Finlee 10 mg dispersible tablets

Summary of Product Characteristics Updated 30-Oct-2024 | Novartis Pharmaceuticals UK Ltd

1. Name of the medicinal product

Finlee 10 mg dispersible tablets

2. Qualitative and quantitative composition

Each dispersible tablet contains dabrafenib mesilate equivalent to 10 mg of dabrafenib.

Excipient with known effect

Each dispersible tablet contains <0.00078 mg of benzyl alcohol.

For the full list of excipients, see section 6.1.

3. Pharmaceutical form

Dispersible tablet.

White to slightly yellow, round, biconvex 6 mm tablet debossed with “ D” on one side and “ NVR” on the other.

4. Clinical particulars
4.1 Therapeutic indications

Low-grade glioma

Finlee in combination with trametinib is indicated for the treatment of paediatric patients aged 1 year and older with low-grade glioma (LGG) with a BRAF V600E mutation who require systemic therapy.

High-grade glioma

Finlee in combination with trametinib is indicated for the treatment of paediatric patients aged 1 year and older with high-grade glioma (HGG) with a BRAF V600E mutation who have received at least one prior radiation and/or chemotherapy treatment.

4.2 Posology and method of administration

Treatment with Finlee should be initiated and supervised by a qualified physician experienced in the use of anti-cancer medicinal products.

Before taking Finlee, patients must have confirmation of BRAF V600E mutation assessed by a CE-marked in vitro diagnostic (IVD) medical device with the corresponding intended purpose. If the CE-marked IVD is not available, confirmation of BRAF V600E should be assessed by an alternative validated test.

Finlee is used in combination with trametinib powder for oral solution. See the summary of product characteristics (SmPC) for posology of trametinib powder for oral solution.

Finlee is not to be replaced with other dabrafenib formulations as bioequivalence was not shown (see section 5.2).

Posology

The recommended twice-daily dose of Finlee is determined by body weight (Table 1).

Table 1 Dosing regimen by body weight

Body weight*

Recommended dose

(mg dabrafenib)

twice daily

Recommended dose

(number of 10 mg tablets)

twice daily

8 to 9 kg

20 mg

2

10 to 13 kg

30 mg

3

14 to 17 kg

40 mg

4

18 to 21 kg

50 mg

5

22 to 25 kg

60 mg

6

26 to 29 kg

70 mg

7

30 to 33 kg

80 mg

8

34 to 37 kg

90 mg

9

38 to 41 kg

100 mg

10

42 to 45 kg

110 mg

11

46 to 50 kg

130 mg

13

≥ 51 kg

150 mg

15

*Round body weight to the nearest kg, if necessary.

The recommended dose for patients with a body weight less than 8 kg has not been established.

Please refer to the trametinib powder for oral solution SmPC, “ Posology” and “ Method of administration” , for dosing instructions for treatment with trametinib when used in combination with Finlee.

Duration of treatment

Treatment with Finlee should continue until disease progression or until the development of unacceptable toxicity. There are limited data in patients older than 18 years of age with glioma, therefore continued treatment into adulthood should be based on benefits and risks to the individual patient as assessed by the physician.

Missed or delayed doses

If a dose of Finlee is missed, it should only be taken if it is more than 6 hours until the next scheduled dose. If vomiting occurs after taking Finlee, an additional dose should not be administered and the next dose should be taken at the next scheduled time.

Dose modification

The management of adverse reactions may require dose reduction, treatment interruption or treatment discontinuation (see Tables 2 and 3).

If treatment-related toxicities occur, then both dabrafenib and trametinib should be simultaneously dose reduced, interrupted or discontinued. Exceptions where dose modifications are necessary for only one of the two treatments are detailed below for uveitis, RAS mutation-positive non-cutaneous malignancies (primarily related to dabrafenib), left ventricular ejection fraction (LVEF) reduction, retinal vein occlusion (RVO), retinal pigment epithelial detachment (RPED) and interstitial lung disease (ILD)/pneumonitis (primarily related to trametinib).

Dose modifications or interruptions are not recommended for adverse reactions of cutaneous malignancies (see section 4.4).

Table 2 Dose modification schedule based on the grade of any adverse reactions (excluding pyrexia)

Grade (CTCAE)*

Recommended dabrafenib dose modifications

Grade 1 or Grade 2 (Tolerable)

Continue treatment and monitor as clinically indicated.

Grade 2 (Intolerable) or Grade 3

Interrupt therapy until toxicity is Grade 0 to 1 and reduce by one dose level when resuming therapy.

Refer to Table 3 for dose level guidance.

Grade 4

Discontinue permanently, or interrupt therapy until Grade 0 to 1 and reduce by one dose level when resuming therapy.

Refer to Table 3 for dose level guidance.

