Medical Management PDF

Summary

This document provides an overview of medical management strategies for rheumatoid arthritis. It details the use of disease-modifying antirheumatic drugs (DMARDs), biologics, and other medications, along with considerations for patients with renal impairment. The document also discusses the role of corticosteroids and nonsteroidal anti-inflammatory drugs (NSAIDs) in managing RA.

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Medical Management
The goal of treatment at all phases of the RA disease process is to decrease joint pain and swelling, achieve clinical remission, decrease the
likelihood of joint deformity, and minimize disability. Initial treatment delays have been implicated in greater long-term joint deformity.
Aggressive and early treatment regimens are warranted. The use of a targeted pharmacologic treatment strategy is recommended to
decrease RA disease activity (Singh et al., 2016).

Early Rheumatoid Arthritis
Once the diagnosis of RA is made, treatment should begin with either a nonbiologic or biologic DMARD. The goal of using DMARD therapy
is preventing inflammation and joint damage.
Recommended treatment guidelines include beginning with the nonbiologic DMARDs (methotrexate is the preferred agent but leflunomide,
sulfasalazine, or hydroxychloroquine are also used) biologics, or tofacitinibic within 3 months of disease onset. Care should be used with
each of these medications by performing routine blood testing for liver and kidney function, along with monitoring the CBC for anemia.
Dosage may need to be modified for patients with renal impairment (Comerford & Durkin, 2020).
Another treatment approach for RA is the use of biologic DMARDs. These agents have been specifically engineered to target the most
prominent proinflammatory mediators in RA—TNF-α, B cells, T cells, IL-1, and IL-6 (see Table 34-2). Biologic DMARDs are the first targeted
therapy for RA. Clinical evidence suggests that biologic DMARDs work more quickly and show a greater delay in radiologic disease
progression when compared to nonbiologic DMARDs. The biologic DMARDs are more expensive and have fewer years of usage with the
RA population. Therefore, they tend to be reserved for patients with persistent moderate to severe RA who have not responded adequately
to synthetic DMARDs (Singh et al., 2016).

After initiating treatment with a DMARD, patients generally report a beneficial effect within 6 weeks and tolerate the medication relatively
well. However, some patients may take longer to see improvement. Corticosteroids are recommended as a “bridge” in the early treatment
but are not recommended for long-term therapy due to side effects (Singh et al., 2016).
A newer class of drugs, the Janus Kinase (JAK) inhibitors, bind to the active JAK enzyme sites, inhibiting autophosphorylation and thus
inhibiting cytokine production and decreasing the immune response (Mogul et al., 2019). JAK inhibitors are used in combination with
methotrexate or other nonbiologic DMARDs. They may also be used as monotherapy (Mogul et al., 2019; Singh et al., 2016).
NSAIDs and specifically the cyclo-oxygenase 2 (COX-2) enzyme blockers are used for pain and inflammation relief. NSAIDs, such as
ibuprofen and naproxen, are commonly prescribed because of their low cost and analgesic properties. They must be used with caution,
however, in long-term chronic diseases because of the possibility of gastric ulcers. Several COX-2 enzyme blockers have been approved for
treatment of RA. Cyclo-oxygenase is an enzyme that is involved in the inflammatory process. COX-2 medications block the enzyme
involved in inflammation (COX-2) while leaving intact the enzyme involved in protecting the stomach lining (COX-1). As a result, COX-2
enzyme blockers are less likely to cause gastric irritation and ulceration than other NSAIDs; however, they are associated with increased risk
of cardiovascular disease and must be used with caution (Comerford & Durkin, 2020). The nurse should be aware that NSAIDs do not
prevent erosions or alter disease progression and, consequently, are medications useful only for symptom relief (Singh et al., 2016).
Additional analgesia may be prescribed for periods of extreme pain. Opioid analgesic agents are avoided because of the potential for
continuing need for pain relief. Nonpharmacologic pain management techniques (e.g., relaxation techniques, heat and cold applications) are
taught.
Additional analgesia may be prescribed for periods of extreme pain. Opioid analgesic agents are avoided because of the potential for
continuing need for pain relief. Nonpharmacologic pain management techniques (e.g., relaxation techniques, heat and cold applications) are
taught (Carter et al., 2015).

Arthritis
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Corticosteroids are the most effective drugs for rapid relief of the pain, edema, and restricted mobility associated with acute episodes of
joint inflammation. They are usually given on a short-term basis. When inflammation is limited to three or fewer joints, the preferred route of
drug administration is by injection directly into the joint. Intra-articular injections relieve symptoms in approximately 2 to 8 weeks, and
several formulations are available for this route. However, corticosteroids do not prevent disease progression and joint destruction. As a
general rule, a joint should not be injected more often than three times yearly because of risks of infection and damage to intra-articular
structures from the injections and from overuse when pain is relieved.

