About The Drug Femara aka Letrozole

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Find Femara side effects, uses, warnings, interactions and indications. Femara is also known as Letrozole.

Femara

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About Femara aka Letrozole

What's The Definition Of The Medical Condition Femara?

Clinical Pharmacology

CLINICAL PHARMACOLOGY Mechanism Of Action The growth of some cancers of the breast is stimulated or maintained by estrogens. Treatment of breast cancer thought to be hormonally responsive (i.e., estrogen and/or progesterone receptor positive or receptor unknown) has included a variety of efforts to decrease estrogen levels (ovariectomy, adrenalectomy, hypophysectomy) or inhibit estrogen effects (antiestrogens and progestational agents). These interventions lead to decreased tumor mass or delayed progression of tumor growth in some women. In postmenopausal women, estrogens are mainly derived from the action of the aromatase enzyme, which converts adrenal androgens (primarily androstenedione and testosterone) to estrone and estradiol. The suppression of estrogen biosynthesis in peripheral tissues and in the cancer tissue itself can therefore be achieved by specifically inhibiting the aromatase enzyme. Letrozole is a nonsteroidal competitive inhibitor of the aromatase enzyme system; it inhibits the conversion of androgens to estrogens. In adult nontumor-and tumor-bearing female animals, letrozole is as effective as ovariectomy in reducing uterine weight, elevating serum LH, and causing the regression of estrogen-dependent tumors. In contrast to ovariectomy, treatment with letrozole does not lead to an increase in serum FSH. Letrozole selectively inhibits gonadal steroidogenesis but has no significant effect on adrenal mineralocorticoid or glucocorticoid synthesis. Letrozole inhibits the aromatase enzyme by competitively binding to the heme of the cytochrome P450 subunit of the enzyme, resulting in a reduction of estrogen biosynthesis in all tissues. Treatment of women with letrozole significantly lowers serum estrone, estradiol and estrone sulfate and has not been shown to significantly affect adrenal corticosteroid synthesis, aldosterone synthesis, or synthesis of thyroid hormones. Pharmacodynamics In postmenopausal patients with advanced breast cancer, daily doses of 0.1 mg to 5 mg Femara (letrozole) suppress plasma concentrations of estradiol, estrone, and estrone sulfate by 75% to 95% from baseline with maximal suppression achieved within two-three days. Suppression is dose-related, with doses of 0.5 mg and higher giving many values of estrone and estrone sulfate that were below the limit of detection in the assays. Estrogen suppression was maintained throughout treatment in all patients treated at 0.5 mg or higher. Letrozole is highly specific in inhibiting aromatase activity. There is no impairment of adrenal steroidogenesis. No clinically-relevant changes were found in the plasma concentrations of cortisol, aldosterone, 11-deoxycortisol, 17-hydroxy-progesterone, ACTH or in plasma renin activity among postmenopausal patients treated with a daily dose of Femara 0.1 mg to 5 mg. The ACTH stimulation test performed after 6 and 12 weeks of treatment with daily doses of 0.1, 0.25, 0.5, 1, 2.5, and 5 mg did not indicate any attenuation of aldosterone or cortisol production. Glucocorticoid or mineralocorticoid supplementation is, therefore, not necessary. No changes were noted in plasma concentrations of androgens (androstenedione and testosterone) among healthy postmenopausal women after 0.1, 0.5, and 2.5 mg single doses of Femara or in plasma concentrations of androstenedione among postmenopausal patients treated with daily doses of 0.1 mg to 5 mg. This indicates that the blockade of estrogen biosynthesis does not lead to accumulation of androgenic precursors. Plasma levels of LH and FSH were not affected by letrozole in patients, nor was thyroid function as evaluated by TSH levels, T3 uptake, and T4 levels. Pharmacokinetics Absorption and Distribution Letrozole is rapidly and completely absorbed from the gastrointestinal tract and absorption is not affected by food. It is metabolized slowly to an inactive metabolite whose glucuronide conjugate is excreted renally, representing the major clearance pathway. About 90% of radiolabeled letrozole is recovered in urine. Letrozole's terminal elimination half-life is about 2 days and steady-state plasma concentration after daily 2.5 mg dosing is reached in 2-6 weeks. Plasma concentrations at steady state are 1.5 to 2 times higher than predicted from the concentrations measured after a single dose, indicating a slight non-linearity in the pharmacokinetics of letrozole upon daily administration of 2.5 mg. These steady-state levels are maintained over extended periods, however, and continuous accumulation of letrozole does not occur. Letrozole is weakly protein bound and has a large volume of distribution (approximately 1.9 L/kg). Metabolism and Excretion Metabolism to a pharmacologically-inactive carbinol metabolite (4,4'methanol-bisbenzonitrile) and renal excretion of the glucuronide conjugate of this metabolite is the major pathway of letrozole clearance. Of the radiolabel recovered in urine, at least 75% was the glucuronide of the carbinol metabolite, about 9% was two unidentified metabolites, and 6% was unchanged letrozole. In human microsomes with specific CYP isozyme activity, CYP3A4 metabolized letrozole to the carbinol metabolite while CYP2A6 formed both this metabolite and its ketone analog. In human liver microsomes, letrozole strongly inhibited CYP2A6 and moderately inhibited CYP2C19. Pediatric, Geriatric and Race In the study populations (adults ranging in age from 35 to > 80 years), no change in pharmacokinetic parameters was observed with increasing age. Differences in letrozole pharmacokinetics between adult and pediatric populations have not been studied. Differences in letrozole pharmacokinetics due to race have not been studied. Renal Impairment In a study of volunteers with varying renal function (24-hour creatinine clearance: 9 to 116 mL/min), no effect of renal function on the pharmacokinetics of single doses of 2.5 mg of Femara was found. In addition, in a study of 347 patients with advanced breast cancer, about half of whom received 2.5 mg Femara and half 0.5 mg Femara, renal impairment (calculated creatinine clearance: 20 to 50 mL/min) did not affect steady-state plasma letrozole concentrations. Hepatic Impairment In a study of subjects with mild to moderate non-metastatic hepatic dysfunction (e.g., cirrhosis, Child-Pugh classification A and B), the mean AUC values of the volunteers with moderate hepatic impairment were 37% higher than in normal subjects, but still within the range seen in subjects without impaired function. In a pharmacokinetic study, subjects with liver cirrhosis and severe hepatic impairment (Child-Pugh classification C, which included bilirubins about 2-11 times ULN with minimal to severe ascites) had twofold increase in exposure (AUC) and 47% reduction in systemic clearance. Breast cancer patients with severe hepatic impairment