The aim of this multicenter randomized clinical trial is to compare the tunneling technique of PICC insertion with the non-tunneled insertion technique in the incidence of the combined or isolated outcome of catheter-related bloodstream primary infection, thrombosis, obstruction, and accidental dislodgement in the adult population within a period of up to 30 days.
The data published this year from a multicenter study in Brazil presenting the patterns of use and clinical outcomes of PICC indicated that centers with vascular access teams, adoption of best practices, and current technologies result in low rates of complications, such as primary bloodstream infections related to the catheter, deep vein thrombosis, and reversible occlusion. Despite these more recent data showing that complications related to PICC can be mitigated by the use of technology, vascular access teams, adoption of best practices, and infection control measures, there is still room to incorporate new techniques in PICC insertion with the aim of further reducing avoidable complications. For example, recent studies with robust methodology have demonstrated the benefit of the tunneling technique compared to the conventional insertion technique. A randomized clinical trial showed that the dwell time of the device inserted using the tunneling technique was longer compared to the conventional technique without tunneling in adult patients, along with a lower incidence of thrombosis and infection. At the Hospital de Clínicas de Porto Alegre, recently, nurses from the PICC Team were trained in the tunneling technique at a reference center in Brazil. The initial results of tunneling in adult, pediatric, and neonatal patients are encouraging. The observed results of implementing the technique indicate that there is potential to reduce avoidable complications and prompt us to propose a multicenter randomized controlled trial involving two additional institutions with similar profiles regarding the composition of Vascular Access Teams, adoption of best practices related to catheter care, and active ongoing education. To our knowledge, robust studies of this nature are not currently being conducted in Brazil.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
840
The Subcutaneous tunnelling group will undergo PICC placement under ultrasonography. Procedures will be implemented under hand hygiene, maximal sterile barrier, and chlorhexidine. The targeted arm will be sterilized with a mixture of chlorhexidine and isopropyl alcohol, and a sterile drape will be placed to cover the entire procedure feld from head to toe and place with additional subcutaneous tunnelling. After vein puncture with the access needle, a Nitinol guidewire will be placed as usual. We will make a tunnel distal to the initial venepuncture site using an additional 14-gauge needle. After resolution of the loop over the venepuncture site, a peel-away sheath will be placed over the wire. The catheter will be trimmed to the distance between the venepuncture site and cavoatrial junction plus the subcutaneous tunnel before being inserted in the usual manner.
The Non-tunnelling group will have PICC placement with the traditional method under ultrasonography. Procedures will be implemented under hand hygiene, maximal sterile barrier, and chlorhexidine. The targeted arm will be sterilized with a mixture of chlorhexidine and isopropyl alcohol, and a sterile drape will be placed to cover the entire procedure feld from head to toe. After vein puncture with the access needle, a Nitinol guidewire will be placed. After, a peel-away sheath will be placed over the wire. The catheter will be trimmed to the distance between the venepuncture site and cavoatrial junction.
Hospital de Clínicas de Porto Alegre
Porto Alegre, Brazil
RECRUITINGEnd of therapy or catheter removal free from complications
Time in days
Time frame: Up to 30 days
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