Analgesic & Anti-inflammatory Drugs PDF

Summary

This document is a collection of lecture notes about analgesics and anti-inflammatory drugs. The content provides an overview of the different drug types and their uses for pain relief, addressing objectives and core concepts. It also touches upon implications for nursing practice. Additional details cover various considerations for patient care.

Full Transcript

ANALGESICS
& Anti-Inflamatory Drugs
p.403
OBJECTIVES
A. Drug treating severe pain.
1. Describe the core drug knowledge such as pharmacokinetics,
pharmacodynamics, pharmacotherapeutics, adverse effects and
drug interactions.
2. Describe nursing interventions to maximize therapeutic effects
and minimize adverse effects of drugs
3. Determine key points for patient and family education for drugs.
4. Integrate critical thinking skills in drug administration.
5. Educate patients and families safe utilization, risks, and
precautions of drug administration
 DRUGS TREATING SEVERE PAIN

Morphine/Naloxone
Codeine.
PAIN MANAGEMENT

Pain therapy are used to;

✓ Correct the pathophysiology causing pain; nitroglycerin
(vasodilator)
✓ Decrease the pain response itself; (morphine after
surgery).
✔ Preventing pain easier than decreasing pain.
✔ Easier to treat pain at lower level then in severe level.
 PAIN DRUGS
1. Opioid Analgesics :Acts on CNS to interfere with pain
experience

2. NSAIDs 3. Adjunct analgesics.

Acts in peripheral nervous Drug used secondarily to
system, used to treat mild to relieve the pain.
moderate pain.
Eg: antidepressant,
Eg: Ibuprfen , Ponstan corticosteroids, antiepileptic.
(Diclofenac sodium)

Nonpharmacologic technique; relaxation therapy, music, exercise
 Core Drug Knowledge: Morphine

Pharmacotherapeuics Pharmacodynamics
Pharmacokinetics

Moderate to severe Onset: 15-30mts known as agonist that
acute and chronic Duration: 3-7 h works on 3 opiate
pain, post & pre Half life: 1.5- 2 h receptor sites (mu,
operation sedation, kappa and delta )
MI, Pulmonary Metabolism – Liver &
gut wall It reduces the release of
edema , dyspnea
neurotransmitters in the
Excretion – urine, presynaptic space and
stool & breast milk produces
IM, SC, IV , epidural,
Crosses the placenta, hyperpolarization of
rectal, oral
secreted in breast postsynaptic dorsal
milk horn neurons
 Hypersensitivity
Preexisting respiratory depression
Acute or severe bronchial asthma
Upper airway obstruction
Heart failure secondary to chronic lung disease
Contraindication Cardiac arrhythmias
During labor, premature infant.
Increase intracranial or cerebrospinal pressure
Head injury
Brain tumor

Avoid use morphine in the following conditions:
In premature infants
During convulsions
& Precautions patients receiving other CNS depressants
Older patients
Patients with renal or hepatic impairment
Patients who are sensitive to CNS effects
 Respiratory depression
Apnea
Respiratory & cardiac arrest
Constipation
Adverse Cardiac arrest
Effects Shock
Urinary retention
Bradycardia , hypotension,
Nausea and vomiting
Sweating

It may interact with any other CNS Depressant that may produce
Drug additive adverse effect
Interactions Causes respiratory & CNS depression if is given with barbiturate,
Monoine oxidase inhibitor, cimitedine, clomipramine amitriptyline.
 Assessment of Relevant Core Patient Variables
Assess for respiratory depression
Assess for history of hypersensitivity
Assess for current alterations in health status that place the patient at risk for
increased CNS depression; renal, hepatic pulmonary disease, hypothyroidism,
Addison disease.
Health Status Before administration, perform physical examination.
Assess for the presence and severity of pain.

