Global Vascular Guidelines on the Management of Chronic Limb-Threatening Ischemia

Bypass surgery; Chronic limb-threatening ischemia; Critical limb ischemia; Diabetes; Endovascular intervention; Evidence-based medicine; Foot ulcer; Peripheral artery disease; Practice guideline

Abstract :

[en] Guideline Summary: Chronic limb-threatening ischemia (CLTI) is associated with mortality, amputation, and impaired quality of life. These Global Vascular Guidelines (GVG) are focused on definition, evaluation, and management of CLTI with the goals of improving evidence-based care and highlighting critical research needs. The term CLTI is preferred over critical limb ischemia, as the latter implies threshold values of impaired perfusion rather than a continuum. CLTI is a clinical syndrome defined by the presence of peripheral artery disease (PAD) in combination with rest pain, gangrene, or a lower limb ulceration >2 weeks duration. Venous, traumatic, embolic, and nonatherosclerotic etiologies are excluded. All patients with suspected CLTI should be referred urgently to a vascular specialist. Accurately staging the severity of limb threat is fundamental, and the Society for Vascular Surgery Threatened Limb Classification system, based on grading of Wounds, Ischemia, and foot Infection (WIfI) is endorsed. Objective hemodynamic testing, including toe pressures as the preferred measure, is required to assess CLTI. Evidence-based revascularization (EBR) hinges on three independent axes: Patient risk, Limb severity, and ANatomic complexity (PLAN). Average-risk and high-risk patients are defined by estimated procedural and 2-year all-cause mortality. The GVG proposes a new Global Anatomic Staging System (GLASS), which involves defining a preferred target artery path (TAP) and then estimating limb-based patency (LBP), resulting in three stages of complexity for intervention. The optimal revascularization strategy is also influenced by the availability of autogenous vein for open bypass surgery. Recommendations for EBR are based on best available data, pending level 1 evidence from ongoing trials. Vein bypass may be preferred for average-risk patients with advanced limb threat and high complexity disease, while those with less complex anatomy, intermediate severity limb threat, or high patient risk may be favored for endovascular intervention. All patients with CLTI should be afforded best medical therapy including the use of antithrombotic, lipid-lowering, antihypertensive, and glycemic control agents, as well as counseling on smoking cessation, diet, exercise, and preventive foot care. Following EBR, long-term limb surveillance is advised. The effectiveness of nonrevascularization therapies (eg, spinal stimulation, pneumatic compression, prostanoids, and hyperbaric oxygen) has not been established. Regenerative medicine approaches (eg, cell, gene therapies) for CLTI should be restricted to rigorously conducted randomizsed clinical trials. The GVG promotes standardization of study designs and end points for clinical trials in CLTI. The importance of multidisciplinary teams and centers of excellence for amputation prevention is stressed as a key health system initiative. © 2019 European Society for Vascular Surgery

Disciplines :

Surgery

Author, co-author :

Conte, M. S.; Division of Vascular and Endovascular Surgery, University of California, San Francisco, CA, United States

Bradbury, A. W.; Department of Vascular Surgery, University of Birmingham, Birmingham, United Kingdom

Kolh, Philippe ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Biochimie et physiologie générales, humaines et path.

White, J. V.; Department of Surgery, Advocate Lutheran General Hospital, Niles, IL, United States

Dick, F.; Department of Vascular Surgery, Kantonsspital St. Gallen, St. Gallen, and University of Berne, Berne, Switzerland

Fitridge, R.; Department of Vascular and Endovascular Surgery, The University of Adelaide Medical School, Adelaide, South Australia, Australia

Mills, J. L.; Division of Vascular Surgery and Endovascular Therapy, Baylor College of Medicine, Houston, TX, United States

Ricco, J.-B.; Department of Clinical Research, University Hospitalof Poitiers, Poitiers, France

Suresh, K. R.; Jain Institute of Vascular Sciences, Bangalore, India

Murad, M. H.; Mayo Clinic Evidence-Based Practice Center, Rochester, MN, United States

More authors (50 more)

Language :

English

Title :

Global Vascular Guidelines on the Management of Chronic Limb-Threatening Ischemia

Publication date :

2019

Journal title :

European Journal of Vascular and Endovascular Surgery

ISSN :

1078-5884

eISSN :

1532-2165

Publisher :

Elsevier

Volume :

Issue :

Pages :

