|
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REFERENCES
151.
London MJ, Hollenberg M, Wong MG, et al: Intraoperative
myocardial ischemia: Localization by continuous 12-lead electrocardiography. Anesthesiology
69:232–241, 1988.
152.
Martinez EA, Kim LJ, Faraday N, et al: Sensitivity
of routine intensive care unit surveillance for detecting myocardial ischemia. Crit
Care Med 31:2302–2308, 2003.
153.
Battler A, Froelicher VF, Gallagher KP, et al:
Dissociation between regional myocardial dysfunction and ECG changes during ischemia
in the conscious dog. Circulation 62:735–744, 1980.
154.
Kaplan JA, Wells PH: Early diagnosis of myocardial
ischemia using the pulmonary arterial catheter. Anesth Analg 60:789–793, 1981.
155.
Pepine CJ, Cohn PF, Deedwania PC, et al: Effects
of treatment on outcome in mildly symptomatic patients with ischemia during daily
life. The Atenolol Silent Ischemia Study (ASIST). Circulation 90:762–768,
1994.
156.
The Cardiac Insufficiency Bisoprolol Study II
(CIBIS-II): A randomised trial. Lancet 353:9–13, 1999.
157.
Held P: Effects of beta blockers on ventricular
dysfunction after myocardial infarction: Tolerability and survival effects. Am
J Cardiol 71:39C–44C, 1993.
158.
Held PH, Yusuf S: Effects of beta-blockers and
calcium channel blockers in acute myocardial infarction. Eur Heart J 14(Suppl F):18–25,
1993.
159.
Raby KE, Brull SJ, Timimi F, et al: The effect
of heart rate control on myocardial ischemia among high-risk patients after vascular
surgery. Anesth Analg 88:477–482, 1999.
160.
Licker M, Khatchatourian G, Schweizer A, et al:
The impact of a cardioprotective protocol on the incidence of cardiac complications
after aortic abdominal surgery. Anesth Analg 95:1525–1533, 2002.
161.
Shojania KG, Duncan BW, McDonald KM, Wachter RM:
Safe but sound: Patient safety meets evidence-based medicine. JAMA 288:508–513,
2002.
162.
Auerbach AD, Goldman L: Beta-blockers and reduction
of cardiac events in noncardiac surgery: Scientific review. JAMA 287:1435–1444,
2002.
163.
London MJ, Zaugg M, Schaub MC, Spahn DR: Perioperative
beta-adrenergic receptor blockade: Physiologic foundations and clinical controversies.
Anesthesiology 100:170–175, 2004.
164.
Allen EV: Thromboangiitis obliterans: Methods
of diagnosis of chronic occlusive arterial lesions distal to the wrist with illustrative
cases. Am J Med Sci 178:237–244, 1929.
165.
Mangano DT, Hickey RF: Ischemic injury following
uncomplicated radial artery catheterization. Anesth Analg 58:55–57, 1979.
166.
Slogoff S, Keats AS, Arlund C: On the safety
of radial artery cannulation. Anesthesiology 59:42–47, 1983.
167.
Frank SM, Norris EJ, Christopherson R, Beattie
C: Right- and left-arm blood pressure discrepancies in vascular surgery patients.
Anesthesiology 75:457–463, 1991.
168.
Scott RA, Wilson NM, Ashton HA, Kay DN: Influence
of screening on the incidence of ruptured abdominal aortic aneurysm: 5-year results
of a randomized controlled study. Br J Surg 82:1066–1070, 1995.
169.
Scott RA, Vardulaki KA, Walker NM, et al: The
long-term benefits of a single scan for abdominal aortic aneurysm (AAA) at age 65.
Eur J Vasc Endovasc Surg 21:535–540, 2001.
170.
Lederle FA, Johnson GR, Wilson SE: Abdominal
aortic aneurysm in women. J Vasc Surg 34:122–126, 2001.
171.
Gillum RF: Epidemiology of aortic aneurysm in
the United States. J Clin Epidemiol 48:1289–1298, 1995.