Assess for characteristics related:
Age (to avoid respiratory depression & hypotension)
Pregnancy (category C, can cause fetal dependency).
Life Span & Labor (cause fetal respiratory depression & psychophysiological
Gender effect)
Lactation
 Assessment of Relevant Core Patient Variables

Tolerance; who receive for long time need more doses(cancer pt) &
drugs addict.
Dependence: withdrawal syndrome when morphine discontinued.
Lifestyle, Diet, Addiction; compulsive use of the drug not for pain relive
& Habits

IV, IM, SC morphine should be given in clinical settings under observation.
Culture and inherited traits
Environment Refer to your text book at page 414-415.
 Planning & Intervention
A. Maximizing Therapeutic Effects
Assessment of pain; using pain assessment tools.
It is more effective when it is administered before the level. of pain becomes severe , give around the clock!
B. Minimizing Adverse Effects
Breakthrough pain and incidental pain may occur during
pain management with drug therapy
All patients being treated for pain need access to rescue
doses (bolus) for breakthrough pain. It should be
equianalgesic to 10%- 30% of the dose the patient receives in
24 hours and is added to the established pain management.
Minimize adverse effect of the morphine: refer to Box 23.4,
p. 418

Ongoing Assessment &
Evaluation.
Patient education: p. 419
NALOXONE (NARCAN)

Opioid antagonists
It is believed to antagonize the effects of narcotics by competing for opioid
receptor sites
It is used to reverse the effects of opiates and to treat opioid overdose
It can used in adults, children and neonates
It can be administered by the IM, SC or IV route
The most rapid onset is achieved with IV and it is within 2 minutes
 NALOXONE (NARCAN)

Careful monitoring of the patient beyond initial response is
necessary because the duration of action of the narcotic
agonist may be longer than the duration of naloxone
The patient may relapse into respiratory arrest or
depression
 2. MILD NARCOTIC AGONISTS: Codeine

Pharmacotheraputic
Codeine: used to control mild to moderate pain in adults and
children

Orally it may be combined with acetaminophen or with NSAIDs for
better control of post operative pain
It is used for cough suppression and it can be used alone, in the
form of oral tablets or in combination with other drugs that are
expectorants

PHARMACOKINETICS

Codeine is well absorbed from the GI tract
Its peak effect occurs in 1-2 hours
It is metabolized in the liver and is excreted in the urine
It cross the placenta and is secreted in breast milk
 2. MILD NARCOTIC AGONISTS: Codeine

PHARMACODYNAMICS

Codeine has pharmacologic effects similar to those of morphine but its actions are
milder
It acts at specific opioid receptors in the CNS to produce analgesia, euphoria and
sedation
Acts directly on the medullary cough center to depress the cough reflex
It has a drying effect on mucous membranes and can increase the viscosity of
respiratory tract secretions
CONTRAINDICATIONS ADVERSE EFFECTS

Avoid combination with other narcotics. As a cough suppressant: drowsiness,
caution in patients who need to cough to sedation, dry mouth, nausea , vomiting and
maintain the airways constipation

caution in patients with pre-existing cardiac As an analgesic: similar to those of
disease because of its potential to induce morphine but less severe
bradycardia and peripheral vasodilation Allergic reactions: rashes and urticaria
caution during pregnancy and lactation have been noted in highly sensitive people

Caution when used for patients who have Respiratory and cardiovascular effects:
experienced a head injury or undergone a have occurred with higher doses
craniotomy (increase intracranial pressure)
 Assessment of Relevant Core Patient Variables

Assess pt who need to keep their airway patent, should not receive codeine
(post operative, asthma, emphysema ).
Health Status Obtain baseline assessment.
Assess liver function.

Elderly (low dose is advised) , risk for respiratory depression
Life Span infant , risk for respiratory depression
& during labor, can effect the infant
Gender

Patients must refrain from these activities until the drug’s sedative effects
are assessed. (no activities, no driving)
Patient & family education
Environment Refer to text book p. 424
 Maximizing Therapeutic Effects Minimize side effect

Assessment of pain; using pain Safety precautions; side rail up,
assessment tools.
assist in walking.

Monitor respiratory status.
It is more effective when it is
administered before the level of pain Should be avoided in pt who need
becomes severe , give around the
clock! strong cough reflex.
 Anti-Inflammatory Drugs

Prepared by Edited by:

Habiba AL Manji, RN, MSN Fathi Al abri RN, APN ( EM )
 Objectives
B. Drug treating mild to moderate pain, fever, inflammation & migraine headache.
1. Describe the core drug knowledge such as pharmacokinetics, pharmacodynamics,
pharmacotherapeutics, adverse effects and drug interactions.
2. Describe nursing interventions to maximize therapeutic effects and minimize
adverse effects of drugs
3. Determine key points for patient and family education for drugs.
4. Integrate critical thinking skills in drug administration.
5. Educate patients and families safe utilization, risks, and precautions of drug
administration
 Anti inflammatory Drugs

