Erik Eadie scite author profile

Erik Eadie

3Publications

19Citation Statements Received

35Citation Statements Given

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Florida College, University of Florida

Publications

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Larger Sizes Matter More! Applying the Matteo Mathematics Method for Endovascular Aortic Bifurcation Reconstruction to Large Venous Vascular Repair

Matteo

Hood

Hulsberg

et al. 2018

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Endovascular aortobifemoral bypass repair with aortic bifurcation reconstruction is a well-established option with mortality benefits compared to conventional surgical management. The same theory, formulas, and techniques can be applied to the central venous system as long as there are commercially available devices. Using mathematically derived criteria for optimal stent size selection, endovascular aortic bifurcation reconstruction with kissing stents was extrapolated to the inferior vena cava (IVC). This report describes a traumatic case of IVC injury that was successfully repaired using the standard aortic grafts while adhering to the guidelines for proper stent size selection.

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A Novel Nonvascular Application of the Steerable Microcatheter

Eadie

Harmon

Soule

et al. 2018

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The percutaneous nephrostomy (PCN) is a relatively common interventional procedure used to treat a multitude of nephro-urological conditions. Traditionally, interventional radiologists use ultrasound guidance, needles, catheters, and guidewires to access the collecting system percutaneously. The placement of a nephro-ureterostomy stent may be precluded by challenging renal calyx anatomy or an underlying disease process that obstructs placement. In cases of complex obstruction, accessing the renal collecting system may require deviation from conventional methods. We present a case that after many failed attempts with a wide variety of guidewires and catheters, a steerable microcatheter (SMC) was used to safely and effectively access the renal collecting system. This novel technique utilizes the SMC to efficiently achieve complicated PCN stent placement, relieving the renal drainage system obstruction and potentially minimizing or avoiding complications, such as urosepsis and/or renal failure.

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Mind the gap: A novel endovascular technique to repair a transected vessel

et al. 2020

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Level one trauma centers experience horrific injuries on a regular basis. Blunt or penetrating trauma causing vascular injuries are treated by surgeons and interventional radiologists. When a blood vessel is completely transected, the ends of the vessel retract and vasospasm occurs as a normal survival response. When this phenomenon occurs, it is sometimes impossible to reattach the two ends of the injured vessel by surgical means and a bypass graft is often required. However, from an endovascular perspective, covered stents can serve as a vascular bypass as well. The limiting factor with an endovascular approach is the ability to successfully gain wire access across the injured vessel. The technique described in this manuscript describes a “rendezvous” method of repairing a transected axillosubclavian artery from a high-speed motorcycle accident using a steerable microcatheter. Initially, multiple failed attempts to cross the injured vessel were encountered despite using a wide variety of conventional guidewires and catheters. A steerable microcatheter was then used to safely and effectively navigate more than 15 cm through soft tissue to the opposite end of the vessel. In this critically ill patient, this technique significantly reduced the procedural time when compared to our previous experiences repairing arterial transections using traditional catheters.

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Erik Eadie

Larger Sizes Matter More! Applying the Matteo Mathematics Method for Endovascular Aortic Bifurcation Reconstruction to Large Venous Vascular Repair

A Novel Nonvascular Application of the Steerable Microcatheter

Mind the gap: A novel endovascular technique to repair a transected vessel

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