S1-S109

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 23 September 2019

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Bibliography

Fowkes, F.G., Rudan, D., Rudan, I., Aboyans, V., Denenberg, J.O., McDermott, M.M., Comparison of global estimates of prevalence and risk factors for peripheral artery disease in 2000 and 2010: a systematic review and analysis (2013) Lancet, 382, pp. 1329-1340
Goodney, P.P., Holman, K., Henke, P.K., Travis, L.L., Dimick, J.B., Stukel, T.A., Regional intensity of vascular care and lower extremity amputation rates (2013) J Vasc Surg, 57, pp. 1471-1479. , 1480.e1-3
discussion: 1479-80
Goodney, P.P., Travis, L.L., Brooke, B.S., DeMartino, R.R., Goodman, D.C., Fisher, E.S., Relationship between regional spending on vascular care and amputation rate (2014) JAMA Surg, 149, pp. 34-42
Abu Dabrh, A.M., Steffen, M.W., Asi, N., Undavalli, C., Wang, Z., Elamin, M.B., Nonrevascularization-based treatments in patients with severe or critical limb ischemia (2015) J Vasc Surg, 62, pp. 1330-1339.e13
Abu Dabrh, A.M., Steffen, M.W., Undavalli, C., Asi, N., Wang, Z., Elamin, M.B., The natural history of untreated severe or critical limb ischemia (2015) J Vasc Surg, 62, pp. 1642-1651.e3
Abu Dabrh, A.M., Steffen, M.W., Asi, N., Undavalli, C., Wang, Z., Elamin, M.B., Bypass surgery versus endovascular interventions in severe or critical limb ischemia (2016) J Vasc Surg, 63, pp. 244-253.e11
Almasri, J., Adusumalli, J., Asi, N., Lakis, S., Alsawas, M., Prokop, L.J., A systematic review and meta-analysis of revascularization outcomes of infrainguinal chronic limb-threatening ischemia (2018) J Vasc Surg, 68, pp. 624-633
Murad, M.H., Clinical practice guidelines: a primer on development and dissemination (2017) Mayo Clin Proc, 92, pp. 423-433
Guyatt, G.H., Alonso-Coello, P., Schunemann, H.J., Djulbegovic, B., Nothacker, M., Lange, S., Guideline panels should seldom make good practice statements: guidance from the GRADE Working Group (2016) J Clin Epidemiol, 80, pp. 3-7
Mills, J.L., Sr., Conte, M.S., Armstrong, D.G., Pomposelli, F.B., Schanzer, A., Sidawy, A.N., The Society for Vascular Surgery Lower Extremity Threatened Limb Classification System: risk stratification based on wound, ischemia, and foot infection (WIfI) (2014) J Vasc Surg, 59, pp. 220-234.e1-2
Jaff, M.R., White, C.J., Hiatt, W.R., Fowkes, G.R., Dormandy, J., Razavi, M., An update on methods for revascularization and expansion of the TASC lesion classification to include below-the-knee arteries: a supplement to the Inter-Society Consensus for the Management of Peripheral Arterial Disease (TASC II): the TASC Steering Committee (2015) Catheter Cardiovasc Interv, 86, pp. 611-625
Bollinger, A., Breddin, K., Hess, H., Heystraten, F.M., Kollath, J., Konttila, A., Semiquantitative assessment of lower limb atherosclerosis from routine angiographic images (1981) Atherosclerosis, 38, pp. 339-346
Menard, M.T., Farber, A., Assmann, S.F., Choudhry, N.K., Conte, M.S., Creager, M.A., Design and rationale of the Best Endovascular Versus Best Surgical Therapy for Patients With Critical Limb Ischemia (BEST-CLI) trial (2016) J Am Heart Assoc, 5, p. e003219
Popplewell, M.A., Davies, H., Jarrett, H., Bate, G., Grant, M., Patel, S., Bypass versus angioplasty in severe ischaemia of the leg-2 (BASIL-2) trial: study protocol for a randomised controlled trial (2016) Trials, 17, p. 11
Hunt, B.D., Popplewell, M.A., Davies, H., Meecham, L., Jarrett, H., Bate, G., BAlloon versus Stenting in severe Ischaemia of the Leg-3 (BASIL-3): study protocol for a randomised controlled trial (2017) Trials, 18, p. 224
de Graaff, J.C., Ubbink, D.T., Legemate, D.A., Tijssen, J.G., Jacobs, M.J., Evaluation of toe pressure and transcutaneous oxygen measurements in management of chronic critical leg ischemia: a diagnostic randomized clinical trial (2003) J Vasc Surg, 38, pp. 528-534
Brownrigg, J.R., Hinchliffe, R.J., Apelqvist, J., Boyko, E.J., Fitridge, R., Mills, J.L., Performance of prognostic markers in the prediction of wound healing or amputation among patients with foot ulcers in diabetes: a systematic review (2016) Diabetes Metab Res Rev, 32, pp. 128-135
Wang, Z., Hasan, R., Firwana, B., Elraiyah, T., Tsapas, A., Prokop, L., A systematic review and meta-analysis of tests to predict wound healing in diabetic foot (2016) J Vasc Surg, 63, pp. 29S-36S.e2
Lijmer, J.G., Hunink, M.G., van den Dungen, J.J., Loonstra, J., Smit, A.J., ROC analysis of noninvasive tests for peripheral arterial disease (1996) Ultrasound Med Biol, 22, pp. 391-398
Dachun, X., Jue, L., Liling, Z., Yawei, X., Dayi, H., Pagoto, S.L., Sensitivity and specificity of the ankle-brachial index to diagnose peripheral artery disease: a structured review (2010) Vasc Med, 15, pp. 361-369
Aboyans, V., Ho, E., Denenberg, J.O., Ho, L.A., Natarajan, L., Criqui, M.H., The association between elevated ankle systolic pressures and peripheral occlusive arterial disease in diabetic and nondiabetic subjects (2008) J Vasc Surg, 48, pp. 1197-1203
Salaun, P., Desormais, I., Lapebie, F.X., Riviere, A.B., Aboyans, V., Lacroix, P., Comparison of ankle pressure, systolic toe pressure, and transcutaneous oxygen pressure to predict major amputation after 1 year in the COPART cohort (2018) Angiology, , 3319718793566
Shirasu, T., Hoshina, K., Akagi, D., Miyahara, T., Yamamoto, K., Watanabe, T., Pulse volume recordings to identify falsely elevated ankle brachial index (2016) Asian Cardiovasc Thorac Ann, 24, pp. 517-522
Hingorani, A.P., Ascher, E., Marks, N., Puggioni, A., Shiferson, A., Tran, V., Limitations of and lessons learned from clinical experience of 1,020 duplex arteriography (2008) Vascular, 16, pp. 147-153
Larch, E., Minar, E., Ahmadi, R., Schnurer, G., Schneider, B., Stumpflen, A., Value of color duplex sonography for evaluation of tibioperoneal arteries in patients with femoropopliteal obstruction: a prospective comparison with anterograde intraarterial digital subtraction angiography (1997) J Vasc Surg, 25, pp. 629-636
Adriaensen, M.E., Kock, M.C., Stijnen, T., van Sambeek, M.R., van Urk, H., Pattynama, P.M., Peripheral arterial disease: therapeutic confidence of CT versus digital subtraction angiography and effects on additional imaging recommendations (2004) Radiology, 233, pp. 385-391
Hingorani, A., Ascher, E., Markevich, N., Kallakuri, S., Schutzer, R., Yorkovich, W., A comparison of magnetic resonance angiography, contrast arteriography, and duplex arteriography for patients undergoing lower extremity revascularization (2004) Ann Vasc Surg, 18, pp. 294-301
Collins, R., Cranny, G., Burch, J., Aguiar-Ibanez, R., Craig, D., Wright, K., A systematic review of duplex ultrasound, magnetic resonance angiography and computed tomography angiography for the diagnosis and assessment of symptomatic, lower limb peripheral arterial disease (2007) Health Technol Assess, 11. , iii-iv, xi-xiii, 1-184
Met, R., Bipat, S., Legemate, D.A., Reekers, J.A., Koelemay, M.J., Diagnostic performance of computed tomography angiography in peripheral arterial disease: a systematic review and meta-analysis (2009) JAMA, 301, pp. 415-424
Long-term mortality and its predictors in patients with critical leg ischaemia. The I.C.A.I. Group (Gruppo di Studio dell'Ischemia Cronica Critica degli Arti Inferiori). The Study Group of Criticial Chronic Ischemia of the Lower Exremities (1997) Eur J Vasc Endovasc Surg, 14, pp. 91-95
Armstrong, E.J., Wu, J., Singh, G.D., Dawson, D.L., Pevec, W.C., Amsterdam, E.A., Smoking cessation is associated with decreased mortality and improved amputation-free survival among patients with symptomatic peripheral artery disease (2014) J Vasc Surg, 60, pp. 1565-1571
Faglia, E., Clerici, G., Scatena, A., Caminiti, M., Curci, V., Morabito, A., Effectiveness of combined therapy with angiotensin-converting enzyme inhibitors and statins in reducing mortality in diabetic patients with critical limb ischemia: an observational study (2014) Diabetes Res Clin Pract, 103, pp. 292-297
Collaborative meta-analysis of randomised trials of antiplatelet therapy for prevention of death, myocardial infarction, and stroke in high risk patients (2002) BMJ, 324, pp. 71-86
Baigent, C., Blackwell, L., Collins, R., Emberson, J., Godwin, J., Aspirin in the primary and secondary prevention of vascular disease: collaborative meta-analysis of individual participant data from randomised trials (2009) Lancet, 373, pp. 1849-1860
A randomised, blinded, trial of clopidogrel versus aspirin in patients at risk of ischaemic events (CAPRIE) (1996) Lancet, 348, pp. 1329-1339
Hiatt, W.R., Fowkes, F.G., Heizer, G., Berger, J.S., Baumgartner, I., Held, P., Ticagrelor versus clopidogrel in symptomatic peripheral artery disease (2017) N Engl J Med, 376, pp. 32-40
Anand, S.S., Bosch, J., Eikelboom, J.W., Connolly, S.J., Diaz, R., Widimsky, P., Rivaroxaban with or without aspirin in patients with stable peripheral or carotid artery disease: an international, randomised, double-blind, placebo-controlled trial (2018) Lancet, 391, pp. 219-229
Anand, S., Yusuf, S., Xie, C., Pogue, J., Eikelboom, J., Budaj, A., Oral anticoagulant and antiplatelet therapy and peripheral arterial disease (2007) N Engl J Med, 357, pp. 217-227
Leng, G.C., Price, J.F., Jepson, R.G., Lipid-lowering for lower limb atherosclerosis (2000) Cochrane Database Syst Rev, 2, p. CD000123