Drugs treating Mild to Moderate Pain, Fever, Inflammation and Migraine Headache
1. Aspirin
2. Ibuprofen
3. Acetaminophen
4. Sumatriptan
Drug Treating Rheumatoid Arthritis and Gout
1. Methothrexate
2. Etanercept
3. Colchicine
4. Allopurinol
Drugs Treating Mild to Moderate Pain, Fever,
Inflammation and Migraine Headache

Fever, inflammation and pain are symptoms of acute illness.
Inflammation and pain can be symptoms of chronic diseases
such as arthritis and gout
Inflammation may induce intense pain called migraine
headache
Drugs Treating Mild to Moderate Pain, Fever, Inflammation and
Migraine Headache

Fever, inflammation and pain commonly are
treated with:
Nonsteroidal anti-inflammatory drugs
(NSAIDs) or para-aminophenol derivative
drugs.
Migraine headaches treated with
serotonin-selective agonists called triptans or
antimigraine agents.
Non Steroidal Anti- Inflammatory Agents

They are grouped by chemical classes: propionic acids, acetic
acids, fenamates, oxicams and COX-2 inhibitors
They all inhibit COX and prostaglandin synthesis
All NSAIDs regardless of their preference for COX -1 or COX- 2
carry a Black Box warning stating that it increases the risk of
MI and stroke
NSAIDs
NSAIDs
 Nonsteroidal Anti-inflammatory Drugs
(NSAIDs): Acetylsalicylic acid (Aspirin)

Systemic class/ classification:
Nonsteroidal Anti-inflammatory
Drugs (NSAIDs) - Salicylates
Prototype: Acetylsalicylic acid
(Aspirin)
Drug therapy in Nursing
textbook P. 436-441
 Core drug knowledge Salicylates
Acetylsalicylic acid (Aspirin)

Pharmacotherapeutic:
Mild to moderate pain related to inflammation; arthritis, RA.
Relieve headache, myalgia, arthralgia, dental or oral surgery pain
Fever
Treating pericarditis in patients with SLE
It useful in preventing MI, Transient Ischemic Attack (TIAs) and CVA
The maximum recommended daily dose is 4 gm
Pharmacodynamics: Acetylsalicylic acid (Aspirin)

1. Antipyretic effects: inhibit PGE2 synthesis in the
hypothalamus.
2. Anti- inflammatory action: inhibit prostaglandin synthesis.
3. Analgesic effects: Inhibit COX2 result in decrease
production of prostaglandin.
4. Antiplatelet action: irreversible inhibition of thromboxane
A2, prostaglandin that induces platelets aggregation.
Pharmacokinetics: Acetylsalicylic acid (Aspirin)

Absorption: within 30 minutes in the stomach but most of it
is absorbed in the small intestine.
Cross through the milk & placenta.
Metabolized into salicylate and other metabolites by the
liver.
Half life : 15 minutes whereas half life of salicylate is 2 hours
Execration: kidneys
Contraindications: Acetylsalicylic acid (Aspirin)

Salicylate hypersensitivity
Peptic ulcer or bleeding disorders
Anticoagulation therapy
Pregnancy, labor & breast feeding.
Gout and those with renal or liver impairment
In children with varicella or flu- like illness because it is associated
with the occurrence of Reye Syndrome
Smoker and alcohol abuse
Precautions: Acetylsalicylic acid (Aspirin)

Aspirin should be given with caution to patients with:
Asthma
Nasal polyps
Hyperuricemia
Older than 60 years
Those on corticosteroids
 Adverse Effects: Acetylsalicylic acid (Aspirin)

Salicylism (mild aspirin toxicity), headache, dizziness, tachypneic, GI distress.
Salicylate poisoning: life threat condition treated with gastric lavage & activated charcoal.
GI system effects; ulceration bleeding, nausea, vomiting.
Hypersensitivity reactions
Ototoxicity (tinnitus)
Excessive or abnormal bleeding
Hepatotoxicity
Acute Renal Failure (ARF)
Decrease uric acid excretion lead to gout.
 Nursing Care Management: Acetylsalicylic acid
(Aspirin)
Maximize Therapeutic Effect.
Give with milk or food, why?
Use uncoated aspirin with cardiovascular disease – think bioavailability &
antiplatelet effects greater.
Minimize Adverse Effect.
Check CBC, platelet count, liver & renal function test.
Assess for pre-existing medical condition
Use PPI to prevent stomach ulcer.
 Health Education: Acetylsalicylic acid (Aspirin)

