Exemestane sandoz

Overdose

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Clinical trials have been conducted with Exemestane Sandoz given up to 800 mg in a single dose to healthy female volunteers and up to 600 mg daily to postmenopausal women with advanced breast cancer; these dosages were well tolerated. The single dose of Exemestane Sandoz that could result in life-threatening symptoms is not known. In rats and dogs, lethality was observed after single oral doses equivalent respectively to 2000 and 4000 times the recommended human dose on a mg/m2 basis. There is no specific antidote to overdosage and treatment must be symptomatic. General supportive care, including frequent monitoring of vital signs and close observation of the patient, is indicated.

Clinical trials have been conducted with Exemestane Sandoz given up to 800 mg in a single dose to healthy female volunteers and up to 600 mg daily to postmenopausal women with advanced breast cancer; these dosages were well tolerated. The single dose of Exemestane Sandoz that could result in life-threatening symptoms is not known. In rats and dogs, lethality was observed after single oral doses equivalent respectively to 2000 and 4000 times the recommended human dose on a mg/m2 basis.

There is no specific antidote to overdosage and treatment must be symptomatic. General supportive care, including frequent monitoring of vital signs and close observation of the patient, is indicated.

Contraindications

Coated tablet; Concentrate for solution for infusionSubstance-powder

-menopausal women and in pregnant or lactating women.

), in pre-menopausal women and in pregnant or lactating women.

Incompatibilities

Not applicable.

Undesirable effects

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Exemestane Sandoz was generally well tolerated across all clinical studies conducted with Exemestane Sandoz at a standard dose of 25 mg/day, and undesirable effects were usually mild to moderate.

The withdrawal rate due to adverse events was 7.4% in patients with early breast cancer receiving adjuvant treatment with Exemestane Sandoz following initial adjuvant tamoxifen therapy. The most commonly reported adverse reactions were hot flushes (22%), arthralgia (18%) and fatigue (16%).

The withdrawal rate due to adverse events was 2.8% in the overall patient population with advanced breast cancer. The most commonly reported adverse reactions were hot flushes (14%) and nausea (12%).

Most adverse reactions can be attributed to the normal pharmacological consequences of oestrogen deprivation (e.g., hot flushes).

The reported adverse reactions from clinical studies and post-marketing experience are listed below by system organ class and by frequency.

Frequencies are defined as: Very common (>1/10); Common (>1/100 to <1/10); Uncommon (>1/1,000 to <1/100); Rare (>1/10,000 to <1/1,000); Very rare (<1/10,000); Not known (cannot be estimated from the available data).

Blood and lymphatic system disorders:

Very common

Leucopenia(**)

Common

Thrombocytopenia(**)

Not known

Lymphocyte count decreased(**)

Immune system disorders:

Uncommon

Hypersensitivity

Metabolism and nutrition disorders:

Common

Anorexia

Psychiatric disorders:

Very common

Depression, insomnia

Nervous system disorders:

Very common

Headache, dizziness

Common

Carpal tunnel syndrome, paraesthesia

Rare

Somnolence

Vascular disorders:

Very common

Hot flushes

Gastrointestinal disorders:

Very common

Abdominal pain, nausea

Common

Vomiting, diarrhoea, constipation, dyspepsia

Hepatobiliary disorders:

Very common

Hepatic enzyme increased, blood bilirubin increased, blood alkaline phosphatase increased

Rare

Hepatitis (†), cholestatic hepatitis (†)

Skin and subcutaneous tissue disorders:

Very common

Increased sweating

Common

Alopecia, rash, urticaria, pruritus

Rare

Acute generalised exanthematous pustulosis (†)

Musculoskeletal and bone disorders:

Very common

Joint and musculoskeletal pain (*)

Common

Fracture, osteoporosis

General disorders and administration site conditions:

Very common

Pain, fatigue

Common

Oedema peripheral, asthenia

(*) Includes: arthralgia, and less frequently pain in extremity, osteoarthritis, back pain, arthritis, myalgia and joint stiffness.

(**) In patients with advanced breast cancer thrombocytopenia and leucopenia have been rarely reported. An occasional decrease in lymphocytes has been observed in approximately 20% of patients receiving Exemestane Sandoz, particularly in patients with pre-existing lymphopenia; however, mean lymphocyte values in these patients did not change significantly over time and no corresponding increase in viral infections was observed. These effects have not been observed in patients treated in early breast cancer studies.

(†) Frequency calculated by rule of 3/X.

The table below presents the frequency of pre-specified adverse events and illnesses in the early breast cancer study Intergroup Exemestane Study (IES), irrespective of causality, reported in patients receiving trial therapy and up to 30 days after cessation of trial therapy.

Adverse events and illnesses

Exemestane

(N = 2249)

Tamoxifen

(N = 2279)

Hot flushes

491 (21.8%)

457 (20.1%)

Fatigue

367 (16.3%)

344 (15.1%)

Headache

305 (13.6%)

255 (11.2%)

Insomnia

290 (12.9%)

204 (9.0%)

Sweating increased

270 (12.0%)

242 (10.6%)

Gynaecological

235 (10.5%)

340 (14.9%)

Dizziness

224 (10.0%)

200 (8.8%)

Nausea

200 (8.9%)

208 (9.1%)

Osteoporosis

116 (5.2%)

66 (2.9%)

Vaginal haemorrhage

90 (4.0%)

121 (5.3%)

Other primary cancer

84 (3.6%)

125 (5.3%)

Vomiting

50 (2.2%)

54 (2.4%)

Visual disturbance

45 (2.0%)

53 (2.3%)

Thromboembolism

16 (0.7%)

42 (1.8%)

Osteoporotic fracture

14 (0.6%)

12 (0.5%)

Myocardial infarction

13 (0.6%)

4 (0.2%)

In the IES study, the frequency of ischemic cardiac events in the exemestane and tamoxifen treatment arms was 4.5% versus 4.2%, respectively. No significant difference was noted for any individual cardiovascular event including hypertension (9.9% versus 8.4%), myocardial infarction (0.6% versus 0.2%) and cardiac failure (1.1% versus 0.7%).