Other Drugs in the Class
Health care providers have long used methotrexate (Otrexup, Rasuvo, Trexall, Xatmep) for the treatment of cancer (higher doses), as well as
for the treatment of autoimmune disorders, such as severe rheumatoid arthritis, juvenile rheumatoid arthritis, and severe psoriasis (lower
doses). The use of methotrexate in combination with cyclosporine is the most widely used regimen in the prevention of GVHD after bone
marrow transplantation.
Excretion of methotrexate is mainly in the urine, so the drug’s half-life is prolonged in patients with renal impairment, with risks of
accumulation to toxic levels and additional renal damage. However, the risks are less with the small doses used for treatment of rheumatoid
arthritis than for the high doses used in cancer chemotherapy. To decrease these risks, it is important to document adequate renal function
using the drug. Patients should be well hydrated.
The lower doses of methotrexate used for autoimmune disorders and transplant therapy reduce the incidence and severity of adverse
effects. Oral mucositis can occur with methotrexate therapy, interfering with nutritional intake and contributing to the risk of infection.
However, even in the low doses used in rheumatoid arthritis and psoriasis, methotrexate may cause hepatotoxicity. Prior to and during
therapy, monitoring the CBC, renal function, and liver function is essential. Liver function tests help guide methotrexate dosage. In general,
dosage reduction is warranted if bilirubin is between 3 and 5 mg/dL, or aspartate aminotransferase (AST) is above 180 International Units
per liter, and the drug should be omitted if bilirubin is above 5 mg/dL. Many clinicians recommend serial liver biopsies for patients on longterm, low-dose methotrexate.
Administration of methotrexate is weekly for rheumatoid arthritis or psoriasis, and patients should keep an accurate record of the date and
time of each dose. To reduce gastric upset, they may take the drug with food. However, daily dosing for cytotoxic immunosuppressants
should be consistent with regard to time and food (i.e., at the same time of day, with the same meal).
QSEN Alert: Safety
It is necessary to follow individual manufacturer's instructions for reconstituting and administering IV preparations of methotrexate—in consultation

Leflunomide (Arava), an anti-inflammatory immunosuppressant, is useful only in the treatment of adults with rheumatoid arthritis. Authorities
do not recommend the drug for children younger than 18 years of age. Contraindications include the presence of active hepatitis B or C
infection or if the alanine aminotransferase (ALT) level is greater than two times normal. With leflunomide, hepatotoxicity is a concern;
hence, it is essential to obtain liver function tests before starting therapy. Also, patients should have renal function tests, as well as liver
function tests, every month for the first 6 months then every 6 to 8 weeks thereafter. The FDA has issued a BLACK BOX WARNING for
leflunomide regarding the risk of fetal loss and malformations. Women of childbearing age must use contraception. A negative pregnancy
test for such women of childbearing age is necessary prior to starting therapy. Contraceptive counseling for both genders is recommended
prior to treatment and for several months after stopping treatment.

Tumor Necrosis Factor-Alpha–Blocking Agents
The TNF-alpha–blocking agents act more rapidly than cytotoxic immunosuppressants (e.g., methotrexate) for autoimmune disorders and
greatly improve the quality of life for patients with rheumatoid arthritis and Crohn’s disease. However, their use is also associated with
significant risks of serious infections, especially with opportunistic organisms. Tuberculosis characterized by increased extrapulmonary
and/or disseminated disease may occur. Other serious infections include pneumococcal infections, necrotizing fasciitis, Pneumocystis
pneumonia, and systemic fungal infections such as aspergillosis and cryptococcosis.

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Infliximab (Remicade) is a humanized IgG monoclonal antibody used to treat rheumatoid arthritis and Crohn’s disease. The drug inhibits
TNF-alpha from binding to its receptors and thus neutralizes its actions. Its ability to neutralize TNF-alpha accounts for its anti-inflammatory
effects. Adverse effects of infliximab include formation of autoimmune antibodies and hypersensitivity reactions. Infections reportedly
developed in approximately 21% of patients in clinical trials. In addition, dyspnea, hypotension, and urticaria have occurred.
It is important (1) to administer infliximab in settings in which personnel and supplies (e.g., epinephrine, antihistamines, corticosteroids) are
available for treatment of hypersensitivity reactions and (2) to discontinue the drug if severe reactions occur. The drug may aggravate heart
failure.
Adalimumab (Humira) is a recombinant monoclonal antibody that binds to TNF-alpha receptor sites and prevents endogenous TNF-alpha
from binding to the sites and exerting its injurious effects. Used to treat moderate to severe rheumatoid arthritis, the drug reduces the
elevated levels of TNF-alpha in synovial fluid that are thought responsible for pain and joint destruction. Common adverse effects include
injection site reactions, upper respiratory tract infections, headache, nausea, and skin rash.
Certolizumab (Cimzia), a TNF-alpha monoclonal antibody, has recently received approval for treating refractory Crohn’s disease. As with the
other TNF-alpha blockers, risk of infection and allergic reactions are the major adverse effects of this drug. In addition, caution is advised
when using certolizumab in patients with heart failure. Other common adverse effects include upper respiratory or bladder infection, rash,
GI upset, headache, and injection site reactions.
Etanercept (Enbrel) is a synthetic TNF receptor that binds with TNF and prevents it from binding with its “normal” receptors on cell surfaces.
This action inhibits TNF activity in inflammatory and immune responses. The drug is indicated for the treatment of moderate to severe
rheumatoid arthritis in adults and children. In this condition, the TNF increases in joint synovial fluid are considered important in joint
inflammation and destruction. Etanercept may be effective in combination with methotrexate in patients who do not respond adequately to
methotrexate alone. Common adverse effects include headache, injection site reactions, and infections.
Limited information is available about the use of many of the newer immunosuppressants in children. The FDA has approved three TNFalpha blockers—etanercept, infliximab, and adalimumab—for use in children 4 to 17 years of age who have severe juvenile rheumatoid
arthritis that has not responded to conventional therapy.

