Preoperative Assessment, Premedication & Perioperative Documentation PDF

Summary

This document provides a detailed overview of preoperative assessment, premedication, and perioperative documentation for medical procedures and surgeries. It emphasizes the importance of a complete patient history and physical examination, along with current medication lists and allergies. The role of the anesthesiologist and the surgeon in preoperative evaluation are outlined.

Full Transcript

CHAPTER

18
Preoperative Assessment,
Premedication, & Perioperative
Documentation

KEY CONCEPTS

The cornerstones of an effective preoperative or preprocedure
evaluation are the history and physical examination, which should
include a complete and up-to-date listing of all medications taken by
the patient in the recent past, all pertinent allergies, and responses and
reactions to previous anesthetics.
The anesthesiologist should not be expected to provide the risk-versus-
benefit discussion for the proposed surgery or procedure; this is the
responsibility and purview of the responsible surgeon or
“proceduralist.”
By convention physicians in many countries use the American Society
of Anesthesiologists’ classification to identify relative risk prior to
conscious sedation and surgical anesthesia.
In general, the indications for cardiovascular investigations are the same
in elective surgical patients as in any other patient with a similar
medical condition.
Adequacy of long-term blood glucose control can be easily and rapidly
assessed by measurement of hemoglobin A1c.
In patients deemed at high risk for thrombosis (eg, those with certain
mechanical heart valve implants or with atrial fibrillation and a prior
thromboembolic stroke), chronic anticoagulants should be replaced by
intramuscular low-molecular-weight heparins or by intravenous
unfractionated heparin.
 Current guidelines recommend postponing all but mandatory emergency
surgery until at least 1 month after any coronary intervention and
suggest that treatment options other than a drug-eluting stent (which
will require prolonged dual antiplatelet therapy) be used in patients
expected to undergo a surgical procedure within 12 months after the
intervention.
There are no good data to support restricting fluid intake (of any kind or
any amount) more than 2 h before induction of general anesthesia in
healthy patients undergoing elective procedures; moreover, there is
strong evidence that nondiabetic patients who drink fluids containing
carbohydrates and protein up to 2 h before induction of anesthesia
suffer less perioperative nausea and dehydration than those who are
fasted longer.
To be valuable, preoperative testing must discriminate: There must be
an avoidable increased perioperative risk when the results are abnormal
(and the risk will remain unknown if the test is not performed), and
when testing fails to detect the abnormality (or it has been corrected),
there must be reduced risk.
The utility of a test depends on its sensitivity and specificity. Sensitive
tests have a low rate of false-negative results and rarely fail to identify
an abnormality when one is present, whereas specific tests have a low
rate of false-positive results and rarely identify an abnormality when
one is not present.
Premedication should be given purposefully, not as a mindless routine.
Incomplete, inaccurate, or illegible records unnecessarily complicate
defending a physician against otherwise unjustified allegations of
malpractice.

PREOPERATIVE EVALUATION
The cornerstones of an effective preoperative or preprocedure evaluation are
the medical history and physical examination, which should include a complete
and up-to-date listing of all medications taken by the patient in the recent past,
all pertinent allergies, and responses and reactions to previous anesthetics.
Additionally, this evaluation may include diagnostic tests, imaging procedures,
or consultations from other physicians when indicated. A patient’s initial contact
with a perioperative surgical home or enhanced recovery after surgery (ERAS)
program ideally will occur at the time of the preoperative evaluation visit. An
enhanced recovery may require “prehabilitation” with one or more of the
following: smoking cessation, nutritional supplementation, an exercise regimen,
and adjustment of medications. The preoperative evaluation will often guide the
anesthetic plan. Inadequate preoperative planning and incomplete patient
preparation commonly lead to avoidable delays, cancellations, complications,
and costs.
The preoperative evaluation serves multiple purposes. One purpose is to
identify those patients whose outcomes likely will be improved by
implementation of a specific medical treatment (which rarely may require that
planned surgery be rescheduled). For example, a 60-year-old patient scheduled
for elective total hip arthroplasty who also has unstable angina from left main
coronary artery disease would more likely survive if coronary artery bypass
grafting is performed before rather than after the elective orthopedic procedure.
Another purpose of the preoperative evaluation is to identify patients whose
condition is so poor that the proposed surgery might only hasten death without
improving the quality of life. For example, a patient with severe chronic lung
disease, end-stage kidney disease, liver failure, and chronic heart failure likely
would not survive to derive benefit from an 8-h, complex, multilevel spinal
fusion with instrumentation. A patient’s preoperative evaluation can uncover
findings that will change the anesthetic plan (Table 18–1). For example, the
anesthetic plan may need to be adjusted for a patient whose trachea appears
difficult to intubate, one with a family history of malignant hyperthermia, or one
with an infection near where a proposed regional anesthetic would be
administered.