What health education will you consider?
Check P. 440-441
Memory Chip P. 441
 Nonsteroidal Anti-inflammatory Drugs
(NSAIDs): Ibuprofen

Systemic class/ classification:
Nonsteroidal Anti-inflammatory
Drugs (NSAIDs) - prostaglandin
synthetase inhibitors
Prototype: Ibuprofen
Drug therapy in Nursing
textbook P. 443-447
 Pharmacodynamics: Ibuprofen

Inhibit the synthesis or release of prostaglandins
As an analgesic: it has peripheral rather than a central action
Anti-inflammatory effect: required higher doses than for
analgesic
Anti-pyretic activity may be the result of action on the
hypothalamus leading to increase peripheral blood flow,
vasodilation and heat dissipation
Contraindications and Precautions: Ibuprofen

Contraindication:
Patients with a history of or active GI disease
Use before or after a coronary artery bypass graft procedure
Cautions:
Patients with pre-existing cardiovascular/ cerebrovascular
disorders/ hepatic, renal or hematopoietic dysfunction PLUS age
more than 60 years
 Adverse Effects: Ibuprofen

Serious adverse effects (black box warning): serious and
potentially fatal cardiovascular thrombotic events
GI effects (black box warning): Nausea, vomiting, diarrhea,
constipation, flatulence, and abdominal pain
The most serious adverse effects peptic ulcer disease or gastritis
Renal system – Acute renal failure
Hepatic and renal toxicity
Excessive bleeding in hemophilic patients
 Assessment of Relevant Core Patient Variables

Health Status
Assess for a history of MI or stroke.
Assess for GI ulcer
Assess for ototoxicity
Obtain a baseline CBC, platelet count, and test results of renal and
hepatic function.
 Assessment of Relevant Core Patient Variables

Life Span and Gender
Not to be given to pregnant woman
Caution to patients older than 60 years
Lifestyle, Diet, and Habits
Don’t take OTC medications
Assess for alcohol or drug abuse
Assess the patient for a history of cigarette smoking
 Assessment of Relevant Core Patient Variables

Environment
Ibuprofen may be self-administered at home or given
in any health care setting.
 Nursing Care Management: Ibuprofen

Maximize Therapeutic Effect.
Give with milk or food, why?
Minimize Adverse Effect.
Check CBC, platelet count, liver & renal function test (long term therapy)
Assess for pre-existing medical condition
Administer misoprostol to patients at high risk for developing gastropathies
What health education will you consider? P. 446-447
Memory Chip P. 447
Health Education: Acetylsalicylic acid (Aspirin)

What health education will you consider?
Check P. 440-441
Memory Chip P. 441
 Nonsteroidal Anti-inflammatory Drugs
(NSAIDs): Acetaminophen (Tylenol)

Systemic class/
classification: Nonsteroidal
Anti-inflammatory Drugs
(NSAIDs) -
para-aminophenol derivative
Prototype: Acetaminophen
(Tylenol)
Drug therapy in Nursing
textbook P. 449- 451
Pharmacokinetics: Acetaminophen (Tylenol)

Acetaminophen (Tylenol) is widely used analgesic and
anti-pyretic
Used for patients with hypersensitivity to aspirin or NSAIDs
The recommended dose in 24 hours is 4 gm in adults
200 mg/ kg or 10 g/d in children
It can be administered by oral, rectal and IV routes
Pharmacokinetics: Acetaminophen (Tylenol)

It is absorbed rapidly and completely from the GI tract or
rectal mucosa
It is metabolized in the liver into nontoxic substances and
eliminated by the kidneys
It is crosses the placenta and is secreted in breast milk
Children metabolize less of the drug
Pharmacodynamics: Acetaminophen (Tylenol)

It is centrally acting has no effects on platelet
aggregation.
Analgesic effect: inhibit prostaglandin synthesis in CNS
Antipyretic activity: inhibit prostaglandin synthesis in
CNS= hypothalamus produce vasodilation=increase
blood flow=sweating=heat loss.
 Contraindications and Precautions:
Acetaminophen (Tylenol)
Contraindication: Precautions/ Cautions:
Active hepatic disease & viral Patients with pre-existing
hepatitis, anemia
Chronic malnutrition Patients who take warfarin
Severe hypovolemia or In pregnant or lactating
alcoholism women
Renal impairment
 Adverse Effects: Acetaminophen (Tylenol)

