Package Insert and Label Information: Ethyol

By MedImmune, LLC | Last revised: 1 January 2009

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ETHYOL- amifostine injection, powder, lyophilized, for solution
MedImmune, LLC

ETHYOL ^®
(amifostine) for Injection

Rx only

DESCRIPTION

ETHYOL (amifostine) is an organic thiophosphate cytoprotective agent known chemically as 2-[(3-aminopropyl)amino]ethanethiol dihydrogen phosphate (ester) and has the following structural formula:

H ₂ N(CH ₂ ) ₃ NH(CH ₂ ) ₂ S-PO ₃ H ₂

Amifostine is a white crystalline powder which is freely soluble in water. Its empirical formula is C₅ H₁₅ N₂ O₃ PS and it has a molecular weight of 214.22.

ETHYOL is the trihydrate form of amifostine and is supplied as a sterile lyophilized powder requiring reconstitution for intravenous infusion. Each single-use 10 mL vial contains 500 mg of amifostine on the anhydrous basis.

CLINICAL PHARMACOLOGY

ETHYOL is a prodrug that is dephosphorylated by alkaline phosphatase in tissues to a pharmacologically active free thiol metabolite. This metabolite is believed to be responsible for the reduction of the cumulative renal toxicity of cisplatin and for the reduction of the toxic effects of radiation on normal oral tissues. The ability of ETHYOL to differentially protect normal tissues is attributed to the higher capillary alkaline phosphatase activity, higher pH and better vascularity of normal tissues relative to tumor tissue, which results in a more rapid generation of the active thiol metabolite as well as a higher rate constant for uptake into cells. The higher concentration of the thiol metabolite in normal tissues is available to bind to, and thereby detoxify, reactive metabolites of cisplatin. This thiol metabolite can also scavenge reactive oxygen species generated by exposure to either cisplatin or radiation.

Pharmacokinetics:

Clinical pharmacokinetic studies show that ETHYOL is rapidly cleared from the plasma with a distribution half-life of < 1 minute and an elimination half-life of approximately 8 minutes. Less than 10% of ETHYOL remains in the plasma 6 minutes after drug administration. ETHYOL is rapidly metabolized to an active free thiol metabolite. A disulfide metabolite is produced subsequently and is less active than the free thiol. After a 10-second bolus dose of 150 mg/m² of ETHYOL, renal excretion of the parent drug and its two metabolites was low during the hour following drug administration, averaging 0.69%, 2.64% and 2.22% of the administered dose for the parent, thiol and disulfide, respectively. Measurable levels of the free thiol metabolite have been found in bone marrow cells 5-8 minutes after intravenous infusion of ETHYOL. Pretreatment with dexamethasone or metoclopramide has no effect on ETHYOL pharmacokinetics.

Clinical Studies

Chemotherapy for Ovarian Cancer. A randomized controlled trial compared six cycles of cyclophosphamide 1000 mg/m² , and cisplatin 100 mg/m² with or without ETHYOL pretreatment at 910 mg/m² , in two successive cohorts of 121 patients with advanced ovarian cancer. In both cohorts, after multiple cycles of chemotherapy, pretreatment with ETHYOL significantly reduced the cumulative renal toxicity associated with cisplatin as assessed by the proportion of patients who had ≥40% decrease in creatinine clearance from pretreatment values, protracted elevations in serum creatinine (>1.5 mg/dL), or severe hypomagnesemia. Subgroup analyses suggested that the effect of ETHYOL was present in patients who had received nephrotoxic antibiotics, or who had preexisting diabetes or hypertension (and thus may have been at increased risk for significant nephrotoxicity), as well as in patients who lacked these risks. Selected analyses of the effects of ETHYOL in reducing the cumulative renal toxicity of cisplatin in the randomized ovarian cancer study are provided in TABLES 1 and 2, below.

