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Vol 27, No 5 (2020)
Editorial
Published online: 2020-11-06

open access

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“The significant other”: Evaluation of side branch ostial compromise in bifurcation stenting

Tinen L. Iles, Goran Stankovic, Jens Flensted Lassen
DOI: 10.5603/CJ.2020.0151
Pubmed: 33165895
Cardiol J 2020;27(5):474-477.

Abstract

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References

  1. Lassen JF, Burzotta F, Banning AP, et al. Percutaneous coronary intervention for the left main stem and other bifurcation lesions: 12th consensus document from the European Bifurcation Club. EuroIntervention. 2018; 13(13): 1540–1553.
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  2. Burzotta F, Lassen JF, Louvard Y, et al. European Bifurcation Club white paper on stenting techniques for patients with bifurcated coronary artery lesions. Catheter Cardiovasc Interv. 2020 [Epub ahead of print].
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  3. Iles TL, Burzotta F, Lassen JF, et al. Stepwise visualisation of a provisional bifurcation stenting procedure - multimodal visualisation within a reanimated human heart utilising Visible Heart methodologies. EuroIntervention. 2020; 16(9): e734–e737.
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  4. Banning AP, Lassen JF, Burzotta F, et al. Percutaneous coronary intervention for obstructive bifurcation lesions: the 14th consensus document from the European Bifurcation Club. EuroIntervention. 2019; 15(1): 90–98.
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  5. Vassilev DI, Kassab GS, Collet C, et al. Elliptical stretch as a cause of side branch ostial compromise after main vessel stenting in coronary bifurcations: New insights from numerical analysis. Cardiol J. 2018 [Epub ahead of print].
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  6. Vassilev D, Gil R. Clinical verification of a theory for predicting side branch stenosis after main vessel stenting in coronary bifurcation lesions. J Interv Cardiol. 2008; 21(6): 493–503.
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  7. Mortier P, De Beule M, Dubini G, et al. Coronary bifurcation stenting: insights from in vitro and virtual bench testing. EuroIntervention. 2010; 6 Suppl J: J53–J60.
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  8. Djukic T, Saveljic I, Pelosi G, et al. Numerical simulation of stent deployment within patient-specific artery and its validation against clinical data. Comput Methods Programs Biomed. 2019; 175: 121–127.
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  9. Murray CD. The physiological principle of minimum work applied to the angle of branching of arteries. J Gen Physiol. 1926; 9(6): 835–841.
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