MRC/BHF Heart Protection Study of cholesterol lowering with simvastatin in 20,536 high-risk individuals: a randomised placebo-controlled trial (2002) Lancet, 360, pp. 7-22
Meade, T., Zuhrie, R., Cook, C., Cooper, J., Bezafibrate in men with lower extremity arterial disease: randomised controlled trial (2002) BMJ, 325, p. 1139
Aung, P.P., Maxwell, H.G., Jepson, R.G., Price, J.F., Leng, G.C., Lipid-lowering for peripheral arterial disease of the lower limb (2007) Cochrane Database Syst Rev, 4, p. CD000123
Mills, E.J., O'Regan, C., Eyawo, O., Wu, P., Mills, F., Berwanger, O., Intensive statin therapy compared with moderate dosing for prevention of cardiovascular events: a meta-analysis of >40 000 patients (2011) Eur Heart J, 32, pp. 1409-1415
Rodriguez, F., Maron, D.J., Knowles, J.W., Virani, S.S., Lin, S., Heidenreich, P.A., Association between intensity of statin therapy and mortality in patients with atherosclerotic cardiovascular disease (2017) JAMA Cardiol, 2, pp. 47-54
Cushman, W.C., Evans, G.W., Byington, R.P., Goff, D.C., Jr., Grimm, R.H., Jr., Effects of intensive blood-pressure control in type 2 diabetes mellitus (2010) N Engl J Med, 362, pp. 1575-1585
Bavry, A.A., Anderson, R.D., Gong, Y., Denardo, S.J., Cooper-Dehoff, R.M., Handberg, E.M., Outcomes among hypertensive patients with concomitant peripheral and coronary artery disease: findings from the INternational VErapamil-SR/Trandolapril STudy (2010) Hypertension, 55, pp. 48-53
Wright, J.T., Jr., Williamson, J.D., Whelton, P.K., Snyder, J.K., Sink, K.M., Rocco, M.V., A randomized trial of intensive versus standard blood-pressure control (2015) N Engl J Med, 373, pp. 2103-2116
Moise, N., Huang, C., Rodgers, A., Kohli-Lynch, C.N., Tzong, K.Y., Coxson, P.G., Comparative cost-effectiveness of conservative or intensive blood pressure treatment guidelines in adults aged 35-74 years: the Cardiovascular Disease Policy Model (2016) Hypertension, 68, pp. 88-96
Selvin, E., Marinopoulos, S., Berkenblit, G., Rami, T., Brancati, F.L., Powe, N.R., Meta-analysis: glycosylated hemoglobin and cardiovascular disease in diabetes mellitus (2004) Ann Intern Med, 141, pp. 421-431
Nathan, D.M., Cleary, P.A., Backlund, J.Y., Genuth, S.M., Lachin, J.M., Orchard, T.J., Intensive diabetes treatment and cardiovascular disease in patients with type 1 diabetes (2005) N Engl J Med, 353, pp. 2643-2653
van Dieren, S., Kengne, A.P., Chalmers, J., Beulens, J.W., Davis, T.M., Fulcher, G., Intensification of medication and glycaemic control among patients with type 2 diabetes—the ADVANCE trial (2014) Diabetes Obes Metab, 16, pp. 426-432
Fox, C.S., Golden, S.H., Anderson, C., Bray, G.A., Burke, L.E., de Boer, I.H., Update on prevention of cardiovascular disease in adults with type 2 diabetes mellitus in light of recent evidence: a scientific statement from the American Heart Association and the American Diabetes Association (2015) Diabetes Care, 38, pp. 1777-1803
6. Glycemic Targets: Standards of Medical Care in Diabetes—2018 (2018) Diabetes Care, 41, pp. S55-S64
Palmer, S.C., Mavridis, D., Nicolucci, A., Johnson, D.W., Tonelli, M., Craig, J.C., Comparison of clinical outcomes and adverse events associated with glucose-lowering drugs in patients with type 2 diabetes: a meta-analysis (2016) JAMA, 316, pp. 313-324
Nawaz, S., Cleveland, T., Gaines, P.A., Chan, P., Clinical risk associated with contrast angiography in metformin treated patients: a clinical review (1998) Clin Radiol, 53, pp. 342-344
Goergen, S.K., Rumbold, G., Compton, G., Harris, C., Systematic review of current guidelines, and their evidence base, on risk of lactic acidosis after administration of contrast medium for patients receiving metformin (2010) Radiology, 254, pp. 261-269
Stacul, F., van der Molen, A.J., Reimer, P., Webb, J.A., Thomsen, H.S., Morcos, S.K., Contrast induced nephropathy: updated ESUR Contrast Media Safety Committee guidelines (2011) Eur Radiol, 21, pp. 2527-2541
Dagenais, G.R., Yi, Q., Lonn, E., Sleight, P., Ostergren, J., Yusuf, S., Impact of cigarette smoking in high-risk patients participating in a clinical trial. A substudy from the Heart Outcomes Prevention Evaluation (HOPE) trial (2005) Eur J Cardiovasc Prev Rehabil, 12, pp. 75-81
Athyros, V.G., Tziomalos, K., Katsiki, N., Gossios, T.D., Giouleme, O., Anagnostis, P., The impact of smoking on cardiovascular outcomes and comorbidities in statin-treated patients with coronary artery disease: a post hoc analysis of the GREACE study (2013) Curr Vasc Pharmacol, 11, pp. 779-784
Blomster, J.I., Woodward, M., Zoungas, S., Hillis, G.S., Harrap, S., Neal, B., The harms of smoking and benefits of smoking cessation in women compared with men with type 2 diabetes: an observational analysis of the ADVANCE (Action in Diabetes and Vascular Disease: Preterax and Diamicron modified release Controlled Evaluation) trial (2016) BMJ Open, 6, p. e009668
Kondo, T., Osugi, S., Shimokata, K., Honjo, H., Morita, Y., Maeda, K., Smoking and smoking cessation in relation to all-cause mortality and cardiovascular events in 25,464 healthy male Japanese workers (2011) Circ J, 75, pp. 2885-2892
Newhall, K., Suckow, B., Spangler, E., Brooke, B.S., Schanzer, A., Tan, T.W., Impact and duration of brief surgeon-delivered smoking cessation advice on attitudes regarding nicotine dependence and tobacco harms for patients with peripheral arterial disease (2017) Ann Vasc Surg, 38, pp. 113-121
Biancari, F., Salenius, J.P., Heikkinen, M., Luther, M., Ylonen, K., Lepantalo, M., Risk-scoring method for prediction of 30-day postoperative outcome after infrainguinal surgical revascularization for critical lower-limb ischemia: a Finnvasc registry study (2007) World J Surg, 31, pp. 217-225. , discussion: 226-7
Schanzer, A., Mega, J., Meadows, J., Samson, R.H., Bandyk, D.F., Conte, M.S., Risk stratification in critical limb ischemia: derivation and validation of a model to predict amputation-free survival using multicenter surgical outcomes data (2008) J Vasc Surg, 48, pp. 1464-1471
Bradbury, A.W., Adam, D.J., Bell, J., Forbes, J.F., Fowkes, F.G., Gillespie, I., Bypass versus Angioplasty in Severe Ischaemia of the Leg (BASIL) trial: a survival prediction model to facilitate clinical decision making (2010) J Vasc Surg, 51, pp. 52S-68S
Meltzer, A.J., Graham, A., Connolly, P.H., Meltzer, E.C., Karwowski, J.K., Bush, H.L., The Comprehensive Risk Assessment for Bypass (CRAB) facilitates efficient perioperative risk assessment for patients with critical limb ischemia (2013) J Vasc Surg, 57, pp. 1186-1195
Simons, J.P., Goodney, P.P., Flahive, J., Hoel, A.W., Hallett, J.W., Kraiss, L.W., A comparative evaluation of risk-adjustment models for benchmarking amputation-free survival after lower extremity bypass (2016) J Vasc Surg, 63, pp. 990-997
Cull, D.L., Manos, G., Hartley, M.C., Taylor, S.M., Langan, E.M., Eidt, J.F., An early validation of the Society for Vascular Surgery lower extremity threatened limb classification system (2014) J Vasc Surg, 60, pp. 1535-1541
Zhan, L.X., Branco, B.C., Armstrong, D.G., Mills, J.L., Sr., The Society for Vascular Surgery lower extremity threatened limb classification system based on Wound, Ischemia, and foot Infection (WIfI) correlates with risk of major amputation and time to wound healing (2015) J Vasc Surg, 61, pp. 939-944
Causey, M.W., Ahmed, A., Wu, B., Gasper, W.J., Reyzelman, A., Vartanian, S.M., Society for Vascular Surgery limb stage and patient risk correlate with outcomes in an amputation prevention program (2016) J Vasc Surg, 63, pp. 1563-1573.e2
Darling, J.D., McCallum, J.C., Soden, P.A., Meng, Y., Wyers, M.C., Hamdan, A.D., Predictive ability of the Society for Vascular Surgery Wound, Ischemia, and foot Infection (WIfI) classification system following infrapopliteal endovascular interventions for critical limb ischemia (2016) J Vasc Surg, 64, pp. 616-622
Robinson, W.P., Loretz, L., Hanesian, C., Flahive, J., Bostrom, J., Lunig, N., Society for Vascular Surgery Wound, Ischemia, foot Infection (WIfI) score correlates with the intensity of multimodal limb treatment and patient-centered outcomes in patients with threatened limbs managed in a limb preservation center (2017) J Vasc Surg, 66, pp. 488-498.e2
Sheehan, P., Jones, P., Caselli, A., Giurini, J.M., Veves, A., Percent change in wound area of diabetic foot ulcers over a 4-week period is a robust predictor of complete healing in a 12-week prospective trial (2003) Diabetes Care, 26, pp. 1879-1882
Cardinal, M., Eisenbud, D.E., Phillips, T., Harding, K., Early healing rates and wound area measurements are reliable predictors of later complete wound closure (2008) Wound Repair Regen, 16, pp. 19-22
Lavery, L.A., Barnes, S.A., Keith, M.S., Seaman, J.W., Jr., Armstrong, D.G., Prediction of healing for postoperative diabetic foot wounds based on early wound area progression (2008) Diabetes Care, 31, pp. 26-29
Snyder, R.J., Cardinal, M., Dauphinee, D.M., Stavosky, J., A post-hoc analysis of reduction in diabetic foot ulcer size at 4 weeks as a predictor of healing by 12 weeks (2010) Ostomy Wound Manage, 56, pp. 44-50
Seeger, J.M., Schmidt, J.H., Flynn, T.C., Preoperative saphenous and cephalic vein mapping as an adjunct to reconstructive arterial surgery (1987) Ann Surg, 205, pp. 733-739