In the IES study, exemestane was associated with a greater incidence of hypercholesterolemia compared with tamoxifen (3.7% versus. 2.1%).

In a separate double blinded, randomized study of postmenopausal women with early breast cancer at low risk treated with exemestane (N=73) or placebo (N=73) for 24 months, exemestane was associated with an average 7-9% mean reduction in plasma HDL-cholesterol, versus a 1% increase on placebo. There was also a 5-6% reduction in apolipoprotein A1 in the exemestane group versus 0-2% for placebo. The effect on the other lipid parameters analysed (total cholesterol, LDL cholesterol, triglycerides, apolipoprotein-B and lipoprotein-a) was very similar in the two treatment groups. The clinical significance of these results is unclear.

In the IES study, gastric ulcer was observed at a higher frequency in the exemestane arm compared to tamoxifen (0.7% versus <0.1%). The majority of patients on exemestane with gastric ulcer received concomitant treatment with non-steroidal anti-inflammatory agents and/or had a prior history.

Reporting of suspected adverse reactions

Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via the Yellow Card Scheme at www.mhra.gov.uk/yellowcard

Exemestane Sandoz was generally well tolerated across all clinical studies conducted with Exemestane Sandoz at a standard dose of 25 mg/day, and undesirable effects were usually mild to moderate.

The withdrawal rate due to adverse events was 7.4 % in patients with early breast cancer receiving adjuvant treatment with Exemestane Sandoz following initial adjuvant tamoxifen therapy. The most commonly reported adverse reactions were hot flushes (22 %), arthralgia (18 %) and fatigue (16 %).

The withdrawal rate due to adverse events was 2.8 % in the overall patient population with advanced breast cancer. The most commonly reported adverse reactions were hot flushes (14 %) and nausea (12 %).

Most adverse reactions can be attributed to the normal pharmacological consequences of oestrogen deprivation (e.g. hot flushes).

The reported adverse reactions from clinical studies and post-marketing experience are listed below by system organ class and by frequency.

Frequencies are defined as: very common (>1/10); common (>1/100 to <1/10); uncommon (>1/1,000 to <1/100); rare (>1/10,000 to <1/1,000); very rare (<1/10,000); Not known (cannot be estimated from the available data).

Blood and lymphatic system disorders

Very common:

Leucopenia (**)

Common:

Thrombocytopenia (**)

Not Known:

Lymphocyte count decreased (**)

Immune system disorders

Uncommon:

Hypersensitivity

Metabolism and nutrition disorders

Common:

Anorexia

Psychiatric disorders

Very common:

Depression, insomnia

Nervous system disorders

Very common:

Headache, dizziness

Common:

Carpal tunnel syndrome, paraesthesia

Rare:

Somnolence

Vascular disorders

Very common:

Hot flushes

Gastrointestinal disorders

Very Common:

Abdominal pain, nausea

Common:

Vomiting, constipation, dyspepsia, diarrhoea

Hepatobiliary disorders

Very Common:

Hepatic enzyme increased, blood bilirubin increased), blood alkaline phosphatase increased

Rare:

Hepatitis(†), cholestatic hepatitis(†)

Skin and subcutaneous tissue disorders

Very common:

Increased sweating

Common:

Rash, alopecia, uticaria, pruritus

Rare:

Acute generalised exanthematous pustulosis(†)

Musculoskeletal and bone disorders

Very common:

Joint and musculoskeletal pain (*)

Common:

Osteoporosis, fracture

General disorders and administration site conditions

Very common:

Pain, fatigue

Common:

Oedema peripheral, asthenia

(*) Includes: arthralgia, and less frequently pain in extremity, osteoarthritis, back pain, arthritis, myalgia and joint stiffness

(**) In patients with advanced breast cancer thrombocytopenia and leucopenia have been rarely reported. An occasional decrease in lymphocytes has been observed in approximately 20% of patients receiving Exemestane Sandoz, particularly in patients with pre-existing lymphopenia; however, mean lymphocyte values in these patients did not change significantly over time and no corresponding increase in viral infections was observed. These effects have not been observed in patients treated in early breast cancer studies.

(†) Frequency calculated by rule of 3/X

The table below presents the frequency of pre-specified adverse events and illnesses in the early breast cancer study (IES), irrespective of causality, reported in patients receiving trial therapy and up to 30 days after cessation of trial therapy.

Adverse events and illnesses

Exemestane Sandoz (N = 2,249)

Tamoxifen (N = 2,279)

Hot flushes

491 (21.8%)

457 (20.1%)

Fatigue

367 (16.3%)

344 (15.1%)

Headache

305 (13.6%)

255 (11.2%)

Insomnia

290 (12.9%)

204 (9.0%)

Sweating increased

270 (12.0%)

242 (10.6%)

Gynaecological

235 (10.5%)

340 (14.9%)

Dizziness

224 (10.0%)

200 (8.8%)

Nausea

200 (8.9%)

208 (9.1%)

Osteoporosis

116 (5.2%)

66 (2.9%)

Vaginal haemorrhage

90 (4.0%)

121 (5.3%)

Other primary cancer

84 (3.6%)

125 (5.3%)

Vomiting

50 (2.2%)

54 (2.4%)

Visual disturbance

45 (2.0%)

53 (2.3%)

Thromboembolism

16 (0.7%)

42 (1.8%)

Osteoporotic fracture

14 (0.6%)

12 (0.5%)

Myocardial infarction

13 (0.6%)

4 (0.2%)

In the IES study, the frequency of ischaemic cardiac events in the Exemestane Sandoz and tamoxifen treatment arms was 4.5% versus 4.2%, respectively. No significant difference was noted for any individual cardiovascular event including hypertension (9.9% versus 8.4%), myocardial infarction (0.6% versus 0.2%) and cardiac failure (1.1% versus 0.7%).