172.
Lawrence PF, Gazak C, Bhirangi L, et al: The
epidemiology of surgically repaired aneurysms in the United States. J Vasc Surg
30:632–640.
173.
Melton LJ 3rd, Bickerstaff LK, Hollier LH, et
al: Changing incidence of abdominal aortic aneurysms: A population-based study.
Am J Epidemiol 120:379–386, 1984.
174.
Bengtsson H, Bergqvist D, Sternby NH: Increasing
prevalence of abdominal aortic aneurysms: A necropsy study. Eur J Surg 158:19–23,
1992.
175.
Anidjar S, Kieffer E: Pathogenesis of acquired
aneurysms of the abdominal aorta. Ann Vasc Surg 6:298–305, 1992.
176.
He CM, Roach MR: The composition and mechanical
properties of abdominal aortic aneurysms. J Vasc Surg 20:6–13, 1994.
177.
Sonesson B, Hansen F, Lanne T: Abdominal aortic
aneurysm: A general defect in the vasculature with focal manifestations in the abdominal
aorta? J Vasc Surg 26:247–254, 1997.
178.
White JV, Haas K, Phillips S, Comerota AJ: Adventitial
elastolysis is a primary event in aneurysm formation. J Vasc Surg 17:371–380,
discussion 380–381, 1993.
179.
Shah PK: Inflammation, metalloproteinases, and
increased proteolysis: An emerging pathophysiological paradigm in aortic aneurysm.
Circulation 96:2115–2117, 1997.
180.
Johnston KW, Scobie TK: Multicenter prospective
study of nonruptured abdominal aortic aneurysms: I. Population and operative management.
J Vasc Surg 7:69–81, 1988.
181.
Estes JEJ: Abdominal aortic aneurysm: A study
of one hundred and two cases. Circulation 2:258, 1950.
182.
Dubost C, Allary M, Oeconomos N: Resection of
an aneurysm of the abdominal aorta: Re-establishment of the continuity by a preserved
arterial graft, with result after five months. Arch Surg 64:405–408, 1952.
183.
Szilagyi DE, Smith RF, DeRusso FJ, et al: Contribution
of abdominal aortic aneurysmectomy to prolongation of life. Ann Surg 164:678–699,
1966.
184.
Crawford ES, Saleh SA, Babb JW 3rd, et al: Infrarenal
abdominal aortic aneurysm: Factors influencing survival after operation performed
over a 25-year period. Ann Surg 193:699–709, 1981.
185.
Lloyd WE, Paty PS, Darling RC 3rd, et al: Results
of 1000 consecutive elective abdominal aortic aneurysm repairs. Cardiovasc Surg
4:724–726, 1996.
186.
Hertzer NR, Mascha EJ, Karafa MT, et al: Open
infrarenal abdominal aortic aneurysm repair: The Cleveland Clinic experience from
1989 to 1998. J Vasc Surg 35:1145–1154, 2002.
187.
Heller JA, Weinberg A, Arons R, et al: Two decades
of abdominal aortic aneurysm repair: Have we made any progress? J Vasc Surg 32:1091–1100,
2000.
188.
Chen JC, Hildebrand HD, Salvian AJ, et al: Progress
in abdominal aortic aneurysm surgery: Four decades of experience at a teaching center.
Cardiovasc Surg 5:150–156, 1997.
189.
Katz DJ, Stanley JC, Zelenock GB: Gender differences
in abdominal aortic aneurysm prevalence, treatment, and outcome. J Vasc Surg 25:561–568,
1997.
190.
Ernst CB: Abdominal aortic aneurysm. N Engl
J Med 328:1167–1172, 1993.
191.
Heikkinen M, Salenius JP, Auvinen O: Ruptured
abdominal aortic aneurysm in a well-defined geographic area. J Vasc Surg 36:291–296,
2002.
192.
Wilmink TB, Quick CR, Hubbard CS, Day NE: The
influence of screening on the incidence of ruptured abdominal aortic aneurysms.