Wengerter, K.R., Veith, F.J., Gupta, S.K., Ascer, E., Rivers, S.P., Influence of vein size (diameter) on infrapopliteal reversed vein graft patency (1990) J Vasc Surg, 11, pp. 525-531
Schanzer, A., Hevelone, N., Owens, C.D., Belkin, M., Bandyk, D.F., Clowes, A.W., Technical factors affecting autogenous vein graft failure: observations from a large multicenter trial (2007) J Vasc Surg, 46, pp. 1180-1190. , discussion: 1190
Harward, T.R., Ingegno, M.D., Carlton, L., Flynn, T.C., Seeger, J.M., Limb-threatening ischemia due to multilevel arterial occlusive disease. Simultaneous or staged inflow/outflow revascularization (1995) Ann Surg, 221, pp. 498-503. , discussion: 503-6
Zukauskas, G., Ulevicius, H., Triponis, V., Sequential aortofemoropopliteal/distal bypass for treatment of critical lower-limb ischaemia (1995) Cardiovasc Surg, 3, pp. 671-678
Jongkind, V., Akkersdijk, G.J., Yeung, K.K., Wisselink, W., A systematic review of endovascular treatment of extensive aortoiliac occlusive disease (2010) J Vasc Surg, 52, pp. 1376-1383
Ye, W., Liu, C.W., Ricco, J.B., Mani, K., Zeng, R., Jiang, J., Early and late outcomes of percutaneous treatment of TransAtlantic Inter-Society Consensus class C and D aorto-iliac lesions (2011) J Vasc Surg, 53, pp. 1728-1737
Deloose, K., Bosiers, M., Callaert, J., Verbist, J., Vermassen, F., Scheinert, D., Primary stenting is nowadays the gold standard treatment for TASC II A & B iliac lesions: the definitive MISAGO 1-year results (2017) J Cardiovasc Surg (Torino), 58, pp. 416-421
Ricco, J.B., Probst, H., Long-term results of a multicenter randomized study on direct versus crossover bypass for unilateral iliac artery occlusive disease (2008) J Vasc Surg, 47, pp. 45-53. , discussion: 53-4
Chiu, K.W., Davies, R.S., Nightingale, P.G., Bradbury, A.W., Adam, D.J., Review of direct anatomical open surgical management of atherosclerotic aorto-iliac occlusive disease (2010) Eur J Vasc Endovasc Surg, 39, pp. 460-471
Indes, J.E., Pfaff, M.J., Farrokhyar, F., Brown, H., Hashim, P., Cheung, K., Clinical outcomes of 5358 patients undergoing direct open bypass or endovascular treatment for aortoiliac occlusive disease: a systematic review and meta-analysis (2013) J Endovasc Ther, 20, pp. 443-455
Kang, J.L., Patel, V.I., Conrad, M.F., Lamuraglia, G.M., Chung, T.K., Cambria, R.P., Common femoral artery occlusive disease: contemporary results following surgical endarterectomy (2008) J Vasc Surg, 48, pp. 872-877
Ballotta, E., Gruppo, M., Mazzalai, F., Da Giau, G., Common femoral artery endarterectomy for occlusive disease: an 8-year single-center prospective study (2010) Surgery, 147, pp. 268-274
Chang, R.W., Goodney, P.P., Baek, J.H., Nolan, B.W., Rzucidlo, E.M., Powell, R.J., Long-term results of combined common femoral endarterectomy and iliac stenting/stent grafting for occlusive disease (2008) J Vasc Surg, 48, pp. 362-367
Baumann, F., Ruch, M., Willenberg, T., Dick, F., Do, D.D., Keo, H.H., Endovascular treatment of common femoral artery obstructions (2011) J Vasc Surg, 53, pp. 1000-1006
Bonvini, R.F., Rastan, A., Sixt, S., Noory, E., Schwarz, T., Frank, U., Endovascular treatment of common femoral artery disease: medium-term outcomes of 360 consecutive procedures (2011) J Am Coll Cardiol, 58, pp. 792-798
Gouëffic, Y., Della Schiava, N., Thaveau, F., Rosset, E., Favre, J.P., Salomon du Mont, L., Stenting or surgery for de novo common femoral artery stenosis (2017) JACC Cardiovasc Interv, 10, pp. 1344-1354
Siracuse, J.J., Van Orden, K., Kalish, J.A., Eslami, M.H., Schermerhorn, M.L., Patel, V.I., Endovascular treatment of the common femoral artery in the Vascular Quality Initiative (2017) J Vasc Surg, 65, pp. 1039-1046
Azuma, N., Uchida, H., Kokubo, T., Koya, A., Akasaka, N., Sasajima, T., Factors influencing wound healing of critical ischaemic foot after bypass surgery: is the angiosome important in selecting bypass target artery? (2012) Eur J Vasc Endovasc Surg, 43, pp. 322-328
Sumpio, B.E., Forsythe, R.O., Ziegler, K.R., van Baal, J.G., Lepantalo, M.J., Hinchliffe, R.J., Clinical implications of the angiosome model in peripheral vascular disease (2013) J Vasc Surg, 58, pp. 814-826
Biancari, F., Juvonen, T., Angiosome-targeted lower limb revascularization for ischemic foot wounds: systematic review and meta-analysis (2014) Eur J Vasc Endovasc Surg, 47, pp. 517-522
Chae, K.J., Shin, J.Y., Is angiosome-targeted angioplasty effective for limb salvage and wound healing in diabetic foot? A meta-analysis (2016) PLoS One, 11, p. e0159523
Jongsma, H., Bekken, J.A., Akkersdijk, G.P., Hoeks, S.E., Verhagen, H.J., Fioole, B., Angiosome-directed revascularization in patients with critical limb ischemia (2017) J Vasc Surg, 65, pp. 1208-12019.e1
Schillinger, M., Sabeti, S., Loewe, C., Dick, P., Amighi, J., Mlekusch, W., Balloon angioplasty versus implantation of nitinol stents in the superficial femoral artery (2006) N Engl J Med, 354, pp. 1879-1888
Saxon, R.R., Dake, M.D., Volgelzang, R.L., Katzen, B.T., Becker, G.J., Randomized, multicenter study comparing expanded polytetrafluoroethylene-covered endoprosthesis placement with percutaneous transluminal angioplasty in the treatment of superficial femoral artery occlusive disease (2008) J Vasc Interv Radiol, 19, pp. 823-832
Dake, M.D., Ansel, G.M., Jaff, M.R., Ohki, T., Saxon, R.R., Smouse, H.B., Paclitaxel-eluting stents show superiority to balloon angioplasty and bare metal stents in femoropopliteal disease: twelve-month Zilver PTX randomized study results (2011) Circ Cardiovasc Interv, 4, pp. 495-504
Rosenfield, K., Jaff, M.R., White, C.J., Rocha-Singh, K., Mena-Hurtado, C., Metzger, D.C., Trial of a paclitaxel-coated balloon for femoropopliteal artery disease (2015) N Engl J Med, 373, pp. 145-153
Mills, J.L., Fujitani, R.M., Taylor, S.M., Contribution of routine intraoperative completion arteriography to early infrainguinal bypass patency (1992) Am J Surg, 164, pp. 506-510. , discussion: 510-1
Bandyk, D.F., Mills, J.L., Gahtan, V., Esses, G.E., Intraoperative duplex scanning of arterial reconstructions: fate of repaired and unrepaired defects (1994) J Vasc Surg, 20, pp. 426-432. , discussion: 432-3
Ubbink, D.T., Vermeulen, H., Spinal cord stimulation for non-reconstructable chronic critical leg ischaemia (2013) Cochrane Database Syst Rev, 2, p. CD004001
Karanth, V.K., Karanth, T.K., Karanth, L., Lumbar sympathectomy techniques for critical lower limb ischaemia due to non-reconstructable peripheral arterial disease (2016) Cochrane Database Syst Rev, 12, p. CD011519
Vietto, V., Franco, J.V., Saenz, V., Cytryn, D., Chas, J., Ciapponi, A., Prostanoids for critical limb ischaemia (2018) Cochrane Database Syst Rev, 1, p. CD006544
Smith, F.B., Bradbury, A., Fowkes, G., Intravenous naftidrofuryl for critical limb ischaemia (2012) Cochrane Database Syst Rev, 7, p. CD002070
Kranke, P., Bennett, M.H., Martyn-St James, M., Schnabel, A., Debus, S.E., Weibel, S., Hyperbaric oxygen therapy for chronic wounds (2015) Cochrane Database Syst Rev, 6, p. CD004123
Game, F.L., Apelqvist, J., Attinger, C., Hartemann, A., Hinchliffe, R.J., Löndahl, M., Effectiveness of interventions to enhance healing of chronic ulcers of the foot in diabetes: a systematic review (2016) Diabetes Metab Res Rev, 32, pp. 154-168
Santema, K.T., Stoekenbroek, R.M., Koelemay, M.J., Reekers, J.A., van Dortmont, L.M., Oomen, A., Hyperbaric oxygen therapy in the treatment of ischemic lower-extremity ulcers in patients with diabetes: results of the DAMO2CLES multicenter randomized clinical trial (2018) Diabetes Care, 41, pp. 112-119
Peeters Weem, S.M., Teraa, M., de Borst, G.J., Verhaar, M.C., Moll, F.L., Bone marrow derived cell therapy in critical limb ischemia: a meta-analysis of randomized placebo controlled trials (2015) Eur J Vasc Endovasc Surg, 50, pp. 775-783
Elsherif, M., Tawfick, W., Canning, P., Hynes, N., Sultan, S., Quality of time spent without symptoms of disease or toxicity of treatment for transmetatarsal amputation versus digital amputation in diabetic patients with digital gangrene (2018) Vascular, 26, pp. 142-150
Aziz, H., Branco, B.C., Braun, J., Hughes, J.D., Goshima, K.R., Trinidad-Hernandez, M., The influence of do-not-resuscitate status on the outcomes of patients undergoing emergency vascular operations (2015) J Vasc Surg, 61, pp. 1538-1542
Siracuse, J.J., Jones, D.W., Meltzer, E.C., Graham, A.R., Salzler, G.G., Connolly, P.H., Impact of “do not resuscitate” status on the outcome of major vascular surgical procedures (2015) Ann Vasc Surg, 29, pp. 1339-1345
Reed, A.B., Delvecchio, C., Giglia, J.S., Major lower extremity amputation after multiple revascularizations: was it worth it? (2008) Ann Vasc Surg, 22, pp. 335-340
Rollins, D.L., Towne, J.B., Bernhard, V.M., Baum, P.L., Isolated profundaplasty for limb salvage (1985) J Vasc Surg, 2, pp. 585-590
Miksic, K., Novak, B., Profunda femoris revascularization in limb salvage (1986) J Cardiovasc Surg (Torino), 27, pp. 544-552
Ayoub, M.M., Solis, M.M., Rogers, J.J., Dalton, M.L., Thru-knee amputation: the operation of choice for non-ambulatory patients (1993) Am Surg, 59, pp. 619-623
Taylor, S.M., Kalbaugh, C.A., Cass, A.L., Buzzell, N.M., Daly, C.A., Cull, D.L., “Successful outcome” after below-knee amputation: an objective definition and influence of clinical variables (2008) Am Surg, 74, pp. 607-612. , discussion: 612-3