* The intensity of clinical adverse reactions graded by the Common Terminology Criteria for Adverse Events (CTCAE)

Table 3 Recommended dose reduction levels for adverse reactions

Body weight

Recommended dose

(mg dabrafenib)

twice daily

Reduced dose

(number of 10 mg tablets)

twice daily

First reduction level

Second reduction level

Third reduction level

8 to 9 kg

20 mg

1

N/A

N/A

10 to 13 kg

30 mg

2

1

N/A

14 to 17 kg

40 mg

3

2

1

18 to 21 kg

50 mg

3

2

1

22 to 25 kg

60 mg

4

3

2

26 to 29 kg

70 mg

5

4

2

30 to 33 kg

80 mg

5

4

3

34 to 37 kg

90 mg

6

5

3

38 to 41 kg

100 mg

7

5

3

42 to 45 kg

110 mg

7

6

4

46 to 50 kg

130 mg

9

7

4

≥ 51 kg

150 mg

10

8

5

N/A=not applicable

Permanently discontinue Finlee if unable to tolerate 10 mg twice daily or a maximum of 3 dose reductions.

When an individual's adverse reactions are under effective management, dose re-escalation following the same dosing steps as de-escalation may be considered. The dabrafenib dose should not exceed the recommended dose indicated in Table 1.

Dose modifications for selected adverse reactions

Pyrexia

If a patient's temperature is ≥ 38° C, therapy with dabrafenib and trametinib should be interrupted. In case of recurrence, therapy can also be interrupted at the first symptom of pyrexia. Treatment with anti-pyretics such as ibuprofen or acetaminophen/paracetamol should be initiated. The use of oral corticosteroids should be considered in those instances in which anti-pyretics are insufficient. Patients should be evaluated for signs and symptoms of infection and, if necessary, treated in line with local practice (see section 4.4). Therapy should be restarted if the patient is symptom-free for at least 24 hours either (1) at the same dose level, or (2) reduced by one dose level if the pyrexia is recurrent and/or was accompanied by other severe symptoms including dehydration, hypotension or renal failure.

Dose modification exceptions (where only one of the two therapies is dose reduced) for selected adverse reactions

Uveitis

No dose modifications are required for uveitis as long as effective local therapies can control ocular inflammation. If uveitis does not respond to local ocular therapy, dabrafenib should be withheld until resolution of ocular inflammation, and then dabrafenib should be restarted reduced by one dose level. No dose modification of trametinib is required when taken in combination with dabrafenib (see section 4.4).

RAS mutation-positive non-cutaneous malignancies

The benefits and risks must be considered before continuing treatment with dabrafenib in patients with a non-cutaneous malignancy that has a RAS mutation. No dose modification of trametinib is required when taken in combination with dabrafenib (see section 4.4).

Left ventricular ejection fraction (LVEF) reduction/Left ventricular dysfunction

If an absolute decrease of >10% in LVEF compared to baseline occurs, and the ejection fraction is below the institution's lower limit of normal (LLN), please refer to the trametinib powder for oral solution SmPC (section 4.2) for dose modification instructions for trametinib. No dose modification of dabrafenib is required when taken in combination with trametinib (see section 4.4).

Retinal vein occlusion (RVO) and retinal pigment epithelial detachment (RPED)

If patients report new visual disturbances such as diminished central vision, blurred vision or loss of vision at any time while on combination therapy with dabrafenib and trametinib, please refer to the trametinib powder for oral solution SmPC (section 4.2) for dose modification instructions for trametinib. No dose modification of dabrafenib is required when taken in combination with trametinib for confirmed cases of RVO or RPED.

Interstitial lung disease (ILD)/Pneumonitis

In patients treated with dabrafenib in combination with trametinib with suspected ILD or pneumonitis, including patients presenting with new or progressive pulmonary symptoms and findings including cough, dyspnoea, hypoxia, pleural effusion or infiltrates, pending clinical investigations, please refer to the trametinib powder for oral solution SmPC (section 4.2) for dose modification instructions for trametinib. No dose modification of dabrafenib is required when taken in combination with trametinib for cases of ILD or pneumonitis.

Special populations

Hepatic impairment

No dose adjustment is required in patients with mild hepatic impairment. There are no clinical data in patients with moderate to severe hepatic impairment and the potential need for dose adjustment cannot be determined (see section 5.2). Hepatic metabolism and biliary secretion are the primary routes of elimination of dabrafenib and its metabolites and patients with moderate to severe hepatic impairment may have increased exposure. Dabrafenib should be used with caution in patients with moderate or severe hepatic impairment.

Renal impairment

No dose adjustment is required in patients with mild or moderate renal impairment. There are no clinical data in patients with severe renal impairment and the potential need for dose adjustment cannot be determined (see section 5.2). Dabrafenib should be used with caution in patients with severe renal impairment.

Paediatric population

The safety and efficacy of combination therapy with dabrafenib and trametinib in children below 1 year of age have not been established. No data are available. Studies in juvenile animals have shown effects of dabrafenib which were not observed in adult animals (see section 5.3). Longer-term safety data in paediatric patients are currently limited.

Method of administration

Finlee is for oral use.

