Lumivascular Atherectomy Publications

PANTHERIS CATHETER

Safety and outcomes of combined carbon dioxide angiography and OCT-guided femoro-popliteal chronic total occlusion crossing and directional atherectomy in patients with chronic kidney disease.

Memon, et al. Vascular. 2021 Mar 17;1708538121994373.

Single-Center Experience With Optical Coherence Tomography-Guided Directional Atherectomy System for Below-the-Knee Critical Limb Ischemia

Memon, et al. J Critical Limb Ischem 2021;1(1):E3-E10.

Optical coherence tomography guided directional atherectomy with antirestenotic therapy for femoropopliteal arterial disease.

Stavroulakis, et al. J Cardiovasc Surg (Torino). 2019 Apr;60(2):191-197.

A post-market, multi-vessel evaluation of the imaging of peripheral arteries for diagnostic purposeS comparing optical Coherence tomogrApy and iNtravascular ultrasound imaging (SCAN).

Pavillard, et al. BMC Med Imaging. 2020 Feb 14;20(1):18

Lower Extremity Revascularization Using Optical Coherence Tomography-Guided Directional Atherectomy: Final Results of the EValuatIon of the PantheriS OptIcal COherence Tomography ImagiNg Atherectomy System for Use in the Peripheral Vasculature (VISION) Study.

Schwindt, et al. J Endovasc Ther. 2017 Jun;24(3):355-366.

Optical coherence tomography: guided therapy for in-stent restenosis for peripheral arterial disease.

Lichtenberg, et al. J Cardiovasc Surg 2017; 58(4): 518-527.

Long in-stent restenosis of the superficial femoral artery successfully treated using OCT guided directional atherectomy.

Golzar JA. Vasc Dis Mgt 2017: 14(8): E174-E177.

Immediate and intermediate-term results of optical coherence tomography guided atherectomy in the treatment of peripheral arterial disease: Initial results from the VISION trial.

Cawich, et al. Cardiovasc Revasc Med 2016; 17(7): 463-467.

ABSTRACTS

Single Center Experience with Optical Coherence Tomography-Guided Directional Atherectomy System for Below-the-Knee Critical Limb Ischemia

Memon, et al. LINC 2021.

PRESENTATIONS AT PROFESSIONAL MEETINGS

Optical coherence tomography in peripheral interventions.

Stavroulakis K. LINC 2018.

Use of directional atherectomy to treat peripheral lesions above and below the knee: pilot experience with a new design of an optical coherence tomography-guided device.

Schwindt A. NCVH 2018.

Treatment of failing saphenous vein lower extremity bypass grafts utilizing an image-guided atherectomy catheter.

Schwartzberg G. NCVH 2018.

Show me the lesion: my experience with OCT-guided directional atherectomy.

Cawich I. CVC 2018.

OCT image-guided atherectomy: the Pantheris system.

Cawich I. AMP 2018.

How I avoid perforation by using proper technology.

Cawich I. AMP 2018.

24-month follow-up data, interim analysis, from the pivotal VISION study for OCTguided directional atherectomy.

Schwindt AG. LINC 2017.

12-month duplex patency and MRA following OCT-guided atherectomy: single center prospective case series.

Brodmann M. LINC 2017

Zero-contrast revascularization of a calcified chronic total occlusion in the superficial femoral artery using intravascular OCT-guided directional atherectomy in a patient with chronic kidney disease.

George J. LINC 2017.

New evidence review of OCT-guided atherectomy: long-term patency, in-stent restenosis, and zero contrast/fluoroscopy in CKD patients.

Davis T. LINC 2017.

Multi-center acute and long-term follow-up utilizing OCT-guided atherectomy to treat in-stent restenosis.

Golzar JA. LINC 2017.

Future of OCT-guided technologies for PAD: true lumen measurement, BTK platform, and calcium therapies.

George J. LINC 2017.

OCT-guided atherectomy following antegrade and retrograde posterior tibial CTO crossing via bridging collateral for CLI limb salvage.

Janzer S. LINC 2017.

Predictive risk factors for target lesion revascularization post-atherectomy in peripheral arterial disease.

George J. LINC 2017.

Amputation prevention via OCT-guided recanalization of failed venous bypass graft.

Schwartzberg G. LINC 2017.

24-month outcomes from the pivotal VISION trial for OCT-guided directional atherectomy.

Muck P. NCVH 2017.

Percutaneous management of patients with peripheral arterial disease: a single center, real-world experience from a tertiary care center.

Pourdjabber A, F Altwijri, L Ang, et al. SCAI 2017.

OCT guidance in atherectomy: will it improve outcomes? Insights into VISION trial data.

Janzer S. C3 2017.

Long-term follow-up utilizing OCT-guided atherectomy to treat in-stent restenosis.

Golzar J. CVC 2017.

Revascularization of failed venous bypass grafts for lower extremities using image guided atherectomy.

Schwartzberg G. AMP 2017.

Revascularization of a calcified total occlusion in the superficial femoral artery using intravascular OCT guidance and minimal contrast.

Pavillard E. AMP 2017.

OCT-guided directional atherectomy system.

Cawich I. AMP 2017.

VISION: Evaluation of optical coherence tomography-guided atherectomy in patients undergoing peripheral vascular intervention.