are thus expected to be exposed to higher levels of letrozole than patients with normal liver function receiving similar doses of this drug. [see DOSAGE AND ADMINISTRATION] Clinical Studies Updated Adjuvant Treatment Of Early Breast Cancer In a multicenter study enrolling over 8,000 postmenopausal women with resected, receptor-positive early breast cancer, one of the following treatments was randomized in a double-blind manner: Option 1: tamoxifen for 5 years Femara for 5 years tamoxifen for 2 years followed by Femara for 3 years Femara for 2 years followed by tamoxifen for 3 years Option 2: tamoxifen for 5 years Femara for 5 years The study in the adjuvant setting, BIG 1-98 was designed to answer two primary questions: whether Femara for 5 years was superior to tamoxifen for 5 years (Primary Cor e Analysis) and whether switching endocrine treatments at 2 years was superior to continuing the same agent for a total of 5 years (Sequential Treatments Analysis). Selected baseline characteristics for the study population are shown in Table 5. The primary endpoint of this trial was disease-free survival (DFS) (i.e., interval between randomization and earliest occurrence of a local, regional, or distant recurrence, or invasive contralateral breast cancer, or death from any cause). The secondary endpoints were overall survival (OS), systemic disease-free survival (SDFS), invasive contralateral breast cancer, time to breast cancer recurrence (TBR) and time to distant metastasis (TDM). The Primary Core Analysis (PCA) included all patients and all follow-up in the monotherapy arms in both randomization options, but follow-up in the two sequential treatments arms was truncated 30 days after switching treatments. The PCA was conducted at a median treatment duration of 24 months and a median follow-up of 26 months. Femara was superior to tamoxifen in all endpoints except overall survival and contralateral breast cancer [e.g., DFS: hazard ratio, HR 0.79; 95% CI (0.68, 0.92); P=0.002; SDFS: HR 0.83; 95% CI (0.70, 0.97); TDM: HR 0.73; 95% CI (0.60, 0.88); OS: HR 0.86; 95% CI (0.70, 1.06). In 2005, based on recommendations by the independent Data Monitoring Committee, the tamoxifen arms were unblinded and patients were allowed to complete initial adjuvant therapy with Femara (if they had received tamoxifen for at least 2 years) or to start extended adjuvant treatment with Femara (if they had received tamoxifen for at least 4.5 years) if they remained alive and disease-free. In total, 632 patients crossed to Femara or another aromatase inhibitor. Approximately 70% (448) of these 632 patients crossed to Femara to complete initial adjuvant therapy and most of these crossed in years 3 to 4. All of these patients were in Option 1. A total of 184 patients started extended adjuvant therapy with Femara (172 patients) or with another aromatase inhibitor (12 patients). To explore the impact of this selective crossover, results from analyses censoring follow-up at the date of the selective crossover (in the tamoxifen arm) are presented for the Monotherapy Arms Analysis (MAA). The PCA allowed the results of Femara for 5 years compared with tamoxifen for 5 years to be reported in 2005 after a median follow-up of only 26 months. The design of the PCA is not optimal to evaluate the effect of Femara after a longer time (because follow-up was truncated in two arms at around 25 months). The Monotherapy Arms Analysis (ignoring the two sequential treatment arms) provided follow-up equally as long in each treatment and did not over-emphasize early recurrences as the PCA did. The MAA thus provides the clinically appropriate updated efficacy results in answer to the first primary question, despite the confounding of the tamoxifen reference arm by the selective crossover to Femara. The updated results for the MAA are summarized in Table 6. Median follow-up for this analysis is 73 months. The Sequential Treatments Analysis (STA) addresses the second primary question of the study. The primary analysis for the Sequential Treatments Analysis (STA) was from switch (or equivalent time-point in monotherapy arms) + 30 days (STA-S) with a two-sided test applied to each pair-wise comparison at the 2.5% level. Additional analyses wer e conducted from randomization (STA-R) but these comparisons (added in light of changing medical practice) were under-powered for efficacy. Table 5: Adjuvant Study -Patient and Disease Characteristics (ITT Population) Characteristic Primary Core Analysis (PCA) Monotherapy Arms Analysis (MAA) Femara N=4003 n (%) tamoxifen N=4007 n (%) Femara N=2463 n (%) tamoxifen N=2459 n (%) Age (median, years) 61 61 61 61 Age range (years) 38-89 39-90 38-88 39-90 Hormone receptor status (%) ER+ and/or PgR+ 99.7 99.7 99.7 99.7 Both unknown 0.3 0.3 0.3 0.3 Nodal status (%) Node negative 52 52 50 52 Node positive 41 41 43 41 Nodal status unknown 7 7 7 7 Prior adjuvant chemotherapy (%) 24 24 24 24 Table 6: Updated Adjuvant Study Results -Monotherapy Arms Analysis (Median Follow-up 73 Months) Femara N=2463 tamoxifen N=2459 Hazard ratio Events (%) 5-year rate Events (%) 5-year rate (95% CI) Disease-free survival1 ITT 445 (18.1) 87.4 500 (20.3) 84.7 0.87 (0.76, 0.99) Censor 445 87.4 483 84.2 0.84 (0.73, 0.95) 0 positive nodes ITT 165 92.2 189 90.3 0.88 (0.72, 1.09) 1-3 positive nodes ITT 151 85.6 163 83.0 0.85 (0.68, 1.06) > =4 positive nodes ITT 123 71.2 142 62.6 0.81 (0.64, 1.03) Adjuvant chemotherapy ITT 119 86.4 150 80.6 0.77 (0.60, 0.98) No chemotherapy ITT 326 87.8 350 86.1 0.91 (0.78, 1.06) Systemic DFS2 ITT 401 88.5 446 86.6 0.88 (0.77,1.01) Time to distant metastasis3 ITT 257 92.4 298 90.1 0.85 (0.72, 1.00) Adjuvant chemotherapy ITT 84 - 109 - 0.75 (0.56-1.00) No chemotherapy ITT 173 - 189 - 0.90 (0.73,1.11) Distant DFS4 ITT 385 89.0 432 87.1 0.87 (0.76,1.00) Contralateral breast cancer ITT 34 99.2 44 98.6 0.76 (0.49, 1.19) Overall survival ITT 303 91.8 343 90.9 0.87 (0.75, 1.02) Censor 303 91.8 338 90.1 0.82 (0.70, 0.96) 0 positive nodes ITT 107 95.2 121 94.8 0.90 (0.69.1.16) 1-3 positive nodes ITT 99 90.8 114 90.6 0.81(0.62,1.06) > =4 positive nodes ITT 92 80.2 104 73.6 0.86 (0.65, 1.14) Adjuvant chemotherapy ITT 76 91.5 96 88.4 0.79 (0.58, 1.06) No chemotherapy ITT 227 91.9 247 91.8 0.91 (0.76, 1.08) Definition of: 1Disease-free survival: Interval from randomization to earliest event of invasive loco-regional recurrence, distant metastasis, invasive contralateral breast cancer, or death without a prior event 2Systemic disease-free survival: Interval from randomization to invasive regional recurrence, distant metastasis, or death without a prior cancer event 3Time to distant metastasis: Interval from randomization to distant metastasis 4Distant disease-free survival: Interval from randomization to earlier event of relapse in a distant site or death from any cause ITT analysis ignores selective crossover in tamoxifen arms Censored analysis censors follow-up at the date of selective crossover in 632 patients who crossed to Femara or another aromatase inhibitor after the tamoxifen arms were unblinded in 2005 Figure 1 shows the Kaplan-Meier curves for Disease-Free Survival Monotherapy Analysis Figure 