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The recommendations in this guideline concentrate on summarizing the evidence supporting the clinical evaluation (history, physical examination, and electrocardiography) and noninvasive evaluation of the patient [1.1, 1.2]. Studies on clinical and noninvasive testing were considered to be of "strong," "fair," or "weak" evidence [2.6]. If a recommendation has no weighting for strength of evidence, no studies were found that related to that clinical decision point. Perioperative risk estimates refer to the reported incidence of perioperative myocardial infarction and cardiac death [2.4]. The literature on noninvasive risk stratification has focused on patients undergoing vascular surgery. These patients have a higher risk for perioperative cardiac events and may not be representative of most patients (>90%) undergoing major noncardiac surgery [1.3]. We make separate recommendations for patients having vascular and nonvascular surgery, according to the quality of evidence available for each. For management issues, evidence is still lacking. In these situations, the clinician must use available evidence from the nonoperative setting combined with clinical judgment and patient preferences [5].
In patients who have previously had angiography results indicating mild coronary artery disease or successful coronary revascularization and have no new clinical symptoms of concern, the risk for perioperative cardiac events is probably similar to that in patients without coronary artery disease (weak evidence) [3.1]. If new or worrisome coronary symptoms develop, the patient's risk status needs to be reevaluated.
Although many risk indices exist, clinical data collection should concentrate on variables that enable the clinician to classify the patient as low-risk, intermediate-risk, or high-risk. The modified Cardiac Risk Index (outlined in Appendix Figure 1) should be performed in all patients (strong evidence) [3.3-3.6]. Class II or III on the modified Cardiac Risk Index predicts a high risk for perioperative cardiac events (10% to 15%; strong evidence for patients having vascular surgery and those having nonvascular surgery) (Appendix Figure 2). Low Cardiac Risk Index scores (class I) still do not reliably identify patients who have low risk for perioperative cardiac events [3.7]. Information on "low-risk" variables should be collected for these patients. POSITION PAPER
Guidelines for Assessing and Managing the Perioperative Risk from Coronary Artery Disease Associated with Major Noncardiac Surgery
15 August 1997 | Volume 127 Issue 4 | Pages 309-312
The numbers in square brackets are cross-references to the numbered sections in the accompanying background paper, "Perioperative Assessment and Management of Risk from Coronary Artery Disease," which is part II of this guideline (see pages 313-328).
Clinical Assessment
When assessing a patient's risk for major cardiac events during or after a noncardiac operation, the clinician uses clinical evaluation to determine the risk for fatal and nonfatal cardiac events and may refine the risk assessment for intermediate-risk patients through noninvasive testing.
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Low risk [<3%] is predicted by the presence of 0 or 1 cardiac risk factors, as defined by the "low-risk" variables in Appendix Figure 1) (strong evidence for patients having vascular surgery) [3.8]. Low-risk patients may proceed directly to surgery without further noninvasive testing because no testing method has been shown to refine risk assessment in this group.
Between patients at very high risk and those at very low risk, a substantial proportion of patients (30% to 60% of patients having vascular surgery) are at intermediate risk for perioperative cardiac events (3% to 10%) (strong evidence) [3.4-3.8].
We make no recommendations for or against the clinical assessment of functional status; this assessment has not been shown to add to clinical risk index evaluation in the operative setting [3.9].
Noninvasive Testing
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Noninvasive assessment of resting left ventricular ejection fraction is unlikely to add risk discrimination to the clinical examination. We recommend against the use of either radionuclide angiography (fair evidence) or transthoracic echocardiography (strong evidence) to predict perioperative risk [4.2].
Exercise stress testing cannot be done in a significant proportion of patients who are undergoing vascular surgery (30% to 70%) or in patients with diseases that impair walking ability (such as stroke and hip and knee disease). Among patients who can adequately complete the testing, studies have, in general, shown a poor predictive value for patients having vascular surgery and patients having nonvascular surgery. We recommend against using this testing to predict perioperative risk (fair evidence) [4.3].
