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Surgery_Schwartz_6002	Surgery_Schwartz	Ann Thorac Surg. 1999;67(6):1609-1615. 221. Melina G, De Robertis F, Gaer JA, et al. Mid-term pattern of survival, hemodynamic performance and rate of complica-tions after Medtronic Freestyle versus homograft full aortic root replacement: results from a prospective randomized trial. J Heart Valve Dis. 2004;13(6):972-975. 222. Badiu CC, Eichinger W, Bleiziffer S, et al. Should root replacement with aortic valve-sparing be offered to patients with bicuspid valves or severe aortic regurgitation? Eur J Car-diothorac Surg. 2010;38(5):515-522. 223. David TE, Maganti M, Armstrong S. Aortic root aneurysm: principles of repair and long-term follow-up. J Thorac Car-diovasc Surg. 2010;140(6 suppl):S14-S19. 224. Zingone B, Gatti G, Spina A, et al. Current role and outcomes of ascending aortic replacement for severe nonaneurysmal aor-tic atherosclerosis. Ann Thorac Surg. 2010;89(2):429-434. 225. Achneck HE, Rizzo JA, Tranquilli M, Elefteriades JA. Safety of thoracic aortic surgery in the present	Surgery_Schwartz. Ann Thorac Surg. 1999;67(6):1609-1615. 221. Melina G, De Robertis F, Gaer JA, et al. Mid-term pattern of survival, hemodynamic performance and rate of complica-tions after Medtronic Freestyle versus homograft full aortic root replacement: results from a prospective randomized trial. J Heart Valve Dis. 2004;13(6):972-975. 222. Badiu CC, Eichinger W, Bleiziffer S, et al. Should root replacement with aortic valve-sparing be offered to patients with bicuspid valves or severe aortic regurgitation? Eur J Car-diothorac Surg. 2010;38(5):515-522. 223. David TE, Maganti M, Armstrong S. Aortic root aneurysm: principles of repair and long-term follow-up. J Thorac Car-diovasc Surg. 2010;140(6 suppl):S14-S19. 224. Zingone B, Gatti G, Spina A, et al. Current role and outcomes of ascending aortic replacement for severe nonaneurysmal aor-tic atherosclerosis. Ann Thorac Surg. 2010;89(2):429-434. 225. Achneck HE, Rizzo JA, Tranquilli M, Elefteriades JA. Safety of thoracic aortic surgery in the present
Surgery_Schwartz_6003	Surgery_Schwartz	for severe nonaneurysmal aor-tic atherosclerosis. Ann Thorac Surg. 2010;89(2):429-434. 225. Achneck HE, Rizzo JA, Tranquilli M, Elefteriades JA. Safety of thoracic aortic surgery in the present era. Ann Thorac Surg. 2007;84(4):1180-1185. 226. Estrera AL, Miller CC, III, Madisetty J, et al. Ascending and transverse aortic arch repair: the impact of glomerular filtra-tion rate on mortality. Ann Surg. 2008;247(3):524-529. 227. Fleck TM, Czerny M, Hutschala D, et al. The inci-dence of transient neurologic dysfunction after ascending aortic replacement with circulatory arrest. Ann Thorac Surg. 2003;76(4):1198-1202. 228. Immer FF, Barmettler H, Berdat PA, et al. Effects of deep hypo-thermic circulatory arrest on outcome after resection of ascend-ing aortic aneurysm. Ann Thorac Surg. 2002;74(2):422-425. 229. Heinemann MK, Buehner B, Jurmann MJ, Borst HG. Use of the “elephant trunk technique” in aortic surgery. Ann Thorac Surg. 1995;60(1):2-6. 230. LeMaire SA, Carter SA, Coselli JS. The	Surgery_Schwartz. for severe nonaneurysmal aor-tic atherosclerosis. Ann Thorac Surg. 2010;89(2):429-434. 225. Achneck HE, Rizzo JA, Tranquilli M, Elefteriades JA. Safety of thoracic aortic surgery in the present era. Ann Thorac Surg. 2007;84(4):1180-1185. 226. Estrera AL, Miller CC, III, Madisetty J, et al. Ascending and transverse aortic arch repair: the impact of glomerular filtra-tion rate on mortality. Ann Surg. 2008;247(3):524-529. 227. Fleck TM, Czerny M, Hutschala D, et al. The inci-dence of transient neurologic dysfunction after ascending aortic replacement with circulatory arrest. Ann Thorac Surg. 2003;76(4):1198-1202. 228. Immer FF, Barmettler H, Berdat PA, et al. Effects of deep hypo-thermic circulatory arrest on outcome after resection of ascend-ing aortic aneurysm. Ann Thorac Surg. 2002;74(2):422-425. 229. Heinemann MK, Buehner B, Jurmann MJ, Borst HG. Use of the “elephant trunk technique” in aortic surgery. Ann Thorac Surg. 1995;60(1):2-6. 230. LeMaire SA, Carter SA, Coselli JS. The
Surgery_Schwartz_6004	Surgery_Schwartz	MK, Buehner B, Jurmann MJ, Borst HG. Use of the “elephant trunk technique” in aortic surgery. Ann Thorac Surg. 1995;60(1):2-6. 230. LeMaire SA, Carter SA, Coselli JS. The elephant trunk tech-nique for staged repair of complex aneurysms of the entire thoracic aorta. Ann Thorac Surg. 2006;81(5):1561-1569. 231. Safi HJ, Miller CC, III, Estrera AL, et al. Staged repair of extensive aortic aneurysms: long-term experience with the elephant trunk technique. Ann Surg. 2004;240(4):677-684. 232. Sundt TM, Moon MR, DeOliviera N, et al. Contempo-rary results of total aortic arch replacement. J Card Surg. 2004;19(3):235-239. 233. Svensson LG, Kim KH, Blackstone EH, et al. Elephant trunk procedure: newer indications and uses. Ann Thorac Surg. 2004;78(1):109-116. 234. Kazui T, Yamashita K, Washiyama N, et al. Aortic arch replacement using selective cerebral perfusion. Ann Thorac Surg. 2007;83(2):S796-798. 235. Bischoff MS, Brenner RM, Scheumann J, et al. Long-term outcome after aortic arch	Surgery_Schwartz. MK, Buehner B, Jurmann MJ, Borst HG. Use of the “elephant trunk technique” in aortic surgery. Ann Thorac Surg. 1995;60(1):2-6. 230. LeMaire SA, Carter SA, Coselli JS. The elephant trunk tech-nique for staged repair of complex aneurysms of the entire thoracic aorta. Ann Thorac Surg. 2006;81(5):1561-1569. 231. Safi HJ, Miller CC, III, Estrera AL, et al. Staged repair of extensive aortic aneurysms: long-term experience with the elephant trunk technique. Ann Surg. 2004;240(4):677-684. 232. Sundt TM, Moon MR, DeOliviera N, et al. Contempo-rary results of total aortic arch replacement. J Card Surg. 2004;19(3):235-239. 233. Svensson LG, Kim KH, Blackstone EH, et al. Elephant trunk procedure: newer indications and uses. Ann Thorac Surg. 2004;78(1):109-116. 234. Kazui T, Yamashita K, Washiyama N, et al. Aortic arch replacement using selective cerebral perfusion. Ann Thorac Surg. 2007;83(2):S796-798. 235. Bischoff MS, Brenner RM, Scheumann J, et al. Long-term outcome after aortic arch
Surgery_Schwartz_6005	Surgery_Schwartz	N, et al. Aortic arch replacement using selective cerebral perfusion. Ann Thorac Surg. 2007;83(2):S796-798. 235. Bischoff MS, Brenner RM, Scheumann J, et al. Long-term outcome after aortic arch replacement with a trifurcated graft. J Thorac Cardiovasc Surg. 2010;140(6 suppl):S71-S76. 236. Iba Y, Minatoya K, Matsuda H, et al. Contemporary open aortic arch repair with selective cerebral perfusion in the era of endovascular aortic repair. J Thorac Cardiovasc Surg. 2013;145(3 suppl):S72-S77. 237. Thomas M, Li Z, Cook DJ, Greason KL, Sundt TM. Contem-porary results of open aortic arch surgery. J Thorac Cardio-vasc Surg. 2012;144(4):838-844. 238. Urbanski PP, Lenos A, Bougioukakis P, et al. Mild-tomoderate hypothermia in aortic arch surgery using circula-tory arrest: a change of paradigm? Eur J Cardiothorac Surg. 2012;41(1):185-191. 239. Kondoh H, Taniguchi K, Funatsu T, et al. Total arch replace-ment with long elephant trunk anastomosed at the base of the innominate artery: a single-centre	Surgery_Schwartz. N, et al. Aortic arch replacement using selective cerebral perfusion. Ann Thorac Surg. 2007;83(2):S796-798. 235. Bischoff MS, Brenner RM, Scheumann J, et al. Long-term outcome after aortic arch replacement with a trifurcated graft. J Thorac Cardiovasc Surg. 2010;140(6 suppl):S71-S76. 236. Iba Y, Minatoya K, Matsuda H, et al. Contemporary open aortic arch repair with selective cerebral perfusion in the era of endovascular aortic repair. J Thorac Cardiovasc Surg. 2013;145(3 suppl):S72-S77. 237. Thomas M, Li Z, Cook DJ, Greason KL, Sundt TM. Contem-porary results of open aortic arch surgery. J Thorac Cardio-vasc Surg. 2012;144(4):838-844. 238. Urbanski PP, Lenos A, Bougioukakis P, et al. Mild-tomoderate hypothermia in aortic arch surgery using circula-tory arrest: a change of paradigm? Eur J Cardiothorac Surg. 2012;41(1):185-191. 239. Kondoh H, Taniguchi K, Funatsu T, et al. Total arch replace-ment with long elephant trunk anastomosed at the base of the innominate artery: a single-centre
Surgery_Schwartz_6006	Surgery_Schwartz	Cardiothorac Surg. 2012;41(1):185-191. 239. Kondoh H, Taniguchi K, Funatsu T, et al. Total arch replace-ment with long elephant trunk anastomosed at the base of the innominate artery: a single-centre longitudinal experience. Eur J Cardiothorac Surg. 2012;42(5):840-848. 240. Flores J, Kunihara T, Shiiya N, et al. Extensive deployment of the stented elephant trunk is associated with an increased risk of spinal cord injury. J Thorac Cardiovasc Surg. 2006;131(2): 336-342. 241. Koullias GJ, Wheatley GH, III. State-of-the-art of hybrid pro-cedures for the aortic arch: a meta-analysis. Ann Thorac Surg. 2010;90(2):689-697. 242. Antoniou GA, Mireskandari M, Bicknell CD, et al. Hybrid repair of the aortic arch in patients with extensive aortic dis-ease. Eur J Vasc Endovasc Surg. 2010;40(6):715-721. 243. Geisbusch P, Kotelis D, Muller-Eschner M, Hyhlik-Durr A, Bockler D. Complications after aortic arch hybrid repair. J Vasc Surg. 2011;53(4):935-941. 244. Czerny M, Weigang E, Sodeck G, et al.	Surgery_Schwartz. Cardiothorac Surg. 2012;41(1):185-191. 239. Kondoh H, Taniguchi K, Funatsu T, et al. Total arch replace-ment with long elephant trunk anastomosed at the base of the innominate artery: a single-centre longitudinal experience. Eur J Cardiothorac Surg. 2012;42(5):840-848. 240. Flores J, Kunihara T, Shiiya N, et al. Extensive deployment of the stented elephant trunk is associated with an increased risk of spinal cord injury. J Thorac Cardiovasc Surg. 2006;131(2): 336-342. 241. Koullias GJ, Wheatley GH, III. State-of-the-art of hybrid pro-cedures for the aortic arch: a meta-analysis. Ann Thorac Surg. 2010;90(2):689-697. 242. Antoniou GA, Mireskandari M, Bicknell CD, et al. Hybrid repair of the aortic arch in patients with extensive aortic dis-ease. Eur J Vasc Endovasc Surg. 2010;40(6):715-721. 243. Geisbusch P, Kotelis D, Muller-Eschner M, Hyhlik-Durr A, Bockler D. Complications after aortic arch hybrid repair. J Vasc Surg. 2011;53(4):935-941. 244. Czerny M, Weigang E, Sodeck G, et al.