Finlee should be taken without food, at least one hour prior to or two hours after a meal (see section 5.2). Breast-feeding and/or baby formula may be given on demand if a patient is unable to tolerate the fasting conditions.

It is recommended that the doses of Finlee are taken at similar times every day, leaving an interval of approximately 12 hours between doses. The once-daily dose of trametinib should be taken at the same time each day with either the morning dose or the evening dose of Finlee.

If the patient is unable to swallow and has a nasogastric tube in situ, the Finlee tablet suspension can be administered via the tube.

Instructions for preparation and administration are provided in section 6.6.

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

Finlee is intended for use in combination with trametinib powder for oral solution as there are limited efficacy data for dabrafenib monotherapy and for trametinib monotherapy in BRAF V600 mutation-positive glioma. The trametinib powder for oral solution SmPC must be consulted prior to intiation of treatment. For additional information on warnings and precautions associated with trametinib treatment, please refer to the trametinib powder for oral solution SmPC.

BRAF V600E testing

The efficacy and safety of dabrafenib have not been established in patients with wild-type BRAF glioma. Dabrafenib should not be used in patients with wild-type BRAF glioma (see section 5.1).

New malignancies

New malignancies, cutaneous and non-cutaneous, can occur when dabrafenib is used in combination with trametinib.

Cutaneous malignancies

Cutaneous malignancies such as cutaneous squamous cell carcinoma (cuSCC) including kerathoacanthoma and new primary melanoma have been observed in adult patients treated with dabrafenib in combination with trametinib (see section 4.8). It is recommended that skin examination be performed prior to initiation of therapy with dabrafenib and monthly throughout treatment and for up to six months after treatment. Monitoring should continue for 6 months following discontinuation of dabrafenib or until initiation of another anti-neoplastic therapy.

Suspicious skin lesions should be managed with dermatological excision and do not require treatment modifications. Patients should be instructed to inform their physicians immediately if new skin lesions develop.

Non-cutaneous malignancies

In vitro experiments have demonstrated paradoxical activation of mitogen-activated protein kinase (MAP kinase) signalling in BRAF wild-type cells with RAS mutations when exposed to BRAF inhibitors. This may lead to increased risk of non-cutaneous malignancies with dabrafenib exposure (see section 4.8) when RAS mutations are present. RAS-associated malignancies have been reported in adult clinical studies, both with another BRAF inhibitor (chronic myelomonocytic leukaemia and non-cutaneous SCC of the head and neck) as well as with dabrafenib monotherapy (pancreatic adenocarcinoma, bile duct adenocarcinoma) and with dabrafenib in combination with trametinib (colorectal cancer, pancreatic cancer).

The benefits and risks should be considered before administering dabrafenib in patients with a prior or concurrent cancer associated with RAS mutations. Patients should be screened for occult pre-existing malignancies.

Following discontinuation of dabrafenib, monitoring for non-cutaneous secondary/recurrent malignancies should continue for up to 6 months or until initiation of another anti-neoplastic therapy. Abnormal findings should be managed according to clinical practices.

Haemorrhage

Haemorrhagic events have been reported in adult and paediatric patients taking dabrafenib in combination with trametinib (see section 4.8). Major haemorrhagic events and fatal haemorrhages have occurred in adult patients taking dabrafenib in combination with trametinib. The potential for these events in patients with low platelet counts (<75 000/mm3) has not been established as such patients were excluded from clinical studies. The risk of haemorrhage may be increased with concomitant use of antiplatelet or anticoagulant therapy. If haemorrhage occurs, patients should be treated as clinically indicated.

Visual impairment

Ophthalmological reactions, including uveitis and iridocyclitis, have been reported in paediatric patients taking dabrafenib in combination with trametinib (see section 4.8), in some cases with a time to onset of several months. In clinical studies in adult patients treated with dabrafenib, ophthalmological reactions, including uveitis, iridocyclitis and iritis, have been reported. Patients should be routinely monitored for visual signs and symptoms (such as change in vision, photophobia and eye pain) while on therapy.

No dose modifications are required as long as effective local therapies can control ocular inflammation. If uveitis does not respond to local ocular therapy, withhold dabrafenib until resolution of ocular inflammation and then restart dabrafenib reduced by one dose level. No dose modification of trametinib is required when taken in combination with dabrafenib following diagnosis of uveitis.

RPED and RVO may occur with dabrafenib in combination with trametinib. Please refer to the trametinib powder for oral solution SmPC (section 4.4). No dose modification of dabrafenib is required when taken in combination with trametinib following diagnosis of RVO or RPED.