TABLE 1 Proportion of Patients with ≥40% Reduction in Calculated Creatinine Clearance *
* Creatinine clearance values were calculated using the Cockcroft-Gault formula, Nephron 1976; 16:31-41.
	ETHYOL+CP	CP	p-value (2-sided)
All Patients	16/122 (13%)	36/120 (30%)	0.001
First Cohort	10/63	20/58	0.018
Second Cohort	6/59	16/62	0.026

TABLE 2 NCI Toxicity Grades of Serum Magnesium Levels for Each Patient’s Last Cycle of Therapy
* Based on 2-sided Mantel-Haenszel Chi-Square statistic.
NCI-CTC Grade: (mEq/L)	0 >1.4	1 ≤1.4->1.1	2 ≤1.1->0.8	3 ≤0.8->0.5	4 ≤0.5	p-value *
All Patients ETHYOL+CP CP	9273	1318	37	05	01	0.001
First Cohort ETHYOL+CP CP	4935	108	36	03	01	0.017
Second Cohort ETHYOL+CP CP	4338	310	01	02	00	0.012

In the randomized ovarian cancer study, ETHYOL had no detectable effect on the antitumor efficacy of cisplatin-cyclophosphamide chemotherapy. Objective response rates (including pathologically confirmed complete remission rates), time to progression, and survival duration were all similar in the ETHYOL and control study groups. The table below summarizes the principal efficacy findings of the randomized ovarian cancer study.

TABLE 3 Comparison of Principal Efficacy Findings
	ETHYOL +CP	CP
Complete pathologic tumor response rate	21.3%	15.8%
Time to progression (months)
Median (± 95% CI)	15.8 (13.2, 25.1)	18.1 (12.5, 20.4)
Mean (± Std error)	19.8 (±1.04)	19.1 (±1.58)
Hazard ratio (95% Confidence Interval)	.98 (.64, 1.4)
Survival (months)
Median (± 95% CI)	31.3 (28.3, 38.2)	31.8 (26.3, 39.8)
Mean (± Std error)	33.7 (±2.03)	34.3 (±2.04)
Hazard ratio (95% Confidence Interval)	.97 (.69, 1.32)

Radiotherapy for Head and Neck Cancer. A randomized controlled trial of standard fractionated radiation (1.8 Gy — 2.0 Gy/day for 5 days/week for 5-7 weeks) with or without ETHYOL, administered at 200 mg/m² as a 3 minute i.v. infusion 15-30 minutes prior to each fraction of radiation, was conducted in 315 patients with head and neck cancer. Patients were required to have at least 75% of both parotid glands in the radiation field. The incidence of Grade 2 or higher acute (90 days or less from start of radiation) and late xerostomia (9-12 months following radiation) as assessed by RTOG Acute and Late Morbidity Scoring Criteria, was significantly reduced in patients receiving ETHYOL (TABLE 4).

TABLE 4 Incidence of Grade 2 or Higher Xerostomia (RTOG criteria)
* Based on the number of patients for whom actual data were available.
	ETHYOL +RT	RT	p-value
Acute (≤90 days fromstart of radiation)	51% (75/148)	78% (120/153)	p<0.0001
Late *(9-12 monthspost radiation)	35% (36/103)	57% (63/111)	p=0.0016

At one year following radiation, whole saliva collection following radiation showed that more patients given ETHYOL produced >0.1 gm of saliva (72% vs. 49%). In addition, the median saliva production at one year was higher in those patients who received ETHYOL (0.26 gm vs. 0.1 gm). Stimulated saliva collections did not show a difference between treatment arms. These improvements in saliva production were supported by the patients’ subjective responses to a questionnaire regarding oral dryness.

In the randomized head and neck cancer study, locoregional control, disease-free survival and overall survival were all comparable in the two treatment groups after one year of follow-up (see TABLE 5).

TABLE 5 Comparison of Principal Efficacy Findings at 1 Year
* 1 year rates estimated using Kaplan-Meier method † Hazard ratio >1.0 is in favor of the ETHYOL + RT arm
	ETHYOL +RT	RT
Locoregional Control Rate *	76.1%	75.0%
Hazard Ratio †	1.013
95% Confidence Interval	(0.671, 1.530)
Disease-Free Survival Rate *	74.6%	70.4%
Hazard Ratio †	1.035
95% Confidence Interval	(0.702, 1.528)
Overall Survival Rate *	89.4%	82.4%
Hazard Ratio †	1.585
95% Confidence Interval	(0.961, 2.613)

Ethyol Indications and Usage

ETHYOL (amifostine) is indicated to reduce the cumulative renal toxicity associated with repeated administration of cisplatin in patients with advanced ovarian cancer.
ETHYOL is indicated to reduce the incidence of moderate to severe xerostomia in patients undergoing post-operative radiation treatment for head and neck cancer, where the radiation port includes a substantial portion of the parotid glands (see Clinical Studies).
For the approved indications, the clinical data do not suggest that the effectiveness of cisplatin based chemotherapy regimens or radiation therapy is altered by ETHYOL. There are at present only limited data on the effects of ETHYOL on the efficacy of chemotherapy or radiotherapy in other settings. ETHYOL should not be administered to patients in other settings where chemotherapy can produce a significant survival benefit or cure, or in patients receiving definitive radiotherapy, except in the context of a clinical study (see WARNINGS).

