Patient info Open main menu

UXIL 15.8 MG FILM-COATED TABLETS - summary of medicine characteristics

Contains active substance :

Dostupné balení:

Summary of medicine characteristics - UXIL 15.8 MG FILM-COATED TABLETS

SUMMARY OF PRODUCT CHARACTERISTICS
NAME OF THE MEDICINAL PRODUCT

Uxil 15.8 mg film-coated tablets

2 QUALITATIVE AND QUANTITATIVE COMPOSITION

Each film-coated tablet contains 15.8 mg dasatinib (anhydrous).

Excipient with known effect: Each film-coated tablet contains 21.33 mg lactose monohydrate.

For the full list of excipients, see section 6.1.

PHARMACEUTICAL FORM

Film-coated tablet.

White to off-white round film-coated tablets with “15.8” embossing on one side with the diameter of 5.5 mm.

CLINICAL PARTICULARS

4.1 Therapeutic indications

Uxil is indicated for the treatment of adult patients with:

Ph+ acute lymphoblastic leukaemia (ALL) with resistance or intolerance to prior therapy.

Uxil is indicated for the treatment of paediatric patients with:

Newly diagnosed Ph+ ALL in combination with chemotherapy.

4.2 Posology and method of administration

Therapy should be initiated by a physician experienced in the diagnosis and treatment of patients with leukaemia.

Uxil cannot be used interchangeably with other dasatinib formulations. If switching from standard dasatinib formulations to Uxil, the dose of Uxil should be 21% lower than the dose of the standard dasatinib formulation, rounded to the nearest whole tablet (see Table 1).

Table 1 Recommended doses of Uxil in case of switching from standard dasatinib formulation

Uxil (mg)

Standard dasatinib formulation (mg)

15.8

20

39.5

50

55.3

70

63.2

80

79.0

100

110.6

140

Posology

Adult patients

The recommended starting dose for Ph+ ALL is 110.6 mg once daily (see section 4.4).

Paediatric, population (Ph+ ALL)

Dosing for children and adolescents is on the basis of body weight (see Table 2). Dasatinib is administered orally once daily in the form of either film-coated tablets or another suitable formulation available on the market. The dose should be recalculated every 3 months based on changes in body weight, or more often if necessary. Uxil film-coated tablet is not recommended for patients weighing less than 10 kg; another suitable formulation available on the market should be used for these patients. Dose increase or reduction is recommended based on individual patient response and tolerability. There is no experience with dasatinib treatment in children under 1 year of age.

Uxil film-coated tablets and other standard formulations enabling easier swallowing are not bioequivalent. Patients who are able to swallow tablets and who desire to switch from another standard formulation available on the market to Uxil or patients who are not able to swallow tablets and who desire to switch from Uxil to more suitable formulation, may do so, provided that the correct dosing recommendations for the dosage form are followed.

The recommended starting daily dosage of Uxil film-coated tablets in paediatric patients is shown in Table 2.

Table 2 Dosage of Uxil film-coated tablets for paediatric patients with Ph+

ALL

Body weight (kg)a

Uxil daily dose (mg)

Standard dasatinib formulation daily dose (mg)

10 to<20

31.6

40

20 to < 30

47.4

60

30 to < 45

55.3

70

> 45

79.0

100

a Uxil film-coated is not recommended for patients weighing less than 10 kg; another suitable formulation available on the market should be used for these patients.

Treatment duration

In clinical studies, treatment with dasatinib in adults with Ph+ ALL was continued until disease progression or until no longer tolerated by the patient. The effect of stopping treatment on long-term disease outcome after the achievement of a cytogenetic or molecular response [including complete cytogenetic response (CCyR), major molecular response (MMR) and MR4.5] has not been investigated.

In clinical studies, treatment with standard dasatinib formulation in paediatric patients with Ph+ ALL was administered continuously, added to successive blocks of backbone chemotherapy, for a maximum duration of 2 years. In patients that receive a subsequent stem cell transplantation, Uxil can be administered for an additional year post-transplantation.

To achieve the recommended dose, Uxil is available as 15.8 mg, 39.5 mg, 55.3 mg, 63.2 mg, 79.0 mg and 110.6 mg film-coated tablets. Dose increase or reduction is recommended based on patient response and tolerability.

Dose escalation

In clinical studies with standard dasatinib formulation in adult Ph+ ALL patients, dose escalation to 180 mg once daily (corresponding Uxil dose 142.2mg; Ph+ ALL) was allowed in patients who did not achieve a haematologic or cytogenetic response at the recommended starting dose.

Dose escalation is not recommended for paediatric patients with Ph+ ALL, as dasatinib is administered in combination with chemotherapy in these patients.

Dose adjustment  for adverse reactions

Myelosuppression

In clinical studies, myelosuppression was managed by dose interruption, dose reduction, or discontinuation of study therapy. Platelet transfusion and red cell transfusion were used as appropriate. Haematopoietic growth factor has been used in patients with resistant myelosuppression.

Guidelines for dose modifications in adults are summarised in Table 3 Guidelines for paediatric patients with Ph+ ALL treated in combination with chemotherapy are in a separate paragraph following the tables.

Table 3: Dose adjustments for neutropaenia and thrombocytopaenia in adults

Adults with Ph+

ALL

(starting dose 110.6 mg once daily)

ANC < 0.5X109/L and/or platelets < 10×109/L

1. Check if cytopaenia is related to leukaemia (marrow aspirate or biopsy).

2. If cytopaenia is unrelated to leukaemia, stop treatment until ANC > 1.0×109/L and platelets > 20×109/L and resume at the original starting dose.

3. If recurrence of cytopaenia, repeat step 1 and resume treatment at a reduced dose of 79.0 mg once daily (second episode) or 63.2 mg once daily (third episode).

4. If cytopaenia is related to leukaemia, consider dose escalation to 142.2 mg once daily.

ANC: Absolute neutrophil count.

For paediatric patients with Ph+ ALL, no dose modification is recommended in cases of haematologic grade 1 – 4 toxicities. If neutropaenia and/or thrombocytopaenia result in delay of the next block of treatment by more than 14 days, Uxil should be interrupted and resumed at the same dose level once the next block of treatment is started. If neutropaenia and/or thrombocytopaenia persist and the next block of treatment is delayed another 7 days, a bone marrow assessment should be performed to assess cellularity and percentage of blasts. If marrow cellularity is < 10%, treatment with Uxil should be interrupted until ANC > 500/liI. (0.5×109/L), at which time treatment may be resumed at full dose. If marrow cellularity is > 10%, resumption of treatment with Uxil may be considered.

Non-haematologic adverse reactions

If a moderate, grade 2, non-haematologic adverse reaction develops with dasatinib, treatment should be interrupted until the adverse reaction has resolved or returned to baseline. The same dose should be resumed if this is the first occurrence and the dose should be reduced if this is a recurrent adverse reaction. If a severe grade 3 or 4, non-haematologic adverse reaction develops with dasatinib, treatment must be withheld until the adverse reaction has resolved. Thereafter, treatment can be resumed as appropriate at a reduced dose depending on the initial severity of the adverse reaction. For patients with Ph+ ALL who received 110.6 mg once daily, dose reduction to 79.0 mg once daily with further reduction from 79.0 mg once daily to 39.5 mg once daily, if needed, is recommended. In Ph+ ALL paediatric patients with non-haematologic adverse reactions, if needed, one-level of dose reduction should be followed, according to the dose reduction recommendations for haematologic adverse reactions that are described above.

Pleural effusion

If a pleural effusion is diagnosed, dasatinib should be interrupted until patient is examined, asymptomatic or has returned to baseline. If the episode does not improve within approximately 1 week, a course of diuretics or corticosteroids or both concurrently should be considered (see sections 4.4 and 4.8). Following resolution of the first episode, reintroduction of dasatinib at the same dose level should be considered. Following resolution of a subsequent episode, dasatinib at 1 dose level reduction should be reintroduced. Following resolution of a severe (grade 3 or 4) episode, treatment can be resumed as appropriate at a reduced dose depending on the initial severity of the adverse reaction.

Dose reduction for concomitant use of strong CYP3A4 inhibitors

The concomitant use of strong CYP3A4 inhibitors and grapefruit juice with dasatinib should be avoided (see section 4.5). If possible, an alternative concomitant medication with no or minimal enzyme inhibition potential should be selected. If dasatinib must be administered with a strong CYP3A4 inhibitor, consider a dose decrease to:

– 31.6 mg daily for patients taking Uxil 110.6 mg tablet daily.

– 15.8 mg daily for patients taking Uxil 79.0 mg tablet daily.

– 15.8 mg daily for patients taking Uxil 55.3 mg tablet daily.

