American College of Cardiology

EAGLE ET AL., PERIOPERATIVE CARDIOVASCULAR EVALUATION FOR NONCARDIAC SURGERY UPDATE
http://www.acc.org/clinical/guidelines/perio/update/periupdate_index.htm

ACC/AHA Guideline Update for Perioperative Cardiovascular Evaluation for Noncardiac Surgery

A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Committee to Update the 1996 Guidelines on Perioperative Cardiovascular Evaluation for Noncardiac Surgery)

This is a Guideline Update of the 1996 Perioperative Guidelines. To highlight the changes, deleted text is indicated by strikeout, and revised text is presented in red. A clean version of the document, with changes fully incorporated, is available for download and print.

VIII. Anesthetic Considerations and Intraoperative Management

The pathophysiological events that occur with the trauma of surgery and the perioperative administration of anesthetic and pain-relieving drugs often affect the physiology of cardiac function and dysfunction to great degrees. Specific integration of these changes with the consultative evaluation is a field unto itself and beyond the scope of these guidelines. The information provided by the cardiovascular consultant needs to be integrated by the anesthesiologist, surgeon, and postoperative caregivers in preparing an individualized perioperative management plan.

There are many different approaches to the details of the anesthetic care of the cardiac patient. Each has implications regarding anesthetic and intraoperative monitoring. In addition, no study has clearly demonstrated a change in outcome from the use of the following techniques: a pulmonary artery catheter, ST-segment monitor, transesophageal echocardiography (TEE), or intravenous nitroglycerin. Therefore, the choice of anesthetic and intraoperative monitors is best left to the discretion of the anesthesia care team. Intraoperative management may be influenced by the perioperative plan, including need for postoperative monitoring, ventilation, and analgesia. Therefore, a discussion of these issues before the planned surgery will allow for a smooth transition through the perioperative period.

A. Choice of Anesthetic Technique and Agent

Multiple studies have examined the influence of anesthetic drugs and techniques on cardiac morbidity. In a large-scale study of unselected patients, coexisting disease and surgical procedure were the most important determinants of outcome ⁽²⁰²⁾. It appears there is no one best myocardium-protective anesthetic technique ^(203-207). All anesthetic techniques and drugs are associated with known effects that should be considered in the perioperative plan. Opioid-based anesthetics have become popular because of the cardiovascular stability associated with their use. The use of high doses, however, is associated with the need for postoperative ventilation. Because weaning from the ventilator in an intensive care setting has been associated with myocardial ischemia, this feature is important in the overall risk-benefit equation.

All inhalational agents have cardiovascular effects, including depression of myocardial contractility and afterload reduction, their similarities being greater than their differences. The choice of agent among the three most common agents—halothane, enflurane, and isoflurane, and sevoflurane—did not influence outcome in randomized trials ⁽²⁰⁶⁾. The cardiovascular safety of the newer agents, desflurane and sevoflurane, is not as well established. Desflurane, one of the newer inhalational agents, has been associated with an increased incidence of myocardial ischemia compared with a narcotic-based anesthetic in patients undergoing CABG, although the incidence of MI was not different ⁽³²²⁾.

Neuraxial anesthetic techniques include spinal and epidural approaches. Both techniques can result in sympathetic blockade, resulting in decreases in both preload and afterload. The decision to use neuraxial anesthesia for the high-risk cardiac patient may be influenced by the dermatomal level of the surgical procedure. Infrainguinal procedures can be performed under spinal or epidural anesthesia with minimal hemodynamic changes if neuraxial blockade is limited to those dermatomes. Abdominal procedures can also be performed using neuraxial techniques; however, high dermatomal levels of anesthesia may be required and may be associated with significant hemodynamic effects. High dermatomal levels can potentially result in hypotension and reflex tachycardia if preload becomes compromised or blockade of the cardioaccelerators occurs. A total of 5 studies have been published ^(203-207) that evaluate regional vs. general anesthesia for high-risk patients undergoing noncardiac surgery. No difference in outcome was detected in any of these studies.