In the IES study, Exemestane Sandoz was associated with a greater incidence of hypercholesterolemia compared with tamoxifen (3.7% vs. 2.1%).

In a separate double blinded, randomized study of postmenopausal women with early breast cancer at low risk treated with Exemestane Sandoz (N=73) or placebo (N=73) for 24 months , Exemestane Sandoz was associated with an average 7-9% mean reduction in plasma HDL-cholesterol, versus a 1% increase on placebo. There was also a 5-6% reduction in apolipoprotein A1 in the Exemestane Sandoz group versus 0-2% for placebo. The effect on the other lipid parameters analysed (total cholesterol, LDL cholesterol, triglycerides, apolipoprotein-B and lipoprotein-a) was very similar in the two treatment groups. The clinical significance of these results is unclear.

In the IES study, gastric ulcer was observed at a higher frequency in the Exemestane Sandoz arm compared to tamoxifen (0.7% versus <0.1%). The majority of patients on Exemestane Sandoz with gastric ulcer received concomitant treatment with non-steroidal anti-inflammatory agents and/or had a prior history.

Reporting of suspected adverse reactions

Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions the Yellow Card Scheme at www.mhra.gov.uk/yellowcard.

Exemestane Sandoz price

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However, we will provide data for each active ingredient

Preclinical safety data

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Toxicological studies

Findings in the repeat dose toxicology studies in rat and dog were generally attributable to the pharmacological activity of exemestane, such as effects on reproductive and accessory organs. Other toxicological effects (on liver, kidney or central nervous system) were observed only at exposures considered sufficiently in excess of the maximum human exposure indicating little relevance to clinical use.

Mutagenicity

Exemestane was not genotoxic in bacteria (Ames test), in V79 Chinese hamster cells, in rat hepatocytes or in the mouse micronucleus assay. Although exemestane was clastogenic in lymphocytes in vitro, it was not clastogenic in two in vivo studies.

Reproductive toxicology

Exemestane was embryotoxic in rats and rabbits at systemic exposure levels similar to those obtained in humans at 25 mg/day. There was no evidence of teratogenicity.

Carcinogenicity

In a two-year carcinogenicity study in female rats, no treatment-related tumours were observed. In male rats the study was terminated on week 92, because of early death by chronic nephropathy. In a two-year carcinogenicity study in mice, an increase in the incidence of hepatic neoplasms in both genders was observed at the intermediate and high doses (150 and 450 mg/kg/day). This finding is considered to be related to the induction of hepatic microsomal enzymes, an effect observed in mice but not in clinical studies. An increase in the incidence of renal tubular adenomas was also noted in male mice at the high dose (450 mg/kg/day). This change is considered to be species- and gender-specific and occurred at a dose which represents 63-fold greater exposure than occurs at the human therapeutic dose. None of these observed effects is considered to be clinically relevant to the treatment of patients with exemestane.

Toxicological studies

Findings in the repeat dose toxicology studies in rat and dog were generally attributable to the pharmacological activity of Exemestane Sandoz, such as effects on reproductive and accessory organs. Other toxicological effects (on liver, kidney or central nervous system) were observed only at exposures considered sufficiently in excess of the maximum human exposure indicating little relevance to clinical use.

Mutagenicity

Exemestane Sandoz was not genotoxic in bacteria (Ames test), in V79 Chinese hamster cells, in rat hepatocytes or in the mouse micronucleus assay. Although Exemestane Sandoz was clastogenic in lymphocytes in vitro, it was not clastogenic in two in vivo studies.

Reproductive toxicology

Exemestane Sandoz was embryotoxic in rats and rabbits at systemic exposure levels similar to those obtained in humans at 25 mg/day. There was no evidence of teratogenicity.

Carcinogenicity

In a two-year carcinogenicity study in female rats, no treatment-related tumours were observed. In male rats the study was terminated on week 92, because of early death by chronic nephropathy. In a two-year carcinogenicity study in mice, an increase in the incidence of hepatic neoplasms in both genders was observed at the intermediate and high doses (150 and 450 mg/kg/day). This finding is considered to be related to the induction of hepatic microsomal enzymes, an effect observed in mice but not in clinical studies. An increase in the incidence of renal tubular adenomas was also noted in male mice at the high dose (450 mg/kg/day). This change is considered to be species- and gender-specific and occurred at a dose which represents 63-fold greater exposure than occurs at the human therapeutic dose. None of these observed effects is considered to be clinically relevant to the treatment of patients with Exemestane Sandoz

Therapeutic indications

Exemestane Sandoz is indicated for the adjuvant treatment of postmenopausal women with oestrogen receptor positive invasive early breast cancer (EBC), following 2 - 3 years of initial adjuvant tamoxifen therapy.

Exemestane Sandoz is indicated for the treatment of advanced breast cancer in women with natural or induced postmenopausal status whose disease has progressed following anti-oestrogen therapy. Efficacy has not been demonstrated in patients with oestrogen receptor negative status.

Pharmacotherapeutic group

Coated tablet; Concentrate for solution for infusionSubstance-powdersteroidal aromatase inhibitor; anti-neoplastic agentHormone antagonist and related agents, enzyme inhibitors

Pharmacodynamic properties

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Pharmacotherapeutic group: steroidal aromatase inhibitor; anti-neoplastic agent

ATC: L02BG06

Mechanism of action

Exemestane is an irreversible, steroidal aromatase inhibitor, structurally related to the natural substrate androstenedione. In post-menopausal women, oestrogens are produced primarily from the conversion of androgens into oestrogens through the aromatase enzyme in peripheral tissues. Oestrogen deprivation through aromatase inhibition is an effective and selective treatment for hormone dependent breast cancer in postmenopausal women. In postmenopausal women, Exemestane Sandoz p.o. significantly lowered serum oestrogen concentrations starting from a 5 mg dose, reaching maximal suppression (>90%) with a dose of 10-25 mg. In postmenopausal breast cancer patients treated with the 25 mg daily dose, whole body aromatization was reduced by 98%.