Surgery_Schwartz_6007	Surgery_Schwartz	P, Kotelis D, Muller-Eschner M, Hyhlik-Durr A, Bockler D. Complications after aortic arch hybrid repair. J Vasc Surg. 2011;53(4):935-941. 244. Czerny M, Weigang E, Sodeck G, et al. Targeting landing zone 0 by total arch rerouting and TEVAR: midterm results of a trans-continental registry. Ann Thorac Surg. 2012;94(1):84-89. 245. Trimarchi S, Eagle KA, Nienaber CA, et al. Role of age in acute type A aortic dissection outcome: report from the Inter-national Registry of Acute Aortic Dissection (IRAD). J Thorac Cardiovasc Surg. 2010;140(4):784-789. 246. Rampoldi V, Trimarchi S, Eagle KA, et al. Simple risk models to predict surgical mortality in acute type A aortic dissection: the International Registry of Acute Aortic Dissection score. Ann Thorac Surg. 2007;83(1):55-61. 247. Pape LA, Awais M, Woznicki EM, et al. Presentation, diag-nosis, and outcomes of acute aortic dissection: 17-year trends From the International Registry of Acute Aortic Dissection. Brunicardi_Ch22_p0853-p0896.indd	Surgery_Schwartz. P, Kotelis D, Muller-Eschner M, Hyhlik-Durr A, Bockler D. Complications after aortic arch hybrid repair. J Vasc Surg. 2011;53(4):935-941. 244. Czerny M, Weigang E, Sodeck G, et al. Targeting landing zone 0 by total arch rerouting and TEVAR: midterm results of a trans-continental registry. Ann Thorac Surg. 2012;94(1):84-89. 245. Trimarchi S, Eagle KA, Nienaber CA, et al. Role of age in acute type A aortic dissection outcome: report from the Inter-national Registry of Acute Aortic Dissection (IRAD). J Thorac Cardiovasc Surg. 2010;140(4):784-789. 246. Rampoldi V, Trimarchi S, Eagle KA, et al. Simple risk models to predict surgical mortality in acute type A aortic dissection: the International Registry of Acute Aortic Dissection score. Ann Thorac Surg. 2007;83(1):55-61. 247. Pape LA, Awais M, Woznicki EM, et al. Presentation, diag-nosis, and outcomes of acute aortic dissection: 17-year trends From the International Registry of Acute Aortic Dissection. Brunicardi_Ch22_p0853-p0896.indd
Surgery_Schwartz_6008	Surgery_Schwartz	Woznicki EM, et al. Presentation, diag-nosis, and outcomes of acute aortic dissection: 17-year trends From the International Registry of Acute Aortic Dissection. Brunicardi_Ch22_p0853-p0896.indd 89501/03/19 5:42 PM 896SPECIFIC CONSIDERATIONSPART IIJ Am Coll Cardiol. 2015;66(4):350-358. A comprehensive analysis of outcomes in patients with acute aortic dissection from the largest existing international registry. 248. Boening A, Karck M, Conzelmann LO, et al. German Registry for Acute Aortic Dissection Type A: structure, results, and future perspectives. Thorac Cardiovasc Surg. 2017;65(2):77-84. 249. Kruger T, Weigang E, Hoffmann I, et al. Cerebral protection during surgery for acute aortic dissection type A: results of the German Registry for Acute Aortic Dissection Type A (GERAADA). Circulation. 2011;124(4):434-443. 250. Dake MD, Miller DC, Mitchell RS, et al. The “first genera-tion” of endovascular stent-grafts for patients with aneurysms of the descending thoracic aorta. J	Surgery_Schwartz. Woznicki EM, et al. Presentation, diag-nosis, and outcomes of acute aortic dissection: 17-year trends From the International Registry of Acute Aortic Dissection. Brunicardi_Ch22_p0853-p0896.indd 89501/03/19 5:42 PM 896SPECIFIC CONSIDERATIONSPART IIJ Am Coll Cardiol. 2015;66(4):350-358. A comprehensive analysis of outcomes in patients with acute aortic dissection from the largest existing international registry. 248. Boening A, Karck M, Conzelmann LO, et al. German Registry for Acute Aortic Dissection Type A: structure, results, and future perspectives. Thorac Cardiovasc Surg. 2017;65(2):77-84. 249. Kruger T, Weigang E, Hoffmann I, et al. Cerebral protection during surgery for acute aortic dissection type A: results of the German Registry for Acute Aortic Dissection Type A (GERAADA). Circulation. 2011;124(4):434-443. 250. Dake MD, Miller DC, Mitchell RS, et al. The “first genera-tion” of endovascular stent-grafts for patients with aneurysms of the descending thoracic aorta. J
Surgery_Schwartz_6009	Surgery_Schwartz	Circulation. 2011;124(4):434-443. 250. Dake MD, Miller DC, Mitchell RS, et al. The “first genera-tion” of endovascular stent-grafts for patients with aneurysms of the descending thoracic aorta. J Thorac Cardiovasc Surg. 1998;116(5):689-703. 251. Demers P, Miller DC, Mitchell RS, et al. Midterm results of endovascular repair of descending thoracic aortic aneurysms with first-generation stent grafts. J Thorac Cardiovasc Surg. 2004;127(3):664-673. 252. Bavaria JE, Appoo JJ, Makaroun MS, et al. Endovascular stent grafting versus open surgical repair of descending thoracic aortic aneurysms in low-risk patients: a multicenter compara-tive trial. J Thorac Cardiovasc Surg. 2007;133(2):369-377. 253. Fairman RM, Criado F, Farber M, et al. Pivotal results of the Medtronic Vascular Talent Thoracic Stent Graft System: the VALOR trial. J Vasc Surg. 2008;48(3):546-554. 254. Matsumura JS, Cambria RP, Dake MD, et al. International controlled clinical trial of thoracic endovascular aneurysm repair with	Surgery_Schwartz. Circulation. 2011;124(4):434-443. 250. Dake MD, Miller DC, Mitchell RS, et al. The “first genera-tion” of endovascular stent-grafts for patients with aneurysms of the descending thoracic aorta. J Thorac Cardiovasc Surg. 1998;116(5):689-703. 251. Demers P, Miller DC, Mitchell RS, et al. Midterm results of endovascular repair of descending thoracic aortic aneurysms with first-generation stent grafts. J Thorac Cardiovasc Surg. 2004;127(3):664-673. 252. Bavaria JE, Appoo JJ, Makaroun MS, et al. Endovascular stent grafting versus open surgical repair of descending thoracic aortic aneurysms in low-risk patients: a multicenter compara-tive trial. J Thorac Cardiovasc Surg. 2007;133(2):369-377. 253. Fairman RM, Criado F, Farber M, et al. Pivotal results of the Medtronic Vascular Talent Thoracic Stent Graft System: the VALOR trial. J Vasc Surg. 2008;48(3):546-554. 254. Matsumura JS, Cambria RP, Dake MD, et al. International controlled clinical trial of thoracic endovascular aneurysm repair with
Surgery_Schwartz_6010	Surgery_Schwartz	Graft System: the VALOR trial. J Vasc Surg. 2008;48(3):546-554. 254. Matsumura JS, Cambria RP, Dake MD, et al. International controlled clinical trial of thoracic endovascular aneurysm repair with the Zenith TX2 endovascular graft: 1-year results. J Vasc Surg. 2008;47(2):247-257. 255. Makaroun MS, Dillavou ED, Wheatley GH, Cambria RP. Five-year results of endovascular treatment with the Gore TAG device compared with open repair of thoracic aortic aneurysms. J Vasc Surg. 2008;47(5):912-918. 256. Foley PJ, Criado FJ, Farber MA, et al. Results with the Talent thoracic stent graft in the VALOR trial. J Vasc Surg. 2012;56(5):1214-1221 e1221. 257. Miller DC. Through the looking glass: The first 20 years of thoracic aortic stent-grafting. J Thorac Cardiovasc Surg. 2013;145(3 suppl):S142-S148. 258. Coselli JS, LeMaire SA, Conklin LD, Adams GJ. Left heart bypass during descending thoracic aortic aneurysm repair does not reduce the incidence of paraplegia. Ann Thorac Surg.	Surgery_Schwartz. Graft System: the VALOR trial. J Vasc Surg. 2008;48(3):546-554. 254. Matsumura JS, Cambria RP, Dake MD, et al. International controlled clinical trial of thoracic endovascular aneurysm repair with the Zenith TX2 endovascular graft: 1-year results. J Vasc Surg. 2008;47(2):247-257. 255. Makaroun MS, Dillavou ED, Wheatley GH, Cambria RP. Five-year results of endovascular treatment with the Gore TAG device compared with open repair of thoracic aortic aneurysms. J Vasc Surg. 2008;47(5):912-918. 256. Foley PJ, Criado FJ, Farber MA, et al. Results with the Talent thoracic stent graft in the VALOR trial. J Vasc Surg. 2012;56(5):1214-1221 e1221. 257. Miller DC. Through the looking glass: The first 20 years of thoracic aortic stent-grafting. J Thorac Cardiovasc Surg. 2013;145(3 suppl):S142-S148. 258. Coselli JS, LeMaire SA, Conklin LD, Adams GJ. Left heart bypass during descending thoracic aortic aneurysm repair does not reduce the incidence of paraplegia. Ann Thorac Surg.