1 : Disease-Free Survival (Median follow-up 73 months, ITT Approach) DFS events defined as loco-regional recurrence, distant meta sta sis, inva sive contra latera l brea st cancer, or death from a ny cau se (i.e., definition excludes second non-brea st primary cancers). The medians of overall survival for both arms were not reached for the Monotherapy Arms Analysis (MAA). There was no statistically significant difference in overall survival. The hazard ratio for survival in the Femara arm compared to the tamoxifen arm was 0.87, with 95% CI (0.75, 1.02) (see Table 6). There were no significant differences in DFS, OS, SDFS, and Distant DFS from switch in the Sequential Treatments Analysis with respect to either monotherapy (e.g., [Tamoxifen 2 years followed by] Femara 3 years versus tamoxifen beyond 2 years, DFS HR 0.89; 97.5% CI 0.68, 1.15 and [Femara 2 years followed by] tamoxifen 3 years versus Femara beyond 2 years, DFS HR 0.93; 97.5% CI 0.71, 1.22). There were no significant differences in DFS, OS, SDFS, and Distant DFS from randomization in the Sequential Treatments Analyses. Extended Adjuvant Treatment Of Early Breast Cancer, Median Treatment Duration Of 24 Months A double-blind, randomized, placebo-controlled trial of Femarawas performed in over 5,100 postmenopausal women with receptor-positive or unknown primary breast cancer who were disease free after 5 years of adjuvant treatment with tamoxifen. The planned duration of treatment for patients in the study was 5 years, but the trial was terminated early because of an interim analysis showing a favorable Femara effect on time without recurrence or contralateral breast cancer. At the time of unblinding, women had been followed for a median of 28 months, 30% of patients had completed 3 or more years of follow-up and less than 1% of patients had completed 5 years of follow-up. Selected baseline characteristics for the study population are shown in Table 7. Table 7: Selected Study Population Demographics (Modified ITT Population) Baseline Status Femara N=2582 Placebo N=2586 Hormone Receptor Status (%) ER+ and/or PgR+ 98 98 Both Unknown 2 2 Nodal Status (%) Node Negative 50 50 Node Positive 46 46 Nodal Status Unknown 4 4 Chemotherapy 46 46 Table 8 shows the study results. Disease-free survival was measured as the time from randomization to the earliest event of loco-regional or distant recurrence of the primary disease or development of contralateral breast cancer or death. DFS by hormone receptor status, nodal status and adjuvant chemotherapy were similar to the overall results. Data were premature for an analysis of survival. Table 8: Extended Adjuvant Study Results Femara N = 2582 Placebo N = 2586 Hazard Ratio (95% CI) P-Value Disease Free Survival (DFS)1 Events 122 (4.7%) 193 (7.5%) 0.62 (0.49, 0.78)2 0.00003 Local Breast Recurrence 9 22 Local Chest Wall Recurrence 2 8 Regional Recurrence 7 4 Distant Recurrence 55 92 0.61 (0.44 -0.84) 0.003 Contralateral Breast Cancer 19 29 Deaths Without Recurrence or Contralateral Breast Cancer 30 38 CI = confidence interval for hazard ratio. Hazard ratio of less than 1.0 indicates difference in favor of Femara (lesser risk of recurrence); hazard ratio greater than 1.0 indicates difference in favor of placebo (higher risk of recurrence with Femara). 1First event of loco-regional recurrence, distant relapse, contralateral breast cancer or death from any cause 2Analysis stratified by receptor status, nodal status and prior adjuvant chemotherapy (stratification factors as at randomization). P-value based on stratified logrank test. Updated Analyses Of Extended Adjuvant Treatment Of Early Breast Cancer, Median Treatment Duration Of 60 Months Table 9: Update of Extended Adjuvant Study Results Femara N = 2582 (%) Placebo N = 2586 (%) Hazard Ratio1 (95% CI) P-Value2 Disease Free Survival (DFS) events3 344 (13.3) 402 (15.5) 0.89 (0.77, 1.03) 0.12 Breast cancer recurrence (Protocol definition of DFS events4) 209 286 0.75 (0.63, 0.89) 0.001 Local Breast Recurrence 15 44 Local Chest Wall Recurrence 6 14 Regional Recurrence 10 8 Distant Recurrence 140 167 Distant Recurrence (first or subsequent events) 142 169 0.88 (0.70,1.10) 0.246 Contralateral Breast Cancer 37 53 Deaths Without Recurrence or Contralateral Breast Cancer 135 116 1Adjusted by receptor status, nodal status and prior chemotherapy 2Stratified logrank test, stratified by receptor status, nodal status and prior chemotherapy 3DFS events defined as earliest of loco-regional recurrence, distant metastasis, contralateral breast cancer or death from any cause, and ignoring switches to Femara in 60% of the placebo arm. 4Protocol definition does not include deaths from any cause Updated analyses were conducted at a median follow-up of 62 months. In the Femara arm, 71% of the patients were treated for a least 3 years and 58% of patients completed at least 4.5 years of extended adjuvant treatment. After the unblinding of the study at a median follow-up of 28 months, approximately 60% of the selected patients in the placebo arm opted to switch to Femara. In this updated analysis shown in Table 9, Femara significantly reduced the risk of breast cancer recurrence or contralateral breast cancer compared with placebo (HR 0.75; 95% CI 0.63, 0.89; P=0.001). However, in the updated DFS analysis (interval between randomization and earliest event of loco-regional recurrence, distant metastasis, contralateral breast cancer, or death from any cause) the treatment difference was heavily diluted by 60% of the patients in the placebo arm switching to Femara and accounting for 64% of the total placebo patient-years of follow-up. Ignoring these switches, the risk of DFS event was reduced by a non-significant 11% (HR 0.89; 95% CI 0.77, 1.03). There was no significant difference in distant disease-free survival or overall survival. First-Line Treatment Of Advanced Breast Cancer A randomized, double-blind, multinational trial compared Femara 2.5 mg with tamoxifen 20 mg in 916 postmenopausal patients with locally advanced (Stage IIIB or loco-regional recurrence not amenable to treatment with surgery or radiation) or metastatic breast cancer. Time to progression (TTP) was the primary endpoint of the trial. Selected baseline characteristics for this study are shown in Table 10. Table 10: Selected Study Population Demographics Baseline Status Femara N=458 tamoxifen N=458 Stage of Disease IIIB 6% 7% IV 93% 92% Receptor Status ER and PgR Positive 38% 41% ER or PgR Positive 26% 26% Both Unknown 34% 33% ER- or PgR-/Other Unknown < 1% 0 Previous Antiestrogen Therapy Adjuvant 19% 18% None 81% 82% Dominant Site of Disease Soft Tissue 25% 25% Bone 32% 29% Viscera 43% 46% Femara was superior to tamoxifen in TTP and rate of objective tumor response (see Table 11). Table 11 summarizes the results of the trial, with a total median follow-up of approximately 32 months. (All analyses are unadjusted and use 2-sided P-values.) Table 11: Results of First-Line Treatment of Advanced Breast Cancer Femara 2.5 mg N=453 tamoxifen 20 mg N=454 Hazard or Odds Ratio (95% CI) P-Value (2-Sided) Median Time to Progression 9.4 months 6.0 months 0.72 (0.62, 0.83)1 P < 0.0001 Objective