Pyrexia

Fever has been reported in adult and paediatric clinical studies with dabrafenib (see section 4.8). Serious non-infectious febrile events were identified (defined as fever accompanied by severe rigors, dehydration, hypotension and/or acute renal insufficiency of pre-renal origin in patients with normal baseline renal function). In paediatric patients who received dabrafenib in combination with trametinib, the median time to onset for the first occurrence of pyrexia was 1.3 months. In adult patients with unresectable or metastatic melanoma who received dabrafenib in combination with trametinib and developed pyrexia, approximately half of the first occurrences of pyrexia happened within the first month of therapy and approximately one third of the patients had 3 or more events. Patients with serious non-infectious febrile events responded well to dose interruption and/or dose reduction and supportive care.

Therapy with dabrafenib and trametinib should be interrupted if the patient's temperature is ≥ 38° C (see section 5.1). In case of recurrence, therapy can also be interrupted at the first symptom of pyrexia. Treatment with anti-pyretics such as ibuprofen or acetaminophen/paracetamol should be initiated. The use of oral corticosteroids should be considered in those instances in which anti-pyretics are insufficient. Patients should be evaluated for signs and symptoms of infection. Therapy can be restarted once the fever resolves. If fever is associated with other severe signs or symptoms, therapy should be restarted at a reduced dose once fever resolves and as clinically appropriate (see section 4.2).

Left ventricular ejection fraction (LVEF) reduction/Left ventricular dysfunction

Dabrafenib in combination with trametinib has been reported to decrease LVEF in both adult and paediatric patients (see section 4.8). In clinical studies in paediatric patients, the median time to onset for the first occurrence of LVEF decrease was around one month. In clinical studies in adult patients, the median time to onset of the first occurrence of left ventricular dysfunction, cardiac failure and LVEF decrease was between 2 and 5 months.

In patients receiving dabrafenib in combination with trametinib, there have been occasional reports of acute, severe left ventricular dysfunction due to myocarditis. Full recovery was observed when stopping treatment. Physicians should be alert to the possibility of myocarditis in patients who develop new or worsening cardiac signs or symptoms. Please refer to the trametinib powder for oral solution SmPC (section 4.4) for additional information. No dose modification of dabrafenib is required when taken in combination with trametinib.

Renal failure

Renal failure has been identified in ≤ 1% of adult patients treated with dabrafenib in combination with trametinib. Observed cases in adult patients were generally associated with pyrexia and dehydration and responded well to dose interruption and general supportive measures. Granulomatous nephritis has also been reported in adult patients. Patients should be routinely monitored for serum creatinine while on therapy. If creatinine increases, treatment may need to be interrupted as clinically appropriate. Dabrafenib has not been studied in patients with renal insufficiency (defined as creatinine >1.5 x ULN) therefore caution should be used in this setting (see section 5.2).

Hepatic events

Hepatic adverse reactions have been reported in adult and paediatric patients in clinical studies with dabrafenib in combination with trametinib (see section 4.8). It is recommended that patients have liver function monitored every four weeks for 6 months after treatment initiation. Liver monitoring may be continued thereafter as clinically indicated.

Blood pressure changes

Both hypertension and hypotension have been reported in patients in clinical studies with dabrafenib in combination with trametinib (see section 4.8). Blood pressure should be measured at baseline and monitored during treatment, with control of hypertension by standard therapy as appropriate.

Interstitial lung disease (ILD)/Pneumonitis

Cases of pneumonitis or ILD have been reported in adult patients in clinical studies with dabrafenib in combination with trametinib. Please refer to the trametinib powder for oral solution SmPC for additional information.

Rash

Rash has been observed in about 47% of paediatric patients in clinical studies when dabrafenib is used in combination with trametinib (see section 4.8). The majority of these cases were Grade 1 or 2 and did not require any dose interruptions or dose reductions.

Severe cutaneous adverse reactions

Cases of severe cutaneous adverse reactions (SCARs), including Stevens-Johnson syndrome, and drug reaction with eosinophilia and systemic symptoms (DRESS), which can be life-threatening or fatal, have been reported during treatment with dabrafenib/trametinib combination therapy in adult patients. Before initiating treatment, patients should be advised of the signs and symptoms and monitored closely for skin reactions. If signs and symptoms suggestive of SCARs appear, treatment should be withdrawn.

Rhabdomyolysis

Rhabdomyolysis has been reported in adult patients taking dabrafenib in combination with trametinib. Signs or symptoms of rhabdomyolysis should warrant an appropriate clinical evaluation and treatment as indicated. Please refer to the trametinib powder for oral solution SmPC for additional information.

Pancreatitis

Pancreatitis has been reported in adult and paediatric patients treated with dabrafenib in combination with trametinib in clinical studies (see section 4.8). Unexplained abdominal pain should be promptly investigated to include measurement of serum amylase and lipase. Patients should be closely monitored when restarting treatment after an episode of pancreatitis.

Deep vein thrombosis (DVT)/Pulmonary embolism (PE)

Pulmonary embolism or deep vein thrombosis can occur. If patients develop symptoms of pulmonary embolism or deep vein thrombosis such as shortness of breath, chest pain or arm or leg swelling, they should immediately seek medical care. Permanently discontinue treatment for life-threatening pulmonary embolism.

