We performed a single center retrospective case–control study (1:1) in the University Hospital 12 de Octubre (Madrid, Spain). The inclusion period spanned from December 2015 to May 2017. Case subjects were defined as patients to whom IV antimicrobial treatment was administered through a PICC line placed and maintained by specifically trained nurses belonging to the staff of the Department of Oncology of our institution (PICC group). Consecutive patients were included according to the data obtained from the database provided by this nursing team. Control subjects were defined as patients who received antimicrobial therapy by a peripheral or a CVC or patients who received therapy through a PICC line that was not inserted and maintained by the aforementioned dedicated nursing team (control group). These patients’ data were obtained from the historical registry provided by the Department of Pharmacy of the same institution, which controls all the antimicrobials administered in our center. Control subjects were then matched by type of IV antimicrobial therapy, causative microorganism and duration of treatment.

Collected variables included baseline demographic data, clinical data (cause for antimicrobial treatment, isolated microorganism, antibiotic prescribed and duration of treatment) and catheter-related complications.

Trained nurses from the Department of Oncology are in charge of placing and caring for the PICCs for the whole hospital. Prior to the PICC insertion, all patients receive oral and written information about the insertion procedure and possible complications that might occur during its placement. All the patients sign an informed consent document authorizing the procedure. The patient is placed in the supine position with the dominant arm extended in a 90-degree angle from the torso. The dominant arm is usually the first choice. Vessels with phlebitis or signs of thrombosis are avoided. The vein that is going to be catheterized is identified by ultrasonography. The basilic vein is considered the best option due to its location, course and simplicity to isolate. The brachial vein and the radial vein are considered as second and third options, respectively. Once the vessel is located, the point of insertion is marked. The length of the catheter is calculated by adding the distance between the middle third of the arm and the middle clavicular point to the distance between this point and the third intercostal space. A surgical handwashing is always performed before the procedure. A wide sterile field surrounding the catheter insertion area is prepared and the skin is disinfected with 5% chlorhexidine alcohol-based solution. Local anesthesia is also administered. The ultrasound-guided modified Seldinger technique is used for inserting the catheter. Before fixing the PICC, a novel localization system called Sherlock 3CG® Tip Confirmation System (C.R. Bard Ltd, New Jersey, USA) is employed in order to assess that the PICC line is correctly placed in the superior vena cava. Using the patient's own cardiac electrical activity, this system confirms the position of the catheter's tip in real time by connecting an intravascular electrode within the tip of the catheter to an electrocardiographic monitor. This eliminates the need for a chest X-ray to confirm that the PICC line is properly positioned. After confirming that the PICC line is correctly placed, the external end is fixed and covered with a sterile dressing. All patients receive a guide specifying the care that the PICC will require and the signs of alarm indicating the need for urgent revision. This guide also includes a section with the appointment dates for the line's follow-up. The PICC line is revised and redressed within the first 48–72h by the inserting team and, thereafter, by the primary nursing team of each patient. The inserting nursing team is also available on demand for any issue related to the PICC line as long as it is in use.

An event leading to undesired catheter removal (ELUCR) was defined as any circumstance which leaded to the removal of the indwelling catheter other than the completion of the scheduled course of therapy. Phlebitis and catheter-related bloodstream infection (CRBSI) were defined according to the updated clinical guidelines for the diagnosis and management of intravascular catheter-related infection proposed by the Infectious Diseases Society of America.9 We have also differentiated between partial and complete catheter occlusion.10 The main outcome of the study was the incidence of ELUCRs per 100 catheter-days.

Continuous variables were summarized by the mean±standard deviation (SD) or the median with interquartile ranges (IQR). Categorical variables were summarized using absolute counts and percentages. Categorical variables were compared using the McNemar test, whereas the Student's t-test for repeated measures or the Wilcoxon signed-ranks test were applied for continuous variables. All results were considered statistically significant at a P-value≤0.05. Statistical analysis was performed with SPSS version 20.0 (IBM Corp., Armonk, NY) and EPIDAT version 3.1 (Conselleria de Sanidade, Xunta de Galicia, Spain).

The study included 50 patients each in the PICC group and in the control group. Demographics and clinical characteristics are depicted in Table 1. The total follow-up time was 1376 catheter-days for the PICC group and 1362 days for the control group. In the control group, IV therapy was administered through a peripheral line in most cases, although 8 patients (4.0%) received treatment through a PICC line placed by a different team than the Oncology Nursing Staff after the removal of a previous intravenous catheter.

The most frequent isolated microorganism was Staphylococcus aureus. Most patients in the PICC group received antimicrobial therapy due to infective endocarditis (28%), while in the control group most patients were treated for BSI (20%). Cloxacillin and cephalosporins were the most frequent administered antibiotics in both groups. Antimicrobial therapy was administered for more than 4 weeks in more than half of the included patients in both the case and control groups (58.0% and 56.0%, respectively).

A total of 51 catheters were placed in the PICC group (50 PICC and 1 peripheral catheter), whereas 219 catheters were used in the control group (Table 1).

A total of 20 PICC-related adverse events were diagnosed, including three ELUCRs (detailed in Table 2) that occurred 13, 32 and 35 days after the placing of the PICC line. In two cases, an intravenous-to-oral therapy switch was decided, whereas in another one IV treatment was subsequently continued through a peripheral venous catheter without further complications. No cases of CRBSI occurred in this group.

In the control group, a total of 118 catheter-related adverse events were diagnosed (detailed in Table 2), including 106 (89.8%) ELUCRs. Most of them consisted in solution extravasation (34.7%) and phlebitis (28.8%). Almost 12.0% of events were considered unintentional catheter removal or dislodgment. Two out of eight patients in the control group with a PICC (25.0%) required the catheter to be prematurely removed (one of them due to lack of lumen permeability and the other because of a CRBSI). Moreover, another three patients (37.5%) of the control group with a PICC were diagnosed with a catheter-related adverse event (pericatheter hematoma, pericatheter bleeding and partial obstruction, respectively).

The incidence of ELUCRs was significantly lower in the PICC group compared to the control group (0.2 versus 7.7 events per 100 catheter-days, respectively; P-value≤0.001) (Table 3). When the incidence of ELUCR was separately analyzed according to the duration of indwelling catheterization (divided into one-week intervals), differences between both groups were also significant (P-values≤0.001 in the first three weeks of treatment) (Table 3).