Response Rate (CR + PR) 145 (32%) 95 (21%) 1.77 (1.31, 2.39)2 P=0.0002 (CR) 42 (9%) 15 (3%) 2.99 (1.63, 5.47)2 P=0.0004 Duration of Objective Response Median 18 months (N=145) 16 months (N=95) Overall Survival 35 months (N=458) 32 months (N=458) P=0.51363 1Hazard ratio 2Odds ratio 3Overall logrank test Figure 2 shows the Kaplan-Meier curves for TTP. Figure 2 : Kaplan-Meier Estimates of Time to Progression (Tamoxifen Study) Table 12 shows results in the subgroup of women who had received prior antiestrogen adjuvant therapy, Table 13, results by disease site and Table 14, the results by receptor status. Table 12: Efficacy in Patients Who Received Prior Antiestrogen Therapy Variable Femara 2.5 mg N=84 tamoxifen 20 mg N=83 Median Time to Progression (95% CI) 8.9 months (6.2, 12.5) 5.9 months (3.2, 6.2) Hazard Ratio for TTP (95% CI) 0.60 (0.43, 0.84) Objective Response Rate (CR + PR) 22 (26%) 7 (8%) Odds Ratio for Response (95% CI) 3.85 (1.50, 9.60) Hazard ratio less than 1 or odds ratio greater than 1 favors Femara; hazard ratio greater than 1 or odds ratio less than 1 favors tamoxifen. Table 13: Efficacy by Disease Site Femara 2.5 mg tamoxifen 20 mg Dominant Disease Site Soft Tissue: N=113 N=115 Median TTP 12.1 months 6.4 months Objective Response Rate 50% 34% Bone: N=145 N=131 Median TTP 9.5 months 6.3 months Objective Response Rate 23% 15% Viscera: N=195 N=208 Median TTP 8.3 months 4.6 months Objective Response Rate 28% 17% Table 14: Efficacy by Receptor Status Variable Femara 2.5 mg tamoxifen 20 mg Receptor Positive N=294 N=305 Median Time to Progression (95% CI) 9.4 months (8.9, 11.8) 6.0 months (5.1, 8.5) Hazard Ratio for TTP (95% CI) 0.69 (0.58, 0.83) Objective Response Rate (CR+PR) 97 (33%) 66 (22%) Odds Ratio for Response 95% CI) 1.78 (1.20, 2.60) Receptor Unknown N=159 N=149 Median Time to Progression (95% CI) 9.2 months (6.1, 12.3) 6.0 months (4.1, 6.4) Hazard Ratio for TTP (95% CI) 0.77 (0.60, 0.99) Objective Response Rate (CR+PR) 48 (30%) 29 (20%) Odds Ratio for Response (95% CI) 1.79 (1.10, 3.00) Hazard ratio less than 1 or odds ratio greater than 1 favors Femara; hazard ratio greater than 1 or odds ratio less than 1 favors tamoxifen. Figure 3 shows the Kaplan-Meier curves for survival. Figure 3 : Survival by Randomized Treatment Arm Legend: Randomized Femara: n=458, events 57%, median overall survival 35 months (95% CI 32 to 38 months) Randomized tamoxifen: n=458, events 57%, median overall survival 32 months (95% CI 28 to 37 months) Overall logrank P=0.5136 (i.e., there was no significant difference between treatment arms in overall survival). The median overall survival was 35 months for the Femara group and 32 months for the tamoxifen group, with a P-value 0.5136. Study design allowed patients to cross over upon progression to the other therapy. Approximately 50% of patients crossed over to the opposite treatment arm and almost all patients who crossed over had done so by 36 months. The median time to crossover was 17 months (Femara to tamoxifen) and 13 months (tamoxifen to Femara). In patients who did not cross over to the opposite treatment arm, median survival was 35 months with Femara (n=219, 95% Cl 29 to 43 months) vs 20 months with tamoxifen (n=229, 95% Cl 16 to 26 months). Second-Line Treatment Of Advanced Breast Cancer Femara was initially studied at doses of 0.1 mg to 5.0 mg daily in six non-comparative Phase I/II trials in 181 postmenopausal estrogen/progesterone receptor positive or unknown advanced breast cancer patients previously treated with at least antiestrogen therapy. Patients had received other hormonal therapies and also may have received cytotoxic therapy. Eight (20%) of forty patients treated with Femara 2.5 mg daily in Phase I/II trials achieved an objective tumor response (complete or partial response). Two large randomized, controlled, multinational (predominantly European) trials were conducted in patients with advanced breast cancer who had progressed despite antiestrogen therapy. Patients were randomized to Femara 0.5 mg daily, Femara 2.5 mg daily, or a comparator (megestrol acetate 160 mg daily in one study; and aminoglutethimide 250 mg b.i.d. with corticosteroid supplementation in the other study). In each study over 60% of the patients had received therapeutic antiestrogens, and about one-fifth of these patients had an objective response. The megestrol acetate controlled study was double-blind; the other study was open label. Selected baseline characteristics for each study are shown in Table 15. Table 15: Selected Study Population Demographics Parameter megestrol acetate study aminoglutethimide study No. of Participants 552 557 Receptor Status ER/PR Positive 57% 56% ER/PR Unknown 43% 44% Previous Therapy Adjuvant Only 33% 38% Therapeutic +/- Adj. 66% 62% Sites of Disease Soft Tissue 56% 50% Bone 50% 55% Viscera 40% 44% Confirmed objective tumor response (complete response plus partial response) was the primary endpoint of the trials. Responses were measured according to the Union Internationale Contre le Cancer (UICC) criteria and verified by independent, blinded review. All responses were confirmed by a second evaluation 4 to 12 weeks after the documentation of the initial response. Table 16 shows the results for the first trial, with a minimum follow-up of 15 months, that compared Femara 0.5 mg, Femara 2.5 mg, and megestrol acetate 160 mg daily. (All analyses are unadjusted.) Table 16: Megestrol Acetate Study Results Femara 0.5 mg N=188 Femara 2.5 mg N=174 megestrol acetate N=190 Objective Response (CR + PR) 22 (11.7%) 41 (23.6%) 31 (16.3%) Median Duration of Response 552 days (Not reached) 561 days Median Time to Progression 154 days 170 days 168 days Median Survival 633 days 730 days 659 days Odds Ratio for Response Femara 2.5: Femara 0.5=2.33 (95% CI: 1.32, 4.17); P=0.004* Femara 2.5: megestrol=1.58 (95% CI: 0.94, 2.66); P=0.08* Relative Risk of Progression Femara 2.5: Femara 0.5=0.81 (95% CI: 0.63, 1.03); P=0.09* Femara 2.5: megestrol=0.77 (95% CI: 0.60, 0.98); P=0.03* * two-sided P-value The Kaplan-Meier curves for progression for the megestrol acetate study are shown in Figure 4. Figure 4 : Kaplan-Meier Estimates of Time to Progression (Megestrol Acetate Study) The results for the study comparing Femara to aminoglutethimide, with a minimum follow-up of 9 months, are shown in Table 17. (Unadjusted analyses are used.) Table 17: Aminoglutethimide Study Results Femara 0.5 mg N=193 Femara 2.5 mg N=185 aminoglutethimide N=179 Objective Response (CR + PR) 34 (17.6%) 34 (18.4%) 22 (12.3%) Median Duration of Response 619 days 706 days 450 days Median Time to Progression 103 days 123 days 112 days Median Survival 636 days 792 days 592 days Odds Ratio for Response Femara 2.5: Femara 0.5=1.05 (95% CI: 0.62, 1.79); P=0.85* Femara 2.5: aminoglutethimide= 1.61 (95% CI: 0.90, 2.87); P=0.11* Relative Risk of Progression Femara 2.5: Femara 0.5=0.86 (95% CI: 0.68, 1.11); P=0.25* Femara 2.5: aminoglutethimide=0.74 (95% CI: 0.57, 0.94); P=0.02* *2-sided P-value The Kaplan-Meier curves for progression for the aminoglutethimide study is shown in Figure 5. Figure 5 : Kaplan-Meier Estimates of Time to Progression (Aminoglutethimide Study)

