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Bifurcation Stenting

Abstract

Recommended Article

Impact of the complexity of bifurcation lesions treated with drug-eluting stents: the DEFINITION study (Definitions and impact of complEx biFurcation lesIons on clinical outcomes after percutaNeous coronary IntervenTIOn using drug-eluting steNts) Three-Year Outcomes of the DKCRUSH-V Trial Comparing DK Crush With Provisional Stenting for Left Main Bifurcation Lesions Double kissing crush in left main coronary bifurcation lesions: A crushing blow to the rival stenting techniques Classic crush and DK crush stenting techniques Contemporary techniques in percutaneous coronary intervention for bifurcation lesions Optimal Fluoroscopic Projections of Coronary Ostia and Bifurcations Defined by Computed Tomographic Coronary Angiography Treatment effects of systematic two-stent and provisional stenting techniques in patients with complex coronary bifurcation lesions: rationale and design of a prospective, randomised and multicentre DEFINITION II trial Culotte stenting vs. TAP stenting for treatment of de-novo coronary bifurcation lesions with the need for side-branch stenting: the Bifurcations Bad Krozingen (BBK) II angiographic trial
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Clinical Case Study2019 Dec 20[Online ahead of print]

JOURNAL:Catheter Cardiovasc Interv. Article Link

Streamlined reverse wire technique for the treatment of complex bifurcated lesions

K Hasegawa, Wataru Yamamoto, S Nakabayashi et al. Keywords: POT; bifurcation; left main; myocardial infarction; wall shear stress

ABSTRACT

Inserting a guidewire into an extremely angulated side branch (SB) is difficult. Reverse wire technique (RWT) method was developed to specifically overcome this challenging situation, and it has become common among operators performing percutaneous coronary intervention. The first step of RWT involves the delivery of a reverse wire (RW) beyond the bifurcation, together with dual lumen catheter (DLC). This step is sometimes difficult, due to the stenosis proximal to bifurcation. Balloon dilatation of the stenosis is sometimes required to make space for the RW passage, but this lesion modification involves a potential risk of vessel damage, plaque shift, or carina shift, which results in the occlusion of the target SB. Streamlined RWT is a novel method we developed to facilitate RW delivery. It consists of the following three steps: (a) Advancing a DLC alone beyond the occlusion and inserting a preshaped RW into a non-target SB distal to the bifurcation. (b) Adjusting the position of the bending part of RW and the exit port of DLC together at the ostium of the non-target SB. (c) Advancing the RW and DLC simultaneously, while holding them both together. All procedures subsequent to the delivery of RW are the same as those required in conventional RWT. This technique enables us to deliver a RW through severe stenosis without the risk of either vessel injury or the occlusion of target SB. It also helps us to save time and effort in accomplishing SB access, even during the treatment of complex bifurcated lesions.

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