Gastrointestinal disorders

Colitis and enterocolitis have been reported in paediatric patients treated with dabrafenib in combination with trametinib (see section 4.8). Colitis and gastrointestinal perforation, including fatal outcome, have been reported in adult patients taking dabrafenib in combination with trametinib. Please refer to the trametinib powder for oral solution SmPC for additional information.

Sarcoidosis

Cases of sarcoidosis have been reported in adult patients treated with dabrafenib in combination with trametinib, mostly involving the skin, lung, eye and lymph nodes. In the majority of the cases, treatment with dabrafenib and trametinib was maintained. In case of a diagnosis of sarcoidosis, relevant treatment should be considered.

Women of childbearing potential/Fertility in males

Before initiating treatment in women of childbearing potential, appropriate advice on effective methods of contraception should be provided. Women of childbearing potential must use effective methods of contraception during therapy and for 2 weeks following discontinuation of dabrafenib and for 16 weeks following discontinuation of trametinib. Male patients taking dabrafenib in combination with trametinib should be informed of the potential risk for impaired spermatogenesis, which may be irreversible (see section 4.6).

Haemophagocytic lymphohistiocytosis

In post-marketing experience, haemophagocytic lymphohistiocytosis (HLH) has been observed in adult patients treated with dabrafenib in combination with trametinib. Caution should be taken when dabrafenib is administered in combination with trametinib. If HLH is confirmed, administration of dabrafenib and trametinib should be discontinued and treatment for HLH initiated.

Tumour lysis syndrome (TLS)

The occurrence of TLS, which may be fatal, has been associated with the use of dabrafenib in combination with trametinib (see section 4.8). Risk factors for TLS include high tumour burden, pre-existing chronic renal insufficiency, oliguria, dehydration, hypotension and acidic urine. Patients with risk factors for TLS should be closely monitored and prophylactic hydration should be considered. TLS should be treated promptly, as clinically indicated.

Effects of other medicinal products on dabrafenib

Dabrafenib is a substrate of CYP2C8 and CYP3A4. Potent inducers of these enzymes should be avoided when possible as these agents may decrease the efficacy of dabrafenib (see section 4.5).

Effects of dabrafenib on other medicinal products

Dabrafenib is an inducer of metabolising enzymes which may lead to loss of efficacy of many commonly used medicinal products (see examples in section 4.5). A drug utilisation review (DUR) is therefore essential when initiating dabrafenib treatment. Concomitant use of dabrafenib with medicinal products that are sensitive substrates of certain metabolising enzymes or transporters (see section 4.5) should generally be avoided if monitoring for efficacy and dose adjustment is not possible.

Concomitant administration of dabrafenib with warfarin results in decreased warfarin exposure. Caution should be exercised and additional international normalised ratio (INR) monitoring is recommended when dabrafenib is used concomitantly with warfarin and at discontinuation of dabrafenib (see section 4.5).

Concomitant administration of dabrafenib with digoxin may result in decreased digoxin exposure. Caution should be exercised and additional monitoring of digoxin is recommended when digoxin (a transporter substrate) is used concomitantly with dabrafenib and at discontinuation of dabrafenib (see section 4.5).

Excipients

Potassium

This medicinal product contains potassium, less than 1 mmol (39 mg) per maximum daily dose, i.e. essentially 'potassium-free'.

Benzyl alcohol

This medicinal product contains <0.00078 mg benzyl alcohol in each dispersible tablet.

Benzyl alcohol may cause allergic reactions.

Patients below 3 years of age should be monitored for respiratory symptoms.

Patients who are, or may become, pregnant should be advised of the potential risk to the foetus from the excipient benzyl alcohol, which may accumulate over time and cause metabolic acidosis.

Dabrafenib dispersible tablets should be used with caution in patients with hepatic or renal impairment, as benzyl alcohol may accumulate over time and cause metabolic acidosis.

4.5 Interaction with other medicinal products and other forms of interaction

Interaction studies have only been performed in adults.

Effect of other medicinal products on dabrafenib

Dabrafenib is a substrate for the metabolising enzymes CYP2C8 and CYP3A4, while the active metabolites hydroxy-dabrafenib and desmethyl-dabrafenib are CYP3A4 substrates. Medicinal products that are strong inhibitors or inducers of CYP2C8 or CYP3A4 are therefore likely to increase or decrease, respectively, dabrafenib concentrations. Alternative agents should be considered during administration with dabrafenib when possible. Dabrafenib should be used with caution if strong inhibitors (e.g. ketoconazole, gemfibrozil, nefazodone, clarithromycin, ritonavir, saquinavir, telithromycin, itraconazole, voriconazole, posaconazole, atazanavir) are co-administered with dabrafenib. Co-administration of dabrafenib with potent inducers (e.g. rifampicin, phenytoin, carbamazepine, phenobarbital, or St John's wort (Hypericum perforatum)) of CYP2C8 or CYP3A4 should be avoided.