Interleukin-Blocking Agents
Anakinra (Kineret) is a recombinant IL-receptor antagonist. The drug binds to the IL-1 receptor and thereby blocks the inflammatory effects
of IL-1. Indications for use include moderate to severe rheumatoid arthritis in adults. It may be used alone or in combination with cytotoxic
immunomodulators but not with TNF-alpha–blocking agents or the fusion protein inhibitor abatacept because of increased risk of infection
when these biologic agents are combined. Common adverse effects include headache, injection site reactions (redness, bruising,
inflammation, pain), infection, nausea, diarrhea, decreased white blood cells, sinusitis, and flulike symptoms.
Alefacept (Amevive) is a monoclonal antibody used to treat moderate to severe psoriasis. This drug binds to receptors on the surface of T
lymphocytes, preventing the receptors from interacting with particular antigens, and thereby inhibiting activation of T lymphocytes.
Common adverse effects include lymphopenia and injection site reactions (e.g., edema, inflammation, pain).
Tocilizumab (Actemra), a humanized monoclonal antibody that blocks IL-6 receptors, recently received approval for use in adults and
children with severe rheumatoid arthritis that has not responded to conventional immunosuppressants. IL-6, an inflammatory cytokine, is
found in higher than normal concentrations in joints of patients with rheumatoid arthritis and contributes to chronic inflammation and joint
destruction in the disorder. Tocilizumab may be combined with methotrexate. Common adverse effects include upper respiratory infection,
hyperlipidemia, hypertension, leukopenia, and elevated liver enzymes. Screening for tuberculosis prior to treatment and monitoring of lipid
levels and liver enzymes every 3 months during therapy is recommended.
Ustekinumab (Stelara) is a monoclonal antibody used to treat psoriasis. It blocks IL-12 and IL-23, reducing the inflammatory response and
overactivity of T cells. Common adverse effects include headache, infection, lymphocytosis, and a first-dose reaction characterized by
chills, fever, muscle aches, and nausea.
Ixekizumab (Taltz) is another monoclonal antibody used to treat adults with moderate to severe plaque psoriasis who are candidates for
systemic therapy or phototherapy. This humanized IgG4 monoclonal antibody selectively binds with the IL-17A cytokine and inhibits its
interaction with the IL-17 receptor. Ixekizumab inhibits the release of proinflammatory cytokines and chemokines.

Fusion Protein Inhibitors
Abatacept (Orencia) is a fusion protein inhibitor synthesized from an IgG antibody fused to a cell protein that binds to antigen-presenting
molecules. This action prevents the activation of T lymphocytes and the production of inflammatory cytokines. It inhibits activation of T
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lymphocytes in synovial membranes of joints affected by rheumatoid arthritis and decreases inflammation and structural joint destruction.
Abatacept may be used alone or with other antirheumatoid arthritis drugs except anakinra and TNF-alpha–blocking agents. Common
adverse effects include dizziness, headache, infections, and nausea. Evidence does not suggest the need for dose adjustment in the
presence of liver or renal disease.
Belatacept (Nulojix), a fusion protein inhibitor, is approved for use in the prevention of acute organ rejection after kidney transplantation. The
drug binds to a receptor protein on antigen-presenting cells and inhibits the costimulatory signal required for T-cell activation. This prevents
T-cell activation and cytokine production, thus reducing the risk of transplant organ rejection. There is an increased risk of lymphoma in
people who develop Epstein-Barr virus infection during belatacept therapy. Because of that risk, the FDA has issued a BLACK BOX
WARNING that limits belatacept use to people who test positive for Epstein-Barr virus prior to transplant. Authorities do not recommend
the drug for use after liver transplant because of increased risk of graft loss and associated mortality. Adverse effects include anemia,
peripheral edema, hypertension, vomiting, diarrhea, constipation, fever, bladder and kidney infection, and leukopenia.

Conventional Antirejection Agents
Cyclosporine (Neoral, Gengraf, Sandimmune), the first antirejection drug used to prevent transplant rejection reactions, is the prototype
antirejection agent. Cyclosporine and related drugs are fungal metabolites with strong immunosuppressive effects. By selectively inhibiting
proliferation of helper T cells and expression of cytokines, these antirejection drugs reduce the activity of other immune cells involved in
graft rejection. Consequently, they are widely used in transplant therapy to prevent or reduce the graft rejection response.