Surgery_Schwartz_6011	Surgery_Schwartz	suppl):S142-S148. 258. Coselli JS, LeMaire SA, Conklin LD, Adams GJ. Left heart bypass during descending thoracic aortic aneurysm repair does not reduce the incidence of paraplegia. Ann Thorac Surg. 2004;77(4):1298-1303. 259. Chiesa R, Tshomba Y, Civilini E, et al. Open repair of descend-ing thoracic aneurysms. HSR Proc Intensive Care Cardiovasc Anesth. 2010;2(3):177-190. 260. Estrera AL, Miller CC, III, Chen EP, et al. Descending thoracic aortic aneurysm repair: 12-year experience using distal aortic perfusion and cerebrospinal fluid drainage. Ann Thorac Surg. 2005;80(4):1290-1296. 261. LeMaire SA, Price MD, Green SY, Zarda S, Coselli JS. Results of open thoracoabdominal aortic aneurysm repair. Ann Cardiothorac Surg. 2012;1(3):286-292. 262. Chiesa R, Melissano G, Civilini E, et al. Ten years experience of thoracic and thoracoabdominal aortic aneurysm surgical repair: lessons learned. Ann Vasc Surg. 2004;18(5):514-520. 263. Coselli JS, Bozinovski J, LeMaire SA. Open surgical repair of	Surgery_Schwartz. suppl):S142-S148. 258. Coselli JS, LeMaire SA, Conklin LD, Adams GJ. Left heart bypass during descending thoracic aortic aneurysm repair does not reduce the incidence of paraplegia. Ann Thorac Surg. 2004;77(4):1298-1303. 259. Chiesa R, Tshomba Y, Civilini E, et al. Open repair of descend-ing thoracic aneurysms. HSR Proc Intensive Care Cardiovasc Anesth. 2010;2(3):177-190. 260. Estrera AL, Miller CC, III, Chen EP, et al. Descending thoracic aortic aneurysm repair: 12-year experience using distal aortic perfusion and cerebrospinal fluid drainage. Ann Thorac Surg. 2005;80(4):1290-1296. 261. LeMaire SA, Price MD, Green SY, Zarda S, Coselli JS. Results of open thoracoabdominal aortic aneurysm repair. Ann Cardiothorac Surg. 2012;1(3):286-292. 262. Chiesa R, Melissano G, Civilini E, et al. Ten years experience of thoracic and thoracoabdominal aortic aneurysm surgical repair: lessons learned. Ann Vasc Surg. 2004;18(5):514-520. 263. Coselli JS, Bozinovski J, LeMaire SA. Open surgical repair of
Surgery_Schwartz_6012	Surgery_Schwartz	experience of thoracic and thoracoabdominal aortic aneurysm surgical repair: lessons learned. Ann Vasc Surg. 2004;18(5):514-520. 263. Coselli JS, Bozinovski J, LeMaire SA. Open surgical repair of 2286 thoracoabdominal aortic aneurysms. Ann Thorac Surg. 2007;83(2):S862-S864. 264. Conrad MF, Crawford RS, Davison JK, Cambria RP. Thoracoabdominal aneurysm repair: a 20-year perspective. Ann Thorac Surg. 2007;83(2):S856-861. 265. Schepens MA, Kelder JC, Morshuis WJ, et al. Long-term follow-up after thoracoabdominal aortic aneurysm repair. Ann Thorac Surg. 2007;83(2):S851-S855. 266. Rigberg DA, McGory ML, Zingmond DS, et al. Thirty-day mortality statistics underestimate the risk of repair of thora-coabdominal aortic aneurysms: a statewide experience. J Vasc Surg. 2006;43(2):217-222. 267. Cowan JA, Jr, Dimick JB, Henke PK, et al. Surgical treatment of intact thoracoabdominal aortic aneurysms in the United States: hospital and surgeon volume-related outcomes. J Vasc Surg.	Surgery_Schwartz. experience of thoracic and thoracoabdominal aortic aneurysm surgical repair: lessons learned. Ann Vasc Surg. 2004;18(5):514-520. 263. Coselli JS, Bozinovski J, LeMaire SA. Open surgical repair of 2286 thoracoabdominal aortic aneurysms. Ann Thorac Surg. 2007;83(2):S862-S864. 264. Conrad MF, Crawford RS, Davison JK, Cambria RP. Thoracoabdominal aneurysm repair: a 20-year perspective. Ann Thorac Surg. 2007;83(2):S856-861. 265. Schepens MA, Kelder JC, Morshuis WJ, et al. Long-term follow-up after thoracoabdominal aortic aneurysm repair. Ann Thorac Surg. 2007;83(2):S851-S855. 266. Rigberg DA, McGory ML, Zingmond DS, et al. Thirty-day mortality statistics underestimate the risk of repair of thora-coabdominal aortic aneurysms: a statewide experience. J Vasc Surg. 2006;43(2):217-222. 267. Cowan JA, Jr, Dimick JB, Henke PK, et al. Surgical treatment of intact thoracoabdominal aortic aneurysms in the United States: hospital and surgeon volume-related outcomes. J Vasc Surg.
Surgery_Schwartz_6013	Surgery_Schwartz	JA, Jr, Dimick JB, Henke PK, et al. Surgical treatment of intact thoracoabdominal aortic aneurysms in the United States: hospital and surgeon volume-related outcomes. J Vasc Surg. 2003;37(6):1169-1174. 268. Wong DR, Parenti JL, Green SY, et al. Open repair of tho-racoabdominal aortic aneurysm in the modern surgical era: contemporary outcomes in 509 patients. J Am Coll Surg. 2011;212(4):569-579. 269. Coselli JS, LeMaire SA, Preventza O, et al. Outcomes of 3309 thoracoabdominal aortic aneurysm repairs. J Thorac Cardiovasc Surg. 2016;151(5):1323-1337. This report describes the largest experience with open repair of thoracoabdominal aortic aneurysm and focuses on factors associated with adverse outcomes. 270. Trimarchi S, Tolenaar JL, Tsai TT, et al. Influence of clini-cal presentation on the outcome of acute B aortic dissec-tion: evidences from IRAD. J Cardiovasc Surg (Torino). 2012;53(2):161-168. 271. Tsai TT, Fattori R, Trimarchi S, et al. Long-term survival in patients presenting	Surgery_Schwartz. JA, Jr, Dimick JB, Henke PK, et al. Surgical treatment of intact thoracoabdominal aortic aneurysms in the United States: hospital and surgeon volume-related outcomes. J Vasc Surg. 2003;37(6):1169-1174. 268. Wong DR, Parenti JL, Green SY, et al. Open repair of tho-racoabdominal aortic aneurysm in the modern surgical era: contemporary outcomes in 509 patients. J Am Coll Surg. 2011;212(4):569-579. 269. Coselli JS, LeMaire SA, Preventza O, et al. Outcomes of 3309 thoracoabdominal aortic aneurysm repairs. J Thorac Cardiovasc Surg. 2016;151(5):1323-1337. This report describes the largest experience with open repair of thoracoabdominal aortic aneurysm and focuses on factors associated with adverse outcomes. 270. Trimarchi S, Tolenaar JL, Tsai TT, et al. Influence of clini-cal presentation on the outcome of acute B aortic dissec-tion: evidences from IRAD. J Cardiovasc Surg (Torino). 2012;53(2):161-168. 271. Tsai TT, Fattori R, Trimarchi S, et al. Long-term survival in patients presenting
Surgery_Schwartz_6014	Surgery_Schwartz	the outcome of acute B aortic dissec-tion: evidences from IRAD. J Cardiovasc Surg (Torino). 2012;53(2):161-168. 271. Tsai TT, Fattori R, Trimarchi S, et al. Long-term survival in patients presenting with type B acute aortic dissection: insights from the International Registry of Acute Aortic Dissection. Circulation. 2006;114(21):2226-2231. 272. Slonim SM, Miller DC, Mitchell RS, et al. Percutaneous balloon fenestration and stenting for life-threatening isch-emic complications in patients with acute aortic dissection. J Thorac Cardiovasc Surg. 1999;117(6):1118-1126. 273. Dake MD, Kato N, Mitchell RS, et al. Endovascular stent-graft placement for the treatment of acute aortic dissection. N Engl J Med. 1999;340(20):1546-1552. 274. Eggebrecht H, Nienaber CA, Neuhauser M, et al. Endovascu-lar stent-graft placement in aortic dissection: a meta-analysis. Eur Heart J. 2006;27(4):489-498. 275. White RA, Miller DC, Criado FJ, et al. Report on the results of thoracic endovascular aortic repair	Surgery_Schwartz. the outcome of acute B aortic dissec-tion: evidences from IRAD. J Cardiovasc Surg (Torino). 2012;53(2):161-168. 271. Tsai TT, Fattori R, Trimarchi S, et al. Long-term survival in patients presenting with type B acute aortic dissection: insights from the International Registry of Acute Aortic Dissection. Circulation. 2006;114(21):2226-2231. 272. Slonim SM, Miller DC, Mitchell RS, et al. Percutaneous balloon fenestration and stenting for life-threatening isch-emic complications in patients with acute aortic dissection. J Thorac Cardiovasc Surg. 1999;117(6):1118-1126. 273. Dake MD, Kato N, Mitchell RS, et al. Endovascular stent-graft placement for the treatment of acute aortic dissection. N Engl J Med. 1999;340(20):1546-1552. 274. Eggebrecht H, Nienaber CA, Neuhauser M, et al. Endovascu-lar stent-graft placement in aortic dissection: a meta-analysis. Eur Heart J. 2006;27(4):489-498. 275. White RA, Miller DC, Criado FJ, et al. Report on the results of thoracic endovascular aortic repair
Surgery_Schwartz_6015	Surgery_Schwartz	stent-graft placement in aortic dissection: a meta-analysis. Eur Heart J. 2006;27(4):489-498. 275. White RA, Miller DC, Criado FJ, et al. Report on the results of thoracic endovascular aortic repair for acute, complicated, type B aortic dissection at 30 days and 1 year from a multidisciplinary subcommittee of the Soci-ety for Vascular Surgery Outcomes Committee. J Vasc Surg. 2011;53(4):1082-1090. 276. Brunkwall J, Lammer J, Verhoeven E, Taylor P. ADSORB: a study on the efficacy of endovascular grafting in uncom-plicated acute dissection of the descending aorta. Eur J Vasc Endovasc Surg. 2012;44(1):31-36. 277. Brunkwall J, Kasprzak P, Verhoeven E, et al. Endovascular repair of acute uncomplicated aortic type B dissection pro-motes aortic remodelling: 1 year results of the ADSORB trial. Eur J Vasc Endovasc Surg. 2014;48(3):285-291.Brunicardi_Ch22_p0853-p0896.indd 89601/03/19 5:42 PM	Surgery_Schwartz. stent-graft placement in aortic dissection: a meta-analysis. Eur Heart J. 2006;27(4):489-498. 275. White RA, Miller DC, Criado FJ, et al. Report on the results of thoracic endovascular aortic repair for acute, complicated, type B aortic dissection at 30 days and 1 year from a multidisciplinary subcommittee of the Soci-ety for Vascular Surgery Outcomes Committee. J Vasc Surg. 2011;53(4):1082-1090. 276. Brunkwall J, Lammer J, Verhoeven E, Taylor P. ADSORB: a study on the efficacy of endovascular grafting in uncom-plicated acute dissection of the descending aorta. Eur J Vasc Endovasc Surg. 2012;44(1):31-36. 277. Brunkwall J, Kasprzak P, Verhoeven E, et al. Endovascular repair of acute uncomplicated aortic type B dissection pro-motes aortic remodelling: 1 year results of the ADSORB trial. Eur J Vasc Endovasc Surg. 2014;48(3):285-291.Brunicardi_Ch22_p0853-p0896.indd 89601/03/19 5:42 PM