Administration of ketoconazole (a CYP3A4 inhibitor) 400 mg once daily, with dabrafenib 75 mg twice daily, resulted in a 71% increase in dabrafenib AUC and a 33% increase in dabrafenib Cmax relative to administration of dabrafenib alone. Co-administration resulted in increases in hydroxy- and desmethyl-dabrafenib AUC (increases of 82% and 68%, respectively). A decrease of 16% in AUC was noted for carboxy-dabrafenib.

Administration of gemfibrozil (a CYP2C8 inhibitor) 600 mg twice daily, with dabrafenib 75 mg twice daily, resulted in a 47% increase in dabrafenib AUC but did not alter dabrafenib Cmax relative to administration of dabrafenib alone. Gemfibrozil had no clinically relevant effect on the systemic exposure to dabrafenib metabolites (≤ 13%).

Administration of rifampin (a CYP3A4/CYP2C8 inducer) 600 mg once daily, with dabrafenib 150 mg twice daily, resulted in a decrease in repeat-dose dabrafenib Cmax (27%) and AUC (34%). No relevant change in AUC was noted for hydroxy-dabrafenib. There was an increase in AUC of 73% for carboxy-dabrafenib and a decrease in AUC of 30% for desmethyl-dabrafenib.

Co-administration of repeat doses of dabrafenib 150 mg twice daily and the pH-elevating agent rabeprazole 40 mg once daily resulted in a 3% increase in AUC and a 12% decrease in dabrafenib Cmax. These changes in dabrafenib AUC and Cmax are considered not clinically meaningful. Medicinal products that alter the pH of the upper gastrointestinal (GI) tract (e.g. proton pump inhibitors, H2-receptor antagonists, antacids) are not expected to reduce the bioavailability of dabrafenib.

Effect of dabrafenib on other medicinal products

Dabrafenib is an enzyme inducer and increases the synthesis of drug-metabolising enzymes including CYP3A4, CYP2Cs and CYP2B6 and may increase the synthesis of transporters. This results in reduced plasma levels of medicinal products metabolised by these enzymes and may affect some transported medicinal products. The reduction in plasma concentrations can lead to lost or reduced clinical effect of these medicinal products. There is also a risk of increased formation of active metabolites of these medicinal products. Enzymes that may be induced include CYP3A in the liver and gut, CYP2B6, CYP2C8, CYP2C9, CYP2C19, and UGTs (glucuronide conjugating enzymes). The transport protein P-gp may also be induced as well as other transporters, e.g. MRP-2. Induction of OATP1B1/1B3 and BCRP is not likely based on the observations from a clinical study with rosuvastatin.

In vitro, dabrafenib produced dose-dependent increases in CYP2B6 and CYP3A4. In a clinical drug interaction study, Cmax and AUC of oral midazolam (a CYP3A4 substrate) decreased by 47% and 65%, respectively with co-administration of repeat-dose dabrafenib.

Administration of dabrafenib and warfarin resulted in a decrease in AUC of S- and R-warfarin of 37% and 33%, respectively, compared to administration of warfarin alone. Cmax of S- and R-warfarin increased 18% and 19%.

Interactions with many medicinal products eliminated through metabolism or active transport is expected. If their therapeutic effect is of large importance to the patient, and dose adjustments are not easily performed based on monitoring of efficacy or plasma concentrations, these medicinal products are to be avoided or used with caution. The risk for liver injury after paracetamol administration is suspected to be higher in patients concomitantly treated with enzyme inducers.

The number of affected medicinal products is expected to be large, although the magnitude of the interaction will vary. Groups of medicinal products that can be affected include, but are not limited to:

• Analgesics (e.g. fentanyl, methadone)

• Antibiotics (e.g. clarithromycin, doxycycline)

• Anti-cancer agents (e.g. cabazitaxel)

• Anticoagulants (e.g. acenocoumarol, warfarin, see section 4.4)

• Antiepileptics (e.g. carbamazepine, phenytoin, primidone, valproic acid)

• Antipsychotics (e.g. haloperidol)

• Calcium channel blockers (e.g. diltiazem, felodipine, nicardipine, nifedipine, verapamil)

• Cardiac glycosides (e.g. digoxin, see section 4.4)

• Corticosteroids (e.g. dexamethasone, methylprednisolone)

• HIV antivirals (e.g. amprenavir, atazanavir, darunavir, delavirdine, efavirenz, fosamprenavir, indinavir, lopinavir, nelfinavir, saquinavir, tipranavir)

• Hormonal contraceptives (see section 4.6)

• Hypnotics (e.g. diazepam, midazolam, zolpidem)

• Immunosuppressants (e.g. cyclosporin, tacrolimus, sirolimus)

• Statins metabolised by CYP3A4 (e.g. atorvastatin, simvastatin)

Onset of induction is likely to occur after 3 days of repeat dosing with dabrafenib. Upon discontinuation of dabrafenib offset of induction is gradual, concentrations of sensitive CYP3A4, CYP2B6, CYP2C8, CYP2C9 and CYP2C19, UDP glucuronosyl transferase (UGT) and transporter substrates (e.g. P-gp or MRP-2) may increase and patients should be monitored for toxicity and dose of these agents may need to be adjusted.