TABLE 18–1 The anesthetic plan.
 Another purpose of the preoperative evaluation is to provide the patient with
an estimate of anesthetic risk. However, the anesthesiologist should not be
expected to provide the risk-versus-benefit discussion for the proposed surgery
or procedure; this is the responsibility and purview of the responsible surgeon or
“proceduralist.” For example, a discussion of the risks and benefits of robot-
assisted laparoscopic prostatectomy versus “open” prostatectomy, radiation
therapy, or “watchful waiting” requires detailed knowledge of the current
medical literature and the capabilities of an individual surgeon. Finally, the
preoperative evaluation presents an opportunity for the anesthesiologist to
describe the proposed anesthetic plan in the context of the overall surgical and
postoperative plan, provide the patient with psychological support, and obtain
informed consent for the proposed anesthetic plan from the surgical patient.
By convention, physicians in many countries use the American Society of
Anesthesiologists’ (ASA) physical status classification to define relative risk
prior to conscious sedation or surgical anesthesia (Table 18–2). The ASA
physical status classification has many advantages: it is time tested, simple, and
reproducible, and, most importantly, it has been shown to be strongly associated
with perioperative risk. However, many other risk assessment tools are available,
particularly in the area of cardiovascular risk assessment (see Chapter 21).

TABLE 18–2 American Society of Anesthesiologists’ physical status
classification of patients.1

Elements of the Preoperative History
Patients presenting for elective surgery and anesthesia typically require the
recording of a focused medical history emphasizing abnormalities of exercise
tolerance; nutritional and functional status; cardiac, pulmonary, endocrine,
kidney, or liver function; electrolytes or metabolism; and anatomic issues
relevant to airway management or regional anesthesia. How the patient
responded to and recovered from previous anesthetics can be helpful. The ASA
and other societies publish and periodically update general guidelines for
preoperative assessment (see Guidelines at end of chapter).

A. Cardiovascular Issues
Guidelines for preoperative cardiac assessment are regularly updated and
available from the American College of Cardiology/American Heart Association
and from the European Society of Cardiology (see Guidelines). A more complete
discussion of cardiovascular assessment is provided in Chapter 21. The focus of
preoperative cardiac assessment should be on determining whether the patient
would benefit from further cardiac evaluation or interventions prior to the
scheduled surgery. However, the same approach is not appropriate for all
patients. The prudent approach to a patient undergoing elective knee arthroplasty
will differ from that for a patient needing resection of pancreatic cancer, given
the benign results of a delay in the former procedure and the possible deadly
effects of a delay in the latter procedure. In general, the indications for
cardiovascular investigations are the same in elective surgical patients as in any
other patient with a similar medical condition. Put another way, the fact that a
patient is scheduled to undergo elective surgery does not change the indications
for testing to diagnose coronary artery disease.

B. Pulmonary Issues
Perioperative pulmonary complications, most notably postoperative respiratory
depression and respiratory failure, are vexing problems associated with obesity
and obstructive sleep apnea. A guideline developed by the American College of
Physicians identifies patients 60 years of age or older and those with chronic
obstructive lung disease, with markedly reduced exercise tolerance, with
functional dependence, or with heart failure as potentially requiring preoperative
and postoperative interventions to avoid respiratory complications. The risk of
postoperative respiratory complications is closely associated with these factors,
and with the following: ASA physical status 3 and 4, cigarette smoking,
surgeries lasting longer than 4 h, certain types of surgery (abdominal, thoracic,
aortic aneurysm, head and neck, and emergency surgery), and general anesthesia
(compared with cases in which general anesthesia was not used).
Efforts at prevention of respiratory complications in patients at risk should
include cessation of cigarette smoking several weeks before surgery and lung
expansion techniques (eg, incentive spirometry) after surgery. Patients with
asthma, particularly those receiving suboptimal medical management, have a
greater risk for bronchospasm during airway manipulation. Appropriate use of
analgesia and monitoring are key strategies for avoiding postoperative
respiratory depression in patients with obstructive sleep apnea. Further
discussion of this topic appears in Chapter 44.