Exemestane does not possess any progestogenic or oestrogenic activity. A slight androgenic activity, probably due to the 17-hydro derivative, has been observed mainly at high doses. In multiple daily doses trials, Exemestane Sandoz had no detectable effects on adrenal biosynthesis of cortisol or aldosterone, measured before or after ACTH challenge, thus demonstrating its selectivity with regard to the other enzymes involved in the steroidogenic pathway.

Glucocorticoid or mineralocorticoid replacements are therefore not needed. A non dose-dependent slight increase in serum LH and FSH levels has been observed even at low doses: this effect is, however, expected for the pharmacological class and is probably the result of feedback at the pituitary level due to the reduction in oestrogen levels that stimulate the pituitary secretion of gonadotropins also in postmenopausal women.

Clinical efficacy and safety

Adjuvant treatment of early breast cancer

In a multicentre, randomised, double-blind study (IES), conducted in 4724 postmenopausal patients with oestrogen-receptor-positive or unknown primary breast cancer, patients who had remained disease-free after receiving adjuvant tamoxifen therapy for 2 to 3 years were randomised to receive 3 to 2 years of Exemestane Sandoz (25 mg/day) or tamoxifen (20 or 30 mg/day) to complete a total of 5 years of hormonal therapy.

IES 52-month median follow-up

After a median duration of therapy of about 30 months and a median follow-up of about 52 months, results showed that sequential treatment with Exemestane Sandoz after 2 to 3 years of adjuvant tamoxifen therapy was associated with a clinically and statistically significant improvement in disease-free survival (DFS) compared with continuation of tamoxifen therapy. Analysis showed that in the observed study period Exemestane Sandoz reduced the risk of breast cancer recurrence by 24% compared with tamoxifen (hazard ratio 0.76; p = 0.00015). The beneficial effect of exemestane over tamoxifen with respect to DFS was apparent regardless of nodal status or prior chemotherapy.

Exemestane Sandoz also significantly reduced the risk of contralateral breast cancer (hazard ratio 0.57, p = 0.04158).

In the whole study population, a trend for improved overall survival was observed for exemestane (222 deaths) compared to tamoxifen (262 deaths) with a hazard ratio 0.85 (log-rank test: p = 0.07362), representing a 15% reduction in the risk of death in favour of exemestane. A statistically significant 23% reduction in the risk of dying (hazard ratio for overall survival 0.77; Wald chi square test: p = 0.0069) was observed for exemestane compared to tamoxifen when adjusting for the pre-specified prognostic factors (i.e., ER status, nodal status, prior chemotherapy, use of HRT and use of bisphosphonates).

52 month main efficacy results in all patients (intention to treat population) and oestrogen receptor positive patients

Endpoint

Population

Exemestane

Events /N (%)

Tamoxifen

Events /N (%)

Hazard Ratio

(95% CI)

p-value*

Disease-free survival a

All patients

354 /2352 (15.1%)

453 /2372 (19.1%)

0.76 (0.67-0.88)

0.00015

ER+ patients

289 /2023 (14.3%)

370 /2021 (18.3%)

0.75 (0.65-0.88)

0.00030

Contralateral breast cancer

All patients

20 /2352 (0.9%)

35 /2372 (1.5%)

0.57 (0.33-0.99)

0.04158

ER+ patients

18 /2023 (0.9%)

33 /2021 (1.6%)

0.54 (0.30-0.95)

0.03048

Breast cancer free survival b

All patients

289 /2352 (12.3%)

373 /2372 (15.7%)

0.76 (0.65-0.89)

0.00041

ER+ patients

232 /2023 (11.5%)

305 /2021 (15.1%)

0.73 (0.62-0.87)

0.00038

Distant recurrence free survival c

All patients

248 /2352 (10.5%)

297 /2372 (12.5%)

0.83 (0.70-0.98)

0.02621

ER+ patients

194 /2023 (9.6%)

242 /2021 (12.0%)

0.78 (0.65-0.95)

0.01123

Overall survival d

All patients

222 /2352 (9.4%)

262 /2372 (11.0%)

0.85 (0.71-1.02)

0.07362

ER+ patients

178 /2023 (8.8%)

211 /2021 (10.4%)

0.84 (0.68-1.02)

0.07569

* Log-rank test; ER+ patients = oestrogen receptor positive patients;

a Disease-free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer, or death from any cause;

b Breast cancer free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer or breast cancer death;

c Distant recurrence free survival is defined as the first occurrence of distant recurrence or breast cancer death;

d Overall survival is defined as occurrence of death from any cause.

In the additional analysis for the subset of patients with oestrogen receptor positive or unknown status, the unadjusted overall survival hazard ratio was 0.83 (log-rank test: p = 0.04250), representing a clinically and statistically significant 17% reduction in the risk of dying.

Results from the IES bone substudy demonstrated that women treated with Exemestane Sandoz following 2 to 3 years of tamoxifen treatment experienced moderate reduction in bone mineral density. In the overall study, the treatment emergent fracture incidence evaluated during the 30 months treatment period was higher in patients treated with Exemestane Sandoz compared with tamoxifen (4.5% and 3.3% correspondingly, p = 0.038).

Results from the IES endometrial substudy indicate that after 2 years of treatment there was a median 33% reduction of endometrial thickness in the Exemestane Sandoz-treated patients compared with no notable variation in the tamoxifen-treated patients. Endometrial thickening, reported at the start of study treatment, was reversed to normal (<5 mm) for 54% of patients treated with Exemestane Sandoz.

IES 87-month median follow-up

After a median duration of therapy of about 30 months and a median follow-up of about 87 months, results showed that sequential treatment with exemestane after 2 to 3 years of adjuvant tamoxifen therapy was associated with a clinically and statistically significant improvement in DFS compared with continuation of tamoxifen therapy. Results showed that in the observed study period Exemestane Sandoz significantly reduced the risk of breast cancer recurrence by 16% compared with tamoxifen (hazard ratio 0.84; p = 0.002).