In vitro, dabrafenib is a mechanism based inhibitor of CYP3A4. Therefore, transient inhibition of CYP3A4 may be observed during the first few days of treatment.

Effects of dabrafenib on substance transport systems

Dabrafenib is an in vitro inhibitor of human organic anion transporting polypeptide (OATP) 1B1 (OATP1B1), OATP1B3 and BCRP. Following co-administration of a single dose of rosuvastatin (OATP1B1, OATP1B3 and BCRP substrate) with repeat-dose dabrafenib in adult patients, Cmax of rosuvastatin increased 2.6-fold whereas the AUC was only minimally changed (7% increase). The increased Cmax of rosuvastatin is unlikely to have clinical relevance.

Also refer to the guidance for medicinal product interactions for trametinib found in sections 4.4 and 4.5 of the trametinib powder for oral solution SmPC.

4.6 Fertility, pregnancy, and lactation

Women of childbearing potential/Contraception in females

Women of childbearing potential must use effective methods of contraception during therapy and for 2 weeks following discontinuation of dabrafenib and for 16 weeks following discontinuation of trametinib.

Dabrafenib may decrease the efficacy of oral or any systemic hormonal contraceptives and an effective alternative method of contraception, such as a barrier method, should be used (see section 4.5).

Pregnancy

There are no data from the use of dabrafenib in pregnant women. Animal studies have shown reproductive toxicity and embryo-foetal developmental toxicities, including teratogenic effects (see section 5.3). Dabrafenib should not be administered to pregnant women unless the potential benefit to the mother outweighs the possible risk to the foetus. If the patient becomes pregnant while taking dabrafenib, the patient should be informed of the potential hazard to the foetus. Please see also the trametinib powder for oral solution SmPC (section 4.6) for additional information on trametinib.

Breast-feeding

It is not known whether dabrafenib is excreted in human milk. A risk to the breast-feeding child cannot be excluded. A decision should be made whether to discontinue breast-feeding or discontinue dabrafenib, taking into account the benefit of breast-feeding for the child and the benefit of therapy for the woman.

Fertility

There are no data in humans for dabrafenib in combination with trametinib. Dabrafenib may impair male and female fertility as effects on male and female reproductive organs have been seen in animals (see section 5.3). Male patients taking dabrafenib in combination with trametinib should be informed of the potential risk for impaired spermatogenesis, which may be irreversible. Please see the trametinib powder for oral solution SmPC for additional information.

4.7 Effects on ability to drive and use machines

Dabrafenib has minor influence on the ability to drive and use machines. The clinical status of the patient and the adverse reaction profile of dabrafenib should be borne in mind when considering the patient's ability to perform tasks that require judgement, motor or cognitive skills. Patients should be made aware of the potential for fatigue, dizziness or eye problems to affect these activities.

4.8 Undesirable effects

Summary of the safety profile

In clinical studies of paediatric patients treated with dabrafenib in combination with trametinib, the most common adverse reactions (reported at a frequency ≥ 20%) were: pyrexia (65%), rash (47%), headache (40%), vomiting (38%), fatigue (35%), dry skin (34%), diarrhoea (31%), haemorrhage (30%), nausea (26%), dermatitis acneiform (26%), neutropenia (25%), abdominal pain (23%) and cough (22%). The most frequently reported severe (Grade 3/4) adverse reactions were: neutropenia (15%), pyrexia (9%), transaminases increased (6%) and weight increased (5%). Long-term data on growth and skeletal maturation in paediatric patients are currently limited (see section 5.3).

The safety profile in paediatric patients was largely consistent with the safety profile previously established in adult patients. The following additional adverse reactions have so far only been reported in adult patients treated with dabrafenib capsules and trametinib tablets: cutaneous squamous cell carcinoma, seborrhoeic keratosis, peripheral neuropathy (including sensory and motor neuropathy), lymphoedema, dry mouth, actinic keratosis, photosensitivity, renal failure (common), melanoma, acrochordon, sarcoidosis, chorioretinopathy, pneumonitis, acute renal failure, nephritis, cardiac failure, left ventricular dysfunction, interstitial lung disease, rhabdomyolysis (uncommon), gastrointestinal perforation, haemophagocytic lymphohistiocytosis (rare), tumour lysis syndrome, myocarditis, Stevens-Johnson syndrome, drug reaction with eosinophilia and systemic symptoms (frequency not known).

Tabulated list of adverse reactions

The safety of dabrafenib in combination with trametinib has been evaluated in a pooled safety set of 171 paediatric patients across two studies in patients with BRAF V600 mutation-positive advanced solid tumours. Four (2.3%) patients were 1 to <2 years of age, 39 (22.8%) patients were 2 to <6 years of age, 54 (31.6%) patients were 6 to <12 years of age and 74 (43.3%) patients were 12 to <18 years of age at enrolment. The mean treatment duration was 80 weeks.

