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

Adolescent ; Adult ; Child ; Female ; Hemostasis, Surgical ; methods ; Humans ; Male ; Middle Aged ; Subclavian Artery ; injuries ; Subclavian Vein ; injuries ; Vascular Surgical Procedures ; methods ; Wounds and Injuries ; surgery

Subclavian catheters were used in the treatment of chronic renal failure patients waiting for the maturation of AV fistula. But, it sometimes causes fatal complications. Of these, massive bleeding into pleural cavity after subclavian vein cannulation is a rather rare but causes very serious complication. Most of patients with hemothorax are successfully treated with conservative treatment(i.e. pleural drainage, maintaining the circulatory volume, treatment of possible coagulopathy) but it sometimes needs surgery. We recently experienced a case of ARDS complicated by hemothorax which was successfully treated with thracooscopic drainage. We reviewed the pathogenesis of ARDS by hemothorax and suggested the guidlines for the treatment of massive hemothorax using video-assisted thoracoscopic surgery.
Catheterization ; Catheters* ; Drainage ; Fistula ; Hemorrhage ; Hemothorax* ; Humans ; Kidney Failure, Chronic ; Pleural Cavity ; Subclavian Vein ; Thoracic Surgery, Video-Assisted

The perforation of the superior vena cava during the placement of a tunneled hemodialysis catheter, via the subclavian vein, is a rare complication, and is manifested by hemothorax or hemopericardium. The treatment of this complication requires an early diagnosis and open thoracic surgery. Herein, we report a patient with hemothorax due to the perforation of the superior vena cava during the placement of a tunneled hemodialysis catheter via the right subclavian vein which was successfully treated by embolization by way of a coil and histoacryl.
Catheterization ; Catheters ; Early Diagnosis ; Embolization, Therapeutic ; Enbucrilate ; Hemothorax ; Humans ; Pericardial Effusion ; Renal Dialysis ; Subclavian Vein ; Thoracic Surgery ; Vena Cava, Superior

A 59-year-old woman was scheduled for mitral valvuloplasty and Maze operation. As operation was planed to use the robotically controlled camera (Aesop 3000, Computermotion(r), USA) for the minimally invasive robot-assisted thoracotomy, a superior vena cava (SVC) cannula (Femoral arterial cannula [21 Fr], Medtronic(r), USA) was inserted in the right internal jugular vein. After insertion of the SVC cannula, a pulmonary artery (PA) catheter (Swan-Ganz CCOmbo V [7.5 Fr], Edwards(r), USA) was inserted through an advanced venous access device (AVA 3Xi [8.5 Fr], Edwards(r), USA) in the right subclavian vein. The tip of the PA catheter could not be advanced into SVC and blood was not regurgitated. In the chest AP X-ray, it was found that the advanced venous access device was kinked by the SVC cannula. So the advanced venous access device was withdrawn about 5 cm and the PA catheter was advanced easily to the destination.
Catheters* ; Female ; Humans ; Jugular Veins ; Middle Aged ; Pulmonary Artery* ; Subclavian Vein ; Thoracic Surgery* ; Thoracotomy ; Thorax ; Vena Cava, Superior*

Adolescent ; Brachiocephalic Veins ; abnormalities ; surgery ; Hemangioma, Cavernous ; diagnostic imaging ; surgery ; Humans ; Male ; Mediastinal Neoplasms ; diagnostic imaging ; surgery ; Subclavian Vein ; surgery ; Tomography, X-Ray Computed ; Treatment Outcome

Subclavian vein catheterization is a well estab1ished technique in adults for central venous pressure monitoring and the infusion of irritant solutions. Its use in small children is less common, preaumably because of technical difficulties in inserting the catheter and the disk of major complications. During cardiac surgery heparinization potentially adds to the risk of hematoma forma-tion. But it is often preferred becauae of the greater stability of the catheter on the anterior chest wall and allows a greater freedom of the neck and upper limb movement. We have experienced 62 open heart surgeries for congenital heart disease between April 14th and Oecember 31th 1986. In 47 children ranging in age from 11 months to 15 years, there was a high succes rate and no morbidity. It is concluded that infraclavicular subclavian vein catheterization is a useful means of measuring central venous presaure and establishing a central infusion line in children undergoing open heart surgery.
Adult ; Catheterization ; Catheters ; Central Venous Pressure ; Child* ; Freedom ; Heart ; Heart Defects, Congenital ; Hematoma ; Heparin ; Humans ; Neck ; Subclavian Vein* ; Thoracic Surgery* ; Thoracic Wall ; Upper Extremity

Chylopericardium is a rare disease entity characterized by the accumulation of chylous fluid in the pericardial sac. It usually arises from mediastinal neoplasms, thrombosis of the subclavian vein, tuberculosis, nonsurgical trauma, thoracic or cardiac surgery. The spectrum of symptoms for chylopericardium varies from an incidental finding of cardiomegaly to dyspnea, upper abdominal discomfort, cough, chest pain, palpitation, fatigue. However, most of the patients are asymptomatic. The main purpose of treatment of chylopericardium is the prevention of cardiac tamponade and prevention of metabolic, nutritional, and immunological compromise due to chyle leak. Here, we report a case of chylopercardium secondary to lymphangiomyoma with review of the literature.
Cardiac Tamponade ; Cardiomegaly ; Chest Pain ; Chyle ; Cough ; Dyspnea ; Fatigue ; Humans ; Incidental Findings ; Lymphangioma ; Lymphangiomyoma ; Mediastinal Neoplasms ; Pericardial Effusion ; Rare Diseases ; Subclavian Vein ; Thoracic Surgery ; Thorax ; Thrombosis ; Tuberculosis

Two stents were placed across the right subclavian vein due to stenosis of the right subclavian vein in a 40-year-old patient with chronic renal failure on hemodialysis. During the follow up period, one of stents migrated into the right ventricle inducing tricuspid valve insufficiency. Percutaneous stent removal had failed and the stent was removed by open heart surgery with Tricuspid valve repair with a good result, and then we report the case.
Adult ; Constriction, Pathologic ; Follow-Up Studies ; Heart Ventricles ; Humans ; Kidney Failure, Chronic ; Renal Dialysis ; Stents ; Subclavian Vein ; Thoracic Surgery ; Tricuspid Valve ; Tricuspid Valve Insufficiency

A 56-yr-old man with aborted sudden cardiac death underwent implantable cardioverter defibrillator (ICD) implantation. While the ICD was being implanted, a left subclavian venogram failed to visualize the left subclavian vein, which was attributed to likely prolonged indwelling of the left subclavian sheath for venous access. Accordingly, the right subclavian vein was punctured and the ICD lead was diverted from the right side area to the active Can in the left pectoral area by tunneling over the sternum for high defibrillation threshold. The approach used in this case may be considered in patients who had difficult left subclavicular venous access and it may be prudent to save the left subclavian vein for ICD implantation in patients with fatal tachyarrhythmia.
Coronary Angiography ; Death, Sudden, Cardiac/prevention & control ; *Defibrillators, Implantable ; Electric Countershock ; Electrocardiography ; Heart Rate ; Humans ; Male ; Middle Aged ; Stents ; Subclavian Vein/*surgery ; Tachycardia, Ventricular/therapy