For patients taking Uxil 47.4 mg or 31.6 mg daily, consider interrupting the dose of Uxil until the CYP3A4 inhibitor is discontinued, or switching to a lower dose with another suitable formulation available on the market. Allow a washout period of approximately 1 week after the inhibitor is stopped before reinitiating Uxil. These reduced doses of Uxil are predicted to adjust the area under the curve (AUC) to the range observed without CYP3A4 inhibitors; however, clinical data are not available with these dose adjustments in patients receiving strong CYP3A4 inhibitors. If Uxil is not tolerated after dose reduction, either discontinue the strong CYP3A4 inhibitor or interrupt Uxil until the inhibitor is discontinued. Allow a washout period of approximately 1 week after the inhibitor is stopped before the Uxil dose is increased.

Special populations

Elderly

No clinically relevant age-related pharmacokinetic differences have been observed in these patients. No specific dose recommendation is necessary in elderly.

Hepatic impairment

Patients with mild, moderate or severe hepatic impairment may receive the recommended starting dose. However, Uxil should be used with caution in patients with hepatic impairment (see section 5.2).

Renal impairment

No clinical studies were conducted with dasatinib in patients with decreased renal function Since the renal clearance of dasatinib and its metabolites is < 4%, a decrease in total body clearance is not expected in patients with renal insufficiency.

Method of administration

Uxil must be administered orally.

The film-coated tablets must not be crushed, cut or chewed in order to maintain dosing consistency and minimise the risk of dermal exposure; they must be swallowed whole. Film-coated tablets should not be dispersed as the exposure in patients receiving a dispersed tablet is lower than in those swallowing a whole tablet. Another formulation on the market is also available for paediatric Ph+ ALL patients who cannot swallow tablets.

Uxil can be taken with or without a meal and should be taken consistently either in the morning or in the evening (see section 5.2). Uxil should not be taken with grapefruit or grapefruit juice (see section 4.5).

4.3 Contraindications

Hypersensitivity to the active substance or to any of the excipients listed in section 6.1.

4.4 Special warnings and precautions for use

Uxil has a higher bioavailability than other dasatinib-containing products and cannot be used interchangeably with other dasatinib formulations.Appropriate strength recalculation is needed (see sections 4.2 and 5.2).

Clinically relevant interactions

Dasatinib is a substrate and an inhibitor of cytochrome P450 (CYP) 3A4. Therefore, there is a potential for interaction with other concomitantly administered medicinal products that are metabolised primarily by or modulate the activity of CYP3A4 (see section 4.5).

Concomitant use of dasatinib and medicinal products or substances that potently inhibit CYP3A4 (e.g. ketoconazole, itraconazole, erythromycin, clarithromycin, ritonavir, telithromycin, grapefruit juice) may increase exposure to dasatinib. Therefore, in patients receiving dasatinib, coadministration of a potent CYP3A4 inhibitor is not recommended (see section 4.5).

Concomitant use of dasatinib and medicinal products that induce CYP3A4 (e.g. dexamethasone, phenytoin, carbamazepine, rifampicin, phenobarbital or herbal preparations containing Hypericum perforatum, also known as St. John’s Wort) may substantially reduce exposure to dasatinib, potentially increasing the risk of therapeutic failure. Therefore, in patients receiving dasatinib, coadministration of alternative medicinal products with less potential for CYP3A4 induction should be selected (see section 4.5).

Concomitant use of dasatinib and a CYP3A4 substrate may increase exposure to the CYP3A4 substrate. Therefore, caution is warranted when dasatinib is co-administered with CYP3A4 substrates of narrow therapeutic index, such as astemizole, terfenadine, cisapride, pimozide, quinidine, bepridil or ergot alkaloids (ergotamine, dihydroergotamine) (see section 4.5).

Decreased gastric acidity

In patients receiving Uxil, the dasatinib plasma concentrations may be influenced by gastric pH. Pharmacokinetic data have shown that an acidic environment is required for release of dasatanib, hence absorption may be reduced in patients with a high gastric pH or achlorhydria, such as after the use of certain drugs (antacid drugs, histamine H2 antagonists, proton pump inhibitors), in certain disease states (e.g. atrophic gastritis, pernicious anaemia, chronic Helicobacter pylori infection), and after surgery (vagotomy, gastrectomy).

To minimize their impact on dasatinib exposure, H2 antagonists and proton pump inhibitors are recommended to be taken once daily 2 hours following the administration of Uxil (see section 4.5). Aluminium hydroxide / magnesium hydroxide products should be administered up to 2 hours prior to, or 2 hours following, the administration of dasatinib (see section 4.5).

Special populations

Hepatic impairment

Based on the findings from a single-dose pharmacokinetic study, patients with mild, moderate or severe hepatic impairment may receive the recommended starting dose (see section 5.2). Due to the limitations of this clinical study, caution is recommended when administering dasatinib to patients with hepatic impairment.

Important adverse reactions

Myelosuppression

Treatment with dasatinib is associated with anaemia, neutropaenia and thrombocytopaenia. Their occurrence is earlier and more frequent in patients with advanced phase CML or Ph+ ALL than in CML-CP. In adult patients with advanced phase CML or Ph+ ALL, treated with dasatinib as monotherapy, complete blood counts (CBCs) should be performed weekly for the first 2 months, and then monthly thereafter, or as clinically indicated. In adult and paediatric patients with CML-CP, complete blood counts should be performed every 2 weeks for 12 weeks, then every 3 months thereafter or as clinically indicated. In paediatric patients with Ph+ ALL treated with dasatinib in combination with chemotherapy, CBCs should be performed prior to the start of each block of chemotherapy and as clinically indicated. During the consolidation blocks of chemotherapy, CBCs should be performed every 2 days until recovery (see sections 4.2 and 4.8). Myelosuppression is generally reversible and usually managed by withholding dasatinib temporarily or by dose reduction.

Bleeding

In patients with CML-CP (n = 548), 5 patients (1%) receiving dasatinib had grade 3 or 4 haemorrhage. In clinical studies in patients with advanced phase CML receiving the recommended dose of dasatinib (n = 304), severe central nervous system (CNS) haemorrhage occurred in 1% of patients. One case was fatal and was associated with common toxicity criteria (CTC) grade 4 thrombocyto­paenia. Grade 3 or 4 gastrointestinal haemorrhage occurred in 6% of patients with advanced phase CML and generally required treatment interruptions and transfusions. Other grade 3 or 4 haemorrhage occurred in 2% of patients with advanced phase CML. Most bleeding related adverse reactions in these patients were typically associated with grade 3 or 4 thrombocytopaenia (see section 4.8). Additionally, in vitro and in vivo platelet assays suggest that dasatinib treatment reversibly affects platelet activation. Caution should be exercised if patients are required to take medicinal products that inhibit platelet function or anticoagulants.

Fluid retention

Dasatinib is associated with fluid retention. In the phase III clinical study in patients with newly diagnosed CML-CP, grade 3 or 4 fluid retention was reported in 13 patients (5%) in the dasatinib-treatment group and in 2 patients (1%) in the imatinib-treatment group after a minimum of 60 months follow-up (see section 4.8). In all dasatinib-treated patients with CML-CP, severe fluid retention occurred in 32 patients (6%) receiving dasatinib at the recommended dose (n = 548). In clinical studies in patients with advanced phase CML or Ph+ ALL receiving dasatinib at the recommended dose (n = 304), grade 3 or 4 fluid retention was reported in 8% of patients, including grade 3 or 4 pleural and pericardial effusion reported in 7% and 1% of patients, respectively. In these patients grade 3 or 4 pulmonary oedema and pulmonary hypertension were each reported in 1% of patients.

Patients who develop symptoms suggestive of pleural effusion such as dyspnoea or dry cough should be evaluated by chest X-ray. Grade 3 or 4 pleural effusion may require thoracocentesis and oxygen therapy. Fluid retention adverse reactions were typically managed by supportive care measures that include diuretics and short courses of steroids (see sections 4.2 and 4.8). Patients aged 65 years and older are more likely than younger patients to experience pleural effusion, dyspnoea, cough, pericardial effusion and congestive heart failure, and should be monitored closely.

Pulmonary arterial hypertension (PAH)

PAH (pre-capillary pulmonary arterial hypertension confirmed by right heart catheterization) has been reported in association with dasatinib treatment (see section 4.8). In these cases, PAH was reported after initiation of dasatinib therapy, including after more than 1 year of treatment.

Patients should be evaluated for signs and symptoms of underlying cardiopulmonary disease prior to initiating dasatinib therapy. An echocardiography should be performed at treatment initiation in every patient presenting symptoms of cardiac disease and considered in patients with risk factors for cardiac or pulmonary disease. Patients who develop dyspnoea and fatigue after initiation of therapy should be evaluated for common etiologies including pleural effusion, pulmonary oedema, anaemia, or lung infiltration. In accordance with recommendations for management of non-haematologic adverse reactions (see section 4.2) the dose of dasatinib should be reduced or therapy interrupted during this evaluation. If no explanation is found, or if there is no improvement with dose reduction or interruption, the diagnosis of PAH should be considered. The diagnostic approach should follow standard practice guidelines. If PAH is confirmed, dasatinib should be permanently

discontinued. Follow up should be performed according to standard practice guidelines. Improvements in haemodynamic and clinical parameters have been observed in dasatinib-treated patients with PAH following cessation of dasatinib therapy.