Surgery_Schwartz_6016	Surgery_Schwartz	Arterial DiseasePeter H. Lin, Carlos F. Bechara, Changyi Chen, and Frank J. Veith 23chapterGeneral Approach to the Vascular Patient 898The Vascular History / 898The Vascular Physical Examination / 899Noninvasive Diagnostic Evaluation of the Vascular Patient / 899Radiologic Evaluation of the Vascular Patient / 900Preoperative Cardiac Evaluation / 903Basic Principles of Endovascular Therapy 903Needles and Access / 904Guidewires / 904Hemostatic Sheaths / 905Catheters / 905Angioplasty Balloons / 905Stents / 905Stent Grafts / 906Carotid Artery Disease 907Epidemiology and Etiology of Carotid Occlusive Disease / 907Clinical Manifestations of Cerebral Ischemia / 907Diagnostic Evaluation / 909Treatment of Carotid Occlusive Disease / 910Carotid Endarterectomy Versus Angioplasty and Stenting / 911Surgical Techniques of Carotid Endarterectomy / 912Techniques of Carotid Angioplasty and Stenting / 914Nonatherosclerotic Disease of the Carotid Artery / 916Abdominal Aortic Aneurysm 919Causes	Surgery_Schwartz. Arterial DiseasePeter H. Lin, Carlos F. Bechara, Changyi Chen, and Frank J. Veith 23chapterGeneral Approach to the Vascular Patient 898The Vascular History / 898The Vascular Physical Examination / 899Noninvasive Diagnostic Evaluation of the Vascular Patient / 899Radiologic Evaluation of the Vascular Patient / 900Preoperative Cardiac Evaluation / 903Basic Principles of Endovascular Therapy 903Needles and Access / 904Guidewires / 904Hemostatic Sheaths / 905Catheters / 905Angioplasty Balloons / 905Stents / 905Stent Grafts / 906Carotid Artery Disease 907Epidemiology and Etiology of Carotid Occlusive Disease / 907Clinical Manifestations of Cerebral Ischemia / 907Diagnostic Evaluation / 909Treatment of Carotid Occlusive Disease / 910Carotid Endarterectomy Versus Angioplasty and Stenting / 911Surgical Techniques of Carotid Endarterectomy / 912Techniques of Carotid Angioplasty and Stenting / 914Nonatherosclerotic Disease of the Carotid Artery / 916Abdominal Aortic Aneurysm 919Causes
Surgery_Schwartz_6017	Surgery_Schwartz	/ 911Surgical Techniques of Carotid Endarterectomy / 912Techniques of Carotid Angioplasty and Stenting / 914Nonatherosclerotic Disease of the Carotid Artery / 916Abdominal Aortic Aneurysm 919Causes and Risk Factors / 919Natural History of Aortic Aneurysm / 920Clinical Manifestations / 920Relevant Anatomy / 920Diagnostic Evaluation / 921Surgical Repair of Abdominal Aortic Aneurysm / 921Endovascular Repair of Abdominal Aortic Aneurysm / 922Results From Clinical Studies Comparing Endovascular Versus Open Repair / 925Classification and Management of Endoleak / 927Mesenteric Artery Disease 928Anatomy and Pathophysiology / 928Types of Mesenteric Artery Occlusive Disease / 929Clinical Manifestations / 930Diagnostic Evaluation / 930Surgical Repair / 932Endovascular Treatment / 933Clinical Results of Interventions for Mesenteric Ischemia / 934Renal Artery Disease 935Etiology / 935Clinical Manifestations / 936Diagnostic Evaluation / 936Treatment Indications / 937Surgical Reconstruction /	Surgery_Schwartz. / 911Surgical Techniques of Carotid Endarterectomy / 912Techniques of Carotid Angioplasty and Stenting / 914Nonatherosclerotic Disease of the Carotid Artery / 916Abdominal Aortic Aneurysm 919Causes and Risk Factors / 919Natural History of Aortic Aneurysm / 920Clinical Manifestations / 920Relevant Anatomy / 920Diagnostic Evaluation / 921Surgical Repair of Abdominal Aortic Aneurysm / 921Endovascular Repair of Abdominal Aortic Aneurysm / 922Results From Clinical Studies Comparing Endovascular Versus Open Repair / 925Classification and Management of Endoleak / 927Mesenteric Artery Disease 928Anatomy and Pathophysiology / 928Types of Mesenteric Artery Occlusive Disease / 929Clinical Manifestations / 930Diagnostic Evaluation / 930Surgical Repair / 932Endovascular Treatment / 933Clinical Results of Interventions for Mesenteric Ischemia / 934Renal Artery Disease 935Etiology / 935Clinical Manifestations / 936Diagnostic Evaluation / 936Treatment Indications / 937Surgical Reconstruction /
Surgery_Schwartz_6018	Surgery_Schwartz	of Interventions for Mesenteric Ischemia / 934Renal Artery Disease 935Etiology / 935Clinical Manifestations / 936Diagnostic Evaluation / 936Treatment Indications / 937Surgical Reconstruction / 938Clinical Results of Surgical Repair / 938Endovascular Treatment / 938Clinical Results of Endovascular Interventions / 939Aortoiliac Occlusive Disease 940Diagnostic Evaluation / 941Differential Diagnosis / 941Collateral Arterial Network / 941Disease Classification / 941General Treatment Considerations / 943Surgical Reconstruction of Aortoiliac Occlusive Disease / 944Complications of Surgical Aortoiliac Reconstruction / 946Endovascular Treatment for Aortic Disease / 947Endovascular Treatment for Iliac Artery Disease / 948Complications of Endovascular Aortoiliac Interventions / 949Clinical Results Comparing Surgical and Endovascular Treatment of Aortoiliac Disease / 949Lower Extremity Arterial Occlusive Disease 950Epidemiology / 950Diagnostic Evaluation / 950Differential Diagnosis /	Surgery_Schwartz. of Interventions for Mesenteric Ischemia / 934Renal Artery Disease 935Etiology / 935Clinical Manifestations / 936Diagnostic Evaluation / 936Treatment Indications / 937Surgical Reconstruction / 938Clinical Results of Surgical Repair / 938Endovascular Treatment / 938Clinical Results of Endovascular Interventions / 939Aortoiliac Occlusive Disease 940Diagnostic Evaluation / 941Differential Diagnosis / 941Collateral Arterial Network / 941Disease Classification / 941General Treatment Considerations / 943Surgical Reconstruction of Aortoiliac Occlusive Disease / 944Complications of Surgical Aortoiliac Reconstruction / 946Endovascular Treatment for Aortic Disease / 947Endovascular Treatment for Iliac Artery Disease / 948Complications of Endovascular Aortoiliac Interventions / 949Clinical Results Comparing Surgical and Endovascular Treatment of Aortoiliac Disease / 949Lower Extremity Arterial Occlusive Disease 950Epidemiology / 950Diagnostic Evaluation / 950Differential Diagnosis /
Surgery_Schwartz_6019	Surgery_Schwartz	Results Comparing Surgical and Endovascular Treatment of Aortoiliac Disease / 949Lower Extremity Arterial Occlusive Disease 950Epidemiology / 950Diagnostic Evaluation / 950Differential Diagnosis / 951Lower Extremity Occlusive Disease Classification / 951Etiology of Acute Limb Ischemia / 952Clinical Manifestations of Acute Limb Ischemia / 954Treatment Considerations for Acute Limb Ischemia / 955Endovascular Treatment / 955Surgical Treatment / 956Complications Related to Treatment for Acute Limb Ischemia / 956Clinical Manifestations of Chronic Limb Ischemia / 958Treatment Considerations for Chronic Limb Ischemia / 959Endovascular Treatment / 960Complications of Endovascular Interventions / 965Surgical Treatment for Chronic Limb Ischemia due to Femoropopliteal Disease / 966Complications of Surgical Reconstruction / 966Choice of Conduit for Infrainguinal Bypass Grafting / 967Clinical Results of Surgical and Endovascular Interventions for Femoropopliteal Occlusive Disease /	Surgery_Schwartz. Results Comparing Surgical and Endovascular Treatment of Aortoiliac Disease / 949Lower Extremity Arterial Occlusive Disease 950Epidemiology / 950Diagnostic Evaluation / 950Differential Diagnosis / 951Lower Extremity Occlusive Disease Classification / 951Etiology of Acute Limb Ischemia / 952Clinical Manifestations of Acute Limb Ischemia / 954Treatment Considerations for Acute Limb Ischemia / 955Endovascular Treatment / 955Surgical Treatment / 956Complications Related to Treatment for Acute Limb Ischemia / 956Clinical Manifestations of Chronic Limb Ischemia / 958Treatment Considerations for Chronic Limb Ischemia / 959Endovascular Treatment / 960Complications of Endovascular Interventions / 965Surgical Treatment for Chronic Limb Ischemia due to Femoropopliteal Disease / 966Complications of Surgical Reconstruction / 966Choice of Conduit for Infrainguinal Bypass Grafting / 967Clinical Results of Surgical and Endovascular Interventions for Femoropopliteal Occlusive Disease /
Surgery_Schwartz_6020	Surgery_Schwartz	of Surgical Reconstruction / 966Choice of Conduit for Infrainguinal Bypass Grafting / 967Clinical Results of Surgical and Endovascular Interventions for Femoropopliteal Occlusive Disease / 968Nonatherosclerotic Disorders of Blood Vessels 969Giant Cell Arteritis (Temporal Arteritis) / 969Takayasu’s Arteritis / 969Ehlers-Danlos Syndrome / 970Marfan’s Syndrome / 970Pseudoxanthoma Elasticum / 970Kawasaki’s Disease / 971Inflammatory Arteritis and Vasculitis / 971Behçet’s Disease / 971Polyarteritis Nodosa / 971Radiation-Induced Arteritis / 972Raynaud’s Syndrome / 972Fibromuscular Dysplasia / 972Nonatherosclerotic Disease Affecting the Popliteal Artery Disease / 973Buerger’s Disease (Thromboangiitis Obliterans) / 974Brunicardi_Ch23_p0897-p0980.indd 89727/02/19 4:13 PM 898Table 23-1Pertinent elements in vascular history• History of stroke or transient ischemic attack• History of coronary artery disease, including previous myocardial infarction and angina• History of peripheral	Surgery_Schwartz. of Surgical Reconstruction / 966Choice of Conduit for Infrainguinal Bypass Grafting / 967Clinical Results of Surgical and Endovascular Interventions for Femoropopliteal Occlusive Disease / 968Nonatherosclerotic Disorders of Blood Vessels 969Giant Cell Arteritis (Temporal Arteritis) / 969Takayasu’s Arteritis / 969Ehlers-Danlos Syndrome / 970Marfan’s Syndrome / 970Pseudoxanthoma Elasticum / 970Kawasaki’s Disease / 971Inflammatory Arteritis and Vasculitis / 971Behçet’s Disease / 971Polyarteritis Nodosa / 971Radiation-Induced Arteritis / 972Raynaud’s Syndrome / 972Fibromuscular Dysplasia / 972Nonatherosclerotic Disease Affecting the Popliteal Artery Disease / 973Buerger’s Disease (Thromboangiitis Obliterans) / 974Brunicardi_Ch23_p0897-p0980.indd 89727/02/19 4:13 PM 898Table 23-1Pertinent elements in vascular history• History of stroke or transient ischemic attack• History of coronary artery disease, including previous myocardial infarction and angina• History of peripheral