Pharmacokinetics
Absorption of cyclosporine is highly variable. After oral administration, absorption is rather poor. The drug is highly bound to plasma
proteins, and approximately 50% is distributed in erythrocytes, so drug levels in whole blood are higher than those in plasma. Peak plasma
levels occur 4 to 5 hours after a dose. Metabolism of cyclosporine involves the CYP3A4 liver enzyme system, and elimination occurs mainly
in the bile.

Action
Cyclosporine inhibits calcineurin, a protein needed for the synthesis of IL-2 and the subsequent proliferation of T cells and B cells. The drug
binds with calcineurin on T lymphocytes and interferes with the production of IL-2. As previously described, activated T cells produce a
cytokine, IL-2, which, in turn, inhibits signaling through the T-cell receptor. This action activates other lymphocytes, amplifying the immune
response and producing the damaging inflammatory changes in tissue that occur with organ rejection and autoimmune disease.

Use
Health care providers use cyclosporine to prevent rejection reactions and prolong graft survival after solid organ transplantation (e.g.,
kidney, liver, heart, lung) or to treat chronic rejection in patients previously treated with other immunosuppressive agents. The drug inhibits
both cellular and humoral immunity but affects T lymphocytes significantly more than B lymphocytes. With cyclosporine-induced
deprivation of IL-2, T cells stimulated by the graft antigen are unable to multiple and differentiate, and graft organ destruction is inhibited. In
addition to its use in solid organ transplantation, cyclosporine is useful in the prevention and treatment of GVHD, a complication of bone
marrow transplantation. In GVHD, T lymphocytes from the transplanted marrow of the donor mount an immune response against the tissues
of the recipient. Cyclosporine may inhibit donor T-cell activity, reducing the risk of GVHD. Other indications for use include treatment of
psoriasis and rheumatoid arthritis.
Cyclosporine dosing is weight based in both adults and children, with higher doses given immediately before and after the transplant and
then tapered over several months to minimize adverse effects and avoid excessive immunosuppression.

Use in Older Adults
Due to an increased incidence of infection and a greater risk of malignancy, it is necessary to monitor older adults carefully during
antirejection drug therapy. Doses are individualized, considering age, function, and concurrent conditions. More frequent assessment and
therapeutic blood level monitoring are essential in older adults after organ transplantation because of the increased risk of organ toxicity.

Use in Patients With Renal Impairment
Patients with solid organ transplants commonly use cyclosporine, but the risk of nephrotoxicity increases as a result. Clinical studies have
demonstrated that this nephrotoxicity is dose related. To reduce toxicity and increase efficacy, attention must be given to dosage, other
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adverse effects, and potential drug interactions. Monitoring serum blood levels can help reduce this risk, and nephrotoxicity usually
subsides after decreasing the dosage or stopping the drug. In kidney transplant recipients, when serum creatinine and blood urea nitrogen
(BUN) levels remain elevated, an evaluation of the patient and tissue biopsy is often necessary to differentiate cyclosporine-induced
nephrotoxicity from a transplant rejection reaction.

Use in Patients With Hepatic Impairment
With cyclosporine, it is important to check serum bilirubin and liver enzymes prior to and during treatment. Clinical trials have shown that
cyclosporine is associated with mild elevations of serum bilirubin, often without elevated ALT or alkaline phosphatase. These complications
are now less frequent possibly because dosing and monitoring of cyclosporine levels have become more precise.

Use in Patients With Critical Illness
Use of immunosuppressants during critical illness requires individualized risk versus benefit decision making. It is necessary to balance the
need to prevent transplant organ rejection against the risk of infection and associated drug toxicities, which may lead to loss of the
engrafted organ.

Use in Patients Receiving Home Care
Survival rates are now longer in transplant recipients, and multiple organ transplants and retransplants occur. Thus, there are challenges in
managing chronic rejection and minimizing drug toxicities in the home setting. Promoting correct medication use is critical to maintaining
therapeutic blood levels after transplantation and preventing organ rejection. Due to the variable bioavailability of cyclosporine when taken
orally, patients should consistently take the drug at the same time each day. In addition to monitoring medication use, the home care nurse
provides self-care teaching, monitors for sources of infection, obtains and monitors blood work, and implements health maintenance
measures.

Adverse Effects
Nephrotoxicity, hirsutism, gingival hypertrophy, hypertension, and hyperlipidemia are significant adverse effects of cyclosporine. The FDA
has issued a BLACK BOX WARNING for cyclosporine regarding risks of hypertension and nephrotoxicity. After solid organ transplantation,
with the need to continue lifelong immunosuppression to avoid graft rejection, serious infection is an ongoing concern.
As previously stated, transplant recipients are living longer, and this has led to the recognition that there are long-term adverse effects
associated with immunosuppressant drug therapy. As a consequence of long-term survival and chronic immunosuppression, patients have
an increased risk of developing a malignancy. The incidence of malignancy is unknown, but after 10 years of immunosuppression,
authorities often estimate it to be 20% or more. The most common malignancies in transplant recipients are skin cancers and lymphomas,
and solid organ tumors may also occur. Regular screening tests for breast, cervical, colon, and prostate cancer, along with annual skin
examinations, are recommended. The FDA has issued a BLACK BOX WARNING limiting all long-term use of antirejection drugs to
prescribers experienced in transplant therapy because of the increased risk of infections and certain malignancies such as lymphoma and
skin cancer.

