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Maximum Flow Rates Possible During Power Injection Through Currently Available PICCs: An In-Vitro Study
Institution:1. Pharmaceutical Analytical Chemistry Department, Faculty of Pharmacy, Al-Azhar University, 11751, Nasr City, Cairo, Egypt;2. Analytical Chemistry Department, Faculty of Pharmacy, Modern University for Technology and Information (MTI), 12582, Al Hadaba Al Wosta, Cairo, Egypt
Abstract:PurposeCurrently available 4 French and 5 French PICCs were investigated to evaluate their possible application for contrast injection using power injectors. The study was performed using an in-vitro model to demonstrate the feasibility of using PICCs for contrast enhanced studies.Materials and MethodsAn evaluation of 24 catheter versions consisting of 4 French single lumen and 5 French dual lumen PICCs from 13 different manufacturers was conducted. Six of the catheter types were silicone and 18 catheter types were polyurethane. Ten catheters of each type were evaluated with five at full length and five trimmed to 40 cm. Using a silicone-based simulated superior vena cava model, the catheters were infused with 50 cc of intravenous contrast at each flow rate increment. Catheters were tested at increasing flow rates from 0.5 cc/second to 5 cc/second in 0.5 cc/second increments using a Percupump CT injector. Catheters that failed to rupture were then infused at 1 cc/second increments at flow rates from 5 cc/second to 17 cc/second using a MedRad Mark V™ power injector. Tolerated and bursting pressures were recorded.ResultsPolyurethane catheters ruptured at flow rates between 4–15.4 cc/second, with one catheter not rupturing at the maximum flow rate (17 cc/second). Silicone catheters ruptured at flow rates between 0.5–3.5 cc/second. Average rupture locations by type and length were at the extension leg/hub connection area on 5 of the PICCs, on the extension legs on 21 of the PICCs, on the catheter/hub connection on 4 PICCs, and on the proximal catheter on 16 of the PICCs.ConclusionThe low burst rates at which all silicone catheters ruptured suggest those catheters are not able to withstand typical flow rates used for CTA. Conversely, although a wide range of discrepancy is found in the polyurethane catheter burst pressures, many polyurethane catheters can tolerate relatively high flow rates without rupture. This suggests that they may be safely used for CTA with appropriate precautions and protocols in place.
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