Drug Description

Find Lowest Prices on Femara (letrozole) Tablets for Oral Administration DESCRIPTION Femara tablets for oral administration contains 2.5 mg of letrozole, a nonsteroidal aromatase inhibitor (inhibitor of estrogen synthesis). It is chemically described as 4,4'-(1H-1,2,4-Triazol-1ylmethylene)dibenzonitrile, and its structural formula is Letrozole is a white to yellowish crystalline powder, practically odorless, freely soluble in dichloromethane, slightly soluble in ethanol, and practically insoluble in water. It has a molecular weight of 285.31, empirical formula C17H11N5, and a melting range of 184°C to 185°C. Femara is available as 2.5 mg tablets for oral administration. Inactive Ingredients: Colloidal silicon dioxide, ferric oxide, hydroxypropyl methylcellulose, lactose monohydrate, magnesium stearate, maize starch, microcrystalline cellulose, polyethylene glycol, sodium starch glycolate, talc, and titanium dioxide.

Indications & Dosage

INDICATIONS Adjuvant Treatment Of Early Breast Cancer Femara (letrozole) is indicated for the adjuvant treatment of postmenopausal women with hormone receptor positive early breast cancer. Extended Adjuvant Treatment Of Early Breast Cancer Femara is indicated for the extended adjuvant treatment of early breast cancer in postmenopausal women, who have received 5 years of adjuvant tamoxifen therapy. The effectiveness of Femara in extended adjuvant treatment of early breast cancer is based on an analysis of disease-free survival in patients treated with Femara for a median of 60 months [see Clinical Studies]. First and Second-Line Treatment Of Advanced Breast Cancer Femara is indicated for first-line treatment of postmenopausal women with hormone receptor positive or unknown, locally advanced or metastatic breast cancer. Femara is also indicated for the treatment of advanced breast cancer in postmenopausal women with disease progression following antiestrogen therapy [see Clinical Studies]. DOSAGE AND ADMINISTRATION Recommended Dose The recommended dose of Femara is one 2.5 mg tablet administered once a day, without regard to meals. Use In Adjuvant Treatment Of Early Breast Cancer In the adjuvant setting, the optimal duration of treatment with letrozole is unknown. The planned duration of treatment in the study was 5 years with 73% of the patients having completed adjuvant therapy. Treatment should be discontinued at relapse [see Clinical Studies]. Use In Extended Adjuvant Treatment Of Early Breast Cancer In the extended adjuvant setting, the optimal treatment duration with Femara is not known. The planned duration of treatment in the study was 5 years. In the final updated analysis, conducted at a median follow-up of 62 months, the median treatment duration was 60 months. Seventy-one percent of patients were treated for at least 3 years and 58% of patients completed least 4.5 years of extended adjuvant treatment. The treatment should be discontinued at tumor relapse [see Clinical Studies]. Use In First And Second-Line Treatment Of Advanced Breast Cancer In patients with advanced disease, treatment with Femara should continue until tumor progression is evident. [see Clinical Studies] Use In Hepatic Impairment No dosage adjustment is recommended for patients with mild to moderate hepatic impairment, although Femara blood concentrations were modestly increased in subjects with moderate hepatic impairment due to cirrhosis. The dose of Femara in patients with cirrhosis and severe hepatic dysfunction should be reduced by 50% [see WARNINGS AND PRECAUTIONS]. The recommended dose of Femara for such patients is 2.5 mg administered every other day. The effect of hepatic impairment on Femara exposure in noncirrhotic cancer patients with elevated bilirubin levels has not been determined. Use In Renal Impairment No dosage adjustment is required for patients with renal impairment if creatinine clearance is ≥ 10 mL/min. [see CLINICAL PHARMACOLOGY]. HOW SUPPLIED Dosage Forms And Strengths 2.5 mg tablets: dark yellow, film-coated, round, slightly biconvex, with beveled edges (imprinted with the letters FV on one side and CG on the other side). Storage And Handling Packaged in HDPE bottles with a safety screw cap. 2.5 milligram tablets Bottles of 30 tablets..............................................NDC 0078-0249-15 Store at 25°C (77°F); excursions permitted to 15 to 30°C (59 to 86°F) [see USP Controlled Room Temperature]. Novartis Pharmaceuticals Corporation East Hanover, New Jersey, 07936. Revised: Jan 2014

Medication Guide

PATIENT INFORMATION Pregnancy Femara is contraindicated in women of premenopausal endocrine status. The physician needs to discuss the necessity of adequate contraception with women who have the potential to become pregnant including women who are perimenopausal or who recently became postmenopausal, until their postmenopausal status is fully established. Fatigue and Dizziness Since fatigue and dizziness have been observed with the use of Femara and somnolence was uncommonly reported, caution is advised when driving or using machinery. Bone Effects Consideration should be given to monitoring bone mineral density.

Overdosage & Contraindications

OVERDOSE Isolated cases of Femara overdose have been reported. In these instances, the highest single dose ingested was 62.5 mg or 25 tablets. While no serious adverse reactions were reported in these cases, because of the limited data available, no firm recommendations for treatment can be made. However, emesis could be induced if the patient is alert. In general, supportive care and frequent monitoring of vital signs are also appropriate. In single-dose studies, the highest dose used was 30 mg, which was well tolerated; in multiple-dose trials, the largest dose of 10 mg was well tolerated. Lethality was observed in mice and rats following single oral doses that were equal to or greater than 2,000 mg/kg (about 4,000 to 8,000 times the daily maximum recommended human dose on a mg/m² basis); death was associated with reduced motor activity, ataxia and dyspnea. Lethality was observed in cats following single IV doses that were equal to or greater than 10 mg/kg (about 50 times the daily maximum recommended human dose on a mg/m² basis); death was preceded by depressed blood pressure and arrhythmias. CONTRAINDICATIONS Femara may cause fetal harm when administered to a pregnant woman and the clinical benefit to premenopausal women with breast cancer has not been demonstrated. Femara is contraindicated in women who are or may become pregnant. If Femara is used during pregnancy, or if the patient becomes pregnant while taking this drug, the patient should be apprised of the potential hazard to a fetus. [see Use in Specific Populations]