Contraindications
Contraindications to cyclosporine include the combined use of antirejection drugs that have the same mechanism of action and toxicities
(e.g., tacrolimus and cyclosporine). Prescribers usually avoid such use after organ transplant.

Nursing Implications
Preventing Interactions
Numerous potential drug interactions affect the blood levels of cyclosporine, increasing or decreasing its effects. Because these drugs are
metabolized mainly by CYP3A4 enzymes and have a low therapeutic index, any drugs that increase or decrease levels of these enzymes
have the potential to alter blood levels of cyclosporine. The herb St. John's wort may reduce this drug's therapeutic effects.

Administering the Medication
It is necessary to initiate antirejection drugs several hours prior to the transplant procedure. Administration is by IV infusion only until the
patient can take the drug by the oral route. The risk of a severe allergic reaction is significantly higher following IV administration. Dilution of
an oral cyclosporine solution should follow package instructions.
To improve bioavailability, cyclosporine preparations were once prepared in alcohol and olive oil for oral administration and in alcohol and
castor oil for IV administration. Anaphylactic reactions, attributed to the castor oil, have occurred with the IV formulation. Neoral and ption
and cannot be used interchangeably.Sandimmune. These different drug formulations are not equivalent in their absorGengraf are oral
microemulsion formulations that are better absorbed than oral.
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Assessing for Therapeutic Effects
The nurse assesses therapeutic effects by monitoring for organ function and signs of rejection with solid organ transplants, assessing serum
blood levels, and monitoring and managing adverse drug effects. Cyclosporine has a very narrow therapeutic index; therefore, prescribers
use serum drug levels to regulate cyclosporine dosing, and close monitoring is necessary. They use blood levels measured 2 hours after a
dose for dosage adjustments. Subtherapeutic levels may lead to organ transplant rejection, whereas high levels increase adverse effects.

Assessing for Adverse Effects
Acute nephrotoxicity can occur, progressing to chronic nephrotoxicity and kidney failure. It is essential to monitor renal function tests (serum
creatinine and BUN) and urine protein throughout cyclosporine therapy. To check for hepatotoxicity, it is necessary to conduct liver function
tests (bilirubin, ALT, and AST) regularly. Periodic monitoring of fasting lipid levels (cholesterol, high- and low-density lipoproteins, and
triglycerides) should also occur.

Nonsteroidal Anti-Inflammatory Drugs
These drugs are classified into two types, or “generations.” First-generation NSAIDs block both COX-1 and COX-2, and second-generation
NSAIDs block only COX-2. Both first- and second-generation NSAIDs have the potential to cause serious cardiovascular thrombotic events.
All NSAIDs are contraindicated in the setting of coronary artery bypass graft surgery. The nonsteroidal anti-inflammatory agents ibuprofen
and indomethacin are used initially in treating patent ductus arteriosus.

Propionic Acid Derivatives
The propionic acid derivatives are NSAIDs that inhibit prostaglandin synthesis in both the central and peripheral nervous systems. The
prototype is ibuprofen (Motrin, Advil).

Pharmacokinetics
Ibuprofen is 80% absorbed in the GI tract. Its onset of action is 1 hour, producing antipyretic effects, reaching a peak in 1 to 2 hours. The
duration of action is 6 to 8 hours. Ibuprofen is metabolized in the liver and eliminated in the urine. A small amount of the medication is
eliminated in biliary excretion.

Action
Ibuprofen blocks prostaglandin synthesis and modulates T-cell production. It inhibits the inflammatory cells by the process of chemotaxis to
destroy the cells of inflammation. A first-generation NSAID, it blocks COX-1 and COX-2 but is more selective with COX-1.

Use
Ibuprofen is used to relieve mild to moderate pain, including dysmenorrhea (painful menstruation). It is also used to treat inflammation
related to rheumatoid arthritis and osteoarthritis.

Use in Older Adults
Ibuprofen is relatively safe in therapeutic doses for occasional use as an analgesic or antipyretic in older people. The incidence of
musculoskeletal disorders such as osteoarthritis is higher in older adults. However, the nurse should ensure that older adults taking
ibuprofen on a long-term basis are evaluated for GI blood loss, renal dysfunction, edema, hypertension, and drug–drug or drug–drug
disease interactions. A gastroprotective agent is recommended for patients at risk for upper GI bleeding.