Webster, J.B., Hakimi, K.N., Czerniecki, J.M., Prosthetic fitting, use, and satisfaction following lower-limb amputation: a prospective study (2012) J Rehabil Res Dev, 49, p. 1493
Bradley, L., Kirker, S., Secondary prevention of arteriosclerosis in lower limb vascular amputees: a missed opportunity (2006) Eur J Vasc Endovasc Surg, 32, pp. 491-493
Glaser, J.D., Bensley, R.P., Hurks, R., Dahlberg, S., Hamdan, A.D., Wyers, M.C., Fate of the contralateral limb after lower extremity amputation (2013) J Vasc Surg, 58, pp. 1571-1577.e1
Abbruzzese, T.A., Havens, J., Belkin, M., Donaldson, M.C., Whittemore, A.D., Liao, J.K., Statin therapy is associated with improved patency of autogenous infrainguinal bypass grafts (2004) J Vasc Surg, 39, pp. 1178-1185
Henke, P.K., Blackburn, S., Proctor, M.C., Stevens, J., Mukherjee, D., Rajagopalin, S., Patients undergoing infrainguinal bypass to treat atherosclerotic vascular disease are underprescribed cardioprotective medications: effect on graft patency, limb salvage, and mortality (2004) J Vasc Surg, 39, pp. 357-365
Brown, J., Lethaby, A., Maxwell, H., Wawrzyniak, A.J., Prins, M.H., Antiplatelet agents for preventing thrombosis after peripheral arterial bypass surgery (2008) Cochrane Database Syst Rev, 4, p. CD000535
Bedenis, R., Lethaby, A., Maxwell, H., Acosta, S., Prins, M.H., Antiplatelet agents for preventing thrombosis after peripheral arterial bypass surgery (2015) Cochrane Database Syst Rev, 2, p. CD000535
Suckow, B.D., Kraiss, L.W., Schanzer, A., Stone, D.H., Kalish, J., DeMartino, R.R., Statin therapy after infrainguinal bypass surgery for critical limb ischemia is associated with improved 5-year survival (2015) J Vasc Surg, 61, pp. 126-133
Hobbs, S.D., Bradbury, A.W., Smoking cessation strategies in patients with peripheral arterial disease: an evidence-based approach (2003) Eur J Vasc Endovasc Surg, 26, pp. 341-347
Willigendael, E.M., Teijink, J.A., Bartelink, M.L., Peters, R.J., Buller, H.R., Prins, M.H., Smoking and the patency of lower extremity bypass grafts: a meta-analysis (2005) J Vasc Surg, 42, pp. 67-74
Belch, J.J., Dormandy, J., Results of the randomized, placebo-controlled clopidogrel and acetylsalicylic acid in bypass surgery for peripheral arterial disease (CASPAR) trial (2010) J Vasc Surg, 52, pp. 825-833. , e1-e2
Gassman, A.A., Degner, B.C., Al-Nouri, O., Philippi, L., Hershberger, R., Halandras, P., Aspirin usage is associated with improved prosthetic infrainguinal bypass graft patency (2014) Vascular, 22, pp. 105-111
Cassar, K., Ford, I., Greaves, M., Bachoo, P., Brittenden, J., Randomized clinical trial of the antiplatelet effects of aspirin-clopidogrel combination versus aspirin alone after lower limb angioplasty (2005) Br J Surg, 92, pp. 159-165
Bhatt, D.L., Fox, K.A., Hacke, W., Berger, P.B., Black, H.R., Boden, W.E., Clopidogrel and aspirin versus aspirin alone for the prevention of atherothrombotic events (2006) N Engl J Med, 354, pp. 1706-1717
Tepe, G., Bantleon, R., Brechtel, K., Schmehl, J., Zeller, T., Claussen, C.D., Management of peripheral arterial interventions with mono or dual antiplatelet therapy—the MIRROR study: a randomised and double-blinded clinical trial (2012) Eur Radiol, 22, pp. 1998-2006
Strobl, F.F., Brechtel, K., Schmehl, J., Zeller, T., Reiser, M.F., Claussen, C.D., Twelve-month results of a randomized trial comparing mono with dual antiplatelet therapy in endovascularly treated patients with peripheral artery disease (2013) J Endovasc Ther, 20, pp. 699-706
Mills, J.L., Sr., Wixon, C.L., James, D.C., Devine, J., Westerband, A., Hughes, J.D., The natural history of intermediate and critical vein graft stenosis: recommendations for continued surveillance or repair (2001) J Vasc Surg, 33, pp. 273-278. , discussion: 278-80
Landry, G.J., Moneta, G.L., Taylor, L.M., Edwards, J.M., Yeager, R.A., Porter, J.M., Long-term outcome of revised lower-extremity bypass grafts (2002) J Vasc Surg, 35, pp. 56-63
Nguyen, L.L., Conte, M.S., Menard, M.T., Gravereaux, E.C., Chew, D.K., Donaldson, M.C., Infrainguinal vein bypass graft revision: factors affecting long-term outcome (2004) J Vasc Surg, 40, pp. 916-923
Bui, T.D., Mills, J.L., Sr., Ihnat, D.M., Gruessner, A.C., Goshima, K.R., Hughes, J.D., The natural history of duplex-detected stenosis after femoropopliteal endovascular therapy suggests questionable clinical utility of routine duplex surveillance (2012) J Vasc Surg, 55, pp. 346-352
Humphries, M.D., Pevec, W.C., Laird, J.R., Yeo, K.K., Hedayati, N., Dawson, D.L., Early duplex scanning after infrainguinal endovascular therapy (2011) J Vasc Surg, 53, pp. 353-358
Elraiyah, T., Prutsky, G., Domecq, J.P., Tsapas, A., Nabhan, M., Frykberg, R.G., A systematic review and meta-analysis of off-loading methods for diabetic foot ulcers (2016) J Vasc Surg, 63, pp. 59S-68S.e1-2
Bell, P., The definition of critical ischaemia of a limb (1982) Br J Surg, 69, p. S2
Thompson, M.M., Sayers, R.D., Varty, K., Reid, A., London, N.J., Bell, P.R., Chronic critical leg ischaemia must be redefined (1993) Eur J Vasc Surg, 7, pp. 420-426
Hafner, J., Schaad, I., Schneider, E., Seifert, B., Burg, G., Cassina, P.C., Leg ulcers in peripheral arterial disease (arterial leg ulcers): impaired wound healing above the threshold of chronic critical limb ischemia (2000) J Am Acad Dermatol, 43, pp. 1001-1008
Fontaine, R., Kim, M., Kieny, R., [Surgical treatment of peripheral circulation disorders] (1954) Helv Chir Acta, 21, pp. 499-533
Meggitt, B., Surgical management of the diabetic foot (1976) Br J Hosp Med, 16, pp. 227-232
Wagner, F.W., Jr., The dysvascular foot: a system for diagnosis and treatment (1981) Foot Ankle, 2, pp. 64-122
Second European Consensus Document on chronic critical leg ischemia (1991) Circulation, 84, pp. IV1-IV26
Rutherford, R.B., Baker, J.D., Ernst, C., Johnston, K.W., Porter, J.M., Ahn, S., Recommended standards for reports dealing with lower extremity ischemia: revised version (1997) J Vasc Surg, 26, pp. 517-538
Armstrong, D.G., Lavery, L.A., Harkless, L.B., Validation of a diabetic wound classification system. The contribution of depth, infection, and ischemia to risk of amputation (1998) Diabetes Care, 21, pp. 855-859
Macfarlane, R.M., Jeffcoate, W.J., Classification of diabetic foot ulcers: the S(AD) SAD system (1999) Diabetic Foot, 2, pp. 123-126
Dormandy, J.A., Rutherford, R.B., Management of peripheral arterial disease (PAD). TASC Working Group. TransAtlantic Inter-Society Consensus (TASC) (2000) J Vasc Surg, 31, pp. S1-S296
Schaper, N.C., Diabetic foot ulcer classification system for research purposes: a progress report on criteria for including patients in research studies (2004) Diabetes Metab Res Rev, 20, pp. S90-S95
Norgren, L., Hiatt, W.R., Dormandy, J.A., Nehler, M.R., Harris, K.A., Fowkes, F.G., Inter-Society Consensus for the Management of Peripheral Arterial Disease (TASC II) (2007) J Vasc Surg, 45, pp. S5-S67
Martinez-De Jesus, F.R., A checklist system to score healing progress of diabetic foot ulcers (2010) Int J Low Extrem Wounds, 9, pp. 74-83
Lipsky, B.A., Berendt, A.R., Cornia, P.B., Pile, J.C., Peters, E.J., Armstrong, D.G., 2012 Infectious Diseases Society of America clinical practice guideline for the diagnosis and treatment of diabetic foot infections (2012) Clin Infect Dis, 54, pp. e132-e173
Adam, D.J., Beard, J.D., Cleveland, T., Bell, J., Bradbury, A.W., Forbes, J.F., Bypass versus angioplasty in severe ischaemia of the leg (BASIL): multicentre, randomised controlled trial (2005) Lancet, 366, pp. 1925-1934
Bradbury, A.W., Adam, D.J., Bell, J., Forbes, J.F., Fowkes, F.G., Gillespie, I., Bypass versus Angioplasty in Severe Ischaemia of the Leg (BASIL) trial: analysis of amputation free and overall survival by treatment received (2010) J Vasc Surg, 51, pp. 18S-31S
Shishehbor, M.H., Hammad, T.A., Zeller, T., Baumgartner, I., Scheinert, D., Rocha-Singh, K.J., An analysis of IN.PACT DEEP randomized trial on the limitations of the societal guidelines-recommended hemodynamic parameters to diagnose critical limb ischemia (2016) J Vasc Surg, 63, pp. 1311-1317
Conte, M.S., Geraghty, P.J., Bradbury, A.W., Hevelone, N.D., Lipsitz, S.R., Moneta, G.L., Suggested objective performance goals and clinical trial design for evaluating catheter-based treatment of critical limb ischemia (2009) J Vasc Surg, 50, pp. 1462-1473.e1-3
Beropoulis, E., Stavroulakis, K., Schwindt, A., Stachmann, A., Torsello, G., Bisdas, T., Validation of the Wound, Ischemia, foot Infection (WIfI) classification system in nondiabetic patients treated by endovascular means for critical limb ischemia (2016) J Vasc Surg, 64, pp. 95-103
Darling, J.D., McCallum, J.C., Soden, P.A., Guzman, R.J., Wyers, M.C., Hamdan, A.D., Predictive ability of the Society for Vascular Surgery Wound, Ischemia, and foot Infection (WIfI) classification system after first-time lower extremity revascularizations (2017) J Vasc Surg, 65, pp. 695-704
Mathioudakis, N., Hicks, C.W., Canner, J.K., Sherman, R.L., Hines, K.F., Lum, Y.W., The Society for Vascular Surgery Wound, Ischemia, and foot Infection (WIfI) classification system predicts wound healing but not major amputation in patients with diabetic foot ulcers treated in a multidisciplinary setting (2017) J Vasc Surg, 65, pp. 1698-1705.e1