J Vasc Surg 30:203–208.
193.
Nevitt MP, Ballard DJ, Hallett JW Jr: Prognosis
of abdominal aortic aneurysms: A population-based study. N Engl J Med 321:1009–1014,
1989.
194.
Limet R, Sakalihassan N, Albert A: Determination
of the expansion rate and incidence of rupture of abdominal aortic aneurysms. J
Vasc Surg 14:540–548, 1991.
195.
Brewster DC, Cronenwett JL, Hallett JW Jr, et
al: Guidelines for the treatment of abdominal aortic aneurysms. Report of a subcommittee
of the Joint Council of the American Association for Vascular Surgery and Society
for Vascular Surgery. J Vasc Surg 37:1106–1117, 2003.
196.
Scott RA, Wilson NM, Ashton HA, Kay DN: Is surgery
necessary for abdominal aortic aneurysm less than 6 cm in diameter? Lancet 342:1395–1396,
1993.
197.
Lederle FA, Johnson GR, Wilson SE, et al: Rupture
rate of large abdominal aortic aneurysms in patients refusing or unfit for elective
repair. JAMA 287:2968–2972, 2002.
198.
Brown PM, Zelt DT, Sobolev B: The risk of rupture
in untreated aneurysms: The impact of size, gender, and expansion rate. J Vasc
Surg 37:280–284, 2003.
199.
Brown LC, Powell JT: Risk factors for aneurysm
rupture in patients kept under ultrasound surveillance. UK Small Aneurysm Trial
Participants. Ann Surg 230:289–296, discussion 296–297, 1999.
200.
Hollier LH, Taylor LM, Ochsner J: Recommended
indications for operative treatment of abdominal aortic aneurysms. Report of a subcommittee
of the Joint Council of the Society for Vascular Surgery and the North American Chapter
of the International Society for Cardiovascular Surgery. J Vasc Surg 15:1046–1056,
1992.
201.
Brown PM, Pattenden R, Vernooy C, et al: Selective
management of abdominal aortic aneurysms in a prospective measurement program. J
Vasc Surg 23:213–220, discussion 221–222, 1996.
202.
Katz DA, Littenberg B, Cronenwett JL: Management
of small abdominal aortic aneurysms: Early surgery vs watchful waiting. JAMA 268:2678–2686,
1992.
203.
Mortality results for randomised controlled trial
of early elective surgery or ultrasonographic surveillance for small abdominal aortic
aneurysms. The UK Small Aneurysm Trial Participants. Lancet 352:1649–1655,
1998.
204.
Lederle FA, Wilson SE, Johnson GR, et al: Immediate
repair compared with surveillance of small abdominal aortic aneurysms. N Engl J
Med 346:1437–1444, 2002.
205.
Watson CJ, Walton J, Shaw E, et al: What is the
long-term outcome for patients with very small abdominal aortic aneurysms? Eur J
Vasc Endovasc Surg 14:299–304, 1997.
206.
Santilli SM, Littooy FN, Cambria RA, et al: Expansion
rates and outcomes for the 3.0-cm to the 3.9-cm infrarenal abdominal aortic aneurysm.
J Vasc Surg 35:666–671.
207.
Plate G, Hollier LA, O'Brien P, et al: Recurrent
aneurysms and late vascular complications following repair of abdominal aortic aneurysms.
Arch Surg 120:590–594, 1985.
208.
Gordon T, Kannel WB: Predisposition to atherosclerosis
in the head, heart, and legs: The Framingham study. JAMA 221:661–666, 1972.
209.
Brewster DC, Perler BA, Robison JG, Darling RC:
Aortofemoral graft for multilevel occlusive disease: Predictors of success and
need for distal bypass. Arch Surg 117:1593–600, 1982.
210.
Brewster DC, Veith FJ: Combined aortoiliac and
femoropopliteal occlusive disease. In Veith FJ,
et al (eds): Vascular Surgery: Principles and Practice. New York, McGraw-Hill,
1994, pp 459–472.