Use in Patients With Renal Impairment
Ibuprofen can cause or aggravate renal impairment even though it is eliminated mainly by hepatic metabolism. By inhibiting prostaglandins
that dilate renal blood vessels, it can decrease the blood flow in the kidneys. When renal blood flow is normal, the activity of these
prostaglandins is limited. However, when renal blood flow is decreased, synthesis of these prostaglandins is increased, and they protect the
kidneys from ischemia and hypoxia by antagonizing the vasoconstrictive effects of angiotensin II, norepinephrine, and other substances.
Thus, in patients who depend on prostaglandins to maintain an adequate renal blood flow, the prostaglandin-blocking effects of ibuprofen
result in constriction of renal arteries and arterioles, decreased renal blood flow, decreased glomerular filtration rate, and retention of salt
and water. Ibuprofen can also cause kidney damage by other mechanisms, including a hypersensitivity reaction that leads to acute renal

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failure, manifested by proteinuria, hematuria, and pyuria. Biopsy reports usually indicate inflammatory reactions such as glomerulonephritis
or interstitial nephritis.
People at highest risk from the use of ibuprofen and related drugs are those with preexisting renal impairment, those older than 50 years of
age, those taking diuretics, and those with hypertension, diabetes, or heart failure. Measures to prevent or minimize renal damage include
avoiding nephrotoxic drugs when possible, treating the disorders that increase risk of renal damage, stopping the ibuprofen if renal
impairment occurs, monitoring renal function, reducing dosage, and maintaining hydration.

Use in Patients With Hepatic Impairment
Ibuprofen is metabolized in the liver, requiring that the dosage of the medication be decreased in patients with hepatic problems. The
maximum daily dosage of ibuprofen in patients with hepatitis is 2 g.
Use in Patients With Critical Illness
The FDA has issued a BLACK BOX WARNING ♦ stating that ibuprofen is contraindicated for the treatment of perioperative pain after
coronary artery bypass graft.

Use in Patients Receiving Home Care
It is important for the home care nurse to instruct the patient about all aspects of administration of ibuprofen. Because the medication is
available in OTC preparations with many trade names, patients may not realize that they are taking an ibuprofen-containing drug.
Overdosing may occur.

Adverse Effects
The GI adverse effects of ibuprofen are many: dry mouth, gingival hyperplasia, dyspepsia, heartburn, nausea, epigastric pain, constipation,
and GI ulceration with occult blood loss. The genitourinary effects include nephrotoxicity, elevated blood urea nitrogen and creatinine, and
edema. The respiratory adverse effects include dyspnea, bronchospasm, hemoptysis, and pharyngitis. In addition, anaphylactic reactions
may also occur. The FDA has issued a BLACK BOX WARNING stating that NSAIDs cause an increased risk of serious cardiovascular
thrombotic events, including stroke or myocardial infarction.

Contraindications
Ibuprofen is contraindicated in patients with a known allergy to NSAIDs and salicylates. Allergic reactions are more common in patients with
rhinitis, asthma, chronic urticaria, and nasal polyps (Nursing, 2019).

Nursing Implications
Preventing Interactions
Medications and herbs interact with ibuprofen, increasing or decreasing its effects.

Administering the Medication
Ibuprofen is administered orally, and the total daily dose should not exceed 3200 mg. When administered intravenously, it should be diluted
in a concentration of 4 mg/mL or less using 0.9% sodium chloride, 5% dextrose, or lactated Ringer’s. The dilution remains stable for 24
hours. Prior to the administration of the IV preparation, the patient should be well hydrated. Researchers have reported that the rapid
infusion of ibuprofen intravenously was safe and effective in treating pain. The maximum total serum amount of IV ibuprofen was twice that
of oral ibuprofen.

Assessing for Therapeutic Effects
When ibuprofen is administered for pain, the nurse assesses for pain. The patient should report diminished pain on a pain scale. When the
drug is administered for fever, the nurse records the patient's temperature every 2 to 4 hours. Reduced fever should occur. When the drug is
administered for inflammation, the nurse notes anti-inflammatory effects, particularly in the joints related to arthritis. Decreased inflammation
should occur.

Assessing Adverse Effects
The nurse assesses the patient for dyspepsia or GI bleeding, including hemoptysis or melena. He or she also assesses complete blood
count and clotting times for signs of anticoagulation. In addition, the nurse assesses for signs and symptoms of hypersensitivity to
ibuprofen, including rash and bronchospasm.

Patient Teaching
Box 16.10 presents patient teaching guidelines for ibuprofen.

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BOX 16.10 Patient Teaching Guidelines for Ibuprofen
Take this drug with food or liquid to decrease gastric irritation.
Drink 2 to 3 quarts of fluid daily when taking this drug regularly.
Report any signs of bleeding (e.g., nosebleed, vomiting blood, bruising, blood in the urine or stool), difficulty breathing, severe stomach upset, sw
provider.

Selective COX-2 Inhibitor: Celecoxib
Celecoxib (CeleBREX) is the only selective COX-2 inhibitor on the market in the United States. The selective COX-2 inhibitors etoricoxib
and parecoxib, which are available in the United Kingdom and other countries, are currently under review by the FDA. COX-2 inhibitors were
designed to selectively block production of prostaglandins associated with pain and inflammation without blocking those associated with
protective effects on gastric mucosa, renal function, and platelet aggregation. Thus, they produce less gastric irritation and renal impairment
than aspirin and other NSAIDs.

Pharmacokinetics
Celecoxib, which is administered orally, has a slow onset of action. The drug reaches its peak in 3 hours. It is highly protein bound (97%),
and the serum half-life is 11 hours. It is metabolized by the cytochrome P450 enzymes in the liver to inactive metabolites that are then
excreted in the urine. A small amount is excreted unchanged in the urine. Celecoxib crosses the placenta and enters the breast milk.