C. Endocrine and Metabolic Issues
The appropriate target blood glucose concentration has been the subject of
several celebrated clinical trials. “Tight” control of blood glucose, with a target
concentration in the “normal” range, was shown in the Diabetes Control and
Complications Trial to improve outcomes in ambulatory patients with type 1
diabetes mellitus. Other more recent trials conducted in subjects with critical
illness have shown that blood glucose should not be so tightly controlled.
The usual practice is to obtain a blood glucose measurement in diabetic
patients on the morning of elective surgery. Unfortunately, many diabetic
patients presenting for elective surgery do not maintain blood glucose within the
desired range. Other patients, who may be unaware that they have type 2
diabetes, present with blood glucose measurements above the normal range.
Adequacy of long-term blood glucose control can be easily and rapidly assessed
by measurement of hemoglobin A1c. In patients with abnormally elevated
hemoglobin A1c, referral to a diabetology service for education about the disease
and adjustment of diet and medications to improve metabolic control may be
beneficial. Elective surgery should be delayed in patients presenting with marked
hyperglycemia; in an otherwise well-managed patient with type 1 diabetes, this
delay might consist only of rearranging the order of scheduled cases to allow
insulin infusion to bring the blood glucose concentration closer to the normal
range before surgery. A more complete discussion of diabetes mellitus and other
perioperative endocrine concerns is provided in Chapter 35.

D. Coagulation Issues
Three important coagulation issues that must be addressed during the
preoperative evaluation are (1) how to manage patients who are taking warfarin
or other long-acting anticoagulants on a long-term basis; (2) how to manage
patients with coronary artery disease who are taking clopidogrel or related
agents; and (3) whether one can safely provide neuraxial anesthesia to patients
who either are receiving long-term anticoagulation therapy or who will receive
anticoagulation perioperatively. In the first circumstance, most patients
undergoing anything more involved than minor surgery will require
discontinuation of anticoagulation in advance of surgery to avoid excessive
blood loss. The key issues to be addressed are how far in advance the drug
should be discontinued and whether the patient will require “bridging” therapy
with another, shorter-acting, agent. In patients deemed at high risk for
thrombosis (eg, those with certain mechanical heart valve implants or with atrial
fibrillation and a prior thromboembolic stroke), chronic anticoagulants should be
replaced by intramuscular low molecular weight heparins (eg, enoxaparin) or by
intravenous unfractionated heparin. The prescribing physician and surgeon may
need to be consulted regarding discontinuation of these agents and whether
bridging will be required. In patients with a high risk of thrombosis who receive
bridging therapy, the risk of death from excessive bleeding is an order of
magnitude lower than the risk of death or disability from stroke if the bridging
therapy is omitted. Patients at lower risk for thrombosis may have their
anticoagulant drug discontinued preoperatively and then reinitiated after
successful surgery.
Clopidogrel and similar agents are often administered with aspirin (so-called
dual antiplatelet therapy) to patients with coronary artery disease who have
received intracoronary stenting. Immediately after stenting, such patients are at
increased risk of acute myocardial infarction if clopidogrel (or related agents)
and aspirin are abruptly discontinued. Therefore, current guidelines
recommend postponing all but mandatory surgery until at least 1 month after any
coronary intervention and suggest that treatment options other than a drug-
eluting stent (which will require prolonged dual antiplatelet therapy) be used in
patients expected to undergo a surgical procedure within 12 months after the
intervention (eg, a patient with coronary disease who also has resectable colon
cancer). As the drugs, treatment options, and consensus guidelines are updated
frequently, when we are in doubt we consult with a cardiologist when patients
receiving these agents require a surgical procedure.
The third issue—when it may be safe to perform regional (particularly
neuraxial) anesthesia in patients who are or will be receiving anticoagulation
therapy—has also been the subject of debate. The American Society of Regional
Anesthesia and Pain Medicine publishes a regularly updated consensus guideline
on this topic, and other prominent societies (eg, the European Society of
Anaesthesiologists) also provide guidance on this topic (see Chapter 45).

