Fig. 12.1 Waiting for pre-operative evaluation
Patient Assessment
The American Society of Anesthesiologists Task Force on Preanesthesia Evaluation defines preanesthesia as the process of clinical assessment that precedes the delivery of anesthesia care for surgery and for nonsurgical procedures [6].
Preanesthesia evaluation includes the review of medical records (laboratory and imaging) as well as a compressive history and physical examination (Table 12.1).
Table 12.1
Basic standards for preanesthesia care
Committee of origin: standards and practice parameters (approved by the ASA house of delegates on October 14, 1987, and last affirmed on October 20, 2010) |
---|
These standards apply to all patients who receive anesthesia care. Under exceptional circumstances, these standards may be modified. When this is the case, the circumstances shall be documented in the patient’s record |
An anesthesiologist shall be responsible for determining the medical status of the patient and developing a plan of anesthesia care |
The anesthesiologist, before the delivery of anesthesia care, is responsible for: |
1. Reviewing the available medical record |
2. Interviewing and performing a focused examination of the patient to: |
2.1 Discuss the medical history, including previous anesthetic experiences and medical therapy |
2.2 Assess those aspects of the patient’s physical condition that might affect decisions regarding perioperative risk and management |
3. Ordering and reviewing pertinent available tests and consultations as necessary for the delivery of anesthesia care |
4. Ordering appropriate preoperative medications |
5. Ensuring that consent has been obtained for the anesthesia care |
6. Documenting in the chart that the above has been performed |
Most patients should be assessed prior to the day of surgery, to allow adequate time for interventions such as preoperative testing or changes in medical regimen. For patients with low severity of disease or medium- or low-risk surgical procedures, the preanesthesia assessment may be performed on the day of surgery. But in some cases, especially in regions where access to a medical facility is limited, it can be difficult to arrange a pertinent assessment prior to the day of surgery.
While the preoperative assessment should ideally be completed by an anesthesiologist, in many cases a non-physician provider (e.g., trained nurse or anesthesia trainee) may be the most qualified individual to provide anesthesia care.
Preoperative Testing
Preoperative testing, as a component of the preanesthesia evaluation, may be indicated for various purposes, including but not limited to: discovery or identification of a disease or disorder that may affect the perioperative course, verification or assessment of an already known disease, disorder, medical or alternative therapy that may affect perioperative anesthetic care, and formulation of specific plans and alternatives for perioperative anesthetic care.
After obtaining the patient history, performing the physical examination and reviewing preoperative testing, the patient’s ASA status should be noted (Table 12.2). The ASA classification identifies patients according to the level of systemic illness.
ASA physical status classification system |
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ASA Physical Status 1—a normal healthy patient |
ASA Physical Status 2—a patient with mild systemic disease |
ASA Physical Status 3—a patient with severe systemic disease |
ASA Physical Status 4—a patient with severe systemic disease that is a constant threat to life |
ASA Physical Status 5—a moribund patient who is not expected to survive without the operation |
ASA Physical Status 6—a declared brain-dead patient whose organs are being removed for donor purposes |
Specific Clinical Considerations
Cardiac Risk
In general, cardiac risk factors are determined by the patient’s condition prior to surgery, the prevalence of co-morbidities (as it relates to functional capacity), and the magnitude and duration of the planned surgical procedure. In rural environments a number of factors can contribute to an increased risk of cardiac complications during surgery. Examples include insufficient knowledge of the patient’s prior medical conditions (especially as it may relate to endemic disease), inadequate airway control, lack of appropriate monitoring equipment, undetected hypoxia, and lack of resuscitation drugs and colloids and other fluids [11–13].
A thorough assessment provides the clinician an opportunity to initiate medical therapy, coronary interventions, and specific surgical and anesthetic techniques tailored to each individual. Active or unstable cardiac conditions include unstable coronary artery disease, decompensated heart failure, significant arrhythmias, and severe valvular disease.
The Lee index is one of the most accurate indices for predicting cardiac risk in non-cardiac surgery [14]. It emphasizes the value of clinical data in perioperative risk stratification. The Lee index contains five independent clinical determinants of major perioperative cardiac events: a history of ischemic heart disease, a history of cerebrovascular disease, heart failure, insulin-dependent diabetes mellitus, and impaired renal function. High-risk type of surgery is the sixth factor. All factors are equally weighted with one point given to each.