QT prolongation

In vitro data suggest that dasatinib has the potential to prolong cardiac ventricular repolarisation (QT interval) (see section 5.3). In 258 dasatinib-treated patients and 258 imatinib-treated patients with a minimum of 60 months follow-up in the phase III study in newly diagnosed CML-CP, 1 patient (< 1%) in each group had QTc prolongation reported as an adverse reaction. The median changes in QTcF from baseline were 3.0 msec in dasatinib-treated patients compared to 8.2 msec in imatinib-treated patients. 1 patient (< 1%) in each group experienced a QTcF > 500 msec. In 865 patients with leukaemia treated with dasatinib in phase II clinical studies, the mean changes from baseline in QTc interval using Fridericia’s method (QTcF) were 4   6 msec; the upper 95% confidence intervals (CI) for all mean changes

from baseline were < 7 msec (see section 4.8).

Of the 2,182 patients with resistance or intolerance to prior imatinib therapy who received dasatinib in clinical studies, 15 (1%) had QTc prolongation reported as an adverse reaction. 21 of these patients (1%) experienced a QTcF > 500 msec.

Dasatinib should be administered with caution to patients who have or may develop prolongation of QTc. These include patients with hypokalaemia or hypomagnesaemia, patients with congenital long QT syndrome, patients taking anti-arrhythmic medicinal products or other medicinal products which lead to QT prolongation, and cumulative high dose anthracycline therapy. Hypokalaemia or hypomagnesaemia should be corrected prior to dasatinib administration.

Cardiac adverse reactions

Dasatinib was studied in a randomised clinical study of 519 patients with newly diagnosed CML-CP which included patients with prior cardiac disease. The cardiac adverse reactions of congestive heart failure/cardiac dysfunction, pericardial effusion, arrhythmias, palpitations, QT prolongation and myocardial infarction (including fatal) were reported in patients taking dasatinib. Cardiac adverse reactions were more frequent in patients with risk factors or a history of cardiac disease. Patients with risk factors (e.g. hypertension, hyperlipidaemia, diabetes) or a history of cardiac disease (e.g. prior percutaneous coronary intervention, documented coronary artery disease) should be monitored carefully for clinical signs or symptoms consistent with cardiac dysfunction such as chest pain, shortness of breath, and diaphoresis.

If these clinical signs or symptoms develop, physicians are advised to interrupt dasatinib administration and consider the need for alternative CML-specific treatment. After resolution, a functional assessment should be performed prior to resuming treatment with dasatinib. Dasatinib may be resumed at the original dose for mild/moderate adverse reactions (< grade 2) and resumed at a dose level reduction for severe adverse reactions (> grade 3) (see section 4.2).

Patients continuing treatment should be monitored periodically.

Patients with uncontrolled or significant cardiovascular disease were not included in the clinical studies.

Thrombotic microangiopathy (TMA)

BCR-ABL tyrosine kinase inhibitors have been associated with TMA, including individual case reports for dasatinib (see section 4.8). If laboratory or clinical findings associated with TMA occur in a patient receiving dasatinib, treatment with dasatinib should be discontinued and thorough evaluation for TMA, including ADAMTS13 activity and anti-ADAMTS13-antibody determination, should be completed. If anti-ADAMTS13-antibody is elevated in conjunction with low ADAMTS13 activity, treatment with dasatinib should not be resumed.

Hepatitis B reactivation

Reactivation of hepatitis B in patients who are chronic carriers of this virus has occurred after these patients received BCR-ABL tyrosine kinase inhibitors. Some cases resulted in acute hepatic failure or fulminant hepatitis leading to liver transplantation or a fatal outcome.

Patients should be tested for HBV infection before initiating treatment with dasatinib. Experts in liver disease and in the treatment of hepatitis B should be consulted before treatment is initiated in patients with positive hepatitis B serology (including those with active disease) and for patients who test positive for HBV infection during treatment. Carriers of HBV who require treatment with dasatinib should be closely monitored for signs and symptoms of active HBV infection throughout therapy and for several months following termination of therapy (see section 4.8).

Effects on growth and development in paediatric patients

In paediatric trials of dasatinib in imatinib-resistant/into­lerant Ph+ CML-CP paediatric patients and treatment-naive Ph+ CML-CP paediatric patients after at least 2 years of treatment, treatment-related adverse events associated with bone growth and development were reported in 6 (4.6%) patients, 1 of which was severe in intensity (growth retardation grade 3). These 6 cases included cases of epiphyses delayed fusion, osteopaenia, growth retardation, and gynecomastia (see section 5.1). These results are difficult to interpret in the context of chronic diseases such as CML, and require long-term follow-up. In paediatric trials of dasatinib in combination with chemotherapy in newly diagnosed Ph+ ALL paediatric patients after a maximum of 2 years of treatment, treatment-related adverse events associated with bone growth and development were reported in 1 (0.6%) patient. This case was a grade 1 osteopenia.

Excipients

This medicinal product contains lactose monohydrate. Patients with rare hereditary problems of galactose intolerance, total lactase deficiency or glucose-galactose malabsorption should not take this medicinal product. This medicinal product contains less than 1 mmol (23 mg) sodium per tablet, that is to say “sodium-free”.

4.5 Interaction with other medicinal products and other forms of interaction

Active substances that may increase dasatinib plasma concentrations

In vitro studies indicate that dasatinib is a CYP3A4 substrate. Concomitant use of dasatinib and medicinal products or substances which potently inhibit CYP3A4 (e.g. ketoconazole, itraconazole, erythromycin, clarithromycin, ritonavir, telithromycin, grapefruit juice) may increase exposure to dasatinib. Therefore, in patients receiving dasatinib, systemic administration of a potent CYP3A4 inhibitor is not recommended (see section 4.2).

At clinically relevant concentrations, binding of dasatinib to plasma proteins is approximately 96% on the basis of in vitro experiments. No studies have been performed to evaluate dasatinib interaction with other protein-bound medicinal products. The potential for displacement and its clinical relevance are unknown.

Active substances that may decrease dasatinib plasma concentrations

When dasatinib was administered following 8 daily evening administrations of 600 mg rifampicin, a potent CYP3A4 inducer, the AUC of dasatinib was decreased by 82%. Other medicinal products that induce CYP3A4 activity (e.g. dexamethasone, phenytoin, carbamazepine, phenobarbital or herbal preparations containing Hypericum perforatum, also known as St. John’s Wort) may also increase metabolism and decrease dasatinib plasma concentrations. Therefore, concomitant use of potent CYP3A4 inducers with dasatinib is not recommended. In patients in whom rifampicin or other CYP3A4 inducers are indicated, alternative medicinal products with less enzyme induction potential should be used. Concomitant use of dexamethasone, a weak CYP3A4 inducer, with dasatinib is allowed; dasatinib AUC is predicted to decrease approximately 25% with concomitant use of dexamethasone, which is not likely to be clinically meaningful.

Histamine-2 antagonists and proton pump inhibitors

Long-term suppression of gastric acid secretion by H2 antagonists or proton pump inhibitors (e.g. famotidine and omeprazole) is likely to reduce exposure to dasatinib.

In a single-dose study with standard dasatinib formulation in healthy subjects, the administration of famotidine 10 hours prior to a single dose of dasatinib reduced exposure to dasatinib by 61%. In a study of 14 healthy subjects, administration of a single 100 mg dose of standard dasatinib formulation 22 hours following a 4-day, 40 mg omeprazole dose at steady state reduced the AUC of dasatinib by 43% and the Cmax of dasatinib by 42%. With an identical study design administering a single 110.6 mg dose of Uxil to 35 healthy subjects, the AUC of dasatinib was reduced by 20% and Cmax by 38%. In order to minimize the impact of reduction of exposure to dasatinib, H2 antagonists and proton pump inhibitors are recommended to be taken as a single dose 2 hours following the administration of Uxil (see section 4.4).

Antacids

Non-clinical data demonstrate that the solubility of dasatinib is pH-dependent. In healthy subjects, the concomitant use of aluminium hydroxide / magnesium hydroxide antacids with standard dasatinib reduced the AUC of a single dose of standard dasatinib by 55% and the Cmax by 58%. However, when antacids were administered 2 hours prior to a single dose of standard dasatinib, no relevant changes in dasatinib concentration or exposure were observed. Thus, antacids may be administered up to 2 hours prior to or 2 hours following dasatinib (see section 4.4).

Active substances that may have their plasma concentrations altered by dasatinib

Concomitant use of dasatinib and a CYP3A4 substrate may increase exposure to the CYP3A4 substrate. In a study in healthy subjects, a single 100 mg dose of dasatinib increased AUC and Cmax exposure to simvastatin, a known CYP3A4 substrate, by 20 and 37%, respectively. It cannot be excluded that the effect is larger after multiple doses of dasatinib. Therefore, CYP3A4 substrates known to have a narrow therapeutic index (e.g. astemizole, terfenadine, cisapride, pimozide, quinidine, bepridil or ergot alkaloids [ergotamine, dihydroergotamine]) should be administered with caution in patients receiving dasatinib (see section 4.4).