Overall, the beneficial effect of exemestane over tamoxifen with respect to DFS was apparent regardless of nodal status or prior chemotherapy or hormonal therapy. Statistical significance was not maintained in a few sub-groups with small sample sizes. These showed a trend favouring exemestane in patients with more than 9 nodes positive, or previous chemotherapy CMF. In patients with nodal status unknown, previous chemotherapy other, as well as unknown/missing status of previous hormonal therapy a non statistically significant trend favouring tamoxifen was observed.

In addition, exemestane also significantly prolonged breast cancer-free survival (hazard ratio 0.82, p = 0.00263), and distant recurrence-free survival (hazard ratio 0.85, p = 0.02425).

Exemestane Sandoz also reduced the risk of contralateral breast cancer, although the effect was no longer statistically significant in this observed study period (hazard ratio 0.74, p = 0.12983). In the whole study population, a trend for improved overall survival was observed for exemestane (373 deaths) compared to tamoxifen (420 deaths) with a hazard ratio 0.89 (log rank test: p = 0.08972), representing an 11% reduction in the risk of death in favour of exemestane. When adjusting for the pre-specified prognostic factors (i.e., ER status, nodal status, prior chemotherapy, use of HRT and use of bisphosphonates), a statistically significant 18% reduction in the risk of dying (hazard ratio for overall survival 0.82; Wald chi square test: p = 0.0082) was observed for exemestane compared to tamoxifen in the whole study population.

In the additional analysis for the subset of patients with oestrogen receptor positive or unknown status, the unadjusted overall survival hazard ratio was 0.86 (log-rank test: p = 0.04262), representing a clinically and statistically significant 14% reduction in the risk of dying.

Results from a bone sub-study indicate that treatment with exemestane for 2 to 3 years following 3 to 2 years of tamoxifen treatment increased bone loss while on treatment (mean % change from baseline for BMD at 36 months: -3.37 [spine], -2.96 [total hip] for exemestane and -1.29 [spine], -2.02 [total hip], for tamoxifen). However, by the end of the 24 month post treatment period there were minimal differences in the change in BMD from baseline for both treatment groups, the tamoxifen arm having slightly greater final reductions in BMD at all sites (mean % change from baseline for BMD at 24 months post treatment -2.17 [spine], -3.06 [total hip] for exemestane and -3.44 [spine], -4.15 [total hip] for tamoxifen).

The all fractures reported on-treatment and during follow-up was significantly higher in the exemestane group than on tamoxifen (169 [7.3%] versus 122 [5.2%]; p = 0.004), but no difference was noted in the number of fractures reported as osteoporotic.

IES 119-month final follow-up

After a median duration of therapy of about 30 months and a median follow-up of about 119 months, results showed that sequential treatment with exemestane after 2 to 3 years of adjuvant tamoxifen therapy was associated with a clinically and statistically significant improvement in DFS compared with continuation of tamoxifen therapy. Analysis showed that over the observed study period exemestane reduced the risk of breast cancer recurrence by 14% compared with tamoxifen (hazard ratio 0.86, p = 0.00393). The beneficial effect of exemestane over tamoxifen with respect to DFS was apparent regardless of nodal status or prior chemotherapy.

Exemestane also significantly prolonged breast cancer-free survival (hazard ratio 0.83, p<0.00152), and distant recurrence-free survival (hazard ratio 0.86, p = 0.02213). Exemestane also reduced risk of contralateral breast cancer; however, the effect was no longer statistically significant (hazard ratio 0.75, p = 0.10707).

In the whole study population, overall survival was not statistically different between the two groups with 467 deaths (19.9%) occurring in the exemestane group and 510 deaths (21.5%) in the tamoxifen group (hazard ratio 0.91, p = 0.15737, not adjusted for multiple testing). For the subset of patients with oestrogen receptor positive or unknown status, the unadjusted overall survival hazard ratio was 0.89 (log-rank test: p = 0.07881) in the exemestane group relative to the tamoxifen group.

In the whole study population, a statistically significant 14% reduction in the risk of dying (hazard ratio for OS 0.86; Wald chi square test: p = 0.0257) was observed for exemestane compared with tamoxifen when adjusting for the pre-specified prognostic factors (i.e., ER status, nodal status, prior chemotherapy, use of HRT and use of bisphosphonates).

A lower incidence of other second (non-breast) primary cancers was observed in exemestane-treated patients compared with tamoxifen only-treated patients (9.9% versus. 12.4%).

In the main study, which had a median follow-up in all participants of 119 months (0 - 163.94) and median duration of exemestane treatment of 30 months (0 - 40.41), the incidence of bone fractures was reported on 169 (7.3%) patients in the exemestane group compared with 122 (5.2%) patients in the tamoxifen group (p=0.004).

Efficacy Results From IES in Postmenopausal Women With Early Breast Cancer (ITT)

No. of Events

Hazard Ratio

Exemestane

Tamoxifen

Hazard Ratio

p-value

30-Month Median Treatment and 34.5-Month Median Follow-Up

Disease-free survivala

213

306

0.69 (95% CI: 0.58-0.82)

0.00003

Breast cancer-free survivalb

171

262

0.65 (95% CI: 0.54-0.79)

<0.00001

Contralateral breast cancer

8

25

0.32 (95% CI: 0.15-0.72)

0.00340

Distant recurrence-free survivalc

142

204

0.70 (95% CI: 0.56-0.86)

0.00083

Overall survivald

116

137

0.86 (95% CI: 0.67-1.10)

0.22962

30-Month Median Treatment and 52-Month Median Follow-Up

Disease-free survivala

354

453

0.77 (95% CI: 0.67-0.88)

0.00015

Breast cancer-free survivalb

289

373

0.76 (95% CI: 0.65-0.89)

0.00041

Contralateral breast cancer

20

35

0.57 (95% CI: 0.33-0.99)

0.04158

Distant recurrence-free survivalc

248

297

0.83 (95% CI: 0.70-0.98)

0.02621

Overall survivald

222

262

0.85 (95% CI: 0.71-1.02)