Ward, R., Dunn, J., Clavijo, L., Shavelle, D., Rowe, V., Woo, K., Outcomes of critical limb ischemia in an urban, safety net hospital population with high WIfI amputation scores (2017) Ann Vasc Surg, 38, pp. 84-89
Tokuda, T., Hirano, K., Sakamoto, Y., Mori, S., Kobayashi, N., Araki, M., Use of the Wound, Ischemia, foot Infection classification system in hemodialysis patients after endovascular treatment for critical limb ischemia (2018) J Vasc Surg, 67, pp. 1762-1768
White, J.V., Rutherford, R.B., Ryjewski, C., Chronic subcritical limb ischemia: a poorly recognized stage of critical limb ischemia (2007) Semin Vasc Surg, 20, pp. 62-67
Salaun, P., Desormais, I., Lapébie, F.X., Rivière, A.B., Aboyans, V., Lacroix, P., Comparison of ankle pressure, systolic toe pressure, and transcutaneous oxygen pressure to predict major amputation after 1 year in the COPART cohort (2018) Angiology, , 3319718793566
Graziani, L., Silvestro, A., Bertone, V., Manara, E., Andreini, R., Sigala, A., Vascular involvement in diabetic subjects with ischemic foot ulcer: a new morphologic categorization of disease severity (2007) Eur J Vasc Endovasc Surg, 33, pp. 453-460
Ramanan, B., Ahmed, A., Wu, B., Causey, M.W., Gasper, W.J., Vartanian, S.M., Determinants of midterm functional outcomes, wound healing, and resources used in a hospital-based limb preservation program (2017) J Vasc Surg, 66, pp. 1765-1774
Kobayashi, N., Hirano, K., Yamawaki, M., Araki, M., Sakai, T., Sakamoto, Y., Characteristics and clinical outcomes of repeat endovascular therapy after infrapopliteal balloon angioplasty in patients with critical limb ischemia (2018) Catheter Cardiovasc Interv, 91, pp. 505-514
Leithead, C., Novak, Z., Spangler, E., Passman, M.A., Witcher, A., Patterson, M.A., Importance of postprocedural Wound, Ischemia, and foot Infection (WIfI) restaging in predicting limb salvage (2018) J Vasc Surg, 67, pp. 498-505
Hirsch, A.T., Allison, M.A., Gomes, A.S., Corriere, M.A., Duval, S., Ershow, A.G., A call to action: women and peripheral artery disease: a scientific statement from the American Heart Association (2012) Circulation, 125, pp. 1449-1472
Marrett, E., DiBonaventura, M., Zhang, Q., Burden of peripheral arterial disease in Europe and the United States: a patient survey (2013) Health Qual Life Outcomes, 11, p. 175
Howard, D.P., Banerjee, A., Fairhead, J.F., Hands, L., Silver, L.E., Rothwell, P.M., Population-based study of incidence, risk factors, outcome, and prognosis of ischemic peripheral arterial events: implications for prevention (2015) Circulation, 132, pp. 1805-1815
Olinic, D.M., Spinu, M., Olinic, M., Homorodean, C., Tataru, D.A., Liew, A., Epidemiology of peripheral artery disease in Europe: VAS Educational Paper (2018) Int Angiol, 37, pp. 327-334
Kojima, I., Ninomiya, T., Hata, J., Fukuhara, M., Hirakawa, Y., Mukai, N., A low ankle brachial index is associated with an increased risk of cardiovascular disease: the Hisayama study (2014) J Atheroscler Thromb, 21, pp. 966-973
Sheng, C.S., Li, Y., Huang, Q.F., Kang, Y.Y., Li, F.K., Wang, J.G., Pulse waves in the lower extremities as a diagnostic tool of peripheral arterial disease and predictor of mortality in elderly Chinese (2016) Hypertension, 67, pp. 527-534
Desormais, I., Aboyans, V., Guerchet, M., Ndamba-Bandzouzi, B., Mbelesso, P., Dantoine, T., Prevalence of peripheral artery disease in the elderly population in urban and rural areas of Central Africa: the EPIDEMCA study (2014) Eur J Prev Cardiol, 22, pp. 1462-1472
Newman, A.B., Siscovick, D.S., Manolio, T.A., Polak, J., Fried, L.P., Borhani, N.O., Ankle-arm index as a marker of atherosclerosis in the Cardiovascular Health Study. Cardiovascular Heart Study (CHS) Collaborative Research Group (1993) Circulation, 88, pp. 837-845
Criqui, M.H., McClelland, R.L., McDermott, M.M., Allison, M.A., Blumenthal, R.S., Aboyans, V., The ankle-brachial index and incident cardiovascular events in the MESA (Multi-Ethnic Study of Atherosclerosis) (2010) J Am Coll Cardiol, 56, pp. 1506-1512
Guerchet, M., Aboyans, V., Mbelesso, P., Mouanga, A.M., Salazar, J., Bandzouzi, B., Epidemiology of peripheral artery disease in elder general population of two cities of Central Africa: Bangui and Brazzaville (2012) Eur J Vasc Endovasc Surg, 44, pp. 164-169
Forbang, N.I., Hughes-Austin, J.M., Allison, M.A., Criqui, M.H., Peripheral artery disease and non-coronary atherosclerosis in Hispanics: another paradox? (2014) Prog Cardiovasc Dis, 57, pp. 237-243
Aboyans, V., Criqui, M.H., McClelland, R.L., Allison, M.A., McDermott, M.M., Goff, D.C., Jr., Intrinsic contribution of gender and ethnicity to normal ankle-brachial index values: the Multi-Ethnic Study of Atherosclerosis (MESA) (2007) J Vasc Surg, 45, pp. 319-327
Criqui, M.H., Aboyans, V., Epidemiology of peripheral artery disease (2015) Circ Res, 116, pp. 1509-1526
Nehler, M.R., Duval, S., Diao, L., Annex, B.H., Hiatt, W.R., Rogers, K., Epidemiology of peripheral arterial disease and critical limb ischemia in an insured national population (2014) J Vasc Surg, 60, pp. 686-695.e2
Criqui, M.H., Fronek, A., Barrett-Connor, E., Klauber, M.R., Gabriel, S., Goodman, D., The prevalence of peripheral arterial disease in a defined population (1985) Circulation, 71, pp. 510-515
Gallotta, G., Iazzetta, N., Milan, G., Ruocco, A., Napoli, C., Postiglione, A., Prevalence of peripheral arterial disease in an elderly rural population of southern Italy (1997) Gerontology, 43, pp. 289-295
Sigvant, B., Lundin, F., Nilsson, B., Bergqvist, D., Wahlberg, E., Differences in presentation of symptoms between women and men with intermittent claudication (2011) BMC Cardiovasc Disord, 11, p. 39
Moss, S.E., Klein, R., Klein, B.E., The 14-year incidence of lower-extremity amputations in a diabetic population. The Wisconsin Epidemiologic Study of Diabetic Retinopathy (1999) Diabetes Care, 22, pp. 951-959
Prompers, L., Schaper, N., Apelqvist, J., Edmonds, M., Jude, E., Mauricio, D., Prediction of outcome in individuals with diabetic foot ulcers: focus on the differences between individuals with and without peripheral arterial disease. The EURODIALE study (2008) Diabetologia, 51, pp. 747-755
Ix, J.H., Biggs, M.L., Kizer, J.R., Mukamal, K.J., Djousse, L., Zieman, S.J., Association of body mass index with peripheral arterial disease in older adults: the Cardiovascular Health Study (2011) Am J Epidemiol, 174, pp. 1036-1043
Martinez-Aguilar, E., Orbe, J., Fernandez-Montero, A., Fernandez-Alonso, S., Rodriguez, J.A., Fernandez-Alonso, L., Reduced high-density lipoprotein cholesterol: a valuable, independent prognostic marker in peripheral arterial disease (2017) J Vasc Surg, 66, pp. 1527-15233.e1
Ridker, P.M., Stampfer, M.J., Rifai, N., Novel risk factors for systemic atherosclerosis: a comparison of C-reactive protein, fibrinogen, homocysteine, lipoprotein(a), and standard cholesterol screening as predictors of peripheral arterial disease (2001) JAMA, 285, pp. 2481-2485
Peng, J., Luo, F., Ruan, G., Peng, R., Li, X., Hypertriglyceridemia and atherosclerosis (2017) Lipids Health Dis, 16, p. 233
Vliegenthart, R., Geleijnse, J.M., Hofman, A., Meijer, W.T., van Rooij, F.J., Grobbee, D.E., Alcohol consumption and risk of peripheral arterial disease: the Rotterdam study (2002) Am J Epidemiol, 155, pp. 332-338
Kaufman, J.D., Adar, S.D., Barr, R.G., Budoff, M., Burke, G.L., Curl, C.L., Association between air pollution and coronary artery calcification within six metropolitan areas in the USA (the Multi-Ethnic Study of Atherosclerosis and Air Pollution): a longitudinal cohort study (2016) Lancet, 388, pp. 696-704
Khandanpour, N., Loke, Y.K., Meyer, F.J., Jennings, B., Armon, M.P., Homocysteine and peripheral arterial disease: systematic review and meta-analysis (2009) Eur J Vasc Endovasc Surg, 38, pp. 316-322
Prushik, S.G., Farber, A., Gona, P., Shrader, P., Pencina, M.J., D'Agostino, R.B., Sr., Parental intermittent claudication as risk factor for claudication in adults (2012) Am J Cardiol, 109, pp. 736-741
Wassel, C.L., Lamina, C., Nambi, V., Coassin, S., Mukamal, K.J., Ganesh, S.K., Genetic determinants of the ankle-brachial index: a meta-analysis of a cardiovascular candidate gene 50K SNP panel in the candidate gene association resource (CARe) consortium (2012) Atherosclerosis, 222, pp. 138-147
Fowkes, F.G., Housley, E., Cawood, E.H., Macintyre, C.C., Ruckley, C.V., Prescott, R.J., Edinburgh Artery Study: prevalence of asymptomatic and symptomatic peripheral arterial disease in the general population (1991) Int J Epidemiol, 20, pp. 384-392
Batty, G.D., Russ, T.C., Stamatakis, E., Kivimaki, M., Psychological distress and risk of peripheral vascular disease, abdominal aortic aneurysm, and heart failure: pooling of sixteen cohort studies (2014) Atherosclerosis, 236, pp. 385-388
Prompers, L., Huijberts, M., Apelqvist, J., Jude, E., Piaggesi, A., Bakker, K., High prevalence of ischaemia, infection and serious comorbidity in patients with diabetic foot disease in Europe. Baseline results from the Eurodiale study (2007) Diabetologia, 50, pp. 18-25
Norgren, L., Hiatt, W.R., Dormandy, J.A., Nehler, M.R., Harris, K.A., Fowkes, F.G., Inter-society consensus for the management of peripheral arterial disease (2007) Int Angiol, 26, pp. 81-157
Biancari, F., Meta-analysis of the prevalence, incidence and natural history of critical limb ischemia (2013) J Cardiovasc Surg (Torino), 54, pp. 663-669