In vitro data indicate a potential risk for interaction with CYP2C8 substrates, such as glitazones.

Paediatric population

Interaction studies have only been performed in adults.

4.6 Fertility, pregnancy and lactation

Women of childbearing potential / contraception in males and females

Both sexually active men and women of childbearing potential should use effective methods of contraception during treatment.

Pregnancy

Based on human experience, dasatinib is suspected to cause congenital malformations including neural tube defects, and harmful pharmacological effects on the foetus when administered during pregnancy. Studies in animals have shown reproductive toxicity (see section 5.3).

Dasatinib should not be used during pregnancy unless the clinical condition of the woman requires treatment with dasatinib. If dasatinib is used during pregnancy, the patient must be informed of the potential risk to the foetus.

Breast-feeding

There is insufficient/li­mited information on the excretion of dasatinib in human or animal breast milk. Physico-chemical and available pharmacodynamic/to­xicological data on dasatinib point to excretion in breast milk and a risk to the suckling child cannot be excluded.

Breast-feeding should be stopped during treatment with dasatinib.

Fertility

In animal studies, the fertility of male and female rats was not affected by treatment with dasatinib (see section 5.3). Physicians and other healthcare providers should counsel male patients of appropriate age about possible effects of dasatinib on fertility, and this counselling may include consideration of semen deposition.

4.7 Effects on ability to drive and use machines

Dasatinib has minor influence on the ability to drive and use machines. Patients should be advised that they may experience adverse reactions such as dizziness or blurred vision during treatment with dasatinib. Therefore, caution should be recommended when driving a car or operating machines.

4.8 Undesirable effects

Summary of the safety profile

The data described below reflect the exposure to dasatinib as single-agent therapy at all doses tested in clinical studies (n = 2,900), including 324 adult patients with newly diagnosed CML-CP; 2,388 adult patients with imatinib-resistant or -intolerant chronic or advanced phase CML or Ph+ ALL, and 188 paediatric patients.

In the 2,712 adult patients with either CML-CP, advanced phase CML or Ph+ ALL, the median duration of therapy was 19.2 months (range 0 – 93.2 months). In a randomized trial in patients with newly diagnosed CML-CP, the median duration of therapy was approximately 60 months. The median duration of therapy in 1,618 adult patients with CML-CP was 29 months (range 0 – 92.9 months). The median duration of therapy in 1,094 adult patients with advanced phase CML or Ph+ ALL was 6.2 months (range 0.1 –99.6 months). Among 188 patients in paediatric studies, the median duration of therapy was 26.3 months (range 0 – 99.6 months). In the subset of 130 CML-CP dasatinib-treated paediatric patients, the median duration of therapy was 42.3 months (range 0 – 93.2 months).

The majority of dasatinib-treated patients experienced adverse reactions at some time. In the overall population of 2,712 dasatinib-treated adult subjects, 520 (19%) experienced adverse reactions leading to treatment discontinuation. The overall safety profile of dasatinib in the paediatric Ph+ CML-CP population was similar to that of the adult population, regardless of formulation, with the exception of no reported pericardial effusion, pleural effusion, pulmonary oedema, or pulmonary hypertension in the paediatric population. Of the 130 dasatinib-treated paediatric subjects with CML-CP, 2 (1.5%) experienced adverse reactions leading to treatment discontinuation.

Tabulated list of adverse reactions

The following adverse reactions, excluding laboratory abnormalities, were reported in patients treated with dasatinib used as single-agent therapy in clinical studies and post-marketing experience (Table 4). These reactions are presented 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); not known (cannot be estimated from available post-marketing data).

Within each frequency grouping, adverse reactions are presented in order of decreasing seriousness.

Table 4: Tabulated summary of adverse reactions

Infections ant

infestations

Very common

Infection (including bacterial, viral, fungal, non-specified)

Common

Pneumonia (including bacterial, viral, and fungal), upper respiratory tract infection/inflam­mation, herpes virus infection (including cytomegalovirus CMV), enterocolitis infect sepsis (including uncommon cases with fatal outcomes)

Not known

Hepatitis B reactivation

Blood and lymphatic system disorders

Very common

Myelosuppression (including anaemia, neutropaenia, thrombocytopaenia)

Common

Febrile neutropaenia

Uncommon

Lymphadenopathy, lymphopaenia

Rare

Aplasia pure red cell

Immune system disorders

Uncommon

Hypersensitivity (including erythema nodosum)

Rare

Anaphylactic shock

Endocrine disorders

Uncommon

Hypothyroidism

Rare

Hyperthyroidism, thyroiditis

Metabolism and nutrition disorders

Common

Appetite disturbances^ hyperuricaemia

Uncommon

Tumour lysis syndrome, dehydration, hypoalbuminemia, hypercholeste­rolemia

Rare

Diabetes mellitus

Psychiatric disorders

Common

Depression, insomnia

Uncommon

Anxiety, confusional state, affect lability, libido decreased

Nervous system disorders

Very common

Headache

Common

Neuropathy (including peripheral neuropathy), dizziness, dysgeusia, somnolent

Uncommon

CNS bleeding*b, syncope, tremor, amnesia, balance disorder

Rare

Cerebrovascular accident, transient ischaemic attack, convulsion, optic neuritis VIIth nerve paralysis, dementia, ataxia

Eye disorders

Common

Visual disorder (including visual disturbance, vision blurred, and visual acuity reduced), dry eye

Uncommon

Visual impairment, conjunctivitis, photophobia, lacrimation increased

Ear and labyrinth disorders

Common

Tinnitus

Uncommon

Hearing loss, vertigo

Cardiac disorders

Common

Congestive heart failure / cardiac dysfunction*0, pericardial effusion*, arrhythmia (including tachycardia), palpitations

Uncommon

Myocardial infarction (including fatal outcome), electrocardiogram QT prolonged , pericarditis, ventricular arrhythmia (including ventricular tachycardia), angina pectoris, cardiomegaly, electrocardiogram T wave abnormal, troponin increased

Rare

Cor pulmonale, myocarditis, acute coronary syndrome, cardiac arrest, electrocardiogram PR prolongation, coronary artery disease, pleuropericarditis

Not known

Atrial fibrillation / atrial flutter

Vascular disorders

Very common

TT         <     d

Haemorrhage

Common

Hypertension, flushing

Uncommon

Hypotension, thrombophlebitis, thrombosis

Rare

Deep vein thrombosis, embolism, livedo reticularis

Not known

Thrombotic microangiopathy

Respiratory,

horacic and mediastinal disorders

Very common

Pleural effusion , dyspnoea

Common

Pulmonary oedema , pulmonary hypertension , lung infiltration, pneumonitis, cough

Uncommon

PAH, bronchospasm, asthma

Rare

Pulmonary embolism, acute respiratory distress syndrome

Not known

Interstitial lung disease

Gastrointestinal disorders

Very common

Diarrhoea, vomiting, nausea, abdominal pain

Common

Gastrointestinal bleeding, colitis (including neutropaenic colitis), gastritis, mucosal inflammation (including mucositis/sto­matitis), dyspepsia, abdominal distension, constipation, oral soft tissue disorder

Uncommon

Pancreatitis (including acute pancreatitis), upper gastrointestinal ulcer, oesophagitis, ascites , anal fissure, dysphagia, gastroesophageal reflux disease

Rare

Protein-losing gastroenteropathy, ileus, anal fistula

Not known

Fatal gastrointestinal haemorrhage

Hepatobiliary disorders

Uncommon

Hepatitis, cholecystitis, cholestasis

Skin and subcutaneous tissue disorders

Very common

Skin rashe

Common

Alopecia, dermatitis (including eczema), pruritus, acne, dry skin, urticaria, hyperhidrosis

Uncommon

Neutrophilic dermatosis, photosensitivity, pigmentation disorder, panniculitis, skin ulcer, bullous conditions, nail disorder, palmar-plantar erythrodysesthesia syndrome, hair disorder

Rare

Leukocytoclastic vasculitis, skin fibrosis

Not known

f

Stevens-Johnson syndrome

Musculoskele

tal and connective tissue disorders

Very common

Musculoskeletal paing

Common

Arthralgia, myalgia, muscular weakness, musculoskeletal stiffness, muscle spa:

Uncommon

Rhabdomyolysis, osteonecrosis, muscle inflammation, tendonitis, arthritis

Rare

Epiphyses delayed fusionh, growth retardationh

Renal and urinary disorders

Uncommon

Renal impairment (including renal failure), urinary frequency, proteinuria

Not known

Nephrotic syndrome

Pregnancy, puerperium and perinatal conditions

Rare

Abortion

Reproductive system and breast disorders

Uncommon

Gynecomastia, menstrual disorder

General disorders and administration site conditions

Very common

Peripheral oedemai, fatigue, pyrexia, face oedemaj

Common

Asthenia, pain, chest pain, generalised oedema*k, chills

Uncommon

Malaise, other superficial oedemal

Rare

Gait disturbance

Investigations

Common

Weight decreased, weight increased

Uncommon

Blood creatine phosphokinase increased, gamma-glutamyltransferase increased

Injury, poisoning, and procedural complications

Common

Contusion

a Includes decreased appetite, early satiety, increased appetite.

b Includes CNS haemorrhage, cerebral haematoma, cerebral haemorrhage, extradural haematoma, haemorrhage intracranial, haemorrhagic stroke, subarachnoid haemorrhage, subdural haematoma, and subdural haemorrhage.

c Includes brain natriuretic peptide increased, ventricular dysfunction, left ventricular dysfunction, right ventricular dysfunction, cardiac failure, cardiac failure acute, cardiac failure chronic, cardiac failure congestive, cardiomyopathy, congestive cardiomyopathy, diastolic dysfunction, ejection fraction decreased and ventricular failure, left ventricular failure, right ventricular failure, and ventricular hypokinesia.

d Excludes gastrointestinal bleeding and CNS bleeding; these adverse reactions are reported under the gastrointestinal disorders system organ class and the nervous system disorders system organ class, respectively.

e Includes drug eruption, erythema, erythema multiforme, erythrosis, exfoliative rash, generalised erythema, genital rash, heat rash, milia, miliaria, pustular psoriaisis, rash, rash erythematous, rash follicular, rash generalised, rash macular, rash maculo-papular, rash papular, rash pruritic, rash pustular, rash vesicular, skin exfoliation, skin irritation, toxic skin eruption, urticaria vesiculosa, and vasculitic rash.

f In the post-marketing setting, individual cases of Stevens-Johnson syndrome have been reported. It could not be determined whether these mucocutaneous adverse reactions were directly related to dasatinib or to concomitant medicinal product.

g Musculoskeletal pain reported during or after discontinuing treatment.

h Frequency reported as common in paediatric studies.

i Gravitational oedema, localised oedema, oedema peripheral.

j Conjunctival oedema, eye oedema, eye swelling, eyelid oedema, face oedema, lip oedema, macular oedema, oedema mouth, orbital oedema, periorbital oedema, swelling face.

k Fluid overload, fluid retention, gastrointestinal oedema, generalised oedema, peripheral swelling, oedema, oedema due to cardiac disease, perinephric effusion, post procedural oedema, visceral oedema.

Genital swelling, incision site oedema, oedema genital, penile oedema, penile swelling, scrotal oedema, skin swelling, testicular swelling, vulvovaginal swelling.

For additional details, see section “Description of selected adverse reactions”.

Description of selected adverse reactions

Myelosuppression

Treatment with dasatinib is associated with anaemia, neutropaenia and thrombocytopaenia. Their occurrence is earlier and more frequent in patients with advanced phase CML or Ph+ ALL than in CML-CP (see section 4.4).

Bleeding

Bleeding drug-related adverse reactions, ranging from petechiae and epistaxis to grade 3 or 4 gastrointestinal haemorrhage and CNS bleeding, were reported in patients taking dasatinib (see section 4.4).

Fluid retention

Miscellaneous adverse reactions such as pleural effusion, ascites, pulmonary oedema and pericardial effusion with or without superficial oedema may be collectively described as “fluid retention”. In the newly diagnosed CML-CP study after a minimum of 60 months follow-up, dasatinib-related fluid retention adverse reactions included pleural effusion (28%), superficial oedema (14%), pulmonary hypertension (5%), generalised oedema (4%), and pericardial effusion (4%). Congestive heart failure/cardiac dysfunction and pulmonary oedema were reported in < 2% of patients.

The cumulative rate of dasatinib-related pleural effusion (all grades) over time was 10% at 12 months, 14% at 24 months, 19% at 36 months, 24% at 48 months and 28% at 60 months. A total of 46 dasatinib-treated patients had recurrent pleural effusions. 17 patients had 2 separate adverse reactions, 6 had 3 adverse reactions, 18 had 4 – 8 adverse reactions and 5 had > 8 episodes of pleural effusions.

The median time to first dasatinib-related grade 1 or 2 pleural effusion was 114 weeks (range 4 – 299 weeks). Less than 10% of patients with pleural effusion had severe (grade 3 or 4) dasatinib-related pleural effusions. The median time to first occurrence of grade > 3 dasatinib-related pleural effusion was 175 weeks (range 114 – 274 weeks). The median duration of dasatinib-related pleural effusion (all grades) was 283 days (~ 40 weeks).

Pleural effusion was usually reversible and managed by interrupting dasatinib treatment and using diuretics or other appropriate supportive care measures (see sections 4.2 and 4.4). Among dasatinib-treated patients with drug-related pleural effusion (n = 73), 45 (62%) had dose interruptions and 30 (41%) had dose reductions. Additionally, 34 (47%) received diuretics, 23 (32%) received corticosteroids, and 20 (27%) received both corticosteroids and diuretics. 9 (12%) patients underwent therapeutic thoracentesis.

6% of dasatinib-treated patients discontinued treatment due to drug-related pleural effusion. Pleural effusion did not impair the ability of patients to obtain a response. Among the dasatinib-treated patients with pleural effusion, 96% achieved a cCCyR, 82% achieved a MMR, and 50% achieved a MR4.5 despite dose interruptions or dose adjustment.

See section 4.4 for further information on patients with CML-CP and advanced phase CML or Ph+ ALL.

Pulmonary arterial hypertension (PAH)

PAH (pre-capillary pulmonary arterial hypertension confirmed by right heart catheterization) has been reported in association with exposure to dasatinib. In these cases, PAH was reported after initiation of dasatinib therapy, including after more than 1 year of treatment. Patients with PAH reported during dasatinib treatment were often taking concomitant medicinal products or had co-morbidities in addition to the underlying malignancy. Improvements in haemodynamic and clinical parameters have been observed in patients with PAH following discontinuation of dasatinib.

QT prolongation

In the phase III study in patients with newly diagnosed CML-CP, 1 patient (< 1%) of the dasatinib-treated patients had a QTcF > 500 msec after a minimum of 12 months follow-up (see section 4.4). No additional patients were reported to have QTcF > 500 msec after a minimum of 60 months follow-up.

In 5 phase II clinical studies in patients with resistance or intolerance to prior imatinib therapy, repeated baseline and on-treatment ECGs were obtained at pre-specified time points and read centrally for 865 patients receiving 70 mg twice daily. QT interval was corrected for heart rate by Fridericia’s met­hod. At all post-dose time points on day 8, the mean changes from baseline in QTcF interval were 4 – 6 msec, with associated upper 95% CI < 7 msec.

Of the 2,182 patients with resistance or intolerance to prior imatinib therapy who received dasatinib in clinical studies, 15 (1%) had QTc prolongation reported as an adverse reaction. 21 patients (1%) experienced a QTcF > 500 msec (see section 4.4).

Cardiac adverse reactions

Patients with risk factors or a history of cardiac disease should be monitored carefully for signs or symptoms consistent with cardiac dysfunction and should be evaluated and treated appropriately (see section 4.4).

Hepatitis B reactivation

Hepatitis B reactivation has been reported in association with BCR-ABL TKIs. Some cases resulted in acute hepatic failure or fulminant hepatitis leading to liver transplantation or a fatal outcome (see section 4.4).

In the phase III dose-optimisation study in patients with CML-CP with resistance or intolerance to prior imatinib therapy (median duration of treatment of 30 months), the incidence of pleural effusion and congestive heart failure/cardiac dysfunction was lower in patients treated with dasatinib 100 mg once daily than in those treated with dasatinib 70 mg twice daily. Myelosuppression was also reported less frequently in the 100 mg once daily treatment group (see “Laboratory test abnormalities” below). The median duration of therapy in the 100 mg once daily group was 37 months (range 1 –91 months). Cumulative rates of selected adverse reactions that were reported in the 100 mg once daily recommended starting dose are shown in Table 5a.

Table 5a: Selected adverse reactions reported in a phase III dose-

optimisation study (imatinib intolerant or resistant CML-CP)a

Minimum of 2 years follow-up

Minimum of 5 years follow-up

Minimum of 7 years follow-up

All grades

Grade 3/4

All grades

Grade 3/4

All grades

Grade 3/4

Preferred term

Percent (%

) of patients

Diarrhoea

27

2

28

2

28

2

Fluid retention

34

4

42

6

48

7

Superficial oedema

18

0

21

0

22

0

Pleural effusion

18

2

24

4

28

5

Generalised oedema

3

0

4

0

4

0

Pericardial effusion

2

1

2

1

3

1

Pulmonary hypertension

0

0

0

0

2

1

Haemorrhage

11

1

11

1

12

1

Gastrointestinal bleeding

2

1

2

1

2

1

a Phase III dose-optimisation stud

y results reported in recommend

ed starting

dose of 100 mg once daily (n = 165) population.