E. Gastrointestinal Issues
Since Mendelson’s 1946 report, aspiration of gastric contents has been
recognized as a potentially disastrous pulmonary complication of surgical
anesthesia. It has also been long recognized that the risk of aspiration is
increased in certain groups of patients: pregnant women in the second and third
trimesters, those whose stomachs have not emptied after a recent meal, and those
with serious gastroesophageal reflux disease (GERD).
Although there is consensus that pregnant women and those who have
recently (within 6 h) consumed a full meal should be treated as if they have
“full” stomachs, there is less consensus as to the necessary period of time in
which patients must fast before elective surgery. Proof of the lack of consensus
is the fact that the ASA’s guideline on this topic was voted down by the ASA
House of Delegates several years in a row before it was presented in a form that
received majority approval. The guideline as approved is more permissive of
fluid intake than many anesthesiologists would prefer, and many medical centers
have policies that are more restrictive than the ASA guideline on this topic.
The truth is that there are no good data to support restricting fluid intake (of any
kind or any amount) more than 2 h before induction of general anesthesia in
healthy patients undergoing elective procedures; moreover, there is strong
evidence that nondiabetic patients who drink fluids containing carbohydrates and
protein up to 2 h before induction of anesthesia suffer less perioperative nausea
and dehydration than those who are fasted longer.
Patients claiming a history of GERD present vexing problems. Some of these
patients will be at increased risk for aspiration; others may carry this “self-
diagnosis” based on advertisements or internet searches, or may have been given
this diagnosis by a physician who did not follow the standard diagnostic criteria.
Our approach is to treat patients who have only occasional symptoms like any
other patient without GERD, and to treat patients with consistent symptoms
(multiple times per week) with medications (eg, nonparticulate antacids such as
sodium citrate) and techniques (eg, tracheal intubation rather than laryngeal
mask airway) as if they were at increased risk for aspiration.

Elements of the Preoperative Physical Examination
The preoperative history and physical examination complement one another:
The physical examination may detect abnormalities not apparent from the
history, and the history helps focus the physical examination. Examination of
healthy asymptomatic patients should include measurement of vital signs (blood
pressure, heart rate, respiratory rate, and temperature) and examination of the
airway, heart, and lungs using standard techniques of inspection, palpation,
percussion, and auscultation. Before administering regional anesthetics or
inserting invasive monitors, one should examine the relevant anatomy; infection
or anatomic abnormalities near the site may contraindicate the planned
procedure (see Chapters 5, 45, and 46). An abbreviated, focused neurological
examination serves to document whether any neurological deficits may be
present before a regional anesthesia procedure is performed.
The anesthesiologist should examine the patient’s airway before every
anesthetic is administered. Any loose or chipped teeth, caps, bridges, or dentures
should be noted. Poor fit of the anesthesia mask should be expected in
edentulous patients and those with significant facial abnormalities. Micrognathia
(a short distance between the chin and the hyoid bone), prominent upper
incisors, a large tongue, limited range of motion of the temporomandibular joint
or cervical spine, or a short or thick neck suggest that difficulty may be
encountered in direct laryngoscopy for tracheal intubation (see Chapter 19). The
Mallampati score is often recorded.

Preoperative Laboratory Testing
Routine laboratory testing is not recommended for fit and asymptomatic
patients. “Routine” testing is avoidably expensive and rarely alters perioperative
management; moreover, inconsequential abnormal values may result in further
unnecessary testing, delays, and costs. Nonetheless, despite no evidence of
benefit, some physicians request blood tests, an electrocardiogram, and a chest
radiograph for all patients, perhaps in the misplaced hope of reducing their
exposure to litigation.
Ideally, testing should be guided by the history and physical examination.
To be valuable, preoperative testing must discriminate: There must be an
avoidable increased perioperative risk when the results are abnormal (and the
risk will remain unknown if the test is not performed), and when testing fails to
detect the abnormality (or it has been corrected), there must be reduced risk.
Useful tests have a low rate of false-positive and false-negative results (Table
18–3). The utility of a test depends on its sensitivity and specificity. Sensitive
tests have a low rate of false-negative results and rarely fail to identify an
abnormality when one is present, whereas specific tests have a low rate of
false-positive results and rarely identify an abnormality when one is not
present.