0.07362

30-Month Median Treatment and 87-Month Median Follow-Up

Disease-free survivala

552

641

0.84 (95% CI: 0.75-0.94)

0.002

Breast cancer-free survivalb

434

513

0.82 (95% CI: 0.72-0.94)

0.00263

Contralateral breast cancer

43

58

0.74 (95% CI: 0.50-1.10)

0.12983

Distant recurrence-free survivalc

353

409

0.85 ((95% CI: 0.74-0.98)

0.02425

Overall survivald

373

420

0.89 (95% CI: 0.77-1.02)

0.08972

30-Month Median Treatment and 119-Month Median Follow-Up

Disease-free survivala

672

761

0.86 (95% CI: 0.77-0.95)

0.00393

Breast cancer-free survivalb

517

608

0.83 (95% CI: 0.74-0.93)

0.00152

Contralateral breast cancer

57

75

0.75 (95% CI: 0.53-1.06)

0.10707

Distant recurrence-free survivalc

411

472

0.86 (95% CI: 0.75-0.98)

0.02213

Overall survivald

467

510

0.91 (95% CI: 0.81-1.04)

0.15737

CI = confidence interval; IES = Intergroup Exemestane Study; ITT = intention-to-treat.

a. Disease-free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer or death from any cause.

b. Breast cancer-free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer or breast cancer death.

c. Distant recurrence-free survival is defined as the first occurrence of distant recurrence or breast cancer death.

d. Overall survival is defined as occurrence of death from any cause.

Treatment of advanced breast cancer

In a randomised peer reviewed controlled clinical trial, Exemestane Sandoz at the daily dose of 25 mg has demonstrated statistically significant prolongation of survival, Time to Progression (TTP), Time to Treatment Failure (TTF) as compared to a standard hormonal treatment with megestrol acetate in postmenopausal patients with advanced breast cancer that had progressed following, or during, treatment with tamoxifen either as adjuvant therapy or as first-line treatment for advanced disease.

Pharmacotherapeutic group: Hormone antagonist and related agents, enzyme inhibitors

ATC code: L02BG06

Exemestane Sandoz is an irreversible, steroidal aromatase inhibitor, structurally related to the natural substrate androstenedione. In postmenopausal women, oestrogens are produced primarily from the conversion of androgens into oestrogens through the aromatase enzyme in peripheral tissues. Oestrogen deprivation through aromatase inhibition is an effective and selective treatment for hormone dependent breast cancer in postmenopausal women. In postmenopausal women, oral Exemestane Sandoz significantly lowered serum oestrogen concentrations starting from a 5 mg dose, reaching maximal suppression (>90%) with a dose of 10-25 mg. In postmenopausal breast cancer patients treated with the 25 mg daily dose, whole body aromatisation was reduced by 98%.

Exemestane Sandoz does not possess any progestogenic or oestrogenic activity. A slight androgenic activity, probably due to the 17-hydro derivative, has been observed mainly at high doses. In multiple daily doses trials, Exemestane Sandoz had no detectable effects on adrenal biosynthesis of cortisol or aldosterone, measured before or after ACTH challenge, thus demonstrating its selectivity with regard to the other enzymes involved in the steroidogenic pathway.

Glucocorticoid or mineralocorticoid replacements are therefore not needed. A non dose-dependent slight increase in serum LH and FSH levels has been observed even at low doses: this effect is, however, expected for the pharmacological class and is probably the result of feedback at the pituitary level due to the reduction in oestrogen levels that stimulate the pituitary secretion of gonadotropins also in postmenopausal women.

Adjuvant Treatment of Early Breast Cancer

In a multicentre, randomised, double-blind study, conducted in 4,724 postmenopausal patients with oestrogen-receptor-positive or unknown primary breast cancer, patients who had remained disease-free after receiving adjuvant tamoxifen therapy for 2 to 3 years were randomised to receive 2 to 3 years of Exemestane Sandoz (25 mg/day) or tamoxifen (20 or 30 mg/day) to complete a total of 5 years of hormonal therapy.

After a median duration of therapy of about 30 months and a median follow-up of about 52 months, results showed that sequential treatment with exemestan after 2 to 3 years of adjuvant tamoxifen therapy was associated with a clinically and statistically significant improvement in disease-free survival (DFS) compared with continuation of tamoxifen therapy. Analysis showed that in the observed study period Exemestane Sandoz reduced the risk of breast cancer recurrence by 24% compared with tamoxifen (hazard ratio 0.76; p=0.00015). The beneficial effect of Exemestane Sandoz over tamoxifen with respect to DFS was apparent regardless of nodal status or prior chemotherapy.

Exemestane Sandoz also significantly reduced the risk of contralateral breast cancer (hazard ratio 0.57, p=0.04158). In the whole study population, a trend for improved overall survival was observed for Exemestane Sandoz (222 deaths) compared to tamoxifen (262 deaths) with a hazard ratio 0.85 (log-rank test: p = 0.07362), representing a 15% reduction in the risk of death in favour of Exemestane Sandoz. A statistically significant 23% reduction in the risk of dying (hazard ratio for overall survival 0.77; Wald chi square test: p = 0.0069) was observed for Exemestane Sandoz compared to tamoxifen when adjusting for the pre specified prognostic factors (i.e., ER status, nodal status, prior chemotherapy, use of HRT and use of bisphosphonates).

