Perforation of the superior vena cava 5 days after insertion of a central venous catheter through the left internal jugular vein

Case report: Bilateral pleural effusion secondary to late migration of a tunneled central venous catheter in a patient affected by high risk neuroblastoma

The insertion of long-term central venous catheters is a standard of care for children affected by malignancies, although it can be associated with life-threatening complications. The present paper reports an unusual mechanical complication related to the use of a long term tunneled central venous catheter in a pediatric oncologic patient. An 18 months old child, diagnosed with stage M high-risk retroperitoneal neuroblastoma, underwent ultrasound-guided placement of a 6 Fr bilumen long-term tunneled central venous catheter in the right internal jugular vein prior to the beginning of induction chemotherapy. The correct position of the distal tip of the catheter was confirmed by fluoroscopy. After 4 months of regular use of the device, the patient experienced neck swelling during high-dose chemotherapy infusion. A chest x-ray showed a dislocated catheter and bilateral pleural effusion. CT scan demonstrated the tip of the catheter rupturing the medial wall of the right jugular vein and entering the mediastinum; furthermore, pneumomediastinum, subcutaneous neck emphysema and bilateral pleural effusion were noticed and a thrombus was evident in the right jugular vein at the insertion in the brachiocephalic vein. The patient was then transferred to the Intensive Care Unit and bilateral thoracostomy tubes were placed urgently (500 mL of clear fluid were evacuated from pleural spaces). The dislocated catheter was removed electively on the following day under fluoroscopy. Despite ultrasound-guided placement and long-term uneventful use of the catheter, life-threatening central venous catheter-related mechanical complications can occur; the current case report emphasizes the importance of careful monitoring of patients with central venous catheters in order to quickly diagnose and treat potentially lethal complications.

Hydromediastinum and hydrothorax as delayed complications of peripherally inserted central catheter used for total parenteral nutrition: A case report

Introduction

Central venous catheters (CVCs) and peripherally inserted central catheters (PICCs) may cause delayed complications, such as venous erosion, hydrothorax, or hydromediastinum. Vascular erosion is most frequently associated with left-sided CVC insertions. We report a case of hydropneumomediastinum and hydropneumothorax as a delayed complication of right-sided PICC used for total parenteral nutrition.

Presentation of case

A 77-year-old man with muscle-invasive urothelial bladder cancer underwent pelvic lymphadenectomy and radical cystectomy with uretero-ileostomy reconstruction (Bricker). The patient developed postoperative ileus, and thus, a right PICC was inserted for total parenteral nutrition. On postoperative day 8, he developed bilateral hydromediastinum, and bilateral thoracentesis was performed. After the procedure, he presented with respiratory and hemodynamic deterioration and was transferred to the intensive care unit for 12 days. The patient was eventually discharged and followed-up at the outpatient department.

Discussion

Ruptured SVC has been predominantly described in left-sided CVCs at the right angle of the junction of the left brachiocephalic vein and SVC. However, our patient is the second documented case of bilateral hydropneumothorax and hydropneumomediastinum as a delayed complication of a PICC used to administer total parenteral nutrition. Catheters may migrate from their initial position due to breathing, bloodstream flow dynamics, postural rotation, and neck movements. Chemical irritation of the vessel wall may be caused by hyperosmolar hyperalimentation fluid.

Conclusion

A right-sided vascular approach is preferred to avoid friction complications, and the tip should be placed at the lower third of the vena cava to prevent vascular erosion.

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Hydrothorax and hydromediastinum are delayed complications of peripherally inserted central catheter

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Vascular erosions are also associated with right-sided central catheter insertion

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Placement a central catheter through the left side predispose to rupture through the superior vena cava

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To prevent vascular erosion after a central venous catheter is inserted, the tip should be place in the lower third of vena cava