Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on sleep in brain health

LIVE: Thursday 2nd May 2024, 18:00-19:30 (CEST)

Quality sleep is essential for health. But what happens to our brains when sleep patterns are disturbed? Join our experts to explore the interplay between sleep disruption and neurological diseases, and the questions that you need to be asking your patients to help you prevent the harmful effects of sleep deprivation.
ADVANCED SEARCH
Log in
Top
CardioVascular and Interventional Radiology
Published in: CardioVascular and Interventional Radiology 3/2009

Open Access 01-05-2009 | Clinical Investigation

AMS INSIGHT—Absorbable Metal Stent Implantation for Treatment of Below-the-Knee Critical Limb Ischemia: 6-Month Analysis

Authors: Marc Bosiers, On Behalf of the AMS INSIGHT Investigators

Published in: CardioVascular and Interventional Radiology | Issue 3/2009

Login to get access

Abstract

Endoluminal treatment of infrapopliteal artery lesions is a matter of controversy. Bioabsorbable stents are discussed as a means to combine mechanical prevention of vessel recoil with the advantages of long-term perspectives. The possibility of not having a permanent metallic implant could permit the occurrence of positive remodeling with lumen enlargement to compensate for the development of new lesions. The present study was designed to investigate the safety of absorbable metal stents (AMSs) in the infrapopliteal arteries based on 1- and 6-month clinical follow-up and efficacy based on 6-month angiographic patency. One hundred seventeen patients with 149 lesions with chronic limb ischemia (CLI) were randomized to implantation of an AMS (60 patients, 74 lesions) or stand-alone percutaneous transluminal angioplasty (PTA; 57 patients, 75 lesions). Seven PTA-group patients “crossed over” to AMS stenting. The study population consisted of patients with symptomatic CLI (Rutherford categories 4 and 5) and de novo stenotic (>50%) or occlusive atherosclerotic disease of the infrapopliteal arteries who presented with a reference diameter of between 3.0 and 3.5 mm and a lesion length of <15 mm. The primary safety endpoint was defined as absence of major amputation and/or death within 30 days after index intervention and the primary efficacy endpoint was the 6-month angiographic patency rate as confirmed by core-lab quantitative vessel analysis. The 30-day complication rate was 5.3% (3/57) and 5.0% (3/60) in patients randomized for PTA alone and PTA followed by AMS implantation, respectively. On an intention-to-treat basis, the 6-month angiographic patency rate for lesions treated with AMS (31.8%) was significantly lower (p = 0.013) than the rate for those treated with PTA (58.0%). Although the present study indicates that the AMS technology can be safely applied, it did not demonstrate efficacy in long-term patency over standard PTA in the infrapopliteal vessels.
Appendix
Available only for authorised users
Literature
1.
Bosiers M, Hart JP, Deloose K, Verbist J, Peeters P (2006) Endovascular therapy as the primary approach for limb salvage in patients with critical limb ischemia: experience with 443 infrapopliteal procedures. Vascular 14(2):63–69PubMedCrossRef
2.
Adam DJ, Beard JD, Cleveland T et al (2005) Bypass versus angioplasty in severe ischaemia of the leg (BASIL): multicentre, randomised controlled trial. Lancet 366(9501):1925–1934PubMedCrossRef
3.
Norgren L, Hiatt WR, Dormandy JA, Nehler MR, Harris KA, Fowkes FG (2007) Inter-society consensus for the management of peripheral arterial disease (TASC II). J Vasc Surg 45(Suppl S):S5–S67
4.
Rand T, Basile A, Cejna M et al (2006) PTA versus carbofilm-coated stents in infrapopliteal arteries: pilot study. Cardiovasc Interv Radiol 29(1):29–38CrossRef
5.
Commeau P, Barragan P, Roquebert PO (2006) Sirolimus for below the knee lesions: mid-term results of SiroBTK study. Cath Cardiovasc Interv 68(5):793–798CrossRef
6.
Siablis D, Kraniotis P, Karnabatidis D, Kagadis GC, Katsanos K, Tsolakis J (2005) Sirolimus-eluting versus bare stents for bailout after suboptimal infrapopliteal angioplasty for critical limb ischemia: 6-month angiographic results from a nonrandomized prospective single-center study. J Endovasc Ther 12(6):685–695PubMedCrossRef
7.
Bosiers M, Deloose K, Verbist J, Peeters P (2006) Percutaneous transluminal angioplasty for treatment of ‘‘below-the-knee’’ critical limb ischemia: early outcomes following the use of sirolimus-eluting stents. J Cardiovasc Surg (Torino) 47(2):171–176
8.
Scheinert D, Ulrich M, Scheinert S, Sax J (2006) Comparison of sirolimus-eluting vs. bare-metal stents for the treatment of infrapopliteal obstructions. EuroIntervention 2:169–174
9.
Bosiers M, Deloose K, Verbist J, Peeters P (2007) Nitinol stenting for treatment of ‘‘below-the-knee’’ critical limb ischemia: 1-year angiographic outcome after Xpert stent implantation. J Cardiovasc Surg (Torino) 48(4):455–461