Monitored anesthesia care by an anesthesia caregiver includes the use of local anesthesia supplemented with intravenous sedation/analgesia and is believed by some to be associated with the greatest safety margin. In a large-scale study, however, monitored anesthesia care was associated with the highest incidence of 30-day mortality ⁽²⁰²⁾. This finding may reflect a strong selection bias in which the patients with significant coexisting disease were selected for surgery with monitored anesthesia care rather than other anesthetic techniques. Although this technique can eliminate some of the undesirable effects of general or neuraxial anesthesia, it provides poor blockade of the stress response unless the local anesthetic provides profound anesthesia of the affected area. If the local anesthetic block is less than satisfactory or cannot be used at all, monitored anesthesia care could result in an increased incidence of myocardial ischemia and cardiac dysfunction compared with general or regional anesthesia. To achieve the desired effect, excess sedation can occur. Therefore, there may be no significant difference in overall safety with monitored anesthesia care, and general or regional anesthesia may be preferable.

B. Perioperative Pain Management

From the cardiac perspective, pain management may be a crucial aspect of perioperative care. Because the majority of cardiac events in noncardiac surgical patients occur postoperatively, the postoperative period may be the time during which ablation of stress, adverse hemodynamics, and hypercoagulable responses is most critical. Although no randomized, controlled study specifically addressing analgesic regimens has demonstrated improvement in outcome, patient-controlled analgesia techniques are associated with greater patient satisfaction and lower pain scores. Epidural or spinal opiates are becoming more popular and have several theoretic advantages. Several studies have evaluated differing general combinations of general and epidural anesthesia and /intravenous and analgesia compared with epidural or epidural combined with general anesthesia/epidural analgesia ^(323-327). The patients having epidural anesthesia/analgesia have demonstrated lower opiate dosages, better ablation of the catecholamine response, and a less hypercoagulable state ^(328,329). In one study of patients undergoing lower extremity vascular bypass procedures, the use of epidural anesthesia/analgesia was associated with a lower incidence of cardiac morbidity; however, this finding was not confirmed in two other studies another study ^{(205,207,327)}. In a study of 124 patients undergoing aortic surgery, there was no difference in the incidence of myocardial ischemia in patients randomized to postoperative intravenous analgesia vs. epidural analgesia ⁽³²⁶⁾. Most important, an effective analgesic (i.e., one that blunts the stress response) regimen must be included in the perioperative plan.

C. Intraoperative Nitroglycerin
1. General Considerations
Nitroglycerin has been shown to reverse myocardial ischemia intraoperatively. Intraoperative prophylactic use of nitroglycerin in patients at high risk may have no effects, however, or may actually lead to cardiovascular decompensation through decreases in preload. Additionally, nitroglycerin paste or patch may have uneven absorption intraoperatively. Accordingly, nitroglycerin should usually be administered in the intravenous formulation, if required.

The venodilating and arterial dilating effects of nitroglycerin are mimicked by some anesthetic agents, so that the combination of agents may lead to significant hypotension and myocardial ischemia. Therefore, nitroglycerin should be used only when the hemodynamic effects of other agents being used are considered.

2. Summary of Evidence
Four controlled studies have evaluated the value of prophylactic nitroglycerin infusions for high-risk patients, including two studies in noncardiac surgery patients (Table 11) ^{(183,184,208,209)}. Only one study, performed in patients with stable angina undergoing carotid endarterectomy, demonstrated a reduced incidence of intraoperative myocardial ischemia in the group receiving 1 mcg per kg per minute of nitroglycerin. Neither of the two small studies demonstrated any reduction in the incidence of MI or cardiac death.

Recommendations for Intraoperative Nitroglycerin
Class I
High-risk patients previously taking nitroglycerin who have active signs of myocardial ischemia without hypotension.