Surgery_Schwartz_6021	Surgery_Schwartz	elements in vascular history• History of stroke or transient ischemic attack• History of coronary artery disease, including previous myocardial infarction and angina• History of peripheral arterial disease• History of diabetes• History of hypertension• History of tobacco use• History of hyperlipidemiaGENERAL APPROACH TO THE VASCULAR PATIENTSince the vascular system involves every organ system in our body, the symptoms of vascular disease are as varied as those encountered in any medical specialty. Lack of adequate blood supply to target organs typically presents with pain, for exam-ple, calf pain with lower extremity claudication, postprandial abdominal pain from mesenteric ischemia, and arm pain with axillo-subclavian arterial occlusion. In contrast, stroke and tran-sient ischemic attack (TIA) are the presenting symptoms from middle cerebral embolization as a consequence of a stenosed internal carotid artery. The pain syndrome of arterial disease is usually divided clinically into	Surgery_Schwartz. elements in vascular history• History of stroke or transient ischemic attack• History of coronary artery disease, including previous myocardial infarction and angina• History of peripheral arterial disease• History of diabetes• History of hypertension• History of tobacco use• History of hyperlipidemiaGENERAL APPROACH TO THE VASCULAR PATIENTSince the vascular system involves every organ system in our body, the symptoms of vascular disease are as varied as those encountered in any medical specialty. Lack of adequate blood supply to target organs typically presents with pain, for exam-ple, calf pain with lower extremity claudication, postprandial abdominal pain from mesenteric ischemia, and arm pain with axillo-subclavian arterial occlusion. In contrast, stroke and tran-sient ischemic attack (TIA) are the presenting symptoms from middle cerebral embolization as a consequence of a stenosed internal carotid artery. The pain syndrome of arterial disease is usually divided clinically into
Surgery_Schwartz_6022	Surgery_Schwartz	(TIA) are the presenting symptoms from middle cerebral embolization as a consequence of a stenosed internal carotid artery. The pain syndrome of arterial disease is usually divided clinically into acute and chronic types, with all shades of severity between the two extremes. Sudden onset of pain can indicate complete occlusion of a critical vessel, leading to more severe pain and critical ischemia in the target organ, resulting in lower limb gangrene or intestinal infarction. Chronic pain results from a slower, more progressive atheroscle-rotic occlusion, which can be totally or partially compensated by developing collateral vessels. Acute on chronic is another pain pattern in which a patient most likely has an underlying arterial stenosis that suddenly occludes, for example, the patient with a history of calf claudication who now presents with sudden, severe acute limb-threatening ischemia. The clinician should always try to understand and relate the clinical manifestations to the	Surgery_Schwartz. (TIA) are the presenting symptoms from middle cerebral embolization as a consequence of a stenosed internal carotid artery. The pain syndrome of arterial disease is usually divided clinically into acute and chronic types, with all shades of severity between the two extremes. Sudden onset of pain can indicate complete occlusion of a critical vessel, leading to more severe pain and critical ischemia in the target organ, resulting in lower limb gangrene or intestinal infarction. Chronic pain results from a slower, more progressive atheroscle-rotic occlusion, which can be totally or partially compensated by developing collateral vessels. Acute on chronic is another pain pattern in which a patient most likely has an underlying arterial stenosis that suddenly occludes, for example, the patient with a history of calf claudication who now presents with sudden, severe acute limb-threatening ischemia. The clinician should always try to understand and relate the clinical manifestations to the
Surgery_Schwartz_6023	Surgery_Schwartz	with a history of calf claudication who now presents with sudden, severe acute limb-threatening ischemia. The clinician should always try to understand and relate the clinical manifestations to the underlying pathologic process.The Vascular HistoryAppropriate history should be focused based on the present-ing symptoms related to the vascular system (Table 23-1). Of particular importance in the previous medical history is noting prior vascular interventions (endovascular or open surgical), and all vascular patients should have inquiry made about their prior cardiac history and current cardiac symptoms. Approximately 30% of vascular patients will be diabetic. A history of prior and current smoking status should be noted.The patient with carotid disease in most cases is com-pletely asymptomatic, having been referred based on the find-ing of a cervical bruit or duplex finding of stenosis. Symptoms of carotid territory TIAs include transient monocular blindness (amaurosis), contralateral	Surgery_Schwartz. with a history of calf claudication who now presents with sudden, severe acute limb-threatening ischemia. The clinician should always try to understand and relate the clinical manifestations to the underlying pathologic process.The Vascular HistoryAppropriate history should be focused based on the present-ing symptoms related to the vascular system (Table 23-1). Of particular importance in the previous medical history is noting prior vascular interventions (endovascular or open surgical), and all vascular patients should have inquiry made about their prior cardiac history and current cardiac symptoms. Approximately 30% of vascular patients will be diabetic. A history of prior and current smoking status should be noted.The patient with carotid disease in most cases is com-pletely asymptomatic, having been referred based on the find-ing of a cervical bruit or duplex finding of stenosis. Symptoms of carotid territory TIAs include transient monocular blindness (amaurosis), contralateral
Surgery_Schwartz_6024	Surgery_Schwartz	having been referred based on the find-ing of a cervical bruit or duplex finding of stenosis. Symptoms of carotid territory TIAs include transient monocular blindness (amaurosis), contralateral weakness or numbness, and dys-phasia. Symptoms persisting longer than 24 hours constitute a stroke. In contrast, the patient with chronic mesenteric isch-emia is likely to present with postprandial abdominal pain and weight loss. The patient fears eating because of the pain, avoids food, and loses weight. It is very unlikely that a patient with abdominal pain who has not lost weight has chronic mesenteric ischemia.The patient with lower extremity pain on ambulation has intermittent claudication that occurs in certain muscle groups; for example, calf pain upon exercise usually reflects superficial femoral artery disease, while pain in the buttocks reflects iliac disease. In most cases, the pain manifests in one muscle group below the level of the affected artery, occurs only with exercise, and	Surgery_Schwartz. having been referred based on the find-ing of a cervical bruit or duplex finding of stenosis. Symptoms of carotid territory TIAs include transient monocular blindness (amaurosis), contralateral weakness or numbness, and dys-phasia. Symptoms persisting longer than 24 hours constitute a stroke. In contrast, the patient with chronic mesenteric isch-emia is likely to present with postprandial abdominal pain and weight loss. The patient fears eating because of the pain, avoids food, and loses weight. It is very unlikely that a patient with abdominal pain who has not lost weight has chronic mesenteric ischemia.The patient with lower extremity pain on ambulation has intermittent claudication that occurs in certain muscle groups; for example, calf pain upon exercise usually reflects superficial femoral artery disease, while pain in the buttocks reflects iliac disease. In most cases, the pain manifests in one muscle group below the level of the affected artery, occurs only with exercise, and
Surgery_Schwartz_6025	Surgery_Schwartz	femoral artery disease, while pain in the buttocks reflects iliac disease. In most cases, the pain manifests in one muscle group below the level of the affected artery, occurs only with exercise, and is relieved with rest only to recur at the same location, hence the term “window gazer’s disease.” Rest pain (a manifestation of severe underlying occlusive disease) is constant and occurs in the foot (not the muscle groups), typically at the metatarso-phalangeal junction, and is relieved by dependency. Often the Key Points1 Carotid intervention as a preventive strategy should be per-formed in patients with 60% or greater symptomatic internal carotid artery stenosis and those with 80% or greater asymp-tomatic internal carotid artery stenosis. Carotid intervention for asymptomatic stenosis between 60% and 79% remains controversial. The modality of carotid intervention—carotid endarterectomy versus carotid stenting—remains contro-versial; currently, carotid endarterectomy appears to be	Surgery_Schwartz. femoral artery disease, while pain in the buttocks reflects iliac disease. In most cases, the pain manifests in one muscle group below the level of the affected artery, occurs only with exercise, and is relieved with rest only to recur at the same location, hence the term “window gazer’s disease.” Rest pain (a manifestation of severe underlying occlusive disease) is constant and occurs in the foot (not the muscle groups), typically at the metatarso-phalangeal junction, and is relieved by dependency. Often the Key Points1 Carotid intervention as a preventive strategy should be per-formed in patients with 60% or greater symptomatic internal carotid artery stenosis and those with 80% or greater asymp-tomatic internal carotid artery stenosis. Carotid intervention for asymptomatic stenosis between 60% and 79% remains controversial. The modality of carotid intervention—carotid endarterectomy versus carotid stenting—remains contro-versial; currently, carotid endarterectomy appears to be
Surgery_Schwartz_6026	Surgery_Schwartz	between 60% and 79% remains controversial. The modality of carotid intervention—carotid endarterectomy versus carotid stenting—remains contro-versial; currently, carotid endarterectomy appears to be associated with lower stroke rate with long term durability, whereas carotid stenting is more suitable under certain chal-lenging anatomic or physiologic conditions.2 Abdominal aortic aneurysms should be repaired when the risk of rupture, determined mainly by aneurysm size, exceeds the risk of death due to perioperative complications or concurrent illness. Endovascular repair is associated with less perioperative morbidity and mortality compared with open reconstruction and is preferred in patients with suitable anatomic morphology for stent-graft placement.3 Treatment objectives for symptomatic mesenteric ischemia are to improve quality of life and prevent bowel infarc-tion. Endovascular intervention with stenting has similar treatment efficacy comparative with less perioperative	Surgery_Schwartz. between 60% and 79% remains controversial. The modality of carotid intervention—carotid endarterectomy versus carotid stenting—remains contro-versial; currently, carotid endarterectomy appears to be associated with lower stroke rate with long term durability, whereas carotid stenting is more suitable under certain chal-lenging anatomic or physiologic conditions.2 Abdominal aortic aneurysms should be repaired when the risk of rupture, determined mainly by aneurysm size, exceeds the risk of death due to perioperative complications or concurrent illness. Endovascular repair is associated with less perioperative morbidity and mortality compared with open reconstruction and is preferred in patients with suitable anatomic morphology for stent-graft placement.3 Treatment objectives for symptomatic mesenteric ischemia are to improve quality of life and prevent bowel infarc-tion. Endovascular intervention with stenting has similar treatment efficacy comparative with less perioperative