Side Effects & Drug Interactions

SIDE EFFECTS The most serious adverse reactions from the use of Femara are: Bone effects [see WARNINGS AND PRECAUTIONS] Increases in cholesterol [see WARNINGS AND PRECAUTIONS] Because clinical trials are conducted under widely varying conditions, adverse reactions rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. Adjuvant Treatment Of Early Breast Cancer The median treatment duration of adjuvant treatment was 60 months and the median duration of follow-up for safety was 73 months for patients receiving Femara and tamoxifen. Certain adverse reactions wer e prospectively specified for analysis, based on the known pharmacologic properties and side effect profiles of the two drugs. Adverse reactions wer e analyzed irrespective of whether a symptom was present or absent at baseline. Most adverse reactions reported (approximately 75% of patients reporting 1 or more AE) were Grade 1 or Grade 2 applying the Common Toxicity Criteria Version 2.0/ Common Terminology Criteria for Adverse Events, version 3.0. Table 1 describes adverse reactions (Grades 1-4) irrespective of relationship to study treatment in the adjuvant trial for the monotherapy arms analysis (safety population). Table 1: Patients with Adverse Reactions (CTC Grades 1-4, Irrespective of Relationship to Study Drug) in the Adjuvant Study – Monotherapy Arms Analysis (Median Follow-up 73 Months; Median Treatment 60 Months) Adverse Reaction Grades 1-4 Grades 3-4 Femara N=2448 n (%) tamoxifen N=2447 n (%) Femara N=2448 n (%) tamoxifen N=2447 n (%) Pts with any adverse event 2310 (94.4) 2214 (90.5) 635 (25.9) 604 (24.7) Hypercholesterolemia 1280 (52.3) 700 (28.6) 11 ( 0.4) 6 ( 0.2) Hot Flashes/Flushes 821 (33.5) 929 (38.0) 0 - 0 - Arthralgia/Arthritis 618 (25.2) 501 (20.4) 85 ( 3.5) 50 ( 2.0) Night Sweats 357 (14.6) 426 (17.4) 0 - 0 - Bone Fractures2 338 (13.8) 257 (10.5) - - - - Weight Increase 317 (12.9) 378 (15.4) 27 ( 1.1) 39 ( 1.6) Nausea 283 (11.6) 277 (11.3) 6 ( 0.2) 9 ( 0.4) Bone Fractures1 247 (10.1) 174 ( 7.1) - - - - Fatigue (Lethargy, Malaise, Asthenia) 235 ( 9.6) 250 (10.2) 6 ( 0.2) 7 ( 0.3) Myalgia 217 ( 8.9) 212 ( 8.7) 18 ( 0.7) 14 ( 0.6) Edema 164 ( 6.7) 160 ( 6.5) 3 ( 0.1) 1 ( < 0.1) Weight Decrease 140 ( 5.7) 129 ( 5.3) 8 ( 0.3) 5 ( 0.2) Vaginal Bleeding 128 ( 5.2) 320 (13.1) 1 ( < 0.1) 8 ( 0.3) Back Pain 125 ( 5.1) 136 ( 5.6) 7 ( 0.3) 11 ( 0.4) Osteoporosis NOS 124 ( 5.1) 66 ( 2.7) 10 ( 0.4) 5 ( 0.2) Bone pain 123 ( 5.0) 109 ( 4.5) 6 ( 0.2) 4 ( 0.2) Depression 119 ( 4.9) 114 ( 4.7) 16 ( 0.7) 14 ( 0.6) Vaginal Irritation 111 ( 4.5) 77 ( 3.1) 2 ( < 0.1) 2 ( < 0.1) Headache 105 ( 4.3) 94 ( 3.8) 9 ( 0.4) 5 ( 0.2) Pain in extremity 103 ( 4.2) 79 ( 3.2) 6 ( 0.2) 4 ( 0.2) Osteopenia 87 ( 3.6) 74 ( 3.0) 0 - 2 ( < 0.1) Dizziness/Light-Headedness 84 ( 3.4) 84 ( 3.4) 1 ( < 0.1) 6 (0.2) Alopecia 83 ( 3.4) 84 ( 3.4) 0 - 0 - Vomiting 80 ( 3.3) 80 ( 3.3) 3 ( 0.1) 5 (0.2) Cataract 49 ( 2.0) 54 ( 2.2) 16 ( 0.7) 17 ( 0.7) Constipation 49 ( 2.0) 71 ( 2.9) 3 ( 0.1) 1 ( < 0.1) Breast pain 37 ( 1.5) 43 ( 1.8) 1 ( < 0.1) 0 - Anorexia 20 ( 0.8) 20 ( 0.8) 1 ( < 0.1) 1 ( < 0.1) Endometrial Hyperplasia/ Cancer2, 3 11/1909 ( 0.6) 70/1943 ( 3.6) - - Endometrial Proliferation Disorders 10 (0.3) 71 (1.8) 0 - 14 (0.6) Endometrial Hyperplasia/ Cancer1, 3 6/1909 ( 0.3) 57/1943 (2.9) - - Other Endometrial Disorders 2 ( < 0.1) 3 ( 0.1) 0 0 Myocardial Infarction1 24 ( 1.0) 12 ( 0.5) - - Myocardial Infarction2 37 ( 1.5) 25 (1.0) - - Myocardial Ischemia 6 ( 0.2) 9 ( 0.4) - - Cerebrovascular Accident1 52 ( 2.1) 46 ( 1.9) - - Cerebrovascular Accident2 70 ( 2.9) 63 ( 2.6) - - Angina1 26 ( 1.1) 24 ( 1.0) - - Angina2 32 ( 1.3) 31 ( 1.3) - - Thromboembolic Event1 51 ( 2.1) 89 ( 3.6) - - Thromboembolic Event2 71 ( 2.9) 111 ( 4.5) - - Other Cardiovascular1 260 (10.6) 256 (10.5) - - Other Cardiovascular2 312 (12.7) 337 (13.8) - - Second Malignancies1 53 ( 2.2) 78 ( 3.2) - - Second Malignancies2 102 ( 4.2) 119 ( 4.9) - - 1During study treatment, based on Safety Monotherapy population 2Any time after randomization, including post treatment follow-up 3Excluding women who had undergone hysterectomy