A recent study in Washington found that only
67% of serious drug interactions resulted in a
correct warning from a pharmacy computer system
designed to warn of significant drug
interactions.(1)
Causes contributing to harmful drug–drug
interactions include narrow therapeutic dosage
ranges associated with certain drugs and a
patient’s disease state . For example, patients with
epilepsy have increased chances of drug
interaction, compared with those with other
disease states.(2)Several antiepileptic
agents—such as phenytoin, carbamazepine, and
valproic acid—have narrow therapeutic indexes.
Thus, there is little room for error when using
these drugs. Compromised renal function or
changes in the cytochrome P-450 enzymes also can
increase the risk of experiencing a severe
adverse drug event. Clearly, it is important for
pharmacists to recognize and understand which
drug interactions can result in significant
patient harm. Understanding the pharmacokinetics
and pharmacodynamics responsible for these
significant interactions strengthens the
pharmacist’s chances of identifying dangers and
preventing patient harm. This article focuses on
10 prevalent and potentially fatal drug
interactions, listed in Table 3.
Fluoxetine and
Phenelzine
The interaction can
result in a central serotonin syndrome.(3)This
condition is characterized by mental status
changes, agitation, diaphoresis, tachycardia,
and death. These symptoms can develop quickly
with only 1 or 2 doses of fluoxetine when
combined with phenelzine. Serotonin syndrome is
possible with any monoamine oxidase inhibitor
(MAOI), such as phenelzine or tranylcypromine
sulfate, in combination with any drug that
increases serotonin levels, such as
dextromethorphan, meperidine, and other
selective serotonin reuptake inhibitors
(SSRIs).(3)It is recommended that fluoxetine be
stopped for at least 5 weeks before an MAOI is
prescribed because of the long half-life of
fluoxetine and its primary metabolite,
norfluoxetine. Also, 2 weeks should be allowed
after discontinuation of an MAOI before starting
SSRI treatment.(3)
Digoxin and
Quinidine
This significant drug
interaction has been known for a long time, yet
it continues to be a problem, often with
devastating results. The interaction can lead to
a marked increase in plasma concentration levels
of digoxin in more than 90% of
patients.(4)Significant changes in serum digoxin
are noticed within 24 hours. The average
increase is roughly 2-fold.(5)The effects from
this interaction range from nausea and vomiting
to death. The primary mechanism for this
interaction is a decreased volume of
distribution of digoxin, secondary to its
displacement from binding sites in body
tissues.(4)Quinidine also decreases renal and
nonrenal excretion rates of digoxin, which leads
to increased steady-state concentrations of the
cardiac glycoside.(4)Ideally, patients taking
digoxin should avoid the use of quinidine;
however, if the combination is necessary, the
patient should be closely watched. Pharmacists
should anticipate the need to reduce the digoxin
dose by one half.(4)
Sildenafil and Isosorbide
Mononitrate
Sildenafil may
markedly increase the hypotensive effects of
isosorbide mononitrate.(6)More than 123 deaths
have been reported since 1998, when sildenafil
was made available in the United States.(6)Most
deaths were among patients with 1 or more risk
factors, including obesity, hypertension, and
cigarette smoking. Sildenafil was developed as a
phosphodiesterase-5 (PDE5) inhibitor. In the
presence of PDE5 inhibitors, nitrates can cause
intense increases in cyclic guanosine
monophosphate and dramatic drops in blood
pressure.(7)Patients taking isosorbide
mono-nitrate or any nitrate, including
nitroglycerin, should be advised not to take
sildenafil.
Potassium Chloride and
Spironolactone
This is another
significant drug interaction that has been known
for a long time. The combination may result in
hyperkalemia.(8)The resulting hyperkalemia can
be serious and may lead to cardiac failure and
death. Patients with renal impairment are
especially prone to this effect. Spironolactone
is a competitive antagonist of mineral
corticoids, of which aldosterone is a potent
example.(9)This mechanism occurs in the kidney
at the distal portion of the nephron and leads
to the excretion of sodium ions while saving
potassium ions.(9)Patients receiving
potassium-depleting diuretics, such as amiloride
or triamterene, may also experience this
interaction. These diuretics can interact with
all absorbable forms of potassium—bicarbonate,
citrate, acetate, gluconite, and iodide
salts.(9)Severe hyperkalemia is dangerous, and
thus patients who are prescribed spironolactone
must undergo an evaluation of serum potassium
levels.(9)
Clonidine and
Propranolol
The combination may
produce a mysterious hypertension that is
unrelated to the pharmacology of either agent
when administered independently.(8)A sudden
withdrawal of clonidine from adjunctive therapy
with propranolol may cause fatal rebound
hypertension.