Schwindt AG. TCT 2016.

Recanalization of completely occluded side branch after atherectomy of the main vessel.

TCT 2016.

Predictive risk factors for TLR: Post OCT-guided atherectomy.

George J. CVC 2016.

The diagnostic gap: SFA revascularization based solely on fluoroscopy increases risk of clinical under-treatment.

Dohad S. CVC 2016.

VISION: Evaluation of optical coherence tomography-guided atherectomy in patients undergoing peripheral vascular intervention.

Schwindt A.

Lumivascular case series.

Brodmann M. LINC 2016.

Characterization of atherectomy CTO samples in correlation with clinical outcomes.

George J. LINC 2016.

6-month duplex patency and MRA following OCT-guided atherectomy: single center prospective case series.

Brodmann M. TCT 2016.

First-in-man OCT-guided recanalization and OCT-guided atherectomy of long below-the knee chronic total occlusion after previous unsuccessful intervention.

Keisz S. TCT 2016.

Optical coherence tomography (OCT) enables the reduction in fluoroscopic exposure during endovascular atherectomy.

Davis T. TCT 2016.

Early look at the VISION trial: OCT-guided atherectomy.

Schwindt A. EuroPCR 2015

The lumivascular technology platform: real-time OCT guidance for therapeutic intraluminal revascularization.

Golzar J. ICI 2015.

VISION trial for optical coherence tomography (OCT) guided atherectomy using the Pantheris catheter: 6-month safety and efficacy endpoints correlated with OCT imaging and histologic tissue analysis.

Schwindt A. VIVA 2015.

OCT-guided atherectomy of 30 cm SFA lesion.

Schwindt AG. TCT 2015.

OCELOT CATHETER

Published Articles

Five-year outcomes after revascularization of superficial femoral artery occlusion using Ocelot catheter

Nowakowski, et al. Adv Interv Cardiol 2019; 15, 4 (58): 472–476

Preoperative assessment of computerized tomography angiography to predict success for crossing long Trans-Atlantic Inter-Society Consensus D lesions using the optical coherence tomography catheter

Kim, et al. Vascular 2018 Aug;26(4):362-367.

Treatment of Chronic Total Occlusions Using the Avinger Ocelot Crossing Catheter

Sewall, LE. Semin Intervent Radiol. 2015 Dec;32(4):370-3.

No-fluoroscopy crossing of chronic total occlusions using Ocelot optical coherence tomography guided catheter.

Davis T. Vascular Disease Management 2015; 12(12): E230-E241.

Diagnostic imaging capabilities of the Ocelot - Optical Coherence Tomography System, ex-vivo evaluation and clinical relevance.

Dohad, et al. BMC Medical Imaging 2015; 15: 57.

Ocelot catheter for the recanalization of lower extremity arterial chronic total occlusion.

Marmagkiolis, et al. Cardiovasc Revasc Med 2014; 15(1): 46-49.

Ocelot catheter for the treatment of long SFA occlusion.

Cawich, et al. Cath Cardiovasc Interv 2014; 83(1): 144-147.

Ocelot with Wildcat in a complicated superficial femoral artery chronic

total occlusion.

Moualla, et al. Vasc Dis Mgt 2014; 11(8): E166-E171.

Crossing chronic total occlusions with the Ocelot system: the initial European experience.

Schwindt, et al. Euro Intervention 2013; 9(7): 854-862.

Final results of the chronic total occlusion crossing with the Ocelot System II (CONNECT II) Study.

Selmon, et al. J Endovasc Ther 2013; 20(6): 770-781.

CATHETER PRESENTATION AT PROFESSIONAL MEETINGS

Revascularization of complex fem-pop CTO using a combination of two OCT-guided crossing catheters, the Ocelot and the Ocelot-PXL.

Verma A. TCT 2015.

Characterization of atherectomy CTO samples in correlation with clinical outcomes.

George J. LINC 2016.

Characterization of atherectomy samples from long femoro-popliteal artery occlusions and correlation with clinical outcomes using a predictive lesion scoring system.

George J, V Varghese. SCAI 2016.

Complex revascularization of calcified CTO in SFA without contrast or fluoroscopy.

George J. TCT 2016.

5-year outcomes after revascularization of long SFA occlusions with OCT-guided Ocelot catheter: results from the pivotal FIH study.

Nowakowski P. TCT 2016.

Histo-pathologic comparative characterization of chronic total occlusions using directional atherectomy (HI-PACT) study.

George J, V Varghese. SCAI 2016.

OCT-guided CTO crossing followed by OCT-guided atherectomy for a 30-cm SFA

lesion.

Schwindt A. LINC 2015.

Lumivascular approach to crossing chronic total occlusions without fluoroscopy.

Davis T. Clinical Vascular Surgery Annual Symposium 2014.

WILDCAR CATHETER

Published Article

A multicenter experience evaluating chronic total occlusion crossing with the Wildcat catheter (the CONNECT study).

Pigott, et al. J Vasc Surg 2012; 56(6): 1615-1621.

Histopathological Evidence of Adventitial or Medial Injury Is a Strong Predictor of Restenosis During Directional Atherectomy for Peripheral Artery Disease.

Tarricone, et al.  J Endovasc Ther. 2015 Oct;22(5):712-5.