It is well tolerated in general
Most adverse effects occur when the drug is taken in high doses or
for prolonged periods
Hepatotoxicity and hepatic necrosis
Renal toxicity and it may cause Acute Renal Failure (ARF)
Overdose of acetaminophen is potentially fatal and emergency
The patient must receive treatment in an acute care facility and
should be managed with the used of acetylcysteine as an antidote
 Assessment of Relevant Core Patient Variables

Health Status
Assess for pre-existing medical conditions or drug therapy that
contraindicates using acetaminophen.
Document baseline CBC, platelet count, and renal and hepatic function
values.
 Assessment of Relevant Core Patient Variables

Life Span and Gender
Elderly patients are more likely to develop hepatic and renal toxicity
because of age-related decreases in hepatic and renal function.
Acetaminophen is the drug of choice for pregnant women because it
does not have any antiplatelet activity.
 Assessment of Relevant Core Patient Variables

Lifestyle, Diet, and Habits
Inquire about the patient’s use of OTC drugs because many of these
products contain acetaminophen as an ingredient.
Assess for alcohol or drug abuse because the patient.
 Assessment of Relevant Core Patient Variables

Environment
Acetaminophen is self-administered easily at home
without medical supervision.
Nursing Care Management: Acetaminophen
(Tylenol)
Maximize Therapeutic Effect.
With or without regard to food
Monitor for therapeutic effects
Minimize Adverse Effect.
Check CBC, platelet count, liver & renal function test (long term therapy)
Assess for pre-existing medical condition that contradicts given tylenol
Overdosage: treat with anti-dote, acetylcysteine orally or IV (15 minute infusion)
What health education will you consider? P. 451
Memory Chip P. 451
 Nonsteroidal Anti-inflammatory Drugs
(NSAIDs): Sumatriptan

Systemic class/ classification:
Nonsteroidal Anti-inflammatory
Drugs (NSAIDs) -
Serotonin-selective agonists
Prototype: Sumatriptan
Drug therapy in Nursing textbook
P. 452-455
 Pharmacokinetics: Sumatriptan

Administered orally, intranasally or S/C
When administered orally pain relief begins within 1 hour and
complete pain relief occurs within 4 hours in 50%- 60% of patients
When administered Intranasally absorption is rapid; the onset of
action is 15 minutes
When administered S/C onset of pain relief occurs within 10 minutes
It is metabolized in the liver and excreted by the kidneys
 Pharmacotheraputics: Sumatriptan

Used to relieve pain and inflammation related to migraine
headache
They also known as a triptans and considered first line drugs
for the treatment of acute migraine headache.
Sumatriptan is used to treat acute migraine headache with or
without aura and to manage cluster headache.
Sumatriptan (Imitrex) is the first 5- HT agonist approved in US
 Pharmacodynamic: Sumatriptan (Imitrex)

Pharmacodynamic
 Contraindications and Precautions: Sumatriptan
(Imitrex)

Contraindication:
Coronary artery disease (CAD)
Arteriosclerosis
Ischemic cardiac diseases such as uncontrolled hypertension, angina
pectoris—especially vasospastic angina—and acute MI
 Adverse Effects: Sumatriptan (Imitrex)

Coronary artery vasospasm
Cardiac dysrhythmias such as ventricular tachycardia, or
ventricular fibrillation,
Angina & myocardial ischemia (including MI), and cardiac arrest
 Assessment of Relevant Core Patient Variables

Health Status
Assess the characteristics of the headache, including location, quality,
intensity, and presence or absence of an aura.
Take a careful patient history, focusing on cardiovascular
and cerebrovascular disorders or diseases.
Question patients with diabetes mellitus, hypertension,
hypercholesterolemia, or obesity for signs and symptoms that may suggest
CAD.
Evaluate available laboratory tests, especially liver and renal function tests.
 Assessment of Relevant Core Patient Variables

Life Span and Gender
Evaluate female patients for pregnancy, breast-feeding, or
menopausal symptoms. there is no evidence that establishes that
sumatriptan is a human teratogen.
Postmenopausal women and men older
than 40 years should have a cardiovascular workup before
receiving sumatriptan, to rule out the potential for CAD.
 Assessment of Relevant Core Patient Variables