In the phase III dose-optimisation study in patients with advanced phase CML and Ph+ ALL, the median duration of treatment was 14 months for accelerated phase CML, 3 months for myeloid blast CML, 4 months for lymphoid blast CML and 3 months for Ph+ ALL. Selected adverse reactions that were reported in the recommended starting dose of 140 mg once daily are shown in Table 5b. A 70 mg twice daily regimen was also studied. The 140 mg once daily regimen showed a comparable efficacy profile to the 70 mg twice daily regimen but a more favourable safety profile.

Table 5b: Selected adverse reactions reported in phase III dose-optimisation

study: Advanced phase C

ML and Ph+ ALLa

140 mg once daily n = 304

All grades

Grade 3/4

Preferred term

Percent (%'

of patients

Diarrhoea

28

3

Fluid retention

33

7

Superficial oedema

15

< 1

Pleural effusion

20

6

Generalised oedema

2

0

Congestive heart failure / cardiac dysfunctionb

1

0

Pericardial effusion

2

1

Pulmonary oedema

1

1

Haemorrhage

23

8

Gastrointestinal bleeding

8

6

a Phase III dose-optimisation study results reported at the recommended starting dose of 140 mg once daily (n = 304) population at 2-year final study follow-up.

b Includes ventricular dysfunction, cardiac failure, cardiac failure congestive, cardiomyopathy, congestive cardiomyopathy, diastolic dysfunction, ejection fraction decreased, and ventricular failure.

In addition, there were 2 studies in a total of 161 paediatric patients with Ph+ ALL in which dasatinib was administered in combination with chemotherapy. In the pivotal study, 106 paediatric patients received dasatinib in combination with chemotherapy on a continuous dosing regimen. In a supportive study, of 55 paediatric patients, 35 received dasatinib in combination with chemotherapy on a discontinuous dosing regimen (2 weeks on treatment followed by 1 – 2 weeks off) and 20 received dasatinib in combination with chemotherapy on a continuous dosing regimen. Among the 126 Ph+ ALL paediatric patients treated with dasatinib on a continuous dosing regimen, the median duration of therapy was 23.6 months (range 1.4 – 33 months).

Of the 126 Ph+ ALL paediatric patients on a continuous dosing regimen, 2 (1.6%) experienced adverse reactions leading to treatment discontinuation. Adverse reactions reported in these 2 paediatric studies at a frequency of > 10% in patients on a continuous dosing regimen are shown in Table 6. Of note, pleural effusion was reported in 7 (5.6%) patients in this group, and is therefore not included in the table.

Table 6: Adverse reactions reported in > 10% of paediatric patients with Ph+ ALL treated with dasatinib on a continuous dosing regimen in combination with chemotherapy (n = 126)a_______

Percent (%

। of patients

Adverse reaction

All grades

Grade 3/4

Febrile neutropaenia

27.0

26.2

Nausea

20.6

5.6

Vomiting

20.6

4.8

Abdominal pain

14.3

3.2

Diarrhoea

12.7

4.8

Pyrexia

12.7

5.6

Headache

11.1

4.8

Decreased appetite

10.3

4.8

Fatigue

10.3

0

a In the pivotal study, among 106 total patients, 24 patients received the powder for oral suspension at least once, 8 of whom received the powder for oral suspension formulation exclusively.

Laboratory test abnormalities

Haematology

In the phase III newly diagnosed CML-CP study, the following grade 3 or 4 laboratory abnormalities were reported after a minimum of 12 months followup in patients taking dasatinib: Neutropaenia (21%), thrombocytopaenia

(19%), and anaemia (10%). After a minimum of 60 months follow-up, the cumulative rates of neutropaenia, thrombocytopaenia, and anaemia were 29%, 22% and 13%, respectively.

In dasatinib-treated patients with newly diagnosed CML-CP who experienced grade 3 or 4 myelosuppression, recovery generally occurred following brief dose interruptions and/or reductions and permanent discontinuation of treatment occurred in 1.6% of patients after a minimum of 12 months followup. After a minimum of 60 months follow-up the cumulative rate of permanent discontinuation due to grade 3 or 4 myelosuppression was 2.3%.

In patients with CML with resistance or intolerance to prior imatinib therapy, cytopaenias (thrombocytopaenia, neutropaenia, and anaemia) were a consistent finding. However, the occurrence of cytopaenias was also clearly dependent on the stage of the disease. The frequency of grade 3 and 4 haematological abnormalities is presented in Table 7.

Table 7: CTC grades 3/4 haematological laboratory abnormalities in

clinical studies in patients with resistance or intolerance to prior imatinib therapya

Chronic phase (n = 165)b

Accelerated phase (n = 157)c

Myeloid blast phase (n = 74)c

Lymphoid blast phase and Ph+ ALL (n= 168)c

Percent (%) of patient

ts

Haematology parameters

Neutropaenia

36

58

77

76

Thrombocytopaenia

23

63

78

74

Anaemia

13

47

74

44

a Phase III dose-optimisation study results reported at 2-year study follow-

up.

b CA180–034 study results in recommended starting dose of 100 mg once daily.

c CA180–035 study results in recommended starting dose of 140 mg once daily.

CTC grades: Neutropaenia (grade 3 > 0.5 to < 1.0×109/L, grade 4

< 0.5×109/L);

thrombocytopaenia (grade 3 > 25 to < 50×109/L, grade 4 < 25×109/l);

anaemia (haemoglobin grade 3 > 65 to < 80 g/L, grade 4 < 65 g/L).

Cumulative grade 3 or 4 cytopaenias among patients treated with 100 mg once daily were similar at 2 and 5 years including: Neutropaenia (35% vs. 36%), thrombocytopaenia (23% vs. 24%) and anaemia (13% vs. 13%).

In patients who experienced grade 3 or 4 myelosuppression, recovery generally occurred following brief dose interruptions and/or reductions and permanent discontinuation of treatment occurred in 5% of patients. Most patients continued treatment without further evidence of myelosuppression.

Biochemistry

In the newly diagnosed CML-CP study, grade 3 or 4 hypophosphataemia was reported in 4% of dasatinib-treated patients, and grade 3 or 4 elevations of transaminases, creatinine, and bilirubin were reported in < 1% of patients after a minimum of 12 months follow-up. After a minimum of 60 months follow-up the cumulative rate of grade 3 or 4 hypophosphataemia was 7%, grade 3 or 4 elevations of creatinine and bilirubin was 1% and grade 3 or 4 elevations of transaminases remained 1%. There were no discontinuations of dasatinib therapy due to these biochemical laboratory parameters.

2-year follow-up

Grade 3 or 4 elevations of transaminases or bilirubin were reported in 1% of patients with CML-CP (resistant or intolerant to imatinib), but elevations were reported with an increased frequency of 1 – 7% of patients with advanced phase CML and Ph+ ALL. It was usually managed with dose reduction or interruption. In the phase III dose-optimisation study in CML-CP, grade 3 or 4 elevations of transaminases or bilirubin were reported in < 1% of patients with similar low incidence in the 4 treatment groups. In the phase III doseoptimisation study with dasatinib in advanced phase CML and Ph+ ALL, grade 3 or 4 elevations of transaminases or bilirubin were reported in 1 – 5% of patients across treatment groups.

Approximately 5% of the dasatinib-treated patients who had normal baseline levels experienced grade 3 or 4 transient hypocalcaemia at some time during the course of the study. In general, there was no association of decreased calcium with clinical symptoms. Patients developing grade 3 or 4 hypocalcaemia often had recovery with oral calcium supplementation. Grade 3 or 4 hypocalcaemia, hypokalaemia, and hypophosphataemia were reported in patients with all phases of CML but were reported with an increased frequency in patients with myeloid or lymphoid blast phase CML and Ph+ ALL. Grade 3 or 4 elevations in creatinine were reported in < 1% of patients with CML-CP and were reported with an increased frequency of 1 –4% of patients with advanced phase CML.

Paediatric population

The safety profile of dasatinib administered as single-agent therapy in paediatric patients with Ph+ CML-CP was comparable to the safety profile in adults.

The safety profile of dasatinib administered in combination with chemotherapy in paediatric patients with Ph+ ALL was consistent with the known safety profile of dasatinib in adults and the expected effects of chemotherapy, with the exception of a lower pleural effusion rate in paediatric patients as compared to adults.

In the paediatric CML studies, the rates of laboratory abnormalities were consistent with the known profile for laboratory parameters in adults. In the paediatric ALL studies, the rates of laboratory abnormalities were consistent with the known profile for laboratory parameters in adults, within the context of an acute leukaemia patient receiving a background chemotherapy regimen.

While the safety profile of dasatinib in elderly was similar to that in the younger population, patients aged 65 years and older are more likely to experience the commonly reported adverse reactions such as fatigue, pleural effusion, dyspnoea, cough, lower gastrointestinal haemorrhage, and appetite disturbance and more likely to experience less frequently reported adverse reactions such as abdominal distention, dizziness, pericardial effusion, congestive heart failure, and weight decrease and should be monitored closely (see section 4.4).