The incidence of major cardiac complications is estimated at 0.4, 0.9, 7, and 11 % in patients with an index of 0, 1, 2, and 3 or more points, respectively (Table 12.3).
Classical LEE risk index | Clinical risk determinants | Clinical LEE risk index |
---|---|---|
1 Point | High-risk surgical procedures • Intraperitoneal • Intrathoracic • Suprainguinal vascular | Not applicable |
1 Point | History of ischemic heart disease • History of myocardial infarction • History of positive exercise test • Current complaint of chest pain considered secondary to myocardial ischemia • Use of nitrate therapy • ECG with pathological Q waves | 1 Point |
1 Point | History of congestive heart failure • History of congestive heart failure • Pulmonary edema • Paroxysmal nocturnal dyspnea • Bilateral rales or S3 gallop • Chest radiograph showing pulmonary vascular redistribution | 1 Point |
1 Point | History of cerebrovascular disease • History of transient ischemic attack or stroke | 1 Point |
1 Point | Preoperative treatment with insulin | 1 Point |
1 Point | Preoperative serum creatinine >2.0 mg/dL | 1 Point |
Cardiac complications after non-cardiac surgery depend not only on medical risk factors but also on the type of surgery being performed, the urgency, magnitude, type, and duration of the procedure, as well as changes in body core temperature, blood loss, and fluid shifts [15].
With regard to cardiac risk, surgical interventions can be divided into low-risk, intermediate-risk, and high-risk groups with estimated 30-day cardiac event rates (cardiac death and MI) less than 1 %, 1–5 %, and superior to 5 %, respectively (Table 12.4). Although only a rough estimation, this risk stratification provides a good indication of the need for cardiac evaluation, drug treatment, and assessment of risk for cardiac events [16]. Evaluation of functional capacity is considered to be another essential component in preoperative cardiac risk assessment [17, 18]. Functional capacity is measured in metabolic equivalents (METs). One MET equals the basal metabolic rate. Exercise testing provides an objective assessment of functional capacity. Without testing, functional capacity can be estimated by the ability to perform a number of activities of daily living (Table 12.5).
Table 12.4
Surgical risk estimate: risk of myocardial infarction and cardiac death within 30 days after surgery
Low risk <1 % | Intermediate risk 1–5 % | High risk >5 % |
---|---|---|
Breast | Uncomplicated abdominal | Aortic and major vascular surgery |
Dental | Carotid | Peripheral vascular surgery |
Endocrine | Peripheral arterial angioplasty | Surgeries with major blood loss or fluids shifts involving the chest or abdomen |
Eye (cataract) | Endovascular aneurysm repair | |
Gynecology | Head and neck surgery | |
Dermatologic procedures and Reconstructive | Neurological/orthopedic—major (hip and spine surgery) | |
Orthopedic—minor (knee surgery) | Thoracic, renal/liver transplant | |
Urologic—minor | Urologic—major (radical prostatectomy) |
Table 12.5
Estimated energy requirements for various activities
Functional capacity | METs | Physical activity without symptom | Estimated surgical risk |
---|---|---|---|
High | >10 | Can participate to strenuous sport like swimming, singles tennis, basketball, or skiing? | |
Good to very good | 7–10 | Can do heavy work around the house like scrubbing floors or lifting or moving heavy furniture Can participate in moderate recreational activities like golf, dancing, doubles tennis, football, bicycling at a regular pace Can walk uphill? Can walk on level ground at 4 mph (6.5 kph)? Run a short distance? | Low |
Moderate | 4–7 | Can climb two flights of stairs? Can do light works around the house (dusting, washing dishes)? | |
Low | <4 | Can take care of yourself? Can eat, dress, or use the toilet? Can walk indoors around the house? Can walk a block or two on level ground at 2–3 mph (3–5 kph)? | Moderate to High |
Not assessable | ? |
When functional capacity is high, the prognosis is excellent, even in the presence of stable ischemic heart disease or risk factors (>4 metabolic equivalents). On the other hand, when functional capacity is poor or unknown (<4 metabolic equivalents), consideration of other risk factors is required to determine the patient’s risk for perioperative morbidity.