211.
Szilagyi DE, Elliott JP Jr, Smith RF, et al:
A thirty-year survey of the reconstructive surgical treatment of aortoiliac occlusive
disease. J Vasc Surg 3:421–436, 1986.
212.
Brewster DC: Current controversies in the management
of aortoiliac occlusive disease. J Vasc Surg 25:365–379, 1997.
213.
Harrington ME, Harrington EB, Haimov M, et al:
Axillofemoral bypass: Compromised bypass for compromised patients. J Vasc Surg
20:195–201, 1994.
214.
Schneider JR, McDaniel MD, Walsh DB, et al: Axillofemoral
bypass: Outcome and hemodynamic results in high-risk patients. J Vasc Surg 15:952–962,
discussion 962–963, 1992.
215.
Kouchoukos NT, Lell WA, Karp RB, Samuelson PH:
Hemodynamic effects of aortic clamping and decompression with a temporary shunt
for resection of the descending thoracic aorta. Surgery 85:25–30, 1979.
216.
Roizen MF, Beaupre PN, Alpert RA, et al: Monitoring
with two-dimensional transesophageal echocardiography: Comparison of myocardial
function in patients undergoing supraceliac, suprarenal-infraceliac, or infrarenal
aortic occlusion. J Vasc Surg 1:300–305, 1984.
217.
Shenaq SA, Chelly JE, Karlberg H, et al: Use
of nitroprusside during surgery for thoracoabdominal aortic aneurysm. Circulation
70(Pt 2):I7–I10, 1984.
218.
Gelman S, Mushlin PS: Catecholamine-induced changes
in the splanchnic circulation affecting systemic hemodynamics. Anesthesiology 100:434–439,
2004.
219.
Normann NA, Taylor AA, Crawford ES, et al: Catecholamine
release during and after cross clamping of descending thoracic aorta. J Surg Res
34:97–103, 1983.
220.
Symbas PN, Pfaender LM, Drucker MH, et al: Cross-clamping
of the descending aorta: Hemodynamic and neurohumoral effects. J Thorac Cardiovasc
Surg 85:300–305, 1983.
221.
Stokland O, Miller MM, Ilebekk A, Kiil F: Mechanism
of hemodynamic responses to occlusion of the descending thoracic aorta. Am J Physiol
238:H423–H429, 1980.
222.
Mutch WA, Thomson IR, Teskey JM, et al: Phlebotomy
reverses the hemodynamic consequences of thoracic aortic cross-clamping: Relationships
between central venous pressure and cerebrospinal fluid pressure. Anesthesiology
74:320–324, 1991.
223.
Gelman S, Khazaeli MB, Orr R, Henderson T: Blood
volume redistribution during cross-clamping of the descending aorta. Anesth Analg
78:219–224, 1994.
224.
Gregoretti S, Gelman S, Henderson T, Bradley EL:
Hemodynamics and oxygen uptake below and above aortic occlusion during crossclamping
of the thoracic aorta and sodium nitroprusside infusion. J Thorac Cardiovasc Surg
100:830–836, 1990.
225.
Godet G, Bertrand M, Coriat P, et al: Comparison
of isoflurane with sodium nitroprusside for controlling hypertension during thoracic
aortic cross-clamping. J Cardiothorac Anesth 4:177–184, 1990.
226.
Shenaq SA, Casar G, Chelly JE, et al: Continuous
monitoring of mixed venous oxygen saturation during aortic surgery. Chest 92:796–799,
1987.
227.
Viale JP, Annat GJ, Ravat FM, et al: Oxygen uptake
and mixed venous oxygen saturation during aortic surgery and the first three postoperative
hours. Anesth Analg 73:530–535, 1991.
228.
Gelman S, Patel K, Bishop SP, et al: Renal and
splanchnic circulation during infrarenal aortic cross-clamping. Arch Surg 119:1394–1399,
1984.
229.
Gelman S, Reves JG, Fowler K, et al: Regional
blood flow during cross-clamping of the thoracic aorta and infusion of sodium nitroprusside.