before study entry Note: Cardiovascular (including cerebrovascular and thromboembolic), skeletal and urogenital/endometrial events and second malignancies were collected life-long. All of these events were assumed to be of CTC Grade 3 to 5 and were not individually graded. When considering all grades during study treatment, a higher incidence of events was seen for Femara regarding fractures (10.1% vs 7.1%), myocardial infarctions (1.0% vs 0.5%), and arthralgia (25.2% vs 20.4%) (Femara vs tamoxifen respectively). A higher incidence was seen for tamoxifen regarding thromboembolic events (2.1% vs 3.6%), endometrial hyperplasia/cancer (0.3% vs 2.9%), and endometrial proliferation disorders (0.3% vs 1.8%) (Femara vs tamoxifen respectively). At a median follow up of 73 months, a higher incidence of events was seen for Femara (13.8%) than for tamoxifen (10.5%) regarding fractures. A higher incidence was seen for tamoxifen compared to Femara regarding thromboembolic events (4.5% vs 2.9%), and endometrial hyperplasia or cancer (2.9% vs 0.4%) (tamoxifen vs Femara, respectively). Bone Study: Results of a phase 3 safety trial in 262 postmenopausal women with resected receptor positive early breast cancer in the adjuvant setting comparing the effect on lumbar spine (L2-L4) bone mineral density (BMD) of adjuvant treatment with letrozole to that with tamoxifen showed at 24 months a median decrease in lumbar spine BMD of 4.1% in the letrozole arm compared to a median increase of 0.3% in the tamoxifen arm (difference = 4.4%) (P < 0.0001). No patients with a nor mal BMD at baseline became osteoporotic over the 2 years and only 1 patient with osteopenia at baseline (T score of -1.9) developed osteoporosis during the treatment period (assessment by central review). The results for total hip BMD were similar, although the differences between the two treatments were less pronounced. During the 2 year period, fractures were reported by 4 of 103 patients (4%) in the letrozole arm, and 6 of 97 patients (6%) in the tamoxifen arm. Lipid Study: In a phase 3 safety trial in 262 postmenopausal women with resected receptor positive early breast cancer at 24 months comparing the effects on lipid profiles of adjuvant letrozole to tamoxifen, 12% of patients on letrozole had at least one total cholesterol value of a higher CTCAE grade than at baseline compared with 4% of patients on tamoxifen. Extended Adjuvant Treatment Of Early Breast Cancer, Median Treatment Duration Of 24 Months The median duration of extended adjuvant treatment was 24 months and the median duration of follow-up for safety was 28 months for patients receiving Femara and placebo. Table 2 describes the adverse reactions occurring at a frequency of at least 5% in any treatment group during treatment. Most adverse reactions reported were Grade 1 and Grade 2 based on the Common Toxicity Criteria Version 2.0. In the extended adjuvant setting, the reported drug-related adverse reactions that were significantly different from placebo were hot flashes, arthralgia/arthritis, and myalgia. Table 2: Percentage of Patients with Adverse Reactions Number (%) of Patients with Grade 1-4 Adverse Reaction Number (%) of Patients with Grade 3-4 Adverse Reaction Femara N=2563 Placebo N=2573 Femara N=2563 Placebo N=2573 Any Adverse Reaction 2232 (87.1) 2174 (84.5) 419 (16.3) 389 (15.1) Vascular Disorders 1375 (53.6) 1230 (47.8) 59 (2.3) 74 (2.9) Flushing 1273 (49.7) 1114 (43.3) 3 (0.1) 0 General Disorders 1154 (45) 1090 (42.4) 30 (1.2) 28 (1.1) Asthenia 862 (33.6) 826 (32.1) 16 (0.6) 7 (0.3) Edema NOS 471 (18.4) 416 (16.2) 4 (0.2) 3 (0.1) Musculoskeletal Disorders 978 (38.2) 836 (32.5) 71 (2.8) 50 (1.9) Arthralgia 565 (22) 465 (18.1) 25 (1) 20 (0.8) Arthritis NOS 173 (6.7) 124 (4.8) 10 (0.4) 5 (0.2) Myalgia 171 (6.7) 122 (4.7) 8 (0.3) 6 (0.2) Back Pain 129 (5) 112 (4.4) 8 (0.3) 7 (0.3) Nervous System Disorders 863 (33.7) 819 (31.8) 65 (2.5) 58 (2.3) Headache 516 (20.1) 508 (19.7) 18 (0.7) 17 (0.7) Dizziness 363 (14.2) 342 (13.3) 9 (0.4) 6 (0.2) Skin Disorders 830 (32.4) 787 (30.6) 17 (0.7) 16 (0.6) Sweating Increased 619 (24.2) 577 (22.4) 1 (