Pulmonary Disease
Preoperative pulmonary care involves identifying patients at high risk for postoperative pulmonary complications and optimizing respiratory function for those with preexistent pulmonary disease [19, 20]. Postoperative pulmonary complications include atelectasis, bronchospasm, pneumonia, respiratory failure, and exacerbation of chronic lung disease.
Table 12.6 indicates conditions and risk factors that significantly increase the risk of such complications.
Table 12.6
Surgical risk estimate: good evidence for postoperative pulmonary complications
Patient-related risk factor | Procedure-related risk factor | Laboratory test |
---|---|---|
Advanced age | Aortic aneurysm repair | Albumin level <30 g/L |
ASA class = or > II | Vascular surgery | |
Chronic heart failure | Thoracic surgery | |
Functionally dependent | Abdominal surgery | |
Chronic obstructive disease | Neurosurgery | |
Obesity smoking | Head and neck surgery Emergency surgery | |
Alcohol abuse | General anesthesia |
Smoking cessation before surgery should be initiated as soon as possible (at least 6–8 weeks prior to surgery, 4 weeks at a minimum) [21, 22].
Preoperative Assessment of Respiratory Disease
The most commonly encountered preexisting respiratory conditions of clinical relevance to the anesthesiologist include chronic obstructive pulmonary disease (COPD), asthma, and obstructive sleep apnea syndrome (OSAS).
For COPD, clinical findings of obstruction (wheezing, increased dyspnea), or a history of recent upper respiratory infection (coughing, sputum production) require particular attention and consideration. Major risk factors include type of surgery, type and duration of anesthesia, general health status, and smoking history, rather than specific lung function parameters [23].
Asthma [24]: Preoperative assessment of the patient with asthma should focus on the patient’s pulmonary status to determine the level of respiratory dysfunction and to assess the effectiveness of current therapy. A review of baseline exercise tolerance, hospital visits due to asthma (including whether endotracheal intubation or IV infusions were required), allergies, and previous surgical/anesthetic history is essential. The patient’s medication regimen should be reviewed providing important clues as to the level of disease severity.
Asthma can be divided into four categories:
1.
Mild intermittent disease (use of short-acting bronchodilators on an as-needed basis).
2.
Mild persistent disease (daily controller medication such as low-dose inhaled corticosteroid (ICS) leukotriene modifier, or theophylline).
3.
Moderate persistent disease (low- or medium-dose ICS with a long-acting bronchodilator).
4.
Severe persistent disease (daily symptoms, multiple medications such as high-dose ICSs, oral steroids, bronchodilators).
This classification should help to identify patients at risk for pulmonary complications and prepare the anesthesiologist to initiate therapy for potential bronchoconstriction and to plan perioperative care to minimize the risk of acute exacerbations.
Obstructive sleep apnea syndrome [25, 26]: OSAS poses a high risk factor for encountering a difficult airway and post operative respiratory obstruction. In addition to a through history and physical examination prior to surgery, a standardized questionnaire can be helpful in assessing OSAS (e.g., Berlin questionnaire).
Pulmonary Function Tests
Preoperative spirometry and chest radiography are not predictive of postoperative pulmonary complications and cannot be recommended on a routine basis [27]. Clinical findings remain the most accurate predictor of postoperative pulmonary complications. Aggressive treatment based on the use of bronchodilators, antibiotics, corticosteroids, physical therapy, smoking cessation, and correction of malnutrition may be beneficial in reducing postoperative pulmonary complications.
Renal Disease
The patient with preexisting renal disease poses a particular challenge to the safe delivery of anesthesia. Renal complications are more likely to occur in:
1.
Patients with preexisting renal dysfunction.
2.
Patients with chronic heart disease, chronic obstructive lung disease, peripheral occlusive vascular disease, obesity.
3.
Patients undergoing vascular procedures with aortic cross clamping, cardiopulmonary bypass.
4.
Lengthy surgical procedures and/or procedure with major blood loss and major fluids shifts.