J Thorac Cardiovasc Surg 85:287–291, 1983.
230.
Marini CP, Grubbs PE, Toporoff B, et al: Effect
of sodium nitroprusside on spinal cord perfusion and paraplegia during aortic cross-clamping.
Ann Thorac Surg 47:379–383, 1989.
231.
Lunn JK, Dannemiller FJ, Stanley TH: Cardiovascular
responses to clamping of the aorta during epidural and general anesthesia. Anesth
Analg 58:372–376, 1979.
232.
Gamulin Z, Forster A, Morel D, et al: Effects
of infrarenal aortic cross-clamping on renal hemodynamics in humans. Anesthesiology
61:394–399, 1984.
233.
Attia RR, Murphy JD, Snider M, et al: Myocardial
ischemia due to infrarenal aortic cross-clamping during aortic surgery in patients
with severe coronary artery disease. Circulation 53:961–965, 1976.
234.
Carroll RM, Laravuso RB, Schauble JF: Left ventricular
function during aortic surgery. Arch Surg 111:740–743, 1976.
235.
Meloche R, Pottecher T, Audet J, et al: Haemodynamic
changes due to clamping of the abdominal aorta. Can Anaesth Soc J 24:20–34,
1977.
236.
Colson P, Ribstein J, Seguin JR, et al: Mechanisms
of renal hemodynamic impairment during infrarenal aortic cross-clamping. Anesth
Analg 75:18–23, 1992.
237.
Gooding JM, Archie JP Jr, McDowell H: Hemodynamic
response to infrarenal aortic cross-clamping in patients with and without coronary
artery disease. Crit Care Med 8:382–385, 1980.
238.
Gewertz BL, Kremser PC, Zarins CK, et al: Transesophageal
echocardiographic monitoring of myocardial ischemia during vascular surgery. J Vasc
Surg 5:607–613, 1987.
239.
Dodds TM, Burns AK, DeRoo DB, et al: Effects
of anesthetic technique on myocardial wall motion abnormalities during abdominal
aortic surgery. J Cardiothorac Vasc Anesth 11:129–136, 1997.
240.
Damask MC, Weissman C, Rodriguez J, et al: Abdominal
aortic cross-clamping: Metabolic and hemodynamic consequences. Arch Surg 119:1332–1337,
1984.
241.
Johnston WE, Balstrieri FJ, Plonk G, et al: The
influence of periaortic collateral vessels on the intraoperative hemodynamic effects
of acute aortic occlusion in patients with aorto-occlusive disease or abdominal aortic
aneurysm. Anesthesiology 66:386–389, 1987.
242.
Gelman S: The pathophysiology of aortic cross-clamping
and unclamping. Anesthesiology 82:1026–1060, 1995.
243.
Alpert RA, Roizen MF, Hamilton WK, et al: Intraoperative
urinary output does not predict postoperative renal function in patients undergoing
abdominal aortic revascularization. Surgery 95:707–711, 1984.
244.
Knos GB, Berry AJ, Isaacson IJ, Weitz FI: Intraoperative
urinary output and postoperative blood urea nitrogen and creatinine levels in patients
undergoing aortic reconstructive surgery. J Clin Anesth 1:181–185, 1989.
245.
Roberts AJ, Nora JD, Hughes WA, et al: Cardiac
and renal responses to cross-clamping of the descending thoracic aorta. J Thorac
Cardiovasc Surg 86:732–741, 1983.
246.
Kataja JH, Kaukinen S, Viinamaki OV, et al: Hemodynamic
and hormonal changes in patients pretreated with captopril for surgery of the abdominal
aorta. J Cardiothorac Anesth 3:425–432, 1989.
247.
Paul MD, Mazer CD, Byrick RJ, et al: Influence
of mannitol and dopamine on renal function during elective infrarenal aortic clamping
in man. Am J Nephrol 6:427–434, 1986.
248.