Lifestyle, Diet, and Habits
Identify trigger factors that may be part of the patient’s
lifestyle.
Evaluate the patient for a history of smoking
tobacco because smoking is a risk factor for the development
of CAD.
Environment
Sumatriptan is routinely given in the outpatient area.
Nursing Care Management: Sumatriptan (Imitrex)

Maximize Therapeutic Effect.
Administer sumatriptan as soon as the headache begins
Decrease environmental stimuli during migraine attack
Minimize Adverse Effect.
Cardiovascular assessment
Monitor for signs and symptoms of vasospasm and allergy
Use aseptic technique when administering subcutaneously
What health education will you consider? P. 455
Memory Chip P. 455
 Drug Treating Rheumatoid Arthritis and
Gout

1. Methothrexate
2. Etanercept
3. Colchicine
4. Allopurinol
 Disease-Modifying Antirheumatic Drugs
(DMARDs): Methotrexate

Systemic class/ classification:
Disease-Modifying Antirheumatic
Drugs (DMARDs)
Prototype: Methotrexate
Drug therapy in Nursing
textbook P. 464- 469
Pharmacotherapeutic & Pharmacokinetics: Methotrexate

Pharmacotherapeutic:
Malignancies, head & neck ca, lung & breast cancer , adult & juvenile RA &
psoriasis.
Used as monotherapy or in combination with glucocorticoid steroids, NSAIDs, or
other DMARDs to decrease the symptoms of RA.
Pharmacokinetics:
Oral
Metabolism: liver
Excretion: kidney.
 Pharmacodynamics
Methotrexate

Immunosuppressive effect: inhibit the replication & function
of T lymphocyte that stimulate release of cytokines.
Inhibit purine synthesis which result in DNA, RNA & protein
synthesis arrest.
Adverse Effects: Methotrexate

Stomatitis and oral ulcers
Mild alopecia
Headache
Fatigue
Hepatic cirrhosis
Pneumonitis.
Myelosupression.
Contraindications and Precautions: Methotrexate

Immunosuppression
Impaired bone marrow
During pregnancy and lactation
Chronic liver disease
Malnutrition & ulcerative colitis
Blood dyscrasias
 Nursing Care Management: Methotrexate

Maximizing therapeutic effects: remain hydrated (avoid nephrotoxicity),
encourage pt to continue taking the drug even if not yet has effect.
Minimizing adverse effects: Take vitamin B (folic acid), 5 mg every day, protect
from sun exposure; allopurinol solution as mouthwash (mouth ulcer).
Most important patient education: Substantial (extensive) adverse effects may
occur. Be sure to contact the health care provider if they occur.
Black box warning: See Box 25.2
Memory Chip: P. 469
Tumor Necrosis Factor Inhibitors: Etanercept

Systemic class/ classification:
Tumor Necrosis Factor
Inhibitors
Prototype: Etanercept
Drug therapy in Nursing
textbook P. 471- 474
 Pharmacotherapeutic & Pharmacokinetics:
Etanercept (Abatacept)

Disease-modifying antirheumatic drug (DMARD) used in combination
with methotrexate to decrease the progression of RA.
Pharmacotherapeutic:
RA, active polyarticular-course juvenile idiopathic RA, psoriatic
arthritis, ankylosing spondylitis & psoriasis.
Pharmacokinetics:
Weekly SC injections. Slow onset.
 Pharmacodynamic
Etanercept (Abatacept)

In RA, TNF (inflammatory mediators) released by T
cells
Bind to circulating TNF, preventing it to bind to TNF
receptors on cell membrane.
 Etanercept (Abatacept)

Major contraindications: immunosuppression, poorly controlled DM, Active
infection, hypersensitivity.
Most common adverse effects: nausea, headache, upper respiratory
infections, injection site reactions
Most serious adverse effects: URT infections, blood
dyscrasias, seizure, injection site irritation.
Maximizing therapeutic effects: rotate site of injection
Minimizing adverse effects: Use aseptic technique, avoid live-virus vaccine,
don’t keep pt with other who have flu symptoms.
 Etanercept (Abatacept)