Surgery_Schwartz_6027	Surgery_Schwartz	mesenteric ischemia are to improve quality of life and prevent bowel infarc-tion. Endovascular intervention with stenting has similar treatment efficacy comparative with less perioperative mor-bidity compared to open mesenteric bypass. Surgical recon-struction has a proven durability and patency rate compared with endovascular intervention.4 Aortoiliac occlusive disease can be treated with either endovascular means or open reconstruction, depending on patient risk stratification, occlusion characteristics, and symptomatology.5 Claudication is a marker of extensive atherosclerosis and is mainly managed with risk factor modification and pharma-cotherapy. Only 5% of patients with claudication will need intervention because of disabling extremity pain. The 5-year mortality of a patient with claudication approaches 30%. Patients with rest pain or tissue loss need expeditious evalu-ation and vascular reconstruction to ameliorate the severe extremity pain and prevent limb loss. Endovascular	Surgery_Schwartz. mesenteric ischemia are to improve quality of life and prevent bowel infarc-tion. Endovascular intervention with stenting has similar treatment efficacy comparative with less perioperative mor-bidity compared to open mesenteric bypass. Surgical recon-struction has a proven durability and patency rate compared with endovascular intervention.4 Aortoiliac occlusive disease can be treated with either endovascular means or open reconstruction, depending on patient risk stratification, occlusion characteristics, and symptomatology.5 Claudication is a marker of extensive atherosclerosis and is mainly managed with risk factor modification and pharma-cotherapy. Only 5% of patients with claudication will need intervention because of disabling extremity pain. The 5-year mortality of a patient with claudication approaches 30%. Patients with rest pain or tissue loss need expeditious evalu-ation and vascular reconstruction to ameliorate the severe extremity pain and prevent limb loss. Endovascular
Surgery_Schwartz_6028	Surgery_Schwartz	approaches 30%. Patients with rest pain or tissue loss need expeditious evalu-ation and vascular reconstruction to ameliorate the severe extremity pain and prevent limb loss. Endovascular interven-tion is preferred as the first line of therapy for lower extrem-ity occlusive disease, whereas bypass reconstruction should be considered in failed endovascular therapy or long seg-ment femoropopliteal occlusive disease.Brunicardi_Ch23_p0897-p0980.indd 89827/02/19 4:13 PM 899ARTERIAL DISEASECHAPTER 23Table 23-2Grading scales for peripheral pulsesTRADITIONAL SCALEBASIC SCALE4+Normal2+Normal3+Slightly reduced1+Diminished2+Markedly reduced0Absent1+Barely palpable patient is prompted to sleep with their foot hanging off one side of the bed to increase the hydrostatic pressure.The Vascular Physical ExaminationSpecific vascular examination should include abdominal aortic palpation, carotid artery examination, and pulse examination of the lower extremity (femoral, popliteal, posterior tibial,	Surgery_Schwartz. approaches 30%. Patients with rest pain or tissue loss need expeditious evalu-ation and vascular reconstruction to ameliorate the severe extremity pain and prevent limb loss. Endovascular interven-tion is preferred as the first line of therapy for lower extrem-ity occlusive disease, whereas bypass reconstruction should be considered in failed endovascular therapy or long seg-ment femoropopliteal occlusive disease.Brunicardi_Ch23_p0897-p0980.indd 89827/02/19 4:13 PM 899ARTERIAL DISEASECHAPTER 23Table 23-2Grading scales for peripheral pulsesTRADITIONAL SCALEBASIC SCALE4+Normal2+Normal3+Slightly reduced1+Diminished2+Markedly reduced0Absent1+Barely palpable patient is prompted to sleep with their foot hanging off one side of the bed to increase the hydrostatic pressure.The Vascular Physical ExaminationSpecific vascular examination should include abdominal aortic palpation, carotid artery examination, and pulse examination of the lower extremity (femoral, popliteal, posterior tibial,
Surgery_Schwartz_6029	Surgery_Schwartz	ExaminationSpecific vascular examination should include abdominal aortic palpation, carotid artery examination, and pulse examination of the lower extremity (femoral, popliteal, posterior tibial, and dorsalis pedis arteries). The abdomen should be palpated for an abdominal aortic aneurysm, detected as an expansile pulse above the level of the umbilicus. It should also be examined for the presence of bruits. Because the aorta typically divides at the level of the umbilicus, an aortic aneurysm is most frequently palpable in the epigastrium. In thin individuals, a normal aortic pulsation is palpable, while in obese patients, even large aor-tic aneurysms may not be detectable. Suspicion of a clinically enlarged aorta should lead to the performance of an ultrasound scan for a more accurate definition of aortic diameter.The carotids should be auscultated for the presence of bruits, although there is a higher correlation with coronary artery disease than underlying carotid stenosis. A bruit	Surgery_Schwartz. ExaminationSpecific vascular examination should include abdominal aortic palpation, carotid artery examination, and pulse examination of the lower extremity (femoral, popliteal, posterior tibial, and dorsalis pedis arteries). The abdomen should be palpated for an abdominal aortic aneurysm, detected as an expansile pulse above the level of the umbilicus. It should also be examined for the presence of bruits. Because the aorta typically divides at the level of the umbilicus, an aortic aneurysm is most frequently palpable in the epigastrium. In thin individuals, a normal aortic pulsation is palpable, while in obese patients, even large aor-tic aneurysms may not be detectable. Suspicion of a clinically enlarged aorta should lead to the performance of an ultrasound scan for a more accurate definition of aortic diameter.The carotids should be auscultated for the presence of bruits, although there is a higher correlation with coronary artery disease than underlying carotid stenosis. A bruit
Surgery_Schwartz_6030	Surgery_Schwartz	of aortic diameter.The carotids should be auscultated for the presence of bruits, although there is a higher correlation with coronary artery disease than underlying carotid stenosis. A bruit at the angle of the mandible is a significant finding, leading to follow-up duplex scanning. The differential diagnosis is a transmitted murmur from a sclerotic or stenotic aortic valve. The carotid is palpable deep to the sternocleidomastoid muscle in the neck. Palpation, however, should be gentle and rarely yields clinically useful information.Upper extremity examination is necessary when an arte-riovenous graft is to be inserted in patients who have symptoms of arm pain with exercise. Thoracic outlet syndrome (TOS) can result in occlusion or aneurysm formation of the subclavian artery. Distal embolization is a manifestation of TOS; conse-quently, the fingers should be examined for signs of ischemia and ulceration. The axillary artery enters the limb below the middle of the clavicle, where it	Surgery_Schwartz. of aortic diameter.The carotids should be auscultated for the presence of bruits, although there is a higher correlation with coronary artery disease than underlying carotid stenosis. A bruit at the angle of the mandible is a significant finding, leading to follow-up duplex scanning. The differential diagnosis is a transmitted murmur from a sclerotic or stenotic aortic valve. The carotid is palpable deep to the sternocleidomastoid muscle in the neck. Palpation, however, should be gentle and rarely yields clinically useful information.Upper extremity examination is necessary when an arte-riovenous graft is to be inserted in patients who have symptoms of arm pain with exercise. Thoracic outlet syndrome (TOS) can result in occlusion or aneurysm formation of the subclavian artery. Distal embolization is a manifestation of TOS; conse-quently, the fingers should be examined for signs of ischemia and ulceration. The axillary artery enters the limb below the middle of the clavicle, where it
Surgery_Schwartz_6031	Surgery_Schwartz	is a manifestation of TOS; conse-quently, the fingers should be examined for signs of ischemia and ulceration. The axillary artery enters the limb below the middle of the clavicle, where it can be palpated in thin patients. It is usually easily palpable in the axilla and medial upper arm. The brachial artery is most easily located at the antecubital fossa immediately medial to the biceps tendon. The radial artery is palpable at the wrist anterior to the radius.For lower extremity vascular examination, the femoral pulse is usually palpable midway between the anterior supe-rior iliac spine and the pubic tubercle. The popliteal artery is palpated in the popliteal fossa with the knee flexed to 45° and the foot supported on the examination table to relax the calf muscles. Palpation of the popliteal artery is a bimanual tech-nique. Both thumbs are placed on the tibial tuberosity anteriorly, and the fingers are placed into the popliteal fossa between the two heads of the gastrocnemius	Surgery_Schwartz. is a manifestation of TOS; conse-quently, the fingers should be examined for signs of ischemia and ulceration. The axillary artery enters the limb below the middle of the clavicle, where it can be palpated in thin patients. It is usually easily palpable in the axilla and medial upper arm. The brachial artery is most easily located at the antecubital fossa immediately medial to the biceps tendon. The radial artery is palpable at the wrist anterior to the radius.For lower extremity vascular examination, the femoral pulse is usually palpable midway between the anterior supe-rior iliac spine and the pubic tubercle. The popliteal artery is palpated in the popliteal fossa with the knee flexed to 45° and the foot supported on the examination table to relax the calf muscles. Palpation of the popliteal artery is a bimanual tech-nique. Both thumbs are placed on the tibial tuberosity anteriorly, and the fingers are placed into the popliteal fossa between the two heads of the gastrocnemius