Pass LJ, Eberhart RC, Brown JC, et al: The effect
of mannitol and dopamine on the renal response to thoracic aortic cross-clamping.
J Thorac Cardiovasc Surg 95:608–612, 1988.
249.
Baldwin L, Henderson A, Hickman P: Effect of
postoperative low-dose dopamine on renal function after elective major vascular surgery.
Ann Intern Med 120:744–747, 1994.
250.
Nicholson ML, Bakr DM, Hopkinson BR, Wenham PW:
Randomized controlled trial of the effect of mannitol on renal reperfusion injury
during aortic aneurysm surgery. Br J Surg 83:1230–1233, 1996.
251.
Abbott WM, Austen WG: The reversal of renal cortical
ischemia during aortic occlusion by mannitol. J Surg Res 16:482–489, 1974.
252.
Flores J, DiBona DR, Beck CH, Leaf A: The role
of cell swelling in ischemic renal damage and the protective effect of hypertonic
solute. J Clin Invest 51:118–126, 1972.
253.
Stewart JR, Blackwell WH, Crue SL, et al: Inhibition
of surgically induced ischemia/reperfusion injury by oxygen free radical scavengers.
J Thorac Cardiovasc Surg 86:262–272, 1983.
254.
Gilbert TB, Hasnain JU, Flin WR, et al: Fenoldopam
infusion associated with preserving renal function after aortic cross-clamping for
aneurysm repair. J Cardiovasc Pharmacol Ther 6:31–36, 2001.
255.
Halpenny M, Rushe C, Breen P, et al: The effects
of fenoldopam on renal function in patients undergoing elective aortic surgery.
Eur J Anaesthesiol 19:32–39, 2002.
256.
Thompson JE, Vollman RW, Austin DJ, Kartchner
MM: Prevention of hypotensive and renal complications of aortic surgery using balanced
salt solution: Thirteen-year experience with 670 cases. Ann Surg 167:767–778,
1968.
257.
Bush HL Jr, Huse JB, Johnson WC, et al: Prevention
of renal insufficiency after abdominal aortic aneurysm resection by optimal volume
loading. Arch Surg 116:1517–1524, 1981.
258.
Whittemore AD, Clowes AW, Hechtman HB, Mannick
JA: Aortic aneurysm repair: Reduced operative mortality associated with maintenance
of optimal cardiac performance. Ann Surg 192:414–421, 1980.
259.
Hesdorffer CS, Milne JF, Meyers AM, et al: The
value of Swan-Ganz catheterization and volume loading in preventing renal failure
in patients undergoing abdominal aneurysmectomy. Clin Nephrol 28:272–276,
1987.
260.
Zaidan JR, Guffin AV, Perdue G, et al: Hemodynamics
of intravenous nitroglycerin during aortic clamping. Arch Surg 117:1285–1288,
1982.
261.
Dentz ME, Lubarsky DA, Smith LR, et al: A comparison
of amrinone with sodium nitroprusside for control of hemodynamics during infrarenal
abdominal aortic surgery. J Cardiothorac Vasc Anesth 9:486–490, 1995.
262.
Reiz S, Peter T, Rais O: Hemodynamic and cardiometabolic
effects of infrarenal aortic and common iliac artery declamping in man: An approach
to optimal volume loading. Acta Anaesthesiol Scand 23:579–586, 1979.
263.
Isaacson IJ, Lowdon JD, Berry AJ, et al: The
value of pulmonary artery and central venous monitoring in patients undergoing abdominal
aortic reconstructive surgery: A comparative study of two selected, randomized groups.
J Vasc Surg 12:754–760, 1990.
264.
Valentine RJ, Duke ML, Inman MH, et al: Effectiveness
of pulmonary artery catheters in aortic surgery: A randomized trial. J Vasc Surg
27:203–211, discussion 211–212, 1998.
265.
Mangano DT: Monitoring pulmonary arterial pressure
in coronary-artery disease. Anesthesiology 53:364–370, 1980.
266.