CONTRAINDICATIONS

ETHYOL is contraindicated in patients with known hypersensitivity to aminothiol compounds.

WARNINGS

1. Effectiveness of the Cytotoxic Regimen
Limited data are currently available regarding the preservation of antitumor efficacy when ETHYOL is administered prior to cisplatin therapy in settings other than advanced ovarian cancer. Although some animal data suggest interference is possible, in most tumor models the antitumor effects of chemotherapy are not altered by amifostine. ETHYOL should not be used in patients receiving chemotherapy for other malignancies in which chemotherapy can produce a significant survival benefit or cure (e.g., certain malignancies of germ cell origin), except in the context of a clinical study.

2. Effectiveness of Radiotherapy
ETHYOL should not be administered in patients receiving definitive radiotherapy, except in the context of a clinical trial, since there are at present insufficient data to exclude a tumor-protective effect in this setting. ETHYOL was studied only with standard fractionated radiotherapy and only when ≥75% of both parotid glands were exposed to radiation. The effects of ETHYOL on the incidence of xerostomia and on toxicity in the setting of combined chemotherapy and radiotherapy and in the setting of accelerated and hyperfractionated therapy have not been systematically studied.

3. Hypotension
Patients who are hypotensive or in a state of dehydration should not receive ETHYOL. Patients receiving ETHYOL at doses recommended for chemotherapy should have antihypertensive therapy interrupted 24 hours preceding administration of ETHYOL. Patients receiving ETHYOL at doses recommended for chemotherapy who are taking antihypertensive therapy that cannot be stopped for 24 hours preceding ETHYOL treatment, should not receive ETHYOL.

Prior to ETHYOL infusion patients should be adequately hydrated. During ETHYOL infusion patients should be kept in a supine position. Blood pressure should be monitored every 5 minutes during the infusion, and thereafter as clinically indicated. It is important that the duration of the 910 mg/m² infusion not exceed 15 minutes, as administration of ETHYOL as a longer infusion is associated with a higher incidence of side effects. For infusion durations less than 5 minutes, blood pressure should be monitored at least before and immediately after the infusion, and thereafter as clinically indicated. If hypotension occurs, patients should be placed in the Trendelenburg position and be given an infusion of normal saline using a separate i.v. line. During and after ETHYOL infusion, care should be taken to monitor the blood pressure of patients whose antihypertensive medication has been interrupted since hypertension may be exacerbated by discontinuation of antihypertensive medication and other causes such as i.v. hydration.

Guidelines for interrupting and restarting ETHYOL infusion if a decrease in systolic blood pressure should occur are provided in the DOSAGE AND ADMINISTRATION section. Hypotension may occur during or shortly after ETHYOL infusion, despite adequate hydration and positioning of the patient (see ADVERSE REACTIONS and PRECAUTIONS). Hypotension has been reported to be associated with dyspnea, apnea, hypoxia, and in rare cases seizures, unconsciousness, respiratory arrest and renal failure.

4. Cutaneous Reactions
Serious cutaneous reactions have been associated with ETHYOL administration. Serious cutaneous reactions have included erythema multiforme, Stevens-Johnson syndrome, toxic epidermal necrolysis, toxoderma and exfoliative dermatitis. These reactions have been reported more frequently when ETHYOL is used as a radioprotectant (see ADVERSE REACTIONS). Some of these reactions have been fatal or have required hospitalization and/or discontinuance of therapy. Patients should be carefully monitored prior to, during and after ETHYOL administration. Serious cutaneous reactions may develop weeks after initiation of ETHYOL administration (see PRECAUTIONS).

5. Hypersensitivity

Allergic manifestations including anaphylaxis and severe cutaneous reactions have been associated with ETHYOL administration.

6. Nausea and Vomiting
Antiemetic medication should be administered prior to and in conjunction with ETHYOL (see DOSAGE AND ADMINISTRATlON). When ETHYOL is administered with highly emetogenic chemotherapy, the fluid balance of the patient should be carefully monitored.

7. Hypocalcemia Serum calcium levels should be monitored in patients at risk of hypocalcemia, such as those with nephrotic syndrome or patients receiving multiple doses of ETHYOL (see ADVERSE REACTIONS). If necessary, calcium supplements can be administered.