Surgery_Schwartz_6032	Surgery_Schwartz	popliteal artery is a bimanual tech-nique. Both thumbs are placed on the tibial tuberosity anteriorly, and the fingers are placed into the popliteal fossa between the two heads of the gastrocnemius muscle. The popliteal artery is palpated by compressing it against the posterior aspect of the tibia just below the knee. The posterior tibial pulse is detected by palpation 2 cm posterior to the medial malleolus. The dorsa-lis pedis is detected 1 cm lateral to the hallucis longus extensor tendon, which dorsiflexes the great toe and is clearly visible on the dorsum of the foot. Pulses can be graded using either the traditional four-point scale or the basic two-point scale system (Table 23-2). The foot should also be carefully examined for pallor on elevation and rubor on dependency, as these findings are indicative of chronic ischemia. Note should also be made of nail changes and loss of hair. Ulceration and other findings specific to disease states are described in relevant sections later	Surgery_Schwartz. popliteal artery is a bimanual tech-nique. Both thumbs are placed on the tibial tuberosity anteriorly, and the fingers are placed into the popliteal fossa between the two heads of the gastrocnemius muscle. The popliteal artery is palpated by compressing it against the posterior aspect of the tibia just below the knee. The posterior tibial pulse is detected by palpation 2 cm posterior to the medial malleolus. The dorsa-lis pedis is detected 1 cm lateral to the hallucis longus extensor tendon, which dorsiflexes the great toe and is clearly visible on the dorsum of the foot. Pulses can be graded using either the traditional four-point scale or the basic two-point scale system (Table 23-2). The foot should also be carefully examined for pallor on elevation and rubor on dependency, as these findings are indicative of chronic ischemia. Note should also be made of nail changes and loss of hair. Ulceration and other findings specific to disease states are described in relevant sections later
Surgery_Schwartz_6033	Surgery_Schwartz	are indicative of chronic ischemia. Note should also be made of nail changes and loss of hair. Ulceration and other findings specific to disease states are described in relevant sections later in this chapter.After reconstructive vascular surgery, the graft may be available for examination, depending on its type and course. The in situ lower extremity graft runs in the subcutaneous fat and can be palpated along most of its length. A change in pulse quality, aneurysmal enlargement, or a new bruit should be care-fully noted. Axillofemoral grafts, femoral-to-femoral grafts, and arteriovenous access grafts can usually be easily palpated as well.Noninvasive Diagnostic Evaluation of the Vascular PatientAnkle-Brachial Index. There is increasing interest in the use of the ankle-brachial index (ABI) to evaluate patients at risk for cardiovascular events. An ABI less than 0.9 correlates with increased risk of myocardial infarction and indicates significant, although perhaps asymptomatic,	Surgery_Schwartz. are indicative of chronic ischemia. Note should also be made of nail changes and loss of hair. Ulceration and other findings specific to disease states are described in relevant sections later in this chapter.After reconstructive vascular surgery, the graft may be available for examination, depending on its type and course. The in situ lower extremity graft runs in the subcutaneous fat and can be palpated along most of its length. A change in pulse quality, aneurysmal enlargement, or a new bruit should be care-fully noted. Axillofemoral grafts, femoral-to-femoral grafts, and arteriovenous access grafts can usually be easily palpated as well.Noninvasive Diagnostic Evaluation of the Vascular PatientAnkle-Brachial Index. There is increasing interest in the use of the ankle-brachial index (ABI) to evaluate patients at risk for cardiovascular events. An ABI less than 0.9 correlates with increased risk of myocardial infarction and indicates significant, although perhaps asymptomatic,
Surgery_Schwartz_6034	Surgery_Schwartz	(ABI) to evaluate patients at risk for cardiovascular events. An ABI less than 0.9 correlates with increased risk of myocardial infarction and indicates significant, although perhaps asymptomatic, underlying peripheral vascular disease. The ABI is determined in the following ways. Blood pressure is measured in both upper extremities using the high-est systolic blood pressure as the denominator for the ABI. The ankle pressure is determined by placing a blood pressure cuff above the ankle and measuring the return to flow of the posterior tibial and dorsalis pedis arteries using a pencil Doppler probe over each artery. The ratio of the systolic pressure in each ves-sel divided by the highest arm systolic pressure can be used to express the ABI in both the posterior tibial and dorsalis pedis arteries (Fig. 23-1). Normal is more than 1. Patients with clau-dication typically have an ABI in the 0.5 to 0.7 range, and those with rest pain are in the 0.3 to 0.5 range. Those with gangrene have	Surgery_Schwartz. (ABI) to evaluate patients at risk for cardiovascular events. An ABI less than 0.9 correlates with increased risk of myocardial infarction and indicates significant, although perhaps asymptomatic, underlying peripheral vascular disease. The ABI is determined in the following ways. Blood pressure is measured in both upper extremities using the high-est systolic blood pressure as the denominator for the ABI. The ankle pressure is determined by placing a blood pressure cuff above the ankle and measuring the return to flow of the posterior tibial and dorsalis pedis arteries using a pencil Doppler probe over each artery. The ratio of the systolic pressure in each ves-sel divided by the highest arm systolic pressure can be used to express the ABI in both the posterior tibial and dorsalis pedis arteries (Fig. 23-1). Normal is more than 1. Patients with clau-dication typically have an ABI in the 0.5 to 0.7 range, and those with rest pain are in the 0.3 to 0.5 range. Those with gangrene have
Surgery_Schwartz_6035	Surgery_Schwartz	arteries (Fig. 23-1). Normal is more than 1. Patients with clau-dication typically have an ABI in the 0.5 to 0.7 range, and those with rest pain are in the 0.3 to 0.5 range. Those with gangrene have an ABI of less than 0.3. These ranges can vary depending on the degree of compressibility of the vessel. The test is less reliable in patients with heavily calcified vessels. Due to non-compressibility, some patients, such as diabetics and those with end-stage renal disease, may have ABI ≥1.40 and require addi-tional noninvasive diagnostic testing to evaluate for peripheral artery disease. Alternative tests include toe-brachial pressures, pulse volume recordings, transcutaneous oxygen measurements, or vascular imaging (duplex ultrasound).Segmental Limb Pressures. By placing serial blood pressure cuffs down the lower extremity and then measuring the pressure with a Doppler probe as flow returns to the artery below the cuff, it is possible to determine segmental pressures down the leg. This	Surgery_Schwartz. arteries (Fig. 23-1). Normal is more than 1. Patients with clau-dication typically have an ABI in the 0.5 to 0.7 range, and those with rest pain are in the 0.3 to 0.5 range. Those with gangrene have an ABI of less than 0.3. These ranges can vary depending on the degree of compressibility of the vessel. The test is less reliable in patients with heavily calcified vessels. Due to non-compressibility, some patients, such as diabetics and those with end-stage renal disease, may have ABI ≥1.40 and require addi-tional noninvasive diagnostic testing to evaluate for peripheral artery disease. Alternative tests include toe-brachial pressures, pulse volume recordings, transcutaneous oxygen measurements, or vascular imaging (duplex ultrasound).Segmental Limb Pressures. By placing serial blood pressure cuffs down the lower extremity and then measuring the pressure with a Doppler probe as flow returns to the artery below the cuff, it is possible to determine segmental pressures down the leg. This
Surgery_Schwartz_6036	Surgery_Schwartz	cuffs down the lower extremity and then measuring the pressure with a Doppler probe as flow returns to the artery below the cuff, it is possible to determine segmental pressures down the leg. This data can then be used to infer the level of the occlu-sion. The systolic pressure at each level is expressed as a ratio, with the highest systolic pressure in the upper extremities as the denominator. Normal segmental pressures commonly show high thigh pressures 20 mmHg or greater in comparison to the brachial artery pressures. The low thigh pressure should be equivalent to brachial pressures. Subsequent pressures should fall by no more than 10 mmHg at each level. A pressure gradient of 20 mmHg between two subsequent levels is usually indica-tive of occlusive disease at that level. The most frequently used index is the ratio of the ankle pressure to the brachial pressure, Brunicardi_Ch23_p0897-p0980.indd 89927/02/19 4:13 PM 900SPECIFIC CONSIDERATIONSPART IIFigure 23-1. Calculating the	Surgery_Schwartz. cuffs down the lower extremity and then measuring the pressure with a Doppler probe as flow returns to the artery below the cuff, it is possible to determine segmental pressures down the leg. This data can then be used to infer the level of the occlu-sion. The systolic pressure at each level is expressed as a ratio, with the highest systolic pressure in the upper extremities as the denominator. Normal segmental pressures commonly show high thigh pressures 20 mmHg or greater in comparison to the brachial artery pressures. The low thigh pressure should be equivalent to brachial pressures. Subsequent pressures should fall by no more than 10 mmHg at each level. A pressure gradient of 20 mmHg between two subsequent levels is usually indica-tive of occlusive disease at that level. The most frequently used index is the ratio of the ankle pressure to the brachial pressure, Brunicardi_Ch23_p0897-p0980.indd 89927/02/19 4:13 PM 900SPECIFIC CONSIDERATIONSPART IIFigure 23-1. Calculating the
