Intra-Articular Catheter Placement: A Novel Approach for Simulating Ankle Effusions in Cadaver Models

Author(s): Ross, Graeme A.; Ashenburg, Nicholas G.; Wynn, W. David; McCarthy, Jordan J.; Clendening, Alexander M.; Presley, Bradley C.; Kubalak, Steven W.; Barnes, Ryan M.

a single-shot technique.This technique involved temporarily inserting a needle into the joint space and filling it with saline.These simulated effusions tended to leak, inhibiting successful arthrocentesis.We solved this problem by inserting a plastic intravenous (IV) catheter into the joint space.The catheter allowed us to create and maintain a consistent effusion while avoiding interference with arthrocentesis.Recognizing its utility, we adopted this method as the primary means of creating simulated, ankle-joint effusions for this study.
The ideal location for catheter placement is the anteriorlateral joint space as most arthrocentesis techniques involve a more medial approach.We used an ultrasound machine equipped with a linear transducer to help locate the lateral tibiotalar joint space.A 20G 1.75inch (Braun) IV catheter was inserted by ultrasound guidance into the tibiotalar joint.We then connected a short segment of extension tubing (with Luer Lock) to the IV catheter, and both devices were sutured to the skin (Figure ).A syringe was used to aspirate free air and any synovial fluid.Using the catheter-tubing setup, 15-20 milliliters of saline was injected directly into the joint.We used ultrasound to confirm a joint effusion and guide size adjustments.Occasionally, fluid would slowly leak from the synovial capsule.This was addressed by slow saline instillation by applying steady pressure to the plunger of a 60cc syringe.The effusion size and consistency were confirmed simultaneously under ultrasound.

IMPACT/EFFECTIVENESS
We describe a method to create simulated, ankle-joint effusions.Its effectiveness was demonstrated in an ongoing research project.All ankles were filled using this method Western Journal of Emergency Medicine

Ross et al.
A Novel Approach for Simulating Ankle Effusions in Cadaver Models and each effusion was confirmed by ultrasound.A total of 14 ankles were filled and each ankle joint was aspirated at least once and, in some cases, multiple times.One ankle was aspirated 17 times with no loss of tissue integrity.Thirty participants attempted both landmark and ultrasound-guided arthrocentesis on these ankles.In total, 60 arthrocentesis procedures were performed.Of the participants, 18 were pre-clinical medical students and 12 were emergency medicine attending physicians.None of the medical students had previously performed an arthrocentesis.Twenty-nine of 30 (97%) participants were successful using both techniques.One participant was unsuccessful in both techniques despite the presence of a confirmed effusion.
Although the participants had varying levels of experience, nearly all were able to complete arthrocentesis using this model.Multiple arthrocentesis attempts were performed successfully without comprising the model's quality.We think this model has educational benefit especially when teaching large groups.Institutions with limited access to cadavers may be able to use this technique to teach multiple learners.While fresh frozen cadavers may be preferred due to their closer approximation to live-patient tissue qualities, the logistics of having readily available specimens renders this option suboptimal.Obstacles include the high cost of acquisition and subsequent maintenance of the specimens and their relatively short time frame of usefulness once thawed.
Our method of creating simulated joint effusions performed well in embalmed cadavers.Indeed, cadavers have been shown to be a preferred model for teaching arthrocentesis. 1 We have developed a method that offers a novel way to create and maintain joint effusions in embalmed cadavers while allowing learners with various levels of experience to practice this important procedure.

Figure .
Figure.The catheter within the joint used to create effusion.Also shown are examples of an ankle pre-and post-effusion creation.The tibia (dotted line) and talus (solid line), as well as effusion (stars), are shown on ultrasound.
Address for Correspondence: Ryan M. Barnes, DO, Medical University of South Carolina College of Medicine, Department of Emergency Medicine, 169 Ashley Ave, MSC 300, Charleston, SC 29245.Email: barnesry@musc.edu.Conflicts of Interest: By the WestJEM article submission agreement, all authors are required to disclose all affiliations, funding sources and financial or management relationships that could be perceived as potential sources of bias.No author has professional or financial relationships with any companies that are relevant to this study.There are no conflicts of interest or sources of funding to declare.Copyright: © 2019 Ross et al.This is an open access article distributed in accordance with the terms of the Creative Commons Attribution (CC BY 4.0) License.See: http://creativecommons.org/ licenses/by/4.0/