Action
COX-2 is activated with inflammation. Celecoxib inhibits the COX-2 enzyme to decrease inflammation. It does not affect the COX-1 enzyme,
thus protecting the lining of the GI tract and not inhibiting clotting factors.

Use
Celecoxib is administered for acute and long-term treatment of juvenile rheumatoid arthritis, rheumatoid arthritis, osteoarthritis, and
ankylosing spondylitis. It is used to treat acute pain and primary dysmenorrhea.

Use in Patients With Renal Impairment
In patients with significant renal impairment, celecoxib should not be administered.

Use in Patients With Hepatic Impairment
In patients with hepatic impairment, the dosage of celecoxib should be reduced by 50%.

Adverse Effects
The CNS adverse reactions of celecoxib include headache, dizziness, somnolence, and insomnia. Some patients have noted ophthalmic
changes with administration of the drug. Patients taking celecoxib are at increased risk for myocardial infarction and cerebrovascular
accident. The FDA has issued a BLACK BOX WARNING for celecoxib concerning its cardiac and vascular risks. Dermatologic adverse
effects include rash, pruritus, sweating, dry mucous membranes, and stomatitis.
Dyspepsia and GI bleeding can occur with the administration of prolonged high doses of celecoxib, but the risk is not as profound as the
COX-1 and COX-2 inhibitors. Anaphylactic reactions can also occur if the patient is allergic to celecoxib or has an aspirin or NSAID-related
allergy.

Contraindications
Celecoxib is contraindicated in patients who have a known allergy to sulfonamides, NSAIDs, and aspirin. It is also contraindicated in
patients with renal impairment. It should not be administered to patients with perioperative pain or to those who have just undergone
coronary artery bypass graft surgery.

Nursing Implications
Preventing Interactions

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The administration of anticoagulants or aspirin with celecoxib increases the risk of bleeding. Patients taking lithium and celecoxib are at risk
for lithium toxicity. Celecoxib combined with alcohol or smoking increases the patient's risk of GI bleeding.

Administering the Medication
When administering celecoxib, the nurse should be certain to administer it 2 hours before or after an antacid to ensure absorption. Prior to
administering celecoxib, assess the patient for allergic reactions to NSAIDs. It is necessary to store the medication in a light-protected
container.

Assessing for Therapeutic Effects
The nurse assesses for diminished pain and swelling associated with inflammation. The nurse assesses joints for redness, heat, and
stiffness. Mobility should increase with the administration of celecoxib.

Assess for Adverse Effects
The nurse assesses the patient for signs and symptoms of chest pain, shortness of breath, confusion, or numbness of the extremities.
These symptoms are indicative of cardiac event such as myocardial infarction or cerebrovascular accident. Also, it is necessary to assess
for dyspepsia, GI irritation, and GI bleeding. In addition, the nurse assesses for CNS depression and ophthalmic changes. Finally, he or she
assesses for anaphylactic reactions, including sore throat, itching, weight gain, and edema.

Drug Therapy
Antidepressant therapy may be indicated if depressive symptoms persist at least 2 weeks, impair social relationships or work performance,
and occur independently of life events. Antidepressants are used to regulate mood specifically affecting serotonin, norepinephrine, and
dopamine. Antidepressant effects are attributed to changes in receptors rather than changes in neurotransmitters. Although some of the
drugs act more selectively on one neurotransmission system than another initially, this selectivity seems to be lost with chronic
administration. Drugs used in the pharmacologic management of depressive disorders are derived from several chemical groups. Older
antidepressants include the tricyclic antidepressants (TCAs) and the monoamine oxidase (MAO) inhibitors. Newer drugs include the
selective serotonin reuptake inhibitors (SSRIs), the serotonin–norepinephrine reuptake inhibitors (SNRIs), and several adjuvant atypical
antidepressant drugs that differ from TCAs and MAO inhibitors. As the name implies, reuptake inhibitors block the reuptake of certain
neurotransmitters (serotonin with the SSRIs and serotonin and norepinephrine with the SNRIs).