TABLE 18–3 Calculation of sensitivity and specificity based on presence or
absence of disease in the population being tested.
 The prevalence of a disease or of an abnormal test result varies with the
population tested. Testing is therefore most effective when sensitive and specific
tests are used in patients in whom the abnormality will be detected frequently
enough to justify the expense and inconvenience of the test procedure.
Accordingly, laboratory testing should be based on the history and physical
examination and the nature of the proposed surgery or procedure. Thus, a
baseline hemoglobin or hematocrit measurement is desirable in any patient about
to undergo a procedure in which extensive blood loss and transfusion are likely,
particularly when there is sufficient time to correct anemia preoperatively (eg,
with iron supplements).
Testing fertile women and girls for pregnancy is controversial (but done
routinely in many centers) and should not be done without the permission of the
patient; pregnancy testing involves detection of chorionic gonadotropin in urine
or serum. Routine testing for HIV and routine coagulation studies are not
indicated. Urinalysis is not cost-effective in asymptomatic healthy patients;
nevertheless, a preoperative urinalysis is required by state law in at least one
U.S. jurisdiction.

PREMEDICATION
A classic study showed that a preoperative visit from an anesthesiologist resulted
in greater reduction in patient anxiety than preoperative sedative drugs. Yet,
there was a time when virtually every patient received premedication before
arriving in the preoperative area in anticipation of surgery. The belief was that all
patients benefitted from preoperative sedation and anticholinergics, often
combined with an opioid. With the move to outpatient surgery and “same-day”
hospital admission, preoperative sedative-hypnotics or opioids are now almost
never administered before patients arrive in the preoperative holding area for
elective surgery. Children, especially those aged 2 to 10 years who (along with
their parents) likely will experience separation anxiety may benefit from
premedication administered in the preoperative holding area. This topic is
discussed in Chapter 42. Oral or intravenous midazolam or nasal
dexmedetomidine are common methods. Adults often receive intravenous
midazolam (2–5 mg) once an intravenous line has been established. If a painful
procedure (eg, regional block or a central venous line) will be performed while
the patient remains awake, small doses of opioid (typically fentanyl) will often
be given. Patients who will undergo airway surgery or extensive airway
manipulations benefit from preoperative administration of an anticholinergic
agent (glycopyrrolate or atropine) to reduce airway secretions before and during
surgery. Patients who are expected to have significant amounts of postoperative
pain will often be given “multimodal” analgesia, including various combinations
of nonsteroidal antiinflammatory drugs, acetaminophen, gabapentinoids, and
anti-nausea drugs in the preoperative holding area. The fundamental message
here is that premedication should be given purposefully, not as a mindless
routine.

DOCUMENTATION
Physicians should provide high-quality, safe, and cost-efficient medical care. But
they also must document the care that they provide. Adequate documentation
provides guidance to those who will encounter the patient in the future. It
permits others to assess the quality of the care that was given and to provide risk
adjustment of outcomes. Without documentation a physician will not be paid for
his or her services; incomplete documentation may not justify the otherwise
appropriate “full” payment. Incomplete documentation may render it difficult for
a hospital system to recover its costs and may incorrectly lead to the conclusion
that a patient’s hospitalization was inappropriately prolonged. Finally, adequate
and organized documentation (as opposed to inadequate and disorganized
documentation) supports a potential defense case should a claim for medical
malpractice be filed.
Preoperative Assessment Note
The preoperative assessment note should appear in the patient’s permanent
medical record and should describe pertinent findings, including the medical
history, anesthetic history, current medications (and whether they were taken on
the day of surgery), physical examination, ASA physical status, laboratory
results, interpretation of imaging, electrocardiograms, and pertinent
recommendations of any consultants. A comment is particularly important when
a consultant’s recommendation will not be followed.
The preoperative note should identify the anesthetic plan, indicating whether
regional or general anesthesia (or sedation) will be used, and whether invasive
monitoring or other advanced techniques will be employed. It should include a
statement regarding the informed consent discussion with the patient (or
guardian). Documentation of the informed consent discussion may take the form
of a narrative indicating that the plan, alternative plans, and their advantages and
disadvantages (including their relative risks) were presented, understood, and
accepted by the patient. Some centers include consent for anesthesia within the
consent for surgery (or the procedure). Alternatively, the patient may be asked to
read and sign a separate anesthesia consent form that contains the same
information.
In the United States, the Joint Commission (TJC) requires an immediate
preanesthetic “reevaluation” to determine whether the patient’s status has
changed in the time since the preoperative evaluation was performed. This
reevaluation might include a review of the medical record to search for any new
laboratory results or consultation reports if the patient was last seen on another
date. However, even when the elapsed time is less than a minute, the
bureaucracy will not be denied: the “box” must be checked to document that
there has been no interval change.

