Elias Kehagias1, Dimitrios Tsetis1. 1. Interventional Radiology Unit, Department of Radiology, University of Crete Medical School, Heraklion, Crete - Greece.
Abstract
PURPOSE: Venous port catheters, also known as "totally implantable venous access devices" (TIVADs), are now the standard of care in patients requiring long-term intermittent intravenous drug administration. We describe a modification of the implantation technique that we use in our department in order to improve the cosmetic result of a TIVAD. METHODS: After ultrasound-guided venous access in the internal jugular vein (IJV) or another appropriate vein has been obtained, we create a port pocket in the deltopectoral groove, in the upper-lateral chest wall, in a "far-lateral-oblique" orientation, respecting the individual patient's relaxed skin tension lines. Then we create a subcutaneous tunnel using a straight metal tunneler in two steps: first tunneling cranially and perpendicular to the port incision for a small distance, and then, after turning the tunneler at a right angle continuing in a straight line until we exit at the venous access site. RESULTS: This configuration not only prevents catheter kinking, to ensure uninhibited flow, but also allows us to place the port pocket in a more discreet position, in order to offer a better cosmetic result to our patients. CONCLUSIONS: Adoption of a "far-lateral-oblique" port implantation site along with the "L-shaped tunneling technique" will offer doctors who are implanting TIVADs a useful alternative for a better cosmetic result.
PURPOSE: Venous port catheters, also known as "totally implantable venous access devices" (TIVADs), are now the standard of care in patients requiring long-term intermittent intravenous drug administration. We describe a modification of the implantation technique that we use in our department in order to improve the cosmetic result of a TIVAD. METHODS: After ultrasound-guided venous access in the internal jugular vein (IJV) or another appropriate vein has been obtained, we create a port pocket in the deltopectoral groove, in the upper-lateral chest wall, in a "far-lateral-oblique" orientation, respecting the individual patient's relaxed skin tension lines. Then we create a subcutaneous tunnel using a straight metal tunneler in two steps: first tunneling cranially and perpendicular to the port incision for a small distance, and then, after turning the tunneler at a right angle continuing in a straight line until we exit at the venous access site. RESULTS: This configuration not only prevents catheter kinking, to ensure uninhibited flow, but also allows us to place the port pocket in a more discreet position, in order to offer a better cosmetic result to our patients. CONCLUSIONS: Adoption of a "far-lateral-oblique" port implantation site along with the "L-shaped tunneling technique" will offer doctors who are implanting TIVADs a useful alternative for a better cosmetic result.