Cooper AB, Doig GS, Sibbald WJ: Pulmonary artery
catheters in the critically ill: An overview using the methodology of evidence-based
medicine. Crit Care Clin 12:777–794, 1996.
267.
Tuman KJ, McCarthy RJ, Spiess BD, et al: Effect
of pulmonary artery catheterization on outcome in patients undergoing coronary artery
surgery. Anesthesiology 70:199–206, 1989.
268.
Connors AF Jr, Speroff T, Dawson NV, et al: The
effectiveness of right heart catheterization in the initial care of critically ill
patients. SUPPORT Investigators. JAMA 276:889–897, 1996.
269.
Pulmonary Artery Catheter Consensus Conference:
Consensus statement. Crit Care Med 25:910–925, 1997.
270.
Bernard GR, Sopko G, Cerra F, et al: Pulmonary
artery catheterization and clinical outcomes: National Heart, Lung, and Blood Institute
and Food and Drug Administration Workshop Report. Consensus Statement. JAMA 283:2568–2572,
2000.
271.
Sandham JD, Hull RD, Brant RF, et al: A randomized,
controlled trial of the use of pulmonary-artery catheters in high-risk surgical patients.
N Engl J Med 348:5–14, 2003.
272.
Harpole DH, Clements FM, Quill T, et al: Right
and left ventricular performance during and after abdominal aortic aneurysm repair.
Ann Surg 209:356–362, 1989.
273.
Clements FM, Harpole DH, Quill T, et al: Estimation
of left ventricular volume and ejection fraction by two-dimensional transoesophageal
echocardiography: Comparison of short axis imaging and simultaneous radionuclide
angiography. Br J Anaesth 64:331–336, 1990.
274.
Gallagher KP, Kumada T, Koziol JA, et al: Significance
of regional wall thickening abnormalities relative to transmural myocardial perfusion
in anesthetized dogs. Circulation 62:1266–1274, 1980.
275.
Kerber RE, Marcus ML, Ehrhardt J, et al: Correlation
between echocardiographically demonstrated segmental dyskinesis and regional myocardial
perfusion. Circulation 52:1097–1104, 1975.
276.
Massie BM, Botvinick EH, Brundage BH, et al:
Relationship of regional myocardial perfusion to segmental wall motion: A physiologic
basis for understanding the presence and reversibility of asynergy. Circulation
58:1154–1163, 1978.
277.
Hauser AM, Gangadharan V, Ramos RG, et al: Sequence
of mechanical, electrocardiographic and clinical effects of repeated coronary artery
occlusion in human beings: Echocardiographic observations during coronary angioplasty.
J Am Coll Cardiol 5(Pt 1):193–197, 1985.
278.
London MJ, Tubau JF, Wong MG, et al: The "natural
history" of segmental wall motion abnormalities in patients undergoing noncardiac
surgery. SPI Research Group. Anesthesiology 73:644–655, 1990.
279.
Eisenberg MJ, London MJ, Leung JM, et al: Monitoring
for myocardial ischemia during noncardiac surgery: A technology assessment of transesophageal
echocardiography and 12-lead electrocardiography. The Study of Perioperative Ischemia
Research Group. JAMA 268:210–216, 1992.
280.
Paty PS, Shah DM, Chang BB, et al: Immediate
preoperative phlebotomy with autologous blood donation for aortic replacement. Surg
Gynecol Obstet 171:326–330, 1990.
281.
Tulloh BR, Brakespear CP, Bates SC, et al: Autologous
predonation, haemodilution and intraoperative blood salvage in elective abdominal
aortic aneurysm repair. Br J Surg 80:313–315, 1993.
282.
Glazier DB, Ciocca RG, Gosin JS, et al: Elective
aortic surgery with minimal banked blood. Am Surg 64:171–174, 1998.
283.
Hallett JW Jr, Popovsky M, Ilstrup D: Minimizing
blood transfusions during abdominal aortic surgery: Recent advances in rapid autotransfusion.
J Vasc Surg 5:601–606, 1987.
