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Clinical Images

Wire Entanglement to Retrieve Dislodged Stent From the Proximal Right Coronary Artery

Basavanna Dinesh, MD, DM1; Yamasandi Siddegowda Shrimanth, MD, DM1; Aditha Cibi, MD2; Kanchanahalli Siddegowda Sadananda, MD, DM1; Snehal Jayarama,MD, DrNB1; Khandenahally Shankarappa Ravindranath, MD, DM2

August 2024
1557-2501
J INVASIVE CARDIOL 2024;36(8). doi:10.25270/jic/24.00085. Epub April 8, 2024.

© 2024 HMP Global. All Rights Reserved.
Any views and opinions expressed are those of the author(s) and/or participants and do not necessarily reflect the views, policy, or position of the Journal of Invasive Cardiology or HMP Global, their employees, and affiliates. 


A 70-year-old woman who was a known diabetic and hypertensive presented with non-ST-elevation myocardial infarction. A coronary angiogram showed a significant lesion in the mid-portion of right coronary artery (RCA) followed by distal cut-off (Figure A).  Percutaneous coronary intervention was planned for the RCA. Predilation of the lesion was done using a 2.5 x 10-mm semi-compliant balloon. A 2.75 x 38-mm drug-eluting stent got dislodged in the proximal portion of the RCA during the attempts to deliver it to the mid-RCA (Figure B). Wire was still in place through the stent and a small balloon (2 x 8 mm) was tried to pass through the stent with a plan to drag the stent to guide catheter after balloon inflation, however the balloon failed to pass through the stent (Figure C). Coronary snare was not available at that time in our lab.

We decided to retrieve the dislodged stent with the wire entanglement technique. Three more wires were passed distal to the stent; the first 2 went easily and the third wire was negotiated distal to the stent after encountering resistance in the stent (Figure D and E). A single torquer was placed across all 4 wires. While continuously rotating the torquer in a single direction and confirming the entrapment of stent, the wires were gradually pulled with a continuous unidirectional simultaneous rotation (Video 1). The rotation was continued in single direction until the stent was completely removed from the guide catheter (Video 2). Following retrieval of the dislodged stent, the RCA was rewired and cutting balloon dilation was performed. The stent was placed with a guide extension catheter. The stent was then post-dilated, and a good final result was achieved (Figure F).

Stent dislodgement is not an uncommon complication in interventional cardiology. Inadequate lesion preparation, calcified lesions, tortuous vessels, and guide-induced degloving of the stent are common reasons for stent dislodgement. Wire entanglement is a very useful technique to retrieve a dislodged stent from the proximal segment of the coronary artery when a snare is not available or when a snare is not negotiable due to its bulky profile. One of the wires must pass through the struts of the stent for this technique to be successful. The torquer should be rotated continuously in the same direction until the stent is retrieved from the sheath.

 

Figure. Coronary angiogram
Figure. (A) Coronary angiogram in left anterior oblique view showing diffuse lesion causing 90% stenosis in the mid-right coronary artery (RCA), followed by distal cut off. (B) Fluoroscopy image showing dislodged coronary stent in the proximal portion of RCA (circle) just distal to the guiding catheter. (C) A 2 x 10-mm balloon failed to cross the stent due to crumpling of the dislodged stent because of the guide-induced trauma. (D) Multiple wires were passed distal to the stent (indicated by numbers). (E) Photograph showing the retrieved stent; 3 wires have passed through the lumen of the stent and fourth wire (arrow) has passed through the struts of the stent. (F) Final angiographic result after successful stent deployment.

 

Affiliations and Disclosures

From the 1Department of Cardiology, Sri Jayadeva Institute of Cardiovascular Sciences and Research, Mysuru, India; 2Department of Cardiology, Sri Jayadeva Institute of Cardiovascular Sciences and Research, Bangalore, India.

Disclosures: The authors report no financial relationships or conflicts of interest regarding the content herein.

Address for correspondence: Yamasandi Siddegowda Shrimanth, MD, DM, Department of Cardiology, Sri Jayadeva Institute of Cardiovascular Sciences and Research, Mysuru 570016, India. Email: shrimanthys@gmail.com; X: @shrimanthys

 


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