and 1.1 months in the control group (P = 0.533). In the stenting group, stent stenosis occurred in 1 case and thrombosis was observed in 3 cases. The incidence rate of complications was 6.3%. Thrombosis occurred in 1 case of the control group, with an incidence rate of complications of 1.7%, showing a non-significant difference between the two groups (P = 0.201). Seven among the 123 patients were still alive at the endpoint of following up. The median survival time was 8.0 months (stenting group) and 5.5 months (control group) (P = 0.382).

CONCLUSIONSEndovascular stent insertion is effective and safe for non-small lung cell cancer patients with superior vena cava syndrome, and it may be recommended as the first choice for palliative treatment of superior vena cava obstruction.

Adult ; Aged ; Carcinoma, Non-Small-Cell Lung ; complications ; surgery ; Female ; Humans ; Lung Neoplasms ; complications ; surgery ; Male ; Middle Aged ; Neoplasm Recurrence, Local ; Palliative Care ; Remission Induction ; Retrospective Studies ; Stents ; Superior Vena Cava Syndrome ; complications ; surgery ; Thrombosis

Adult ; Arterial Switch Operation ; Atrial Flutter ; physiopathology ; surgery ; Catheter Ablation ; Humans ; Male ; Postoperative Complications ; Tricuspid Valve ; surgery ; Vena Cava, Superior ; surgery