Dipyridamole thallium imaging and dobutamine stress echocardiography, especially if the results are negative, provide useful information on stratification for patients having vascular surgery who are determined to be at intermediate risk according to clinical evaluation (Appendix Figure 1) [4.4.1, 4.4.2]. We therefore recommend using either dipyridamole thallium imaging or dobutamine stress echocardiography for further risk stratification in intermediate-risk patients having vascular surgery (strong evidence). In patients having nonvascular surgery, most studies have shown that neither dipyridamole thallium imaging nor dobutamine stress echocardiography reliably predict the occurrence of adverse perioperative cardiac events [4.4.3]. Both dipyridamole thallium imaging and dobutamine stress echocardiography carry the risk for minor morbidity, incur the cost of testing, and may result in potentially harmful downstream interventions. Given the lack of demonstrated benefit and the potential harm, we recommend against the use of dipyridamole thallium imaging and dobutamine stress echocardiography for risk stratification in low-risk patients who are undergoing vascular surgery (fair evidence for dipyridamole thallium imaging, strong evidence for dobutamine stress echocardiography) and low- and intermediate-risk patients who are undergoing nonvascular surgery (weak evidence for both tests).
Ambulatory electrocardiographic monitoring does not have good predictive ability among patients undergoing nonvascular surgery and is not recommended for this group (strong evidence) [4.5]. Because ambulatory electrocardiographic monitoring showed good risk discrimination among patients undergoing vascular surgery in one study of strong quality but not in a second, equally strong study, further research is needed before ambulatory electrocardiographic monitoring can be recommended for patients undergoing vascular surgery [4.5].
No studies of coronary angiography findings as predictors of perioperative risk have been reported. Because angiography carries procedural risks for stroke and death, we recommend that it be reserved for patients who are being independently considered for revascularization and that it not be used separately as a test for risk stratification [4.6].
Management Strategies
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Patients with unstable coronary syndromes should, if the urgency and gravity of their surgical condition permit, proceed directly to cardiac catheterization to determine whether clinically important coronary artery disease is present and operable [5.2]. For high-risk patients who are not candidates for coronary revascularization, the consultant may wish to 1) delay the upcoming operation, if the patient's over-all status can be improved, or 2) cancel the operation altogether, if the risk posed by the patient's surgical condition is lower than the patient's cardiac risk [5.2].
The use of coronary revascularization as a preventive step to reduce cardiac risk before noncardiac surgery has not been studied prospectively [5.3.1]. A large retrospective analysis suggests that any decrease in risk produced by having coronary artery bypass graft surgery before having noncardiac surgery was offset by the risk posed by the angiography and coronary artery bypass grafting [5.3]. Analyses from two formal decision models also suggest that no net risk reduction occurs with coronary artery bypass graft surgery done before noncardiac surgery [5.3.1]. No prospective evaluations of prophylactic preoperative angioplasty and coronary stent placement are not available [5.3.3]. The clinician deciding whether to refer the intermediate- or high-risk patient for revascularization must weigh the added risks posed by angiography and coronary artery bypass grafting (or percutaneous transluminal coronary angioplasty or stent procedure) against the potential reduction in short-term (perioperative) and long-term risk [5.3]. The lack of demonstrable benefit and the potential increase in risk lead us to recommend that if the goal is to optimize short-term prognosis, the patient should proceed directly to surgery without further cardiac investigation. (Table 1) (Table 2)
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Some patients have an independent need for coronary bypass. In these patients, the planned noncardiac surgery may trigger investigation of the possibility of coronary revascularization with a view to reducing long-term morbidity and mortality [5.3.2]. Determining whether the patient is a candidate for coronary revascularization should therefore be done on the same clinical grounds that govern the need for coronary revascularization in the nonoperative setting. The optimal timing (preoperative, intraoperative, or postoperative) of coronary revascularization to improve long-term outcomes is unknown. In these circumstances, we recommend an individualized approach that weighs patient preferences, the urgency of the upcoming operation, and the urgency of the patient's coronary status.