BOX 17.4 Patient Teaching Guidelines for Long-Term Corticosteroid Therapy
General Considerations
Realize that in most instances, corticosteroids are used to relieve symptoms; they do not cure the underlying disease process. However, they can
When taking an oral corticosteroid (e.g., prednisone) for longer than 2 weeks, take the drug as directed. This is extremely important. Missing a do
the amount or time of administration, taking extra drug (except as specifically directed during stress situations), or any other alterations may resu
are relatively minor; several are serious, even life threatening. When these drugs are being discontinued, the dosage is gradually reduced over se
abruptly.
Wear a special medical alert bracelet or tag or carry an identification card stating the drug being taken; the dosage; the prescriber’s name, addre
instructions for emergency treatment. If an accident or emergency situation occurs, health care providers must know about corticosteroid drug th
the stress of the emergency.
Report to all health care providers consulted that corticosteroid drugs are being taken or have been taken within the past year. Current or previou
treatment measures, and such knowledge increases the ability to provide appropriate treatment.
Maintain regular medical supervision. This is extremely important so that the prescriber can detect adverse reactions, evaluate disease status, an
for dosage change, as well as other responsibilities that can be carried out only with personal contact between the prescriber and the patient. Pe
other tests may be performed during long-term corticosteroid therapy.
Take no other drugs, prescription or nonprescription, without notifying the prescriber who is supervising corticosteroid therapy. Corticosteroid dr
some other drugs interact with corticosteroids to either increase or decrease their effects. Thus, taking other drugs can decrease the expected th
incidence or severity of adverse effects.
Avoid exposure to infection when possible. Avoid crowds and people known to have an infection. Also, wash hands frequently and thoroughly. T
infection, so preventive measures are necessary. Also, if infection does occur, healing is likely to be slow.
Practice safety measures to avoid accidents (e.g., falls and possible fractures due to osteoporosis, cuts or other injuries because of delayed wou
increased tendency to bruise easily).
Weigh frequently when starting corticosteroid therapy and at least weekly during long-term maintenance. An initial weight gain is likely to occur a
appetite. Later weight gains may be caused by fluid retention.
Ask the prescriber about the amount and kind of activity or exercise needed. As a general rule, being as active as possible helps prevent or delay
However, increased activity may not be desirable for everyone. A patient with rheumatoid arthritis, for example, may become too active when dru
mobility.
Follow instructions for other measures used in treatment of the particular condition (e.g., other drugs and physical therapy for rheumatoid arthriti
doses of corticosteroids and decrease adverse effects.
Understand that the dosage may need to be temporarily increased with illness, surgery, or other stressful situations because corticosteroids impa
with the prescriber predictable sources of stress and the amount of drug to be taken if the stress cannot be avoided.
In addition to stressful situations, report sore throat, fever, or other signs of infection; weight gain of 5 lb or more in a week; or swelling in the ank
indicate adverse drug effects, and changes in corticosteroid therapy may be indicated.
Realize that muscle weakness and fatigue or disease symptoms may occur when drug dosage is reduced, withdrawn, or omitted (e.g., the nondr
these symptoms may cause some discomfort, they should be tolerated if possible rather than increasing the corticosteroid dose. If severe, of co
have to be changed.
Understand that dietary changes may be helpful in reducing some adverse effects of corticosteroid therapy. Decreasing salt intake (e.g., by not a
obviously salty foods, such as many snack foods and prepared sandwich meats) may help decrease swelling. Eating high-potassium foods, such
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may help prevent potassium loss. An adequate intake of calcium, protein, and vitamin D (meat and dairy products are good sources) may help to
(e.g., from citrus fruits) may help to prevent excessive bruising.
Do not object when your prescriber reduces your dose of oral corticosteroid, with the goal of stopping the drug entirely or continuing with a sma
used only when necessary because of the potential for serious adverse effects, and the lowest effective dose should be given.
Understand that with local applications of corticosteroids, there is usually little systemic absorption and few adverse effects, compared with oral
relieving symptoms, it is better to use a local than a systemic corticosteroid. In some instances, combined systemic and local application allows
systemic drug.
Commonly used local applications are applied topically for skin disorders, by oral inhalation for asthma, and by nasal inhalation for allergic rhiniti
tolerated, systemic toxicity can occur if excess corticosteroid is inhaled or if occlusive dressings are used over skin lesions. Thus, a corticosteroi
correctly and not overused.
Know that corticosteroids are not the same as the steroids often abused by athletes and body builders. Those are anabolic steroids derived from
Self or Caregiver Administration
Take an oral corticosteroid with a meal or snack to decrease GI upset.
If taking the medication once a day or every other day, take before 9:00 am; if taking multiple doses, take at evenly spaced intervals throughout t
Report to the prescriber if unable to take a dose orally because of vomiting or some other problem. In some circumstances, the dose may need t
If taking an oral corticosteroid in tapering doses, be sure to follow instructions exactly to avoid adverse effects.
When applying a corticosteroid to skin lesions, do not apply more often than ordered and do not cover with an occlusive dressing unless specific
With an intranasal corticosteroid, use on a regular basis (usually once or twice daily) for the best anti-inflammatory effects.
With an oral inhalation corticosteroid, use on a regular schedule for anti-inflammatory effects. The drugs are not effective in relieving acute asthm
should not be used “as needed” for that purpose. Use metered-dose inhalers as follows (unless instructed otherwise by a health care provider):
1. Shake canister thoroughly.2. Place canister between lips (both open and pursed lips have been recommended) or outside lips.3. Exhale comp
slow, deep breath.5. Hold breath for 10 seconds or as long as possible.6. Wait at least 1 minute before taking additional inhalations.7. Rinse mou
incidence of oral thrush (a fungal infection).8. Rinse mouthpiece at least once per day.

TCAs, second-line medications in the treatment of depression, produce a high incidence of adverse effects (e.g., sedation, orthostatic
hypotension, cardiac dysrhythmias, anticholinergic effects, and weight gain). SSRIs are considered to be first-line medications in the
treatment of depression because they have a more favorable side effect profile (e.g., GI symptoms, sexual dysfunction, CNS stimulation,
and increased risk of GI bleeding).

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