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Nursing Pharmacology Chapter 33-34: Anticancer Drugs
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Hormonal Anticancer Drugs:
These agents, the nonsteroidal first-generation antiandrogen drugs, were initially employed to inhibit androgen receptor binding.11
These drugs were approved to limit flare associated with the initial serum testosterone increase due to GnRH agonists/antagonist treatment.
Given alone, antiandrogens increased testosterone levels but compared to testosterone-lowering drugs, administration resulted in:
Less hot flushes
Reduced libido effects
Reduced muscle wasting
Reduced bone loss
More limited personality changes.
A clinical problem, gynecomastia, may be mitigated through administration of tamoxifen or by "prophylactic breast irradiation."11
Androgen receptor antagonists (flutamide, bicalutamide, nilutamide and enzalutamide) are considered of limited effectiveness when used as monotherapy, as result of induced higher serum testosterone levels secondary to increased Leutinizing-Hormone (LH) secretion.
Accordingly, flutamide and related agents are used in combination with the GnRH analog for metastatic prostate cancer therapy.13
Antiandrogen drugs used alone result in suboptimal cancer-specific outcomes.
For example, bicalutamide, even at relatively higher doses, reduced time to cancer progression and conferred inferior survival when compared to surgical castration in patients with documented metastatic disease.11
Even when combined with GnRH analogs are surgical orchiectomy procedures, use of first-generation antiandrogen agents (flutamide et al.) did not result in improvement in treating cancer patients compared to androgen deprivation therapy (ADT) alone.11
Due to this finding, first-generation antiandrogen drugs have a limited use, protection against flare during the first 2-4 weeks of treatment.
This combination was compared to ADT administration alone. Docetaxel was the initial systemic treatment found to prolong life in patients with metastatic castration-resistant prostate cancer.11
Flutamide (Eulexim and others)
Flutamide acts by inhibiting androgen uptake or androgen binding at target sites.
This drug is classified as a nonsteroidal antiandrogen agent.
Absorption, Distribution, Biotransformation, Excretion:
Flutamide (Eulexin) oral administration results in virtually complete absorption from the G.I. tract.12
Following absorption, flutamide undergoes substantial first-pass metabolism (metabolism occuring prior to the parent compound reaching the systemic circulation).
Flutamide is metabolized by the hepatic cytochrome P450 drug metabolizing system, primarily by the CYP1A2 enzyme isoform.12
Another important metabolite is formed by hydrolysis of 2-hydroxyflutamide, 3-trifluoromethyl-4-nitroanaline.
The major metabolite, 2-hydroxyflutamide exhibits higher affinity interaction with the androgen receptor compared to flutamide and has been described as the more powerful antiandrogen.12
With respect to elimination pharmacokinetics 2-hydroxyflutamide shows and elimination half-life between about 6-10 hours.5,12
Excretion of flutamide and metabolites is mainly in the urine (feces, 4%).5
Flutamide, which may be administered as part of a regimen useful in managing prostatic cancer, acts as a competitive androgen receptor antagonist.14
Flutamide is classified as a "potent antiandrogen."
Flutamide is considered one of the older antiandrogen agents, however, and may be less effective relative to current antiandrogen drugs.
Possibly, older antiandrogen drugs might be appropriate in a more limited setting, for example in patients with "low prostate cancer disease burden" or "limited therapy options."5
Flutamide administration may result in some improvement in prostate cancer patients not having received previous endocrine treatment.14
Adverse reactions include those categorizesd as endocrine and metabolic.5
Common side effects associated with flutamide administration involve:15
Diarrhea
Nipple tenderness
Breast tenderness.
Side effects lasts frequently noted include:
Nausea
Vomiting
Liver toxicity.
However, liver toxicity (hepatotoxicity), although uncommon (3/10,000 patients) may be fatal, thus requiring careful monitoring of serum aminotransferases during flutamide administration.15
Bicalutamide (Casodex)8
Bicalutamide is a competitive inhibitor, inhibiting the binding of both testosterone and dihydrotestosterone at the androgen receptor.
This agent is classified as a pure, nonsteroidal androgen receptor antagonist.
Such antagonism prevents testosterone stimulation of prostate cancer cell proliferation.8
For management of advanced prostate cancer (USA):
Bicalutamide (Casodex) is usually administered once-a-day in combination with a GnRH analog or following surgical castration.15
Bicalutamide is provided as a racemic mixture.
The antiandrogenic property is associated with the (R)-enantiomer which exhibits substantially more affinity for prostatic androgen receptors than noted with hydroxyflutamide.15
Absorption, Distribution, Biotransformation, Excretion:
Bicalutamide (Casodex) may be administered once-a-day typically along with a GnRH agonist.1
The bicalutamide formulation is that of a racemic mixture.12
The (S)-enantiomer is devoid of antiandrogenic properties.
Antiandrogenic effects are mediated by the (R)-enantiomer which exhibits low absorption, not influenced by food.
The half-life (terminal) of elimination is about 5-6 days.
The active enantiomer, (R)-bicalutamide, is usually present at substantially higher plasma levels given that the (S), the inactive form, is cleared from the plasma rapidly, following rapid absorption.
Bicalutamide binds extensively to plasma proteins, especially albumin.
Bicalutamide is metabolized both by glucuronidation (phase II) and by hydroxylation (Phase I), using the liver microsomal cytochrome P450 drug metabolizing system.
The (S)-form is metabolized by glucuronidation; whereas, the (R)-form is metabolized by the cytochrome P450 system (hydroxylation, using the CYP3A4 cytochrome P450 isoform) probably followed by glucuronidation.12,15
Bicalutamide metabolites are found, in almost equal proportion, in feces and urine.12
Bicalutamide, which may be administered as part of a regimen useful in managing prostatic cancer, acts as a competitive androgen receptor antagonist.14
Bicalutamide is classified as a "potent antiandrogen."
Bicalutamide is used in prostate cancer therapy.
However, bicalutamide as well as flutamide are not approved as monotherapy.
Accordingly, bicalutamide would be most commonly administered along with GnRH agonists in the setting of prostate cancer management.
Bicalutamide administration as a single drug is associated with inferior survival profiles; for example, given alone, bicalutamide clinical results are notably worse compared with surgical or medical castration.15
Numerous adverse reactions occur as result of bicalutamide administration.
These adverse effects are associated with almost all major organ systems e.g. cardiovascular, central nervous system, gastrointestinal and so forth.8
Prominent toxicities include:
Vasomotor instability
Gynecomastia
Mastodynia (breast pain)15
Nilutamide (ni LOO ta mide, Nilandron, Anadron)9
Nilutamide is an androgen receptor antagonist, blocking testosterone action.
As a result, nilutamide prevents or limits androgen responses.
Nilutamide is classified as a nonsteroidal antiandrogen drug.
Nilutamide (Nilandron, Anadron) is another antiandrogen which may be used in prostate cancer patients.
Absorption: nilutamide is given once daily by oral administration.1
Biotransformation: the elimination half-time (t1/2) of nilutamide is about two days.
Five metabolic products of nilutamide have been identified.
Excretion: Nilutamide metabolites are excreted in the urine.
Side-effect/toxicities: This agent may induce night blindness (frequency of occurrence: 25%-40%) and is associated with pulmonary toxicity.
In addition to night blindness and pulmonary toxicity (interstitial pneumonitis occurs rarely)
Other side effects are mild nausea and reduced alcohol tolerance noted in about 5%-20% of patients taking nilutamide.1
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