Main efficacy results in all patients (intention to treat population) and oestrogen receptor positive patients are summarised in the table below:

Endpoint Population

Exemstane

Events / N (%)

Tamoxifen

Events / N (%)

Hazard Ratio

(95% CI)

p-value

Disease-free survival a

All patients

354 / 2,352 (15.1%)

453 / 2,372 (19.1%)

0.76 (0.67-0.88)

0.00015

ER + patients

289 / 2,033 (14.3%)

370 / 2,021 (18.3%)

0.75 (0.65-0.88)

0.00030

Contralateral breast cancer

All patients

20 / 2,352 (0.9%)

33 / 2,372 (1.5%)

0.57 (0.33-0.99)

0.04158

ER + patients

18 / 2,023 (0.9%)

33 / 2,021 (1.6%)

0.54 (0.30-0.95)

0.03048

Breast cancer free survival b

All patients

289 / 2,352 (12.3%)

373 / 2,021 (15.7%)

0.76 (0.65-0.89)

0.00041

ER + patients

232 / 2,023 (11.5%)

305 / 2,021 (15.1%)

0.73 (0.62-0.87)

0.00038

Distant recurrence free survival c

All patients

248 / 2,352 (10.5%)

297 / 2,372 (12.5%)

0.83 (0.70-0.98)

0.02621

ER + patients

194 / 2,023 (9.6%)

242 / 2,021 (12.0%)

0.78 (0.65-0.95)

0.01123

Overall survival d

All patients

222 / 2,352 (9.4%)

262 / 2,372 (11.0%)

0.85 (0.71-1.02)

0.07362

ER + patients

178 / 2,023 (8.8%)

211 / 2,021 (10.4%)

0.84 (0.68-1.02)

0.07569

* Log-rank test; ER + patients = oestrogen receptor positive patients

a Disease-free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer, or death from any cause;

b Breast cancer free survival is defined as the first occurrence of local or distant recurrence, contralateral breast cancer or breast cancer death;

c Distant recurrence free survival is defined as the first occurrence of distant recurrence or breast cancer death;

d Overall survival is defined as occurrence of death from any cause.

In the additional analysis for the subset of patients with oestrogen receptor positive or unknown status, the unadjusted overall survival hazard ratio was 0.83 (log-rank test: p = 0.04250), representing a clinically and statistically significant 17% reduction in the risk of dying.

Results from a bone substudy demonstrated that women treated with Exemestane Sandoz following 2 to 3 years of tamoxifen treatment experienced moderate reduction in bone mineral density. In the overall study, the treatment emergent fracture incidence evaluated during the 30 months treatment period was higher in patients treated with Exemestane Sandoz compared with tamoxifen (4.5% and 3.3% correspondingly, p=0.038).

Results from an endometrial substudy indicate that after 2 years of treatment there was a median 33% reduction of endometrial thickness in the Exemestane Sandoz-treated patients compared with no notable variation in the tamoxifen-treated patients. Endometrial thickening, reported at the start of study treatment, was reversed to normal (< 5 mm) for 54% of patients treated with Exemestane Sandoz.

Treatment of Advanced Breast Cancer

In a randomised peer reviewed controlled clinical trial, Exemestane Sandoz at the daily dose of 25 mg has demonstrated statistically significant prolongation of survival, Time to Progression (TTP), Time to Treatment Failure (TTF) as compared to a standard hormonal treatment with megestrol acetate in postmenopausal patients with advanced breast cancer that had progressed following, or during, treatment with tamoxifen either as adjuvant therapy or as first-line treatment for advanced disease.

Pharmacokinetic properties

Coated tablet; Concentrate for solution for infusionSubstance-powder

Absorption

After oral administration of Exemestane Sandoz tablets, exemestane is absorbed rapidly. The fraction of the dose absorbed from the gastrointestinal tract is high. The absolute bioavailability in humans is unknown, although it is anticipated to be limited by an extensive first pass effect. A similar effect resulted in an absolute bioavailability in rats and dogs of 5%. After a single dose of 25 mg, maximum plasma levels of 18 ng/ml are reached after 2 hours. Concomitant intake with food increases the bioavailability by 40%.

Distribution

The volume of distribution of exemestane, not corrected for the oral bioavailability, is ca 20000 l. The kinetics is linear and the terminal elimination half-life is 24 h. Binding to plasma proteins is 90% and is concentration independent. Exemestane and its metabolites do not bind to red blood cells.

Exemestane does not accumulate in an unexpected way after repeated dosing.

Elimination

Exemestane is metabolised by oxidation of the methylene moiety on the 6 position by CYP3A4 isoenzyme and/or reduction of the 17-keto group by aldoketoreductase followed by conjugation. The clearance of exemestane is ca 500 l/h, not corrected for the oral bioavailability.

The metabolites are inactive or the inhibition of aromatase is less than the parent compound.

The amount excreted unchanged in urine is 1% of the dose. In urine and faeces equal amounts (40%) of 14C-labeled exemestane were eliminated within a week.

Special populations

Age

No significant correlation between the systemic exposure of Exemestane Sandoz and the age of subjects has been observed.

Renal impairment

In patients with severe renal impairment (CLcr <30 ml/min) the systemic exposure to exemestane was 2 times higher compared with healthy volunteers.

Given the safety profile of exemestane, no dose adjustment is considered to be necessary.

Hepatic impairment

In patients with moderate or severe hepatic impairment the exposure of exemestane is 2-3 fold higher compared with healthy volunteers. Given the safety profile of exemestane, no dose adjustment is considered to be necessary.

Absorption

After oral administration of Exemestane Sandoz tablets, Exemestane Sandoz is absorbed rapidly. The fraction of the dose absorbed from the gastrointestinal tract is high. The absolute bioavailability in humans is unknown, although it is anticipated to be limited by an extensive first pass effect. A similar effect resulted in an absolute bioavailability in rats and dogs of 5%. After a single dose of 25 mg, maximum plasma levels of 18 ng/ml are reached after 2 hours. Concomitant intake with food increases the bioavailability by 40%.

Distribution

The volume of distribution of Exemestane Sandoz, not corrected for the oral bioavailability, is approx. 20,000 l. The kinetic is linear and the terminal elimination half-life is 24 h. Binding to plasma proteins is 90% and is concentration independent. Exemestane Sandoz and its metabolites do not bind to red blood cells.

Exemestane Sandoz does not accumulate in an unexpected way after repeated dosing.