Class IIb
As a prophylactic agent for high-risk patients to prevent myocardial ischemia and cardiac morbidity, particularly in those who have required nitrate therapy to control angina. The recommendation for prophylactic use of nitroglycerin must take into account the anesthetic plan and patient hemodynamics and must recognize that vasodilation and hypovolemia can readily occur during anesthesia and surgery.

Class III
Patients with signs of hypovolemia or hypotension.

D. Use of TEE
1. General Considerations
The use of TEE has become increasingly common in the operating room for cardiac surgery but is less frequently used in noncardiac surgery. Multiple investigations have documented the improved sensitivity of TEE for detection of myocardial ischemia compared with electrocardiography or pulmonary capillary wedge pressure measurements. Most studies have used off-line analysis of the TEE images, however, and automated, on-line detection may increase its value.

2. Summary of Evidence
There are few data regarding the value of TEE-detected wall-motion abnormalities to predict cardiac morbidity in noncardiac surgical patients. In two recent studies from the same group, intraoperative wall-motion abnormalities were poor predictors of cardiac morbidity ^(210,211). In one study involving 322 men undergoing noncardiac surgeries, TEE demonstrated an odds ratio of 2.6 (95% CI, 1.2 to 5.7) for predicting perioperative cardiac events ⁽²¹⁰⁾.

3. Analysis and Interpretation
Interpretation of TEE requires additional training. At present there are no commercially available real-time monitors of quantitative wall motion. Although regional wall-motion abnormalities in a high-risk patient suggest myocardial ischemia, resolution of myocardial ischemia may not result in improvement of wall motion.

4. Recommendations
Currently there is insufficient evidence to determine cost-effectiveness of TEE for its use as a diagnostic monitor or to guide therapy during noncardiac surgery; however, the routine use of TEE in noncardiac surgery does not appear warranted. Guidelines for the appropriate use of TEE are being have been developed by the American Society of Anesthesiologists and the Society of Cardiovascular Anesthesiologists ⁽³³⁰⁾.

E. Maintenance of Body Temperature

Hypothermia is common during the perioperative period in the absence of active warming of patients. In a retrospective analysis of a prospective randomized trial comparing two different anesthetic techniques for infrainguinal revascularization surgery, hypothermia was associated with an increased risk of myocardial ischemia compared with patients who had a core temperature greater than 35.5 degrees C in the postanesthesia care unit ⁽³³¹⁾. Several methods of maintaining normothermia are available in clinical practice, the most widely studied being forced-air warming.

1. Summary of Evidence
One randomized clinical trial has been performed in 300 high-risk patients undergoing noncardiac surgery in which patients were randomized to active warming via forced air (normothermic group) vs. routine care ⁽³³²⁾. Perioperative morbid cardiac events occurred less frequently in the normothermic group than in the hypothermic group (1.4% vs. 6.3%; p=0.02). Hypothermia was an independent predictor of morbid cardiac events by multivariate analysis (relative risk, 2.2; 95% CI, 1.1 to 4.7; p=0.04), indicating a 55% reduction in risk when normothermia was maintained.

F. Intra-Aortic Balloon Counterpulsation Device

Placement of an intra-aortic balloon counterpulsation device has been suggested as a means of reducing perioperative cardiac risk in noncardiac surgery. Several case reports, comprising a total of 21 patients, have documented its use in patients with unstable coronary syndromes or severe CAD undergoing urgent noncardiac surgery ^{(212,213,333,334)}. Although the rate of cardiac complications is low compared with other series of patients at similarly high risk, there are no randomized trials to assess its true effectiveness. Additionally, the use of intra-aortic balloon counterpulsation is associated with complications, particularly in patients with peripheral vascular disease.did not occur while the device was in place, they did occur during the perioperative period after its removal. Its use is also limited for technical reasons in the group at highest risk, ie, vascular surgery.

1. Recommendations
There is currently insufficient evidence to determine the benefits vs. risks of value of prophylactic placement of an intra-aortic balloon counterpulsation device for high-risk noncardiac surgery.