In non-cardiac surgery, the Kheterpal score is useful for the identification of patient at risk for postoperative renal impairment [28]. For patient without preexisting renal dysfunction seven identified preoperative predictors of acute renal failure include age, emergency surgery, liver disease, elevated body mass index, high-risk surgery, peripheral vascular occlusive disease, and chronic obstructive pulmonary disease necessitating chronic bronchodilator therapy. The score is applied as follows:
Class I (0–2 risk factors) is not related to a relative risk of acute kidney injury (AKI).
Class II (3 risk factors) is related to a relative risk of AKI from 4 %.
Class III (4 risk factors) is related to a relative risk of AKI from 8.8 %.
Class IV (5 risk factors) is related to a relative risk of AKI from 16.1 %.
Class V (6 and more risk factors) is related to a relative risk of AKI from 46.3 %.
While a number of strategies have been suggested to minimize nephrotoxic insults, there is limited evidence to support the value of prophylactic and therapeutic interventions in patients at high risk for developing perioperative renal failure [29].
Obesity
The Overseas Development Institute (ODI) currently puts the number of overweight and obese adults in developing countries at more than 900 million. Moreover, the number of overweight and obese adults has risen from 250 million to nearly a billion in the last 30 years [30]. The body mass index (BMI) is the most widely used classification. Patients are considered overweight with a BMI between 25 and 29.9 kg/m2 and obese with a BMI between 30 and 49.9 kg/m2. Patients with a BMI of 50 kg/m2 or greater are considered superobese.
Obesity is accompanied by co-morbidities such as coronary artery disease, hypertension, OSAS and/or diabetes mellitus. Perioperative risk assessment should, therefore, focus on cardiac and pulmonary dysfunction as well as nutritional status [31].
Preoperative assessment of risk factors and clinical evaluation as well as ECG examination is essential in obese patients. To identify patients at risk for difficult airway, a neck circumferences of at least 43 cm as well as a high Mallampati score and male gender are predictors for difficult laryngoscopy and hence intubation [32]. Preoperative testing is indicated in obese patients in order to detect abnormal glucose/HbA1C levels and/or anemia [27].
Diabetes Mellitus
Diabetes mellitus is a growing public health issue affecting people both in developing and developed countries [33]: approximately 150 million people have diabetes mellitus worldwide, and this number may very well double by 2025. Much of this increase will likely occur in developing countries. By 2025, while most people with diabetes in developed countries will be aged 65 years or more, in developing countries the age range is in the 45–64-year bracket during some of their most productive years.
Patients with diabetes are more likely to require surgery [34]. Elevated blood glucose in the perioperative period is a risk factor for surgical site infection [35] and diabetic patients are at greater risk for postoperative heart failure [36]. Both type I and II diabetic patients have a higher rate of difficult laryngoscopy than non-diabetic patients [37].
It is not necessary to test blood sugars routinely on all patients during the preoperative assessment. Screening for diabetes/risk of hyperglycemia can be based on history and examination or investigations of glycemic control. Risk factors include age, sex, family history of diabetes, low exercise level, and obesity [38, 27].
Anemia
Anemia is an especially important public health concern in developing countries and is responsible for significant morbidity and mortality. About two billion people worldwide are estimated to suffer from anemia and it is reported to account for more than 700,000 deaths per year in Africa and Southeast Asia. The highest prevalence of anemia is in preschool-age children (47 %) although nonpregnant women constitute the largest group (468 million) [39]. Underlying causes for anemia are multi-factorial and largely preventable and include nutritional deficiencies, infections, multiple pregnancies, and hemoglobin disorders.
Low preoperative hemoglobin levels and a high level of surgical intervention can predict the need for intraoperative blood transfusion and potentially poor postoperative outcome. Low hemoglobin levels are associated with increased perioperative morbidity in surgical patients, longer recovery from procedures that involve blood loss, and a higher likelihood of postoperative infection. Depending on the hospital, and the lack of availability of routine blood tests, it may be beneficial to bring the equipment required to measure hematocrit (a small portable device), especially if procedures involving blood loss are anticipated. Given the risks and costs associated with allogeneic blood transfusion and the low availability of blood for transfusion, strategies have been developed for preoperative correction of anemia and prevention of perioperative blood transfusion needs as preoperative iron supplementation which may be considered to correct preoperative anemia [40].
Substance Abuse and Addiction
In many developing countries, alcohol and cigarette use is rising rapidly and often at an earlier age. Intravenous drug use, involving heroin, amphetamine, and opiates, is on the rise [41].