Authors' addendum: In a randomized trial (strong evidence) published after the American College of Physicians reviewed and approved these guidelines, perioperative ß-blocker therapy was shown to reduce long-term (6-month) mortality with few side effects. Thus, we recommend the perioperative use of atenolol in patients with coronary artery disease or risk factors for coronary artery disease (as per the criteria of Mangano and colleagues, described in Appendix Figure 1), unless the patient has significant contraindications, such as asthma [5.4].
Because of the lack of controlled evidence, no recommendations can be made either for or against the use of other medical therapies, such as digitalis, nitrates. or calcium-channel antagonists [5.4]. Therapy with these drugs should be continued or started on the basis of the same criteria that would apply in the nonoperative setting. Controlled trials suggest that pulmonary artery catheter use may be beneficial in selected patients (fair evidence) [5.3].
Comparison with Guidelines from Other Medical Societies
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Unlike other reviews, we recommend against further noninvasive testing for nonvascular patients who are deemed to be at intermediate risk by clinical evaluation [5]. The differences in recommendations developed by different medical societies in this clinical situation (perioperative assessment) stem largely from differences in the values used to extrapolate evidence from one population to another [2.1]. The American College of Physicians clinical efficacy assessment process considers blinding (independent interpretation of the test results and the outcome) and method of patient selection to greatly influence the quality and generalizability of study results. Further well-designed studies could clarify these areas and alter recommendations [7]. The most pressing areas of research include the determination of which noninvasive tests can improve risk stratification among intermediate-risk patients undergoing nonvascular surgery and the study of the circumstances in which coronary revascularization before noncardiac surgery is warranted.
Dr. Detsky: Suite 427, Mount Sinai Hospital, 600 University Avenue, Toronto, Ontario M56 1X5, Canada.
Author and Article Information
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 Top Author & Article Info References |
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*This paper, written by Valerie A. Palda, MD, MSc, and Allan S. Detsky, MD, PhD, was developed for the Health and Public Policy Committee by the Clinical Efficacy Assessment Subcommittee: George E. Thibault, MD, Chair; John R. Feussner, MD, Co-Chair; Anne-Marie J. Audet, MD; Gottlieb C. Freisinger Jr., MD; Daniel L. Kent, MD; Keith I. Marton, MD; Valerie Anne Palda, MD; John J. Whyte, MD: and Preston L. Winters, MD. This paper was approved by the Board of Regents on 25 October 1996.
Requests for Reprints: Valerie A. Palda, MD. 4-151, St. Michael's Hospital, 30 Bond Street, Toronto. Ontario M5B 1W8. Canada.
Current Author Addresses: Dr. Palda: 4-151, St. Michael's Hospital, 30 Bond Street, Toronto, Ontario M5B 1W8, Canada.
References
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TopAuthor & Article InfoReferences |
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1. Detsky AS, Abrams HB, McLaughlin JR, Drucker DJ, Sasson Z, Johnston N, et al. Predicting cardiac complications in oatients undergoing non-cardiac surgery J Gen Intern Med. 1986; 1; 211-9.
2. Campeau L. Graoing of angina pectoris [Letter] Circulation. 1976; 54:522-3.
3. Eagle KA, Coley CM, Newell JB, Brewster DC, Darling RC, Strauss HW, et al. Combining clin-cal and thallium data optimizes preoperative assessment of cardiac ask before major vascular surgery. Ann Intern Med. 1989; 110:859-66.
4. Vanzetto G, Machecourt J, Blendea D, Fagret D, Borrel E, Magne JL, et al. Additive value of thallium single-photon emission computed tomography myocardial imaging for prediction of perioperative events in clinically selected high cardiac risk patients having abdominal aortic surgery. Am J Cardiol. 1996; 77:143-8.
5. Mangano DT, Layug EL, Wallace A, Tateo I. Effect of atenolol on mortality and cardiovascular morbidity after noncardiac surgery Multicenter Study of Penoperative Ischemia Research Group N Engl J Med. 1996; 335:1713-20.
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Article
Low-Risk Variables