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 or search for MHRA Yellow Card in the Google Play or Apple App Store.

4.9 Overdose

4.9 Overdose

Experience with overdose of dasatinib in clinical studies is limited to isolated cases. The highest overdose of standard dasatinib formulation 280 mg per day for 1 week was reported in 2 patients and both developed a significant decrease in platelet counts. Since dasatinib is associated with grade 3 or 4 myelosuppression (see section 4.4), patients who ingest more than the recommended dose should be closely monitored for myelosuppression and given appropriate supportive treatment.

5 PHARMACOLOGICAL PROPERTIES

5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Antineoplastic agents, protein kinase inhibitors; ATC code: L01XE06.

Pharmacodynamics

Dasatinib inhibits the activity of the BCR-ABL kinase and SRC family kinases along with a number of other selected oncogenic kinases including c-KIT, ephrin (EPH) receptor kinases, and PDGFß receptor. Dasatinib is a potent, subnanomolar inhibitor of the BCR-ABL kinase with potency at concentration of 0.6 – 0.8 nM. It binds to both the inactive and active conformations of the BCR-ABL enzyme.

Mechanism of action

In vitro, dasatinib is active in leukaemic cell lines representing variants of imatinib-sensitive and resistant disease. These non-clinical studies show that dasatinib can overcome imatinib resistance resulting from BCR-ABL overexpression, BCR-ABL kinase domain mutations, activation of alternate signalling pathways involving the SRC family kinases (LYN, HCK), and multidrug resistance gene overexpression. Additionally, dasatinib inhibits SRC family kinases at subnanomolar concentrations.

Clinical efficacy and safety

In the phase I study, haematologic and cytogenetic responses were observed in Ph+ ALL in the first patients treated and followed for up to 27 months. Responses were durable across all phases of Ph+ ALL.

The efficacy of dasatinib is based on haematological and cytogenetic response rates. Durability of response and estimated survival rates provide additional evidence of dasatinib clinical benefit.

A total of 2,712 patients were evaluated in clinical studies; of these 23% were > 65 years of age and 5% were > 75 years of age.

Ph ALL

An open-label, single-arm, multicentre study was conducted in patients with Ph+ ALL who were resistant or intolerant to prior imatinib therapy. A total of 46 patients with Ph+ ALL received dasatinib 70 mg twice daily (44 resistant and 2 intolerant to imatinib). The median time from diagnosis to start of treatment was 18 months. Median duration of treatment on dasatinib was 3 months with 7% of patients treated for > 24 months to date. The rate of MMR (all 25 treated patients with a CCyR) was 52% at 24 months. Further efficacy results are reported in Table 8 -. Of note, major haematologic responses (MaHR) were achieved quickly (within 55 days for patients with Ph+ ALL).

Table 8:      Efficacy in phase II dasatinib single-arm clinical studiesa

Ph+ ALL (n = 46)

Haematologic response rateb (%)

MaHR (95% CI)

41% (27  57)

CHR (95% CI)

35% (21   50)

NEL (95% CI)

7% (1   18)

Duration of MaHR (%; Kaplan-Meier estimates)

1 year

32% (8  56)

2 year

24% (2  47)

Cytogenetic responsec (%)

MCyR (95% CI)

57% (41   71)

CCyR (95% CI)

54% (39  69)

Survival (%; Kaplan-Meier estimates)

Progression-free

1 year

21% (9  34)

2 year

12% (2  23)

Overall

1 year

35% (20  51)

2 year

31% (16  47)

Data described in this table are from studies using a starting dose of 70 mg twice daily. See section 4.2 for the recommended starting dose.

a Numbers in bold font are the results of primary endpoints.

b Haematologic response criteria (all responses confirmed after 4 weeks MaHR = CHR + No evidence of leukaemia (NEL).

CHR (Ph+ ALL): WBC < institutional ULN, ANC > 1,000/mm3, platelets > 100,000/mm3, no blasts or promyelocytes in peripheral blood, bone marrow blasts < 5%, < 5% myelocytes plus metamyelocytes in peripheral blood, basophils in peripheral blood < 20%, and no extramedullary involvement.

NEL: Same criteria as for CHR but ANC > 500/mm3 and < 1,000/mm3, or platelets > 20,000/mm3 and < 100,000/mm3.

c Cytogenetic response criteria: complete (0% Ph+ metaphases) or partial (> 0  35%). MCyR (0  35%) combines both complete and partial

responses.

n/a: Not applicable; CI: Confidence interval; ULN: Upper limit of normal range.

The outcome of patients with bone marrow transplantation after dasatinib treatment has not been fully evaluated.

Phase III clinical studies in patients with Ph+ ALL who were resistant or intolerant to imatinib

2 randomised, open-label studies with dasatinib were conducted to evaluate the efficacy of dasatinib administered once daily compared with dasatinib administered twice daily. Results described below are based on a minimum of 2 years and 7 years follow-up after the start of dasatinib therapy.

In the study in Ph+ ALL, the primary endpoint was MaHR. A total of 611 patients were randomised to either the dasatinib 140 mg once daily or 70 mg twice daily group. Median duration of treatment was approximately 6 months (range 0.03 – 31 months).

The once daily schedule demonstrated comparable efficacy (non-inferiority) to the twice daily schedule on the primary efficacy endpoint (difference in MaHR 0.8%; 95% CI [-7.1   8.7%]); however, the 140 mg once daily regimen

demonstrated improved safety and tolerability. Response rates are presented in Table 9.

Table 9:      Efficacy of dasatinib in phase III dose-optimisation study: Ph+

ALL (2-year results)a

Ph+ ALL (n = 40)

MaHRb (95% CI)

38% (23   54)

CHRb (95% CI)

33% (19  49)

NELb (95% CI)

5% (1   17)

MCyRc (95% CI)

70% (54  83)

CCyR (95% CI)

50% (34  66)

a Results reported in recommended starting dose of 140 mg once daily (see section 4.2).

b Haematologic response criteria (all responses confirmed after 4 weeks): MaHR = CHR + NEL.

CHR: WBC < institutional ULN, ANC > 1,000/mm3, platelets > 100,000/mm3, no blasts or promyelocytes in peripheral blood, bone marrow blasts < 5%, < 5% myelocytes plus metamyelocytes in peripheral blood, basophils in peripheral blood < 20%, and no extramedullary involvement.

NEL: Same criteria as for CHR but ANC > 500/mm3 and < 1,000/mm3, or platelets > 20,000/mm3 and < 100,000/mm3.

c MCyR combines both complete (0% Ph+ metaphases) and partial (> 0 35%) responses. CI: Confidence interval; ULN: Upper limit of normal

range.

In patients with Ph+ ALL treated with the 140 mg once daily regimen, the median duration of MaHR was 5 months the median PFS was 4 months, and the median OS was 7 months.

Paediatric population

Paediatric, patients with ALL

The efficacy of with dasatinib in combination with chemotherapy was evaluated in a pivotal study in paediatric patients over 1 year of age with newly diagnosed Ph+ ALL.

In this multicenter, historically-controlled phase II study of dasatinib added to standard chemotherapy, 106 paediatric patients with newly diagnosed Ph+ ALL, of whom 104 patients had confirmed Ph+ ALL, received dasatinib at a daily dose of 60 mg/m2 on a continuous dosing regimen for up to 24 months, in combination with chemotherapy. 82 patients received dasatinib tablets exclusively and 24 patients received dasatinib powder for oral suspension at least once, 8 of whom received dasatinib powder for oral suspension exclusively. The backbone chemotherapy regimen was the same as used in the AIEOP-BFM ALL 2,000 trial (chemotherapeutic standard multi-agent chemotherapy protocol). The primary efficacy endpoint was 3-year event-free survival (EFS), which was 65.5% (55.5 73.7).

The minimal residual disease (MRD) negativity rate assessed by Ig/TCR rearrangement was 71.7% by the end of consolidation in all treated patients. When this rate was based on the 85 patients with evaluable Ig/TCR assessments, the estimate was 89.4%. The MRD negativity rates at the end of induction and consolidation as measured by flow cytometry were 66.0% and 84.0%, respectively.

5.2 Pharmacokinetic properties

The pharmacokinetics of standard dasatinib formulation were evaluated in 229 adult healthy subjects and in 84 patients.

Absorption

Dasatinib is rapidly absorbed in patients following oral administration, with peak concentrations between 0.5   3 hours. Following oral administration, the

increase in the mean exposure (AUCT) is approximately proportional to the dose increment across doses ranging from 25 – 120 mg of standard dasatinib formulation twice daily. The overall mean terminal half-life of dasatinib is approximately 5   6 hours in patients.

Data from healthy subjects administered a single 100 mg dose of standard dasatinib formulation 30 minutes following a high-fat meal indicated a 14% increase in the mean AUC of dasatinib.