Clonidine is a central
alpha-2 adrenergic agonist that suppresses the
sympathetic nervous system from the
brain.(10)This activity leads to a decrease in
the norepinephrine amounts available in the
synaptic cleft of the adrenergic neuron. Alpha-1
receptors then become sensitized because of less
norepinephrine available in the cleft.(10)When
clonidine is suddenly withdrawn, the result is a
large increase in norepinephrine in the synaptic
cleft of the adrenergic neuron. The sensitized
alpha-1 receptors are stimulated, leading to an
exaggerated vasoconstriction. The body cannot
compensate for this response because the beta-2
receptors are blocked when a patient is
concurrently taking propranolol. Within 24 to 72
hours, a dramatic rebound hypertension is
noticed.(9)
Warfarin and Diflunisal
Nonsteroidal anti-inflammatory drugs
(NSAIDs), such as diflunisal, have been shown to
increase the risk for gastrointestinal (GI)
bleeding and the anticoagulant response of
war-farin.(5)Other NSAIDs—such as keto-profen,
piroxicam, sulindac, diclo-fenac, and
ketorolac—have been shown to have similar
interactions with warfarin. In most patients,
however, indomethacin has little effect on
hypothrombinemic response.(5)Because the
interaction between warfarin and diflunisal can
lead to GI bleeding or even fatal hemorrhaging,
an alternative to diflunisal is suggested.
Acetaminophen is the alternative of choice. Yet,
if an NSAID is needed, nonacetylated
salicylates—such as magnesium salicylate or
salsalate—are safer because of minimal effects
on platelets and gastric mucosa.(5)
Theophylline and
Ciprofloxacin
Concurrent
administration may lead to toxic increases in
theophylline.(11)This problem occurs because the
hepatic metabolism of theophylline is inhibited
by ciprofloxacin via the cytochrome P-450 enzyme
system. Theophylline is metabolized by CYP1A2
and to a lesser extent by CYP3A4. Ciprofloxacin
and other drugs, including clarithromycin,
erythromycin, fluvoxamine, and cimetidine, are
all potent inhibitors of CYP1A2. Because they
have little effect on CYP1A2, levofloxacin or
ofloxacin should be considered as an alternative
to ciprofloxacin.(5)Theophylline toxicity is a
serious condition; several deaths have been
linked with serum concentrations as low as 25
mcg/mL.(11)Signs of theophylline toxicity
include headache, dizziness, hypotension,
hallucinations, tachycardia, and
seizures.(11)
Pimozide and
Ketoconazole
Pimozide alone can
prolong the QT interval, and it has been linked
with ventricular arrhythmias (torsades de
pointes).(5)When pimozide is combined with
ketoconazole, the combination can be deadly.
Pimozide is a CYP3A4 enzyme substrate, and
ketoconazole is a potent inhibitor of CYP3A4.
This leads to marked increases in pimozide serum
levels.(5)Other drugs—such as itraconazole,
clarithromycin, erythromycin, diltiazem, and
nefazodone—are also potent inhibitors of CYP3A4
and should not be administered with
pimozide.(5)Fluconazole is weaker, but in larger
doses it also inhibits CYP3A4. Terbin-afine is a
safer choice because it does not affect
CYP3A4.(5)
Methotrexate and
Probenecid
When probenecid is
administered with antineoplastic doses of
metho-trexate, the result can be a 2- to 3-fold
increase in methotrexate levels.(5)Probenecid
acts as an active tubular secretion inhibitor
and prevents methotrexate from being excreted,
thus potentially causing toxicity. The symptoms
of severe methotrexate toxicity include
diarrhea, vomiting, diaphoresis, and renal
failure, and it may result in death.(9,12)This
interaction with methotrexate also occurs with
penicillins (eg, amoxicillin, carbeni-cillin)
and salicylates.(5)The risk with low-dose
methotrexate (commonly used for arthritis) is
lower; in fact, NSAIDs in combination with
low-dose methotrexate are often prescribed
purposely.(5)
Possible alternatives include aceta-minophen,
as opposed to salicylates or NSAIDs. Celecoxib
does not affect methotrexate pharmacokinetics
and could be an alternative. However, rofecoxib
produces some increases in methotrexate serum
concentrations and therefore should be
avoided.(5)
Bromocriptine and
Pseudoephedrine
The interaction can
lead to severe peripheral vasoconstriction,
ventricular tachycardia, seizures, and possibly
death.(5,13)Bromocriptine is an ergot-derived
dopamine agonist with several uses, including
antiparkinsonian therapy. New treatment
guidelines for Parkinson’s disease recommend a
first-line therapy change from levodopa to
bromocriptine or other dopamine agonists, such
as ropinirole, pramipexole, or
pergolide.(14)Notable side effects of
bromocriptine include thickening of bronchial
secretions and nasal congestion.(11)This is
significant because it increases the likelihood
of a patient taking bromocriptine to
self-medicate with an OTC decongestant such as
pseudoephedrine. Patients receiving
bromocriptine should be advised to avoid all
sympathomime-tics.(5)
Discussion
The mission of
pharmacy practice is to help patients make the
best use of their medication. This means
providing safe, effective, timely, and
cost-conscious therapy. From the safety
viewpoint, the pharmacist has the legal duty to
warn about potentially harmful drug
interactions.(15)The warning should be directed
to the prescribing physician in a manner that
will increase the chances of avoiding the drug
interaction.
For a list of references, send a stamped,
self-addressed envelope to: References
Department, Attn. D. Campagnola, Pharmacy Times,
241 Forsgate Drive, Jamesburg, NJ 08831; or send
an e-mail request to: dcampagnola@mwc.com.
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