Warnings & Precautions

WARNINGS Included as part of the PRECAUTIONS section. PRECAUTIONS Bone Effects Use of Femara may cause decreases in bone mineral density (BMD). Consideration should be given to monitoring BMD. Results of a substudy to evaluate safety in the adjuvant setting comparing the effect on lumbar spine (L2-L4) bone mineral density (BMD) of adjuvant treatment with letrozole to that with tamoxifen showed at 24 months a median decrease in lumbar spine BMD of 4.1% in the letrozole arm compared to a median increase of 0.3% in the tamoxifen arm (difference = 4.4%) (P < 0.0001) [see ADVERSE REACTIONS]. Updated results from the BMD substudy in the extended adjuvant setting demonstrated that at 2 years patients receiving letrozole had a median decrease from baseline of 3.8% in hip BMD compared to a median decrease of 2.0% in the placebo group. The changes from baseline in lumbar spine BMD in letrozole and placebo treated groups were not significantly different [see ADVERSE REACTIONS]. In the adjuvant trial the incidence of bone fractures at any time after randomization was 13.8% for letrozole and 10.5% for tamoxifen. The incidence of osteoporosis was 5.1% for letrozole and 2.7% for tamoxifen [see ADVERSE REACTIONS]. In the extended adjuvant trial the incidence of bone fractures at any time after randomization was 13.3% for letrozole and 7.8% for placebo. The incidence of new osteoporosis was 14.5% for letrozole and 7.8% for placebo [see ADVERSE REACTIONS]. Cholesterol Consideration should be given to monitoring serum cholesterol. In the adjuvant trial hypercholesterolemia was reported in 52.3% of letrozole patients and 28.6% of tamoxifen patients. CTC grade 3-4 hypercholesterolemia was reported in 0.4% of letrozole patients and 0.1% of tamoxifen patients. Also in the adjuvant setting, an increase of ≥ 1.5 X ULN in total cholesterol (generally non-fasting) was observed in patients on monotherapy who had baseline total serum cholesterol within the normal range (i.e., < =1.5 X ULN) in 151/1843 (8.2%) on letrozole vs 57/1840 (3.2%). Lipid lowering medications were required for 25% of patients on letrozole and 16% on tamoxifen [see ADVERSE REACTIONS]. Hepatic Impairment Subjects with cirrhosis and severe hepatic impairment who were dosed with 2.5 mg of Femara experienced approximately twice the exposure to Femara as healthy volunteers with normal liver function. Therefore, a dose reduction is recommended for this patient population. The effect of hepatic impairment on Femara exposure in cancer patients with elevated bilirubin levels has not been determined. [see DOSAGE AND ADMINISTRATION] Fatigue And Dizziness Because fatigue, dizziness, and somnolence have been reported with the use of Femara, caution is advised when driving or using machinery until it is known how the patient reacts to Femara use. Laboratory Test Abnormalities No dose-related effect of Femara on any hematologic or clinical chemistry parameter was evident. Moderate decreases in lymphocyte counts, of uncertain clinical significance, were observed in some patients receiving Femara 2.5 mg. This depression was transient in about half of those affected. Two patients on Femara developed thrombocytopenia; relationship to the study drug was unclear. Patient withdrawal due to laboratory abnormalities, whether related to study treatment or not, was infrequent. Nonclinical Toxicology Carcinogenesis, Mutagenesis, Impairment Of Fertility A conventional carcinogenesis study in mice at doses of 0.6 to 60 mg/kg/day (about 1 to 100 times the daily maximum recommended human dose on a mg/m² basis) administered by oral gavage for up to 2 years revealed a dose-related increase in the incidence of benign ovarian stromal tumors. The incidence of combined hepatocellular adenoma and carcinoma showed a significant trend in females when the high dose group was excluded due to low survival. In a separate study, plasma AUC0-12hr levels in mice at 60 mg/kg/day were 55 times higher than the AUC0-24hr level in breast cancer patients at the recommended dose. The carcinogenicity study in rats at oral doses of 0.1 to 10 mg/kg/day (about 0.4 to 40 times the daily maximum recommended human dose on a mg/m² basis) for up to 2 years also produced an increase in the incidence of benign ovarian stromal tumors at 10 mg/kg/day. Ovarian hyperplasia was observed in females at doses equal to or greater than 0.1 mg/kg/day. At 10 mg/kg/day, plasma AUC0-24hr levels in rats were 80 times higher than the level in breast cancer patients at the recommended dose. The benign ovarian stromal tumors observed in mice and rats were considered to be related to the pharmacological inhibition of estrogen synthesis and may be due to increased luteinizing hormone resulting from the decrease in circulating estrogen. Femara (letrozole) was not mutagenic in in vitro tests (Ames and E.coli bacterial tests) but was observed to be a potential clastogen in in vitro assays (CHO K1 and CCL 61 Chinese hamster ovary cells). Letrozole was not clastogenic in vivo (micronucleus test in rats). Studies to investigate the effect of letrozole on fertility have not been conducted; however, repeated dosing caused sexual inactivity in females and atrophy of the reproductive tract in males and females at doses of 0.6, 0.1 and 0.03 mg/kg in mice, rats and dogs, respectively (about one, 0.4 and 0.4 the daily maximum recommended human dose on a mg/m² basis, respectively). Oral administration of letrozole to female rats starting 2 weeks before mating until pregnancy day 6 resulted in decreases in the incidence of successful mating and pregnancy at equal to or greater than 0.03 mg/kg/day (approximately 0.1 times the recommended human dose on a mg/m² basis). An increase in pre-implantation loss was observed at doses equal to or greater than 0.003 mg/kg/day (approximately 0.01 times the recommended human dose on a mg/m² basis). Letrozole administered to young (postnatal day 7) rats for 12 weeks duration at 0.003, 0.03, 0.3 mg/kg/day by oral gavage, resulted in adverse skeletal/growth effects (bone maturation, bone mineral density) and neuroendocrine and reproductive developmental perturbations of the hypothalamic-pituitary axis at exposures less than exposure anticipated at the clinical dose of 2.5 mg/day. Decreased fertility was accompanied by hypertrophy of the hypophysis and testicular changes that included degeneration of the seminiferous tubular epithelium and atrophy of the female reproductive tract. Young rats in this study were allowed to recover following discontinuation of letrozole treatment for 42 days. Histopathological changes were not reversible at clinically relevant exposures. Animal Toxicology And/Or Pharmacology Reproductive Toxicology Reproduction studies in rats at letrozole doses equal to or greater than 0.003 mg/kg (about 1/100 the daily maximum recommended human dose on a mg/m² basis) administered during the period of organogenesis, have shown that letrozole is embryotoxic and fetotoxic, as indicated by intrauterine mortality, increased resorption, increased postimplantation loss, decreased numbers of live fetuses and fetal anomalies including absence and shortening of renal papilla, dilation of ureter, edema and incomplete ossification of frontal skull and metatarsals. Letrozole was teratogenic in rats. A 0.03 mg/kg dose (about 1/10 the daily maximum recommended human dose on a mg/m² basis) caused fetal domed head and cervical/centrum vertebral fusion. Letrozole is embryotoxic at doses equal to or greater than 0.002 mg/kg and fetotoxic when administered to rabbits at 0.02 mg/kg (about 1/100,000 and 1/10,000 the daily maximum recommended human dose on a mg/m² basis, respectively). Fetal anomalies included incomplete ossification of the skull, sternebrae, and fore-and hind legs. Use In Specific Populations Pregnancy Pregnancy Category X [see CONTRAINDICATIONS]. Femara may cause fetal harm when administered to a pregnant woman and the clinical benefit to premenopausal women with breast cancer has not been demonstrated. Femara is contraindicated in women who are or may become pregnant. If this drug is used during pregnancy, or if the patient becomes pregnant while taking this drug, the patient should be apprised of the potential hazard to a fetus. Femara caused adverse pregnancy outcomes, including congenital malformations, in rats and rabbits at doses much smaller than the daily maximum recommended human dose (MRHD) on a mg/m² basis. Effects included increased post-implantation pregnancy loss and resorptions, fewer live fetuses, and fetal malformations affecting the renal and skeletal systems. Animal data and letrozole's mechanism of action raise concerns that letrozole could be a human teratogen as well. Reproduction studies in rats showed embryo and fetal toxicity at letrozole doses during organogenesis equal to or greater than 1/100 the daily maximum recommended human dose (MHRD) (mg/m2 basis). Adverse effects included: intrauterine mortality; increased resorptions and postimplantation loss; decreased numbers of live fetuses; and fetal anomalies including absence and shortening of renal papilla, dilation of ureter, edema and incomplete ossification of frontal skull and metatarsals. Letrozole doses 1/10 the daily MHRD (mg/m² basis) caused fetal domed head and cervical/centrum vertebral fusion. In rabbits, letrozole caused embryo and fetal toxicity at doses about 1/100,000 and 1/10,000 the daily MHRD respectively (mg/m² basis). Fetal anomalies included incomplete ossification of the skull, sternebrae, and fore-and hind legs. [see Nonclinical Toxicology]. Physicians should discuss the need for adequate contraception with women who are recently menopausal. Contraception should be used until postmenopausal status is clinically well established. Nursing Mothers It is not known if letrozole is excreted in human milk. Because many drugs are excreted in human milk and because of the potential for serious adverse reactions in nursing infants from letrozole, a decision should be made whether to discontinue nursing or to discontinue the drug, taking into account the importance of the drug to the mother. Pediatric Use The safety and effectiveness in pediatric patients have not been established. Geriatric Use The median age of patients in all studies of first-line and second-line treatment of metastatic breast cancer was 64-65 years. About 1/3 of the patients were ≥ 70 years old. In the first-line study, patients ≥ 70 years of age experienced longer time to tumor progression and higher response rates than patients < 70. For the extended adjuvant setting, more than 5,100 postmenopausal women were enrolled in the clinical study. In total, 41% of patients were aged 65 years or older at enrollment, while 12% were 75 or older. In the extended adjuvant setting, no overall differences in safety or efficacy were observed between these older patients and younger patients, and other reported clinical experience has not identified differences in responses between the elderly and younger patients, but greater sensitivity of some older individuals cannot be ruled out. In the adjuvant setting, more than 8,000 postmenopausal women were enrolled in the clinical study. In total, 36 % of patients were aged 65 years or older at enrollment, while 12% were 75 or older. More adverse reactions were generally reported in elderly patients irrespective of study treatment allocation. However, in comparison to tamoxifen, no overall differences with regards to the safety and efficacy profiles were observed between elderly patients and younger patients.

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