10.
Tepe G, Zeller T, Heller S et al (2006) Self-expanding nitinol stents for treatment of infragenicular arteries following unsuccessful balloon angioplasty. Eur Radiol 18(4):295–298
11.
Kickuth R, Keo HH, Triller J, Ludwig K, Do DD (2007) Initial clinical experience with the 4-F self-expanding XPERT stent system for infrapopliteal treatment of patients with severe claudication and critical limb ischemia. J Vasc Interv Radiol 18(6):703–708PubMedCrossRef
12.
Peregrin JH, Smirova S, Koznar B et al (2008) Self-expandable stent placement in infrapopliteal arteries after unsuccessful angioplasty failure: one-year follow-up. CardioVasc Interv Radiol 31(5):860–864CrossRef
13.
Erbel R, Di Mario C, Bartunek J et al (2007) Temporary scaffolding of coronary arteries with bioabsorbable magnesium stents: a prospective, non-randomised multicentre trial. Lancet 369(9576):1869–1875PubMedCrossRef
14.
Waksman R, Pakala R, Kuchulakanti et al (2006) Safety and efficacy of bioabsorbable magnesium alloy stents in porcine coronary arteries. Cath CardioVasc Interv 68(4):607–617CrossRef
15.
16.
Erne P, Schier M, Resink TJ (2006) The road to bioabsorbable stents: reaching clinical reality? CardioVasc Interv Radiol 29(1):11–16CrossRef
17.
Di MC, Griffiths H, Goktekin O et al (2004) Drug-eluting bioabsorbable magnesium stent. J Interv Cardiol 17(6):391–395CrossRef
18.
Peeters P, Bosiers M, Verbist J, Deloose K, Heublein B (2005) Preliminary results after application of absorbable metal stents in patients with critical limb ischemia. J Endovasc Ther 12(1):1–5PubMedCrossRef
19.
Bosiers M, Deloose K, Verbist J, Peeters P (2006) Will absorbable metal stent technology change our practice? J Cardiovasc Surg (Torino) 47(4):393–397
20.
Bosiers M, Deloose K, Verbist J, Peeters P (2005) First clinical application of absorbable metal stents in the treatment of critical limb ischemia: 12-month results. Vasc Dis Manage 2(4):86–91
21.
Barlis P, Tanigawa J, Di MC (2007) Coronary bioabsorbable magnesium stent: 15-month intravascular ultrasound and optical coherence tomography findings. Eur Heart J 28(19):2319PubMedCrossRef
22.
Bose D, Eggebrecht H, Erbel R (2006) Absorbable metal stent in human coronary arteries: imaging with intravascular ultrasound. Heart 92(7):892PubMedCrossRef
23.
Heublein B, Rohde R, Kaese V, Niemeyer M, Hartung W, Haverich A (2003) Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology? Heart 89(6):651–656PubMedCrossRef
24.
Ranke C, Creutzig A, Alexander K (1992) Duplex scanning of the peripheral arteries: correlation of the peak velocity ratio with angiographic diameter reduction. Ultrasound Med Biol 18(5):433–440PubMedCrossRef
25.
Siablis D, Karnabatidis D, Katsanos K et al (2007) Sirolimus-eluting versus bare stents after suboptimal infrapopliteal angioplasty for critical limb ischemia: enduring 1-year angiographic and clinical benefit. J Endovasc Ther 14(2):241–250PubMedCrossRef
26.
Collins R, Burch J, Cranny G et al (2007) Duplex ultrasonography, magnetic resonance angiography, and computed tomography angiography for diagnosis and assessment of symptomatic, lower limb peripheral arterial disease: systematic review. BMJ 334(7606):1257PubMedCrossRef
27.
Favaretto E, Pili C, Amato A et al (2007) Analysis of agreement between Duplex ultrasound scanning and arteriography in patients with lower limb artery disease. J Cardiovasc Med (Hagerstown) 8(5):337–341
Metadata
Title
AMS INSIGHT—Absorbable Metal Stent Implantation for Treatment of Below-the-Knee Critical Limb Ischemia: 6-Month Analysis
Authors
Marc Bosiers
On Behalf of the AMS INSIGHT Investigators
Publication date
01-05-2009
Publisher
Springer-Verlag
Published in
CardioVascular and Interventional Radiology / Issue 3/2009
Print ISSN: 0174-1551
Electronic ISSN: 1432-086X
DOI
https://doi.org/10.1007/s00270-008-9472-8

Other articles of this Issue 3/2009

CardioVascular and Interventional Radiology 3/2009 Go to the issue

Erratum

Acute Tubular Necrosis Following Radiofrequency Ablation of a Renal Cell Carcinoma

Erratum

AMS INSIGHT—Absorbable Metal Stent Implantation for Treatment of Below-the-Knee Critical Limb Ischemia: 6-Month Analysis

Case Report

Intraoperative DynaCT Detection and Immediate Correction of a Type 1a Endoleak Following Endovascular Repair of Abdominal Aortic Aneurysm

Letter to the Editor

Acute Hemobilia After Bilioplasty Due to Hepatic Artery Pseudoaneurysm: Treatment with an ePTFE-Covered Stent

Case Report

High-Flow Renal Arteriovenous Fistula Treated with the Amplatzer Vascular Plug: Implementation of an Arterial and Venous Approach

Case Report

Restoration of Failed Renal Graft Function After Successful Angioplasty of Pressure-Resistant Renal Artery Stenosis Using a Cutting Balloon: A Case Report