Intraoperative Anesthesia Record
The intraoperative anesthesia record serves many purposes. It functions as
documentation of intraoperative monitoring, a reference for future anesthetics
for that patient, and a source of data for quality assurance. This record should be
terse, pertinent, and accurate. Increasingly, parts of the anesthesia record are
generated automatically and recorded electronically. Such anesthesia information
management systems (commonly abbreviated AIMS) have many theoretical and
practical advantages over the traditional paper record but also introduce all the
common pitfalls of computerization, including the potential for unrecognized
recording of artefactual data, the possibility that practitioners will find attending
to the computer more interesting than attending to the patient, and the inevitable
occurrence of device and software shutdowns. Regardless of whether the record
is on paper or electronic it should document the anesthetic care in the operating
room by including the following elements:

That there has been a preoperative check of the anesthesia machine and other
relevant equipment
That there has been a reevaluation of the patient immediately prior to
induction of anesthesia (a TJC requirement)
Time of administration, dosage, and route of drugs given intraoperatively
Intraoperative estimates of blood loss and urinary output
Results of laboratory tests obtained during the operation (when there is an
AIMS linked to an electronic medical record, such testing may be recorded
elsewhere)
Intravenous fluids and any blood products administered
Pertinent procedure notes (eg, for tracheal intubation or insertion of invasive
monitors)
Any specialized intraoperative techniques such as hypotensive anesthesia,
one-lung ventilation, high-frequency jet ventilation, or cardiopulmonary
bypass
Timing and conduct of intraoperative events such as induction, positioning,
surgical incision, and extubation
Unusual events or complications (eg, cardiac arrest)
Condition of the patient at the time of “handoff” to the postanesthesia or
intensive care unit nurse

By tradition and convention (and, in the United States, according to practice
guidelines) arterial blood pressure and heart rate are recorded graphically at no
less than 5 min intervals. Data from other monitors are also usually entered
graphically, whereas descriptions of techniques or complications are described in
text.
Unfortunately, the conventional, handwritten anesthetic record is ill suited for
documenting critical incidents, such as a cardiac arrest. In such cases, a separate
text note inserted in the patient’s medical record may be necessary. Careful
recording of the timing of events is needed to avoid discrepancies between
multiple simultaneous records (anesthesia record, nurses’ notes,
cardiopulmonary resuscitation record, and other physicians’ entries in the
medical record). Such discrepancies are frequently targeted by malpractice
attorneys as evidence of incompetence, inaccuracy, or deceit. Incomplete,
inaccurate, or illegible records unnecessarily complicate defending a physician
against otherwise unjustified allegations of malpractice.

Postoperative Notes
After accompanying the patient to the postanesthesia care unit (PACU), the
anesthesia provider should remain with the patient until normal vital signs have
been measured and the patient’s condition is deemed stable. An unstable patient
may require being “handed off” to another physician. Before discharge from the
PACU, a note should be written by an anesthesiologist to document the patient’s
recovery from anesthesia, any apparent anesthesia-related complications, the
immediate postoperative condition of the patient, and the patient’s disposition
(discharge to an outpatient area, an inpatient ward, an intensive care unit, or
home). In the United States, as of 2009, the Centers for Medicare and Medicaid
Services require that certain elements be included in all postoperative notes
(Table 18–4). Recovery from anesthesia should be assessed at least once within
48 h after discharge from the PACU in all inpatients. Postoperative notes should
document the general condition of the patient, the presence or absence of any
anesthesia-related complications, and any measures undertaken to treat such
complications. The anesthesiologist’s involvement with the patient may continue
through the early stages of postoperative recovery when the anesthesiologist is
involved in a functioning perioperative surgical home or is providing treatment
of postoperative pain (see Chapters 48, 59).