Surgery_Schwartz_6037	Surgery_Schwartz	used index is the ratio of the ankle pressure to the brachial pressure, Brunicardi_Ch23_p0897-p0980.indd 89927/02/19 4:13 PM 900SPECIFIC CONSIDERATIONSPART IIFigure 23-1. Calculating the ankle-brachial index (ABI).Right ABI = ratio ofHigher of the right ankle systolic pressures (posterior tibial or dorsalis pedis)Higher arm systolic pressure (left or right arm)Left ABI = ratio ofHigher of the left ankle systolic pressures (posterior tibial or dorsalis pedis)Higher arm systolic pressure (left or right arm)the ABI. Normally, the ABI is greater than 1.0, and a value of less than 0.9 indicates some degree of arterial obstruction and has been shown to be correlated with an increased risk of coronary heart disease. Limitations of relying on segmental limb pressures include: (a) missing isolated moderate stenoses (usually iliac) that produce little or no pressure gradient at rest; (b) falsely elevated pressures in patients with diabetes and end-stage renal disease; and (c) the inability	Surgery_Schwartz. used index is the ratio of the ankle pressure to the brachial pressure, Brunicardi_Ch23_p0897-p0980.indd 89927/02/19 4:13 PM 900SPECIFIC CONSIDERATIONSPART IIFigure 23-1. Calculating the ankle-brachial index (ABI).Right ABI = ratio ofHigher of the right ankle systolic pressures (posterior tibial or dorsalis pedis)Higher arm systolic pressure (left or right arm)Left ABI = ratio ofHigher of the left ankle systolic pressures (posterior tibial or dorsalis pedis)Higher arm systolic pressure (left or right arm)the ABI. Normally, the ABI is greater than 1.0, and a value of less than 0.9 indicates some degree of arterial obstruction and has been shown to be correlated with an increased risk of coronary heart disease. Limitations of relying on segmental limb pressures include: (a) missing isolated moderate stenoses (usually iliac) that produce little or no pressure gradient at rest; (b) falsely elevated pressures in patients with diabetes and end-stage renal disease; and (c) the inability
Surgery_Schwartz_6038	Surgery_Schwartz	moderate stenoses (usually iliac) that produce little or no pressure gradient at rest; (b) falsely elevated pressures in patients with diabetes and end-stage renal disease; and (c) the inability to differentiate between stenosis and occlusion.1 Patients with diabetes and end-stage renal disease have calcified vessels that are difficult to com-press, thus rendering this method inaccurate, due to recording of falsely elevated pressure readings. Noncompressible arter-ies yield ankle systolic pressures ≥250 mmHg and ABIs >1.40. In this situation, absolute toe and ankle pressures can be mea-sured to gauge critical limb ischemia. Ankle pressures less than 50 mmHg or toe pressures less than 30 mmHg are indica-tive of critical limb ischemia. The toe pressure is normally 30 mmHg less than the ankle pressure, and a toe-brachial index (TBI) <0.70 is abnormal. False-positive results with the TBI are unusual. The main limitation of this technique is that it may be impossible to measure pressures	Surgery_Schwartz. moderate stenoses (usually iliac) that produce little or no pressure gradient at rest; (b) falsely elevated pressures in patients with diabetes and end-stage renal disease; and (c) the inability to differentiate between stenosis and occlusion.1 Patients with diabetes and end-stage renal disease have calcified vessels that are difficult to com-press, thus rendering this method inaccurate, due to recording of falsely elevated pressure readings. Noncompressible arter-ies yield ankle systolic pressures ≥250 mmHg and ABIs >1.40. In this situation, absolute toe and ankle pressures can be mea-sured to gauge critical limb ischemia. Ankle pressures less than 50 mmHg or toe pressures less than 30 mmHg are indica-tive of critical limb ischemia. The toe pressure is normally 30 mmHg less than the ankle pressure, and a toe-brachial index (TBI) <0.70 is abnormal. False-positive results with the TBI are unusual. The main limitation of this technique is that it may be impossible to measure pressures
Surgery_Schwartz_6039	Surgery_Schwartz	pressure, and a toe-brachial index (TBI) <0.70 is abnormal. False-positive results with the TBI are unusual. The main limitation of this technique is that it may be impossible to measure pressures in the first and second toes due to preexisting ulceration.Pulse Volume Recording. In patients with noncompressible vessels, segmental plethysmography can be used to determine underlying arterial occlusive disease. Cuffs placed at different levels on the leg detect changes in blood volume and produce a pulse volume recording (PVR) when connected to a plethysmo-graph (Fig. 23-2). To obtain accurate PVR waveforms, the cuff is inflated to 60 to 65 mmHg, so as to detect volume changes without causing arterial occlusion. Pulse volume tracings are suggestive of proximal disease if the upstroke of the pulse is not brisk, the peak of the wave tracing is rounded, and there is disappearance of the dicrotic notch.Although isolated segmental limb pressures and PVR mea-surements are 85% accurate when	Surgery_Schwartz. pressure, and a toe-brachial index (TBI) <0.70 is abnormal. False-positive results with the TBI are unusual. The main limitation of this technique is that it may be impossible to measure pressures in the first and second toes due to preexisting ulceration.Pulse Volume Recording. In patients with noncompressible vessels, segmental plethysmography can be used to determine underlying arterial occlusive disease. Cuffs placed at different levels on the leg detect changes in blood volume and produce a pulse volume recording (PVR) when connected to a plethysmo-graph (Fig. 23-2). To obtain accurate PVR waveforms, the cuff is inflated to 60 to 65 mmHg, so as to detect volume changes without causing arterial occlusion. Pulse volume tracings are suggestive of proximal disease if the upstroke of the pulse is not brisk, the peak of the wave tracing is rounded, and there is disappearance of the dicrotic notch.Although isolated segmental limb pressures and PVR mea-surements are 85% accurate when
Surgery_Schwartz_6040	Surgery_Schwartz	pulse is not brisk, the peak of the wave tracing is rounded, and there is disappearance of the dicrotic notch.Although isolated segmental limb pressures and PVR mea-surements are 85% accurate when compared with angiography in detecting and localizing significant atherosclerotic lesions, when used in combination, accuracy approaches 95%.2 For this reason, it is suggested that these two diagnostic modalities be used in combination when evaluating peripheral artery disease.Radiologic Evaluation of the Vascular PatientUltrasound. Ultrasound examinations are relatively time consuming, require experienced technicians, and may not visu-alize all arterial segments. Doppler waveform analysis can sug-gest atherosclerotic occlusive disease if the waveforms in the insonated arteries are biphasic, monophasic, or asymmetrical. B-mode ultrasonography provides black and white, real-time images. B-mode ultrasonography does not evaluate blood flow; thus, it cannot differentiate between fresh thrombus	Surgery_Schwartz. pulse is not brisk, the peak of the wave tracing is rounded, and there is disappearance of the dicrotic notch.Although isolated segmental limb pressures and PVR mea-surements are 85% accurate when compared with angiography in detecting and localizing significant atherosclerotic lesions, when used in combination, accuracy approaches 95%.2 For this reason, it is suggested that these two diagnostic modalities be used in combination when evaluating peripheral artery disease.Radiologic Evaluation of the Vascular PatientUltrasound. Ultrasound examinations are relatively time consuming, require experienced technicians, and may not visu-alize all arterial segments. Doppler waveform analysis can sug-gest atherosclerotic occlusive disease if the waveforms in the insonated arteries are biphasic, monophasic, or asymmetrical. B-mode ultrasonography provides black and white, real-time images. B-mode ultrasonography does not evaluate blood flow; thus, it cannot differentiate between fresh thrombus
Surgery_Schwartz_6041	Surgery_Schwartz	or asymmetrical. B-mode ultrasonography provides black and white, real-time images. B-mode ultrasonography does not evaluate blood flow; thus, it cannot differentiate between fresh thrombus and flow-ing blood, which have the same echogenicity. Calcification in atherosclerotic plaques will cause acoustic shadowing. B-mode ultrasound probes cannot be sterilized. Use of the B-mode probe intraoperatively requires a sterile covering and gel to maintain an acoustic interface. Experience is needed to obtain and interpret images accurately. Duplex ultrasonography entails performance of B-mode imaging, spectral Doppler scanning, and color-flow duplex scanning. The caveat to performance of duplex ultraso-nography is meticulous technique by a certified vascular ultra-sound technician, so that the appropriate 60° Doppler angle is maintained during insonation with the ultrasound probe. Altera-tion of this angle can markedly alter waveform appearance and subsequent interpretation of velocity	Surgery_Schwartz. or asymmetrical. B-mode ultrasonography provides black and white, real-time images. B-mode ultrasonography does not evaluate blood flow; thus, it cannot differentiate between fresh thrombus and flow-ing blood, which have the same echogenicity. Calcification in atherosclerotic plaques will cause acoustic shadowing. B-mode ultrasound probes cannot be sterilized. Use of the B-mode probe intraoperatively requires a sterile covering and gel to maintain an acoustic interface. Experience is needed to obtain and interpret images accurately. Duplex ultrasonography entails performance of B-mode imaging, spectral Doppler scanning, and color-flow duplex scanning. The caveat to performance of duplex ultraso-nography is meticulous technique by a certified vascular ultra-sound technician, so that the appropriate 60° Doppler angle is maintained during insonation with the ultrasound probe. Altera-tion of this angle can markedly alter waveform appearance and subsequent interpretation of velocity