Most important patient education: high risk for severe infection. Be
sure to contact the health care provider if they occur.
Black box warning: Risk/benefit ratio due to serious infections and
malignancies. Increased risk for lymphoma with children and adolescents
Abatacept is a pregnancy category C drug and not recommended for use
in women who are breast-feeding. It is not approved for use in children.
Memory Chip: 474
 Anti-Gout Drug: Colchicine

Systemic class/
classification: Anti-Gout
Drug - Acute gout
Prototype: Colchicine
Drug therapy in Nursing
textbook P. 476 - 479
 Pharmacokinetics: Colchicine (Colcrys)

Colchicine can be given either orally or intravenously.
Parenteral use is avoided because of potential toxicity.
Colchicine should never be injected subcutaneously or
intramuscularly because such injections cause severe local irritation.
Oral colchicine is rapidly absorbed, metabolized in the liver, and
excreted primarily in the feces.
 Pharmacotherapeutics: Colchicine (Colcrys)

The most common use of colchicine is for treating acute gouty
arthritis and as pre surgical prophylaxis to prevent gout.
A short course of colchicine may be given when uricosuric drug
therapy is initiated to prevent a flare-up of gout symptoms.
 Pharmacodynamics: Colchicine (Colcrys)

Interruption of the inflammatory process by Inhibiting the
activity of leukocytes
Prevent release of glycoprotein from phagocytes.
 Colchicine (Colcrys)

Decreases the inflammatory reaction of acute gout
Major contraindications: severe cardiac, hepatic, or renal diseases
Most common adverse effects: related to Gastrointestinal system
Most serious adverse effects: blood dyscrasias, including bone
marrow suppression
 Contraindications and Precautions: Colchicine
(Colcrys)

Colchicine is contraindicated in patients with:
Severe cardiac disease, hepatic disease, and renal disease because
these patients are at risk for developing cumulative toxicity.
 Adverse Effects: Colchicine (Colcrys)

Most common: GI tract (80%) e.g. nausea, vomiting,
diarrhea, abdominal pain, and paralytic ileus.
Long-term therapy: may depress bone marrow function,
inducing aplastic anemia, pancytopenia, thrombocytopenia,
leukopenia, or agranulocytosis.
 Colchicine (Colcrys)

Maximizing therapeutic effects: adherence to diet (low red meat
& sea food) and alcohol restrictions to reduce hyperuricemia
Minimizing adverse effects: Take colchicine at the first sign of an
attack, then only until the symptoms start to resolve.
Most important patient education: related to diet and alcohol
restrictions
Memory Chip: 479
 Antigout Drugs: Allopurinol

Systemic class/ classification:
Antigout Drugs – Chronic Gout
Prototype: Allopurinol
Drug therapy in Nursing
textbook P. 479 -
 Pharmacotherapeutics: Allopurinol

Management of chronic gout, recurrent calcium renal stones,
and hyperuricemia related to cancer or tumor lysis syndrome.
Prevention of ischemic reperfusion tissue damage and
arrhythmias.
 Pharmacokinetics: Allopurinol

Allopurinol may be administered orally or intravenously.
When given orally, approximately 90% is absorbed.
Hepatic metabolism.
 Pharmacodynamics: Allopurinol

Allopurinol decreases the production of uric acid by inhibiting
the action of xanthine oxidase, an enzyme that converts
hypoxanthine to xanthine and xanthine to uric acid.
xnathine oxidase
Hypoxanthine xnathine uric acid
 Allopurinol

Major contraindications: co administration with drugs that induce
myelosuppression.
Most common adverse effects: pruritus, maculopapular rash, nausea and
vomiting, elevated liver function test values, and acute gout symptoms
Most serious adverse effects: blood dyscrasias, myelosuppression,
hepatic or renal toxicity, exfoliative dermatitis, and Stevens-Johnson
syndrome
 Allopurinol
Stevens-Johns
on syndrome
 Allopurinol

Contraindications and Precautions
The only contraindication to allopurinol is hypersensitivity.
The drug should be given cautiously to patients who cannot sustain a
fluid intake of 2 L/d.
 Allopurinol

Maximizing therapeutic effects: adhere to diet that limits uric acid production
Minimizing adverse effects: Ingest 2.5 to 3 L of fluid daily (prevent renal stone).
Most important patient education: Any rash must be evaluated by the health care
provider and be patient to see effect ( 2-6 weeks at least)
Nursing alert: Many drugs increase the incidence of hypersensitivity that is
potentially fatal.
Memory Chip: 482
Questions