TABLE 18–4 Elements required by the Center for Medicare and Medicaid
Services in all postoperative notes.1
CASE DISCUSSION

Medical Malpractice (also see Chapter 54)
A healthy 45-year-old man has a cardiac arrest during an elective
laparoscopic inguinal hernia repair. Although cardiopulmonary
resuscitation is successful, the patient is left with permanent
neuropsychological deficits that preclude his return to work. One year
later, the patient files a complaint against the anesthesiologist, surgeon,
and hospital.
What four elements must be proved by the plaintiff (patient) to
establish negligence on the part of the defendant (physician or
hospital)?
1. Duty: Once a physician establishes a professional relationship with a
patient, the physician owes that patient certain obligations, such as
adhering to the “standard of care.”
2. Breach of Duty: If these obligations are not fulfilled, the physician has
breached his duties to the patient.
3. Injury: An injury must result. The injury may result in general damages
(eg, pain and suffering) or special damages (eg, loss of income).
4. Causation: The plaintiff must demonstrate that the breach of duty was
the proximate cause of the injury. But for the breach of duty, the injury
should not have occurred.
How is the standard of care defined and established?
Individual physicians are expected to perform as any prudent and
reasonable physician would in similar circumstances. This does not
mandate “best” care or optimal care, only care that would meet the
minimum standard of a prudent and reasonable physician. As a specialist,
the anesthesiologist is held to a higher standard of knowledge and skill with
respect to the subject matter of anesthesia than would a general practitioner
or a physician in another specialty. Expert witnesses usually provide
testimony to define the standard of care in legal proceedings. Medical
malpractice cases are governed by the laws of the state or jurisdiction in
which the event took place, and these may differ from state to state. For
example, some states require that an expert witness have practiced medicine
recently in the state or an immediately adjacent state; others have no
“residence” requirement for expert witnesses. The specific circumstances
pertaining to each individual case are taken into account. The law
recognizes that there are differences of opinion and varying schools of
thought within the medical profession.
How is causation determined?
It is usually the plaintiff who bears the burden of proving that the injury
would not have occurred “but for” the negligence of the physician, or that
the physician’s action was a “substantial factor” in causing the injury. An
exception is the doctrine of res ipsa loquitur (“the thing speaks for itself”),
which permits a finding of negligence based solely on the evidence. For
example, if a set of car keys were visualized inside a patient on a chest
radiograph after a thoracotomy, the doctrine of res ipsa loquitur would
apply. Res ipsa loquitur could not be used in the case under discussion
because the plaintiff would have to establish that cardiac arrest could not
occur in the absence of negligence and that cardiac arrest could not have
been due to something outside the control of the anesthesiologist. An
important concept is that causation in civil cases in the United States need
only be established by a preponderance of the evidence (“more likely than
not”)—as opposed to criminal cases, in which all elements of a charged
offense must be proved “beyond a reasonable doubt.”
What factors influence the likelihood of a malpractice suit?
1. The Physician–Patient Relationship: This is particularly important for
the anesthesiologist, who usually does not meet the patient until
 immediately before the anesthetic is administered. Another problem is
that the patient is unconscious while under the anesthesiologist’s care.
Thus, the preoperative and postoperative visits with the patient are often
the only opportunities to establish a good relationship with the patient.
Family members should also be included during these meetings with
patients (provided the patient does not object), particularly during the
postoperative visit if there has been an intraoperative complication.
2. Adequacy of Informed Consent: Rendering care to a competent patient
who does not consent constitutes assault and battery. Consent is not
enough, however. The patient should be informed of the contemplated
procedure, including its reasonably anticipated risks, its possible
benefits, and the therapeutic alternatives. The physician may be liable
for a complication—even if it is not due to the negligent performance of
a procedure—if a jury is convinced that a reasonable person would have
refused treatment if properly informed of the possibility of the
complication. This does not mean, of course, that a documented consent
relieves from liability physicians who violate the standard of care.
3. Quality of Documentation: Careful documentation of the perioperative
visits, informed consent, consultations with other specialists,
intraoperative events, and postoperative care is essential. The viewpoint
of many courts and juries, reinforced by plaintiff’s attorneys, is that “if it
isn’t written, it wasn’t done.” It goes without saying that medical records
should never be intentionally destroyed or altered.

GUIDELINES
http://www.asahq.org/quality-and-practice-management/standards-and-
guidelines
https://www.asra.com/advisory-guidelines/article/1/anticoagulation-3rd-edition
Fleisher LA, Fleischmann KE, Auerbach AD, et al. American College of
Cardiology; American Heart Association. ACC/AHA guideline on
perioperative cardiovascular evaluation and management of patients
undergoing noncardiac surgery: A report of the American College of
Cardiology/American Heart Association Task Force on practice guidelines. J
Am Coll Cardiol. 2014;64:e77.
Horlocker TT, Wedel DJ, Rowlingson JC, et al. Regional anesthesia in the
patient receiving antithrombotic or thrombolytic therapy: American Society