Ziegler-Graham, K., MacKenzie, E.J., Ephraim, P.L., Travison, T.G., Brookmeyer, R., Estimating the prevalence of limb loss in the United States: 2005 to 2050 (2008) Arch Phys Med Rehabil, 89, pp. 422-429
Peacock, J.M., Keo, H.H., Duval, S., Baumgartner, I., Oldenburg, N.C., Jaff, M.R., The incidence and health economic burden of ischemic amputation in Minnesota, 2005-2008 (2011) Prev Chronic Dis, 8, p. A141
Moxey, P.W., Gogalniceanu, P., Hinchliffe, R.J., Loftus, I.M., Jones, K.J., Thompson, M.M., Lower extremity amputations—a review of global variability in incidence (2011) Diabet Med, 28, pp. 1144-1153
Vamos, E.P., Bottle, A., Edmonds, M.E., Valabhji, J., Majeed, A., Millett, C., Changes in the incidence of lower extremity amputations in individuals with and without diabetes in England between 2004 and 2008 (2010) Diabetes Care, 33, pp. 2592-2597
Lombardo, F.L., Maggini, M., De Bellis, A., Seghieri, G., Anichini, R., Lower extremity amputations in persons with and without diabetes in Italy: 2001-2010 (2014) PLoS One, 9, p. e86405
Hirsch, A.T., Haskal, Z.J., Hertzer, N.R., Bakal, C.W., Creager, M.A., Halperin, J.L., ACC/AHA 2005 guidelines for the management of patients with peripheral arterial disease (lower extremity, renal, mesenteric, and abdominal aortic): executive summary a collaborative report from the American Association for Vascular Surgery/Society for Vascular Surgery, Society for Cardiovascular Angiography and Interventions, Society for Vascular Medicine and Biology, Society of Interventional Radiology, and the ACC/AHA Task Force on Practice Guidelines (Writing Committee to Develop Guidelines for the Management of Patients With Peripheral Arterial Disease) endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation
National Heart, Lung, and Blood Institute
Society for Vascular Nursing
TransAtlantic Inter-Society Consensus
and Vascular Disease Foundation (2006) J Am Coll Cardiol, 47, pp. 1239-1312
Sigvant, B., Lundin, F., Wahlberg, E., The risk of disease progression in peripheral arterial disease is higher than expected: a meta-analysis of mortality and disease progression in peripheral arterial disease (2016) Eur J Vasc Endovasc Surg, 51, pp. 395-403
Nehler, M.R., Hiatt, W.R., Taylor, L.M., Jr., Is revascularization and limb salvage always the best treatment for critical limb ischemia? (2003) J Vasc Surg, 37, pp. 704-708
Nehler, M.R., McDermott, M.M., Treat-Jacobson, D., Chetter, I., Regensteiner, J.G., Functional outcomes and quality of life in peripheral arterial disease: current status (2003) Vasc Med, 8, pp. 115-126
Peripheral arterial disease: diagnosis and management. Clinical guideline CG147 https://www.nice.org.uk/guidance/cg147/chapter/Recommendations, Available at: (Accessed 30 October 2018)
Reinecke, H., Unrath, M., Freisinger, E., Bunzemeier, H., Meyborg, M., Lüders, F., Peripheral arterial disease and critical limb ischaemia: still poor outcomes and lack of guideline adherence (2015) Eur Heart J, 36, pp. 932-938
Behrendt, C.A., Sigvant, B., Szeberin, Z., Beiles, B., Eldrup, N., Thomson, I.A., International variations in amputation practice: a VASCUNET report (2018) Eur J Vasc Endovasc Surg, 56, pp. 391-399
van Haelst, S.T., Koopman, C., den Ruijter, H.M., Moll, F.L., Visseren, F.L., Vaartjes, I., Cardiovascular and all-cause mortality in patients with intermittent claudication and critical limb ischaemia (2018) Br J Surg, 105, pp. 252-261
Baubeta Fridh, E., Andersson, M., Thuresson, M., Sigvant, B., Kragsterman, B., Johansson, S., Amputation rates, mortality, and pre-operative comorbidities in patients revascularised for intermittent claudication or critical limb ischaemia: a population based study (2017) Eur J Vasc Endovasc Surg, 54, pp. 480-486
Ortmann, J., Nüesch, E., Traupe, T., Diehm, N., Baumgartner, I., Gender is an independent risk factor for distribution pattern and lesion morphology in chronic critical limb ischemia (2012) J Vasc Surg, 55, pp. 98-104
Hobbs, S.D., Wilmink, A.B., Bradbury, A.W., Ethnicity and peripheral arterial disease (2003) Eur J Vasc Endovasc Surg, 25, pp. 505-512
Diehm, N., Shang, A., Silvestro, A., Do, D.D., Dick, F., Schmidli, J., Association of cardiovascular risk factors with pattern of lower limb atherosclerosis in 2659 patients undergoing angioplasty (2006) Eur J Vasc Endovasc Surg, 31, pp. 59-63
Armstrong, E.J., Chen, D.C., Westin, G.G., Singh, S., McCoach, C.E., Bang, H., Adherence to guideline-recommended therapy is associated with decreased major adverse cardiovascular events and major adverse limb events among patients with peripheral arterial disease (2014) J Am Heart Assoc, 3, p. e000697
Soga, Y., Iida, O., Takahaera, M., Hirano, K., Suzuki, K., Kawasaki, D., Two-year life expectancy in patients with critical limb ischemia (2014) JACC Cardiovasc Interv, 7, pp. 1444-1449
Sampson, U.K., Fowkes, F.G., McDermott, M.M., Criqui, M.H., Aboyans, V., Norman, P.E., Global and regional burden of death and disability from peripheral artery disease: 21 world regions, 1990 to 2010 (2014) Glob Heart, 9, pp. 145-158.e21
Cull, D.L., Langan, E.M., Gray, B.H., Johnson, B., Taylor, S.M., Open versus endovascular intervention for critical limb ischemia: a population-based study (2010) J Am Coll Surg, 210, pp. 555-561
Moxey, P.W., Hofman, D., Hinchliffe, R.J., Jones, K., Thompson, M.M., Holt, P.J., Epidemiological study of lower limb amputation in England between 2003 and 2008 (2010) Br J Surg, 97, pp. 1348-1353
Summary of the proceedings of the International Summit 2015: general and subspecialty radiology (2015) Insights Imaging, 7, pp. 1-5
Wolfe, J.H., Wyatt, M.G., Critical and subcritical ischaemia (1997) Eur J Vasc Endovasc Surg, 13, pp. 578-582
Conde, I.D., Erwin, P.A., Evaluation of the patient who presents with critical limb ischemia: diagnosis, prognosis, and medical management (2014) Tech Vasc Interv Radiol, 17, pp. 140-146
Morgan, M.B., Crayford, T., Murrin, B., Fraser, S.C., Developing the Vascular Quality of Life Questionnaire: a new disease-specific quality of life measure for use in lower limb ischemia (2001) J Vasc Surg, 33, pp. 679-687
Nguyen, L.L., Moneta, G.L., Conte, M.S., Bandyk, D.F., Clowes, A.W., Seely, B.L., Prospective multicenter study of quality of life before and after lower extremity vein bypass in 1404 patients with critical limb ischemia (2006) J Vasc Surg, 44, pp. 977-983. , discussion: 983-4
Gerhard-Herman, M.D., Gornik, H.L., Barrett, C., Barshes, N.R., Corriere, M.A., Drachman, D.E., 2016 AHA/ACC Guideline on the Management of Patients With Lower Extremity Peripheral Artery Disease: a report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines (2017) Circulation, 135, pp. e726-e779
Aboyans, V., Ricco, J.B., Bartelink, M.E., Björck, M., Brodmann, M., Cohnert, T., Editor's choice—2017 ESC Guidelines on the Diagnosis and Treatment of Peripheral Arterial Diseases, in collaboration with the European Society for Vascular Surgery (ESVS) (2018) Eur J Vasc Endovasc Surg, 55, pp. 305-368
Criqui, M.H., Fronek, A., Klauber, M.R., Barrett-Connor, E., Gabriel, S., The sensitivity, specificity, and predictive value of traditional clinical evaluation of peripheral arterial disease: results from noninvasive testing in a defined population (1985) Circulation, 71, pp. 516-522
Feigelson, H.S., Criqui, M.H., Fronek, A., Langer, R.D., Molgaard, C.A., Screening for peripheral arterial disease: the sensitivity, specificity, and predictive value of noninvasive tests in a defined population (1994) Am J Epidemiol, 140, pp. 526-534
McGee, S.R., Boyko, E.J., Physical examination and chronic lower-extremity ischemia: a critical review (1998) Arch Intern Med, 158, pp. 1357-1364
Khan, N.A., Rahim, S.A., Anand, S.S., Simel, D.L., Panju, A., Does the clinical examination predict lower extremity peripheral arterial disease? (2006) JAMA, 295, pp. 536-546
Cournot, M., Boccalon, H., Cambou, J.P., Guilloux, J., Taraszkiewicz, D., Hanaire-Broutin, H., Accuracy of the screening physical examination to identify subclinical atherosclerosis and peripheral arterial disease in asymptomatic subjects (2007) J Vasc Surg, 46, pp. 1215-1221
Armstrong, D.G., Lavery, L.A., Vela, S.A., Quebedeaux, T.L., Fleischli, J.G., Choosing a practical screening instrument to identify patients at risk for diabetic foot ulceration (1998) Arch Intern Med, 158, pp. 289-292
Kamei, N., Yamane, K., Nakanishi, S., Yamashita, Y., Tamura, T., Ohshita, K., Effectiveness of Semmes-Weinstein monofilament examination for diabetic peripheral neuropathy screening (2005) J Diabetes Complications, 19, pp. 47-53
Feng, Y., Schlosser, F.J., Sumpio, B.E., The Semmes Weinstein monofilament examination as a screening tool for diabetic peripheral neuropathy (2009) J Vasc Surg, 50, pp. 675-682.e1
O'Brien, T., Karem, J., An initial evaluation of a proof-of-concept 128-Hz electronic tuning fork in the detection of peripheral neuropathy (2014) J Am Podiatr Med Assoc, 104, pp. 134-140
Lam, K., van Asten, S.A., Nguyen, T., La Fontaine, J., Lavery, L.A., Diagnostic accuracy of probe to bone to detect osteomyelitis in the diabetic foot: a systematic review (2016) Clin Infect Dis, 63, pp. 944-948