Alcohol use disorders (AUDs) are associated with alcohol-related postoperative complications such as higher rates of wound infection, acute withdrawal and organ failure. For the preoperative detection of AUDs, the combined use of a standardized questionnaire (e.g., CAGE questionnaire) together with laboratory testing such as GGT (g-glutaryl transferase) and carbohydrate-deficient transferrin (CDT) is superior to either one alone [42, 43]. Alcohol abstinence for at least 1 month has been shown to reduce perioperative complications from 74 to 31 % [44].
HIV/AIDS
According to the 2007 WHO/UNAIDS estimates, at the end of 2007, more than 95 % of HIV infections worldwide occur in developing countries with two-thirds occurring in sub-Saharan Africa where over 28 million people are living with HIV. Infection rates are lower in Asia and the Pacific, where over seven million are infected. However, since this syndrome is not specific, it is rarely recognized, even when clinically apparent.
Preoperative Evaluation for HIV-Infected Patients [45]
Preoperative evaluation of the HIV-infected patient is similar to that of the general population; however, comorbidities, active substance use, and the presence of methicillin-resistant Staphylococcus aureus may be more prevalent in the HIV-infected population (see Table 12.7).
Table 12.7
Surgical management considerations for HIV-infected patients with comorbidities and other conditions
Comorbidity risks | Pre- and perioperative recommendations |
---|---|
Hepatic dysfunction • Increased prevalence of hepatic dysfunction from ART or from preexisting liver disease Surgical risk • Co-infection with HBV or HCV may predispose to increased bleeding risk due to coagulopathy or thrombocytopenia | Recommendation • Assess for hepatic dysfunction preoperatively because of the possible impact on dosing or selection of anesthetics, perioperative antibiotics, and other medications |
Renal dysfunction • Increased prevalence of renal dysfunction from HIV–associated nephropathy (HIVAN) and other causes | Recommendations • Assess for renal dysfunction preoperatively because of the possible impact on dosing or selection of anesthetics, perioperative antibiotics, and other medications • If there are renal function changes in the perioperative period, review ART regimen for agents that may require renal dose adjustment |
Coronary artery disease and cardiac abnormalities • Increased prevalence of CAD from metabolic dysfunction due to HIV infection and/or ART • QT prolongation or other cardiac abnormalities may occur in advanced HIV infection or in patients receiving certain medications a | Recommendations • Assess for coronary artery disease preoperatively. Perform careful review of preoperative EKG results |
Respiratory complications • Prevalence of underlying pulmonary disease is increased due to the increased risk for bacterial pneumonia and high prevalence of smoking in HIV–infected patients Surgical risk • Risk for postoperative pneumonia is increased in HIV-infected patients | Recommendation Carefully evaluate for respiratory complications in the perioperative period |
Thrombocytopenia and neutropenia • Idiopathic thrombocytopenic purpura may occur at any stage of HIV infection Neutropenia is common in HIV–infected individuals with severe immunosuppression b | Recommendations • Consult with hematologist prior to surgical procedure when platelet counts approach 50,000 per μL • Routine use of G-CSF not recommended but in perioperative period may consider G-CSF c use to maintain absolute neutrophil count >1,000 cells/mm |
Hemophilia | Recommendation • Coordination between surgical team and hematologist is recommended for transfusion of factor replacement in anticipation of surgery |
Substance use (SU) • SU disorders are more prevalent in HIV–infected individuals than in the general population Surgical risks • Increased risk for complications from surgery and anesthesia, notably cardiac complications associated with cocaine use • Increased risk for withdrawal symptoms in the postoperative period for unrecognized alcohold, benzodiazepine, or heroin use | Recommendations • Obtain detailed history of substance use • Consider obtaining urine toxicology screen, with patient consent • For elective surgery, observe appropriate period of abstinence with the use of substitute medications such as methadone or benzodiazepines as appropriate |
Methicillin Resistant Staphylococcus aureus (MRSA) • Community–acquired MRSA infection is more common in MSM than in the general population | Recommendations • Assess for a history of previous MRSA infection/colonization, particularly in MSMs • Use vancomycin instead of cefazolin for prophylaxis when indicated in patients with positive history of MRSA
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