284.
Clagett GP, Valentine RJ, Jackson MR, et al:
A randomized trial of intraoperative autotransfusion during aortic surgery. J Vasc
Surg 29:22–30, discussion 30–31, 1999.
285.
Spark JI, Chetter IC, Kester RC, Scott DJ: Allogeneic
versus autologous blood during abdominal aortic aneurysm surgery. Eur J Vasc Endovasc
Surg 14:482–486, 1997.
286.
Wong J, Haynes S, Dalrymple K, McCollum CN: Vascular
Surgical Society of Great Britain and Ireland: Autologous transfusion reduces blood
transfusion requirements in aortic surgery. Br J Surg 86:698, 1999.
287.
Wolowczyk L, Lewis DR, Nevin M, et al: The effect
of acute normovolemic haemodilution on blood transfusion requirements in abdominal
aortic aneurysm repair. Eur J Vasc Endovasc Surg 22:361–364, 2001.
288.
Wong JC, Torella F, Haynes SL, et al: Autologous
versus allogeneic transfusion in aortic surgery: A multicenter randomized clinical
trial. Ann Surg 235:145–151, 2002.
289.
Huber TS, McGorray SP, Carlton LC, et al: Intraoperative
autologous transfusion during elective infrarenal aortic reconstruction: A decision
analysis model. J Vasc Surg 25:984–993, discussion 993–994, 1997.
290.
Goodnough LT, Monk TG, Sicard G, et al: Intraoperative
salvage in patients undergoing elective abdominal aortic aneurysm repair: An analysis
of cost and benefit. J Vasc Surg 24:213–218, 1996.
291.
Haynes SL, Torella F, Wong JC, et al: Economic
evaluation of a randomized clinical trial of haemodilution with cell salvage in aortic
surgery. Br J Surg 89:731–736, 2002.
292.
Catoire P, Saada M, Liu N, et al: Effect of preoperative
normovolemic hemodilution on left ventricular segmental wall motion during abdominal
aortic surgery. Anesth Analg 75:654–659, 1992.
293.
Hohner P, Backman C, Diamond G, et al: Anaesthesia
for abdominal aortic surgery in patients with coronary artery disease, Part II:
Effects of nitrous oxide on systemic and coronary haemodynamics, regional ventricular
function and incidence of myocardial ischaemia. Acta Anaesthesiol Scand 38:793–804,
1994.
294.
Her C, Kizelshteyn G, Walker V, et al: Combined
epidural and general anesthesia for abdominal aortic surgery. J Cardiothorac Anesth
4:552–557, 1990.
295.
Baron JF, Bertrand M, Barre E, et al: Combined
epidural and general anesthesia versus general anesthesia for abdominal aortic surgery.
Anesthesiology 75:611–618, 1991.
296.
Davies MJ, Silbert BS, Mooney PJ, et al: Combined
epidural and general anaesthesia versus general anaesthesia for abdominal aortic
surgery: A prospective randomised trial. Anaesth Intensive Care 21:790–794,
1993.
297.
Bois S, Couture P, Boudreault D, et al: Epidural
analgesia and intravenous patient-controlled analgesia result in similar rates of
postoperative myocardial ischemia after aortic surgery. Anesth Analg 85:1233–1239,
1997.
298.
Park WY, Thompson JS, Lee KK: Effect of epidural
anesthesia and analgesia on perioperative outcome: A randomized, controlled Veterans
Affairs cooperative study. Ann Surg 234:560–569, discussion 569–571,
2001.
299.
Breslow MJ, Jordan DA, Christopherson R, et al:
Epidural morphine decreases postoperative hypertension by attenuating sympathetic
nervous system hyperactivity. JAMA 261:3577–3581, 1989.
300.
Fleron MH, Weiskopf RB, Bertrand M, et al: A
comparison of intrathecal opioid and intravenous analgesia for the incidence of cardiovascular,
respiratory, and renal complications after abdominal aortic surgery. Anesth Analg
97:2–12, 2003.