Metabolism and excretion

Exemestane Sandoz is metabolised by oxidation of the methylene moiety on the 6 position by CYP3A4 isoenzyme and/or reduction of the 17-keto group by aldoketoreductase followed by conjugation. The clearance of Exemestane Sandoz is approx. 500 l/h, not corrected for the oral bioavailability. The metabolites are inactive or the inhibition of aromatase is less than the parent compound.

The amount excreted unchanged in urine is 1% of the dose. In urine and faeces equal amounts (40%) of 14C-labeled Exemestane Sandoz were eliminated within a week.

Special populations

Age : No significant correlation between the systemic exposure of Exemestane Sandoz and the age of subjects has been observed.

Renal insufficiency

In patients with severe renal impairment (Clcr < 30 ml/min) the systemic exposure to Exemestane Sandoz was 2 times higher compared with healthy volunteers.

Given the safety profile of Exemestane Sandoz, no dose adjustment is considered to be necessary.

Hepatic insufficiency

In patients with moderate or severe hepatic impairment the exposure of Exemestane Sandoz is 2-3 fold higher compared with healthy volunteers. Given the safety profile of Exemestane Sandoz, no dose adjustment is considered to be necessary.

Name of the medicinal product

Exemestane Sandoz

Qualitative and quantitative composition

Exemestane

Special warnings and precautions for use

Coated tablet; Concentrate for solution for infusionSubstance-powder

Exemestane Sandoz should not be administered to women with pre-menopausal endocrine status. Therefore, whenever clinically appropriate, the post-menopausal status should be ascertained by assessment of LH, FSH and oestradiol levels.

Exemestane Sandoz should be used with caution in patients with hepatic or renal impairment.

Exemestane Sandoz tablets contain sucrose and should not be administered to patients with rare hereditary problems of fructose intolerance, glucose-galactose malabsorption or sucrase-isomaltase insufficiency.

Exemestane Sandoz tablets contain methyl-p-hydroxybenzoate which may cause allergic reactions (possibly delayed).

Exemestane Sandoz is a potent oestrogen lowering agent, and a reduction in bone mineral density (BMD) and an increased fracture rate have been observed following administration. At the commencement of adjuvant treatment with Exemestane Sandoz, women with osteoporosis or at risk of osteoporosis should have treatment baseline bone mineral health assessment based on current clinical guidelines and practice. Patients with advanced disease should have their bone mineral density assessed on a case-by-case basis. Although adequate data to show the effects of therapy in the treatment of the bone mineral density loss caused by Exemestane Sandoz are not available, patients treated with Exemestane Sandoz should be carefully monitored and treatment for, or prophylaxis of, osteoporosis should be initiated in at risk patients.

Routine assessment of 25 hydroxy vitamin D levels prior to the start of aromatase inhibitor treatment should be considered, due to the high prevalence of severe deficiency in women with early breast cancer. Women with Vitamin D deficiency should receive supplementation with Vitamin D.

Exemestane Sandoz should not be administered to women with pre-menopausal endocrine status. Therefore, whenever clinically appropriate, the post-menopausal status should be ascertained by assessment of LH, FSH and oestradiol levels.

Exemestane Sandoz should be used with caution in patients with hepatic or renal impairment.

Exemestane Sandoz tablets contain sucrose and should not be administered to patients with rare hereditary problems of fructose intolerance, glucose-galactose malabsorption or sucrase-isomaltase insufficiency.

Exemestane Sandoz is a potent oestrogen lowering agent, and a reduction in bone mineral density (BMD)and an increased fracture rate has been observed following administration. At the commencement of adjuvant treatment with Exemestane Sandoz, women with osteoporosis or at risk of osteoporosis should have treatment baseline bone mineral health assessment, based on current clinical guidelines and practice. Patients with advanced disease should have their bone mineral density assessed on a case-by-case basis. Although adequate data to show the effects of therapy in the treatment of the bone mineral density loss caused by Exemestane Sandoz are not available, patients treated with Exemestane Sandoz should be carefully monitored and treatment for, or prophylaxis of, osteoporosis should be initiated in at risk patients.

Routine assessment of 25 hydroxy vitamin D levels prior to the start of aromatase inhibitor treatment should be considered, due to the high prevalence of severe deficiency in women with early breast cancer. Women with Vitamin D deficiency should receive supplementation with Vitamin D.

Athletes must be aware that this medicine may cause a positive reaction to 'anti-doping' tests.

Effects on ability to drive and use machines

Drowsiness, somnolence, asthenia and dizziness have been reported with the use of the drug. Patients should be advised that, if these events occur, their physical and/or mental abilities required for operating machinery or driving a car may be impaired.

Dosage (Posology) and method of administration

Coated tablet; Concentrate for solution for infusionSubstance-powder

Posology

Adult and elderly patients

The recommended dose of Exemestane Sandoz is one 25 mg tablet to be taken once daily, preferably after a meal.

In patients with early breast cancer, treatment with Exemestane Sandoz should continue until completion of five years of combined sequential adjuvant hormonal therapy (tamoxifen followed by Exemestane Sandoz), or earlier if tumour relapse occurs.

In patients with advanced breast cancer, treatment with Exemestane Sandoz should continue until tumour progression is evident.

No dose adjustments are required for patients with hepatic or renal insufficiency.

Paediatric population

Not recommended for use in children.

Posology

Adult and elderly patients

The recommended dose of Exemestane Sandoz is one 25 mg tablet to be taken once daily, preferably after a meal.

In patients with early breast cancer, treatment with Exemestane Sandoz should continue until completion of five years of combined sequential adjuvant hormonal therapy (tamoxifen followed by Exemestane Sandoz), or earlier if tumour relapse occurs.

In patients with advanced breast cancer, treatment with Exemestane Sandoz should continue until tumour progression is evident.

No dose adjustments are required for patients with hepatic or renal insufficiency.

Paediatric population

Not recommended for use in children.

Method of administration

Exemestane Sandoz 25 mg coated tablets are for oral use.

Special precautions for disposal and other handling

Coated tablet; Concentrate for solution for infusionSubstance-powder

No special requirements.

Any unused product or waste material should be disposed of in accordance with local requirements