Schaper, N.C., Van Netten, J.J., Apelqvist, J., Lipsky, B.A., Bakker, K., Prevention and management of foot problems in diabetes: a summary guidance for daily practice 2015, based on the IWGDF guidance documents (2017) Diabetes Res Clin Pract, 124, pp. 84-92
Hirsch, A.T., Haskal, Z.J., Hertzer, N.R., Bakal, C.W., Creager, M.A., Halperin, J.L., ACC/AHA 2005 Practice Guidelines for the management of patients with peripheral arterial disease (lower extremity, renal, mesenteric, and abdominal aortic): a collaborative report from the American Association for Vascular Surgery/Society for Vascular Surgery, Society for Cardiovascular Angiography and Interventions, Society for Vascular Medicine and Biology, Society of Interventional Radiology, and the ACC/AHA Task Force on Practice Guidelines (Writing Committee to Develop Guidelines for the Management of Patients With Peripheral Arterial Disease): endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation
National Heart, Lung, and Blood Institute
Society for Vascular Nursing
TransAtlantic Inter-Society Consensus
and Vascular Disease Foundation (2006) Circulation, 113, pp. e463-e654
Al-Qaisi, M., Nott, D.M., King, D.H., Kaddoura, S., Ankle brachial pressure index (ABPI): an update for practitioners (2009) Vasc Health Risk Manag, 5, pp. 833-841
Gornik, H.L., Rethinking the morbidity of peripheral arterial disease and the “normal” ankle-brachial index (2009) J Am Coll Cardiol, 53, pp. 1063-1064
Silvestro, A., Diehm, N., Savolainen, H., Do, D.D., Vogelea, J., Mahler, F., Falsely high ankle-brachial index predicts major amputation in critical limb ischemia (2006) Vasc Med, 11, pp. 69-74
Aboyans, V., Criqui, M.H., Abraham, P., Allison, M.A., Creager, M.A., Diehm, C., Measurement and interpretation of the ankle-brachial index: a scientific statement from the American Heart Association (2012) Circulation, 126, pp. 2890-2909
Tyrrell, M.R., Wolfe, J.H., Critical leg ischaemia: an appraisal of clinical definitions. Joint Vascular Research Group (1993) Br J Surg, 80, pp. 177-180
Castronuovo, J.J., Jr., Adera, H.M., Smiell, J.M., Price, R.M., Skin perfusion pressure measurement is valuable in the diagnosis of critical limb ischemia (1997) J Vasc Surg, 26, pp. 629-637
Abbas, Z.G., Lutale, J.K., Game, F.L., Jeffcoate, W.J., Comparison of four systems of classification of diabetic foot ulcers in Tanzania (2008) Diabet Med, 25, pp. 134-137
Parisi, M.C., Zantut-Wittmann, D.E., Pavin, E.J., Machado, H., Nery, M., Jeffcoate, W.J., Comparison of three systems of classification in predicting the outcome of diabetic foot ulcers in a Brazilian population (2008) Eur J Endocrinol, 159, pp. 417-422
Santema, T.B., Lenselink, E.A., Balm, R., Ubbink, D.T., Comparing the Meggitt-Wagner and the University of Texas wound classification systems for diabetic foot ulcers: inter-observer analyses (2016) Int Wound J, 13, pp. 1137-1141
Swanberg, J., Nyman, R., Magnusson, A., Wanhainen, A., Selective intra-arterial dual-energy CT angiography (s-CTA) in lower extremity arterial occlusive disease (2014) Eur J Vasc Endovasc Surg, 48, pp. 325-329
Moneta, G.L., Yeager, R.A., Lee, R.W., Porter, J.M., Noninvasive localization of arterial occlusive disease: a comparison of segmental Doppler pressures and arterial duplex mapping (1993) J Vasc Surg, 17, pp. 578-582
Pinto, F., Lencioni, R., Napoli, V., Petrucci, R., Vignali, C., Armillotta, N., Peripheral ischemic occlusive arterial disease: comparison of color Doppler sonography and angiography (1996) J Ultrasound Med, 15, pp. 697-704. , quiz: 705-6
Hou, X.X., Chu, G.H., Yu, Y., Prospects of contrast-enhanced ultrasonography for the diagnosis of peripheral arterial disease: a meta-analysis (2018) J Ultrasound Med, 37, pp. 1081-1090
Ligush, J., Jr., Reavis, S.W., Preisser, J.S., Hansen, K.J., Duplex ultrasound scanning defines operative strategies for patients with limb-threatening ischemia (1998) J Vasc Surg, 28, pp. 482-490. , discussion: 490-1
Proia, R.R., Walsh, D.B., Nelson, P.R., Connors, J.P., Powell, R.J., Zwolak, R.M., Early results of infragenicular revascularization based solely on duplex arteriography (2001) J Vasc Surg, 33, pp. 1165-1170
Ota, H., Takase, K., Igarashi, K., Chiba, Y., Haga, K., Saito, H., MDCT compared with digital subtraction angiography for assessment of lower extremity arterial occlusive disease: importance of reviewing cross-sectional images (2004) AJR Am J Roentgenol, 182, pp. 201-209
Romano, M., Mainenti, P.P., Imbriaco, M., Amato, B., Markabaoui, K., Tamburrini, O., Multidetector row CT angiography of the abdominal aorta and lower extremities in patients with peripheral arterial occlusive disease: diagnostic accuracy and interobserver agreement (2004) Eur J Radiol, 50, pp. 303-308
Edwards, A.J., Wells, I.P., Roobottom, C.A., Multidetector row CT angiography of the lower limb arteries: a prospective comparison of volume-rendered techniques and intra-arterial digital subtraction angiography (2005) Clin Radiol, 60, pp. 85-95
Heijenbrok-Kal, M.H., Kock, M.C., Hunink, M.G., Lower extremity arterial disease: multidetector CT angiography meta-analysis (2007) Radiology, 245, pp. 433-439
Thomsen, H.S., Morcos, S.K., ESUR guidelines on contrast media (2006) Abdom Imaging, 31, pp. 131-140
Smith-Bindman, R., Lipson, J., Marcus, R., Kim, K.P., Mahesh, M., Gould, R., Radiation dose associated with common computed tomography examinations and the associated lifetime attributable risk of cancer (2009) Arch Intern Med, 169, pp. 2078-2086
Solomon, R., The role of osmolality in the incidence of contrast-induced nephropathy: a systematic review of angiographic contrast media in high risk patients (2005) Kidney Int, 68, pp. 2256-2263
ACR manual on contrast media, version 10.3 https://www.acr.org/-/media/ACR/Files/Clinical-Resources/Contrast_Media.pdf, Available at: Accessed ▪▪▪
van der Molen, A.J., Reimer, P., Dekkers, I.A., Bongartz, G., Bellin, M.F., Bertolotto, M., Post-contrast acute kidney injury. Part 2: risk stratification, role of hydration and other prophylactic measures, patients taking metformin and chronic dialysis patients: recommendations for updated ESUR Contrast Medium Safety Committee guidelines (2018) Eur Radiol, 28, pp. 2856-2869
Spinazzi, A., Pozzi Mucelli, R., [Administration of iodinated contrast in patients with pre-existing renal failure: a review] (2004) Radiol Med, 107, pp. 88-97
Carpenter, J.P., Baum, R.A., Holland, G.A., Barker, C.F., Peripheral vascular surgery with magnetic resonance angiography as the sole preoperative imaging modality (1994) J Vasc Surg, 20, pp. 861-871
Mell, M., Tefera, G., Thornton, F., Siepman, D., Turnipseed, W., Clinical utility of time-resolved imaging of contrast kinetics (TRICKS) magnetic resonance angiography for infrageniculate arterial occlusive disease (2007) J Vasc Surg, 45, pp. 543-548. , discussion: 548
Kreitner, K.F., Kunz, R.P., Herber, S., Martenstein, S., Dorweiler, B., Dueber, C., MR angiography of the pedal arteries with gadobenate dimeglumine, a contrast agent with increased relaxivity, and comparison with selective intraarterial DSA (2008) J Magn Reson Imaging, 27, pp. 78-85
Menke, J., Larsen, J., Meta-analysis: accuracy of contrast-enhanced magnetic resonance angiography for assessing steno-occlusions in peripheral arterial disease (2010) Ann Intern Med, 153, pp. 325-334
Altaha, M.A., Jaskolka, J.D., Tan, K., Rick, M., Schmitt, P., Menezes, R.J., Non-contrast-enhanced MR angiography in critical limb ischemia: performance of quiescent-interval single-shot (QISS) and TSE-based subtraction techniques (2017) Eur Radiol, 27, pp. 1218-1226
Kribben, A., Witzke, O., Hillen, U., Barkhausen, J., Daul, A.E., Erbel, R., Nephrogenic systemic fibrosis: pathogenesis, diagnosis, and therapy (2009) J Am Coll Cardiol, 53, pp. 1621-1628
Turowski, B., Schramm, P., An appeal to standardize CT- and MR-perfusion (2015) Clin Neuroradiol, 25, pp. 205-210
Grözinger, G., Pohmann, R., Schick, F., Grosse, U., Syha, R., Brechtel, K., Perfusion measurements of the calf in patients with peripheral arterial occlusive disease before and after percutaneous transluminal angioplasty using MR arterial spin labeling (2014) J Magn Reson Imaging, 40, pp. 980-987
Hingorani, A., Ascher, E., Markevich, N., Kallakuri, S., Hou, A., Schutzer, R., Magnetic resonance angiography versus duplex arteriography in patients undergoing lower extremity revascularization: which is the best replacement for contrast arteriography? (2004) J Vasc Surg, 39, pp. 717-722
Lapeyre, M., Kobeiter, H., Desgranges, P., Rahmouni, A., Becquemin, J.P., Luciani, A., Assessment of critical limb ischemia in patients with diabetes: comparison of MR angiography and digital subtraction angiography (2005) AJR Am J Roentgenol, 185, pp. 1641-1650
Hessel, S.J., Adams, D.F., Abrams, H.L., Complications of angiography (1981) Radiology, 138, pp. 273-281
Aspelin, P., Aubry, P., Fransson, S.G., Strasser, R., Willenbrock, R., Berg, K.J., Nephrotoxic effects in high-risk patients undergoing angiography (2003) N Engl J Med, 348, pp. 491-499
Baker, C.S., Wragg, A., Kumar, S., De Palma, R., Baker, L.R., Knight, C.J., A rapid protocol for the prevention of contrast-induced renal dysfunction: the RAPPID study (2003) J Am Coll Cardiol, 41, pp. 2114-2118
Waugh, J.R., Sacharias, N., Arteriographic complications in the DSA era (1992) Radiology, 182, pp. 243-246
Palena, L.M., Diaz-Sandoval, L.J., Candeo, A., Brigato, C., Sultato,