A low-fat meal 30 minutes prior to standard dasatinib formulation resulted in a 21% increase in the mean AUC of dasatinib.

The observed food effects do not represent clinically relevant changes in exposure. Dasatinib exposure variability is higher under fasted conditions (47% CV) compared to light-fat meal (39% CV) and high-fat meal (32% CV) conditions.

Based on the patient population PK analysis, variability in dasatinib exposure was estimated to be mainly due to inter-occasion variability in bioavailability (44% CV) and, to a lesser extent, due to inter-individual variability in bioavailability and inter-individual variability in clearance (30% and 32% CV, respectively). The random inter-occasion variability in exposure is not expected to affect the cumulative exposure and efficacy or safety.

After single-dose administration in healthy subjects, Uxil showed dose proportionality with a dose-related increase in exposure (AUC) within the dose range from 15.8 mg to 110.6 mg. Data from healthy subjects administered a single 110.6 mg dose of Uxil 30 minutes following a high-fat meal indicated a 11% increase in the mean AUC of dasatinib.

Distribution

In patients, dasatinib has a large apparent volume of distribution (2,505 L), coefficient of variation (CV% 93%), suggesting that the medicinal product is extensively distributed in the extravascular space. At clinically relevant concentrations of dasatinib, binding to plasma proteins was approximately 96% on the basis of in vitro experiments.

Biotransformation

Dasatinib is extensively metabolised in humans with multiple enzymes involved in the generation of the metabolites. In healthy subjects administered 100 mg of [14C]-labelled dasatinib, unchanged dasatinib represented 29% of circulating radioactivity in plasma. Plasma concentration and measured in vitro activity indicate that metabolites of dasatinib are unlikely to play a major role in the observed pharmacology of the product. CYP3A4 is a major enzyme responsible for the metabolism of dasatinib.

Elimination

The mean terminal half-life of dasatinib is 3 – 5 hours. The mean apparent oral clearance is 363.8 L/h (CV% 81.3%).

Elimination is predominantly in the faeces, mostly as metabolites. Following a single oral dose of [14C]-labelled dasatinib, approximately 89% of the dose was eliminated within 10 days, with 4% and 85% of the radioactivity recovered in the urine and faeces, respectively. Unchanged dasatinib accounted for 0.1% and 19% of the dose in urine and faeces, respectively, with the remainder of the dose as metabolites.

Hepatic and renal impairment

The effect of hepatic impairment on the single-dose pharmacokinetics of dasatinib was assessed in 8 moderately hepatic-impaired subjects who received a 50 mg dose of standard dasatinib formulation and 5 severely hepatic-impaired subjects who received a 20 mg dose of standard dasatinib formulation compared to matched healthy subjects who received a 70 mg dose of standard dasatinib formulation. The mean Cmax and AUC of dasatinib adjusted for the 70 mg dose were decreased by 47% and 8%, respectively, in subjects with moderate hepatic impairment compared to subjects with normal hepatic function. In severely hepatic-impaired subjects, the mean Cmax and AUC adjusted for the 70 mg dose were decreased by 43% and 28%, respectively, compared to subjects with normal hepatic function (see sections 4.2 and 4.4).

Dasatinib and its metabolites are minimally excreted via the kidney.

Paediatric population

The pharmacokinetics of dasatinib have been evaluated in 104 paediatric patients with leukaemia or solid tumours (72 who received the standard tablet dasatinib formulation and 32 who received the powder for oral suspension). In a paediatric pharmacokinetics study, dose-normalized dasatinib exposure (Cavg, Cmin and Cmax) appears similar between 21 patients with CP-CML and 16 patients with Ph+ ALL.

Pharmacokinetics of the standard tablet formulation of dasatinib were evaluated for 72 paediatric patients with relapsed or refractory leukaemia or solid tumours at oral doses ranging from 60 – 120 mg/m2 once daily and 50 –110 mg/m2 twice daily. Data was pooled across 2 studies and showed that dasatinib was rapidly absorbed. Mean Tmax was observed between 0.5 and 6 hours and mean half-life ranged from 2 – 5 hours across all dose levels and age groups. Dasatinib PK showed dose proportionality with a dose-related increase in exposure observed in paediatric patients. There was no significant difference of dasatinib PK between children and adolescents. The geometric means of dose-normalized dasatinib Cmax, AUC(0 and AUC(INF) appeared to be similar between children and adolescents at different dose levels. A PPK model-based simulation predicted that the body weight tiered dosing recommendation described for the standard tablet dasatinib formulation, in section 4.2, is expected to provide similar exposure to a tablet dose of 60 mg/m2 of standard tablet dasatinib formulation. These data should be considered if patients are to switch from tablets to powder for oral suspension or vice versa.

5.3 Preclinical safety data

5.3 Preclinical safety data

The non-clinical safety profile of dasatinib was assessed in a battery of in vitro and in vivo studies in mice, rats, monkeys, and rabbits.

The primary toxicities occurred in the gastrointestinal, haematopoietic, and lymphoid systems. Gastrointestinal toxicity was dose-limiting in rats and monkeys, as the intestine was a consistent target organ. In rats, minimal to mild decreases in erythrocyte parameters were accompanied by bone marrow changes; similar changes occurred in monkeys at a lower incidence. Lymphoid toxicity in rats consisted of lymphoid depletion of the lymph nodes, spleen, and thymus, and decreased lymphoid organ weights. Changes in the gastrointestinal, haematopoietic and lymphoid systems were reversible following cessation of treatment.

Renal changes in monkeys treated for up to 9 months were limited to an increase in background kidney mineralisation. Cutaneous haemorrhage was observed in an acute, single-dose oral study in monkeys but was not observed in repeat-dose studies in either monkeys or rats. In rats, dasatinib inhibited platelet aggregation in vitro and prolonged cuticle bleeding time in vivo, but did not invoke spontaneous haemorrhage.

Dasatinib activity in vitro in hERG and Purkinje fiber assays suggested a potential for prolongation of cardiac ventricular repolarisation (QT interval). However, in an in vivo single-dose study in conscious telemetered monkeys, there were no changes in QT interval or ECG wave form.

Dasatinib was not mutagenic in in vitro bacterial cell assays (Ames test) and was not genotoxic in an in vivo rat micronucleus study. Dasatinib was clastogenic in vitro to dividing Chinese hamster ovary (CHO) cells.

Dasatinib did not affect male or female fertility in a conventional rat fertility and early embryonic development study, but induced embryolethality at dose levels approximating human clinical exposures. In embryofoetal development studies, dasatinib likewise induced embryolethality with associated decreases in litter size in rats, as well as foetal skeletal alterations in both rats and rabbits. These effects occurred at doses that did not produce maternal toxicity, indicating that dasatinib is a selective reproductive toxicant from implantation through the completion of organogenesis.

In mice, dasatinib induced immunosuppression, which was dose-related and effectively managed by dose reduction and/or changes in dosing schedule. Dasatinib had phototoxic potential in an in vitro neutral red uptake phototoxicity assay in mouse fibroblasts. Dasatinib was considered to be nonphototoxic in vivo after a single oral administration to female hairless mice at exposures up to 3-fold the human exposure following administration of the recommended therapeutic dose (based on AUC).

In a 2-year carcinogenicity study, rats were administered oral doses of dasatinib at 0.3, 1, and 3 mg/kg/day. The highest dose resulted in a plasma exposure (AUC) level generally equivalent to the human exposure at the recommended range of starting doses of standard dasatinib formulation from 100 – 140 mg daily. A statistically significant increase in the combined incidence of squamous cell carcinomas and papillomas in the uterus and cervix of high-dose females and of prostate adenoma in low-dose males was noted. The relevance of the findings from the rat carcinogenicity study for humans is not known.

6 PHARMACEUTICAL PARTICULARS

6.1 List of excipients

Tablet core

Lactose monohydrate

Microcrystalline cellulose Hydroxypropyl­cellulose Croscarmellose sodium Magnesium stearate

Film-coating Hypromellose Propylene glycol Titanium dioxide

6.2 Incompatibilities

Not applicable.

6.3 Shelf life

3 years

6.4 Special precautions for storage

This medicinal product does not require any special storage conditions.

6.5 Nature and contents of container

OPA/ALU/PVC//Alu blister.

Pack sizes:

56 and 60 film-coated tablets.

Not all pack sizes may be marketed.

6.6 Special precautions for disposal

6.6 Special precautions for disposal

The film-coated tablets consist of a core tablet, surrounded by a film-coating to prevent exposure of healthcare professionals to the active substance. The use of latex or nitrile gloves for appropriate disposal when handling tablets that are inadvertently crushed or broken is recommended, to minimise the risk of dermal exposure.

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

MARKETING AUTHORISATION HOLDER

Zentiva Pharma UK Limited

12 New Fetter Lane

London

EC4A 1JP

United Kingdom

8 MARKETING AUTHORISATION NUMBER(S)

PL 17780/1030

9 DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION

16/11/2021