Adverse reactions in the integrated paediatric safety population (Table 4) are listed below by MedDRA system organ class ranked by frequency using the following convention: 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) and not known (cannot be estimated from the available data). Within each frequency grouping, adverse reactions are presented in order of decreasing seriousness.

Table 4 Adverse reactions reported in the integrated paediatric safety population of dabrafenib in combination with trametinib (n=171)

Infections and infestations

Very common

Paronychia

Common

Urinary tract infection, cellulitis, nasopharyngitis*1

Neoplasms benign, malignant, and unspecified (incl cysts and polyps)

Common

Skin papilloma

Blood and lymphatic system disorders

Very common

Neutropenia*2, anaemia, leukopenia*

Common

Thrombocytopenia*

Immune system disorders

Common

Hypersensitivity

Metabolism and nutrition disorders

Common

Dehydration, decreased appetite

Nervous system disorders

Very common

Headache, dizziness*3

Eye disorders

Common

Vision blurred, visual impairment, uveitis*4

Uncommon

Retinal detachment, periorbital oedema

Cardiac disorders

Common

Ejection fraction decreased, bradycardia*

Uncommon

Atrioventricular block5

Vascular disorders

Very common

Haemorrhage*6

Common

Hypertension, hypotension

Respiratory, thoracic, and mediastinal disorders

Very common

Cough*

Common

Dyspnoea

Gastrointestinal disorders

Very common

Abdominal pain*, constipation, diarrhoea, nausea, vomiting

Common

Pancreatitis, stomatitis

Uncommon

Colitis*

Skin and subcutaneous tissue disorders

Very common

Dermatitis acneiform*7, dry skin*8, pruritus, rash*9, erythema

Common

Dermatitis exfoliative generalised*10, alopecia, palmar-plantar erythrodysaesthesia syndrome, folliculitis, skin lesion, panniculitis, hyperkeratosis

Uncommon

Skin fissures, night sweats, hyperhidrosis

Musculoskeletal and connective tissue disorders

Very common

Arthralgia, pain in extremity

Common

Myalgia*, muscle spasms*11

General disorders and administration site conditions

Very common

Pyrexia*, fatigue*12, weight increased

Common

Mucosal inflammation, face oedema*, chills, oedema peripheral, influenza-like illness

Investigations

Very common

Transaminases increased*13

Common

Hyponatraemia, hypophosphataemia, hyperglycaemia, blood alkaline phosphatase increased, gammaglutamyltransferase increased, blood creatine phosphokinase increased

*Denotes grouped term of two or more MedDRA preferred terms that were considered clinically similar.

1 nasopharyngitis includes pharyngitis

2 neutropenia includes neutrophil count decreased and febrile neutropenia

3 dizziness includes vertigo

4 uveitis includes iridocyclitis

5 atrioventricular block includes atrioventricular block first degree

6 haemorrhage includes epistaxis, haematuria, contusion, haematoma, international normalised ratio increased, anal haemorrhage, catheter site haemorrhage, cerebral haemorrhage, ecchymosis, extradural haematoma, gastrointestinal haemorrhage, haematochezia, petechiae, post-procedural haemorrhage, rectal haemorrhage, red blood cell count decreased, upper gastrointestinal haemorrhage and uterine haemorrhage

7 dermatitis acneiform includes acne and acne pustular

8 dry skin includes xerosis and xeroderma

9 rash includes rash maculo-papular, rash pustular, rash erythematous, rash papular, rash macular

10 dermatitis exfoliative generalised includes skin exfoliation and dermatitis exfoliative

11 muscle spasms include musculoskeletal stiffness

12 fatigue includes malaise and asthenia

13 transaminases increased includes aspartate aminotransferase (AST) increased and alanine aminotransferase (ALT) increased

Description of selected adverse reactions

Weight increased

Weight increase has only been reported in the paediatric population. It was reported as an adverse reaction in 16% of paediatric patients including Grade 3 cases in 4.7% of patients, with a discontinuation rate of 0.6% of patients. The median time to onset of the first occurrence of the reported weight increase in paediatric patients receiving dabrafenib in combination with trametinib was 3.1 months. Weight increase from baseline of ≥ 2 BMI (body mass index)-for-age percentile categories was observed in 29.8% of patients.

Haemorrhage

Haemorrhagic events were observed in 30% of paediatric patients, with Grade 3 events occurring in 1.2% of patients. The most frequent haemorrhagic event (epistaxis) was reported in 18% of paediatric patients. The median time to onset of the first occurrence of haemorrhagic events in paediatric patients was 2.4 months. Haemorrhagic events, including major haemorrhagic events and fatal haemorrhages, have occurred in adult patients taking dabrafenib in combination with trametinib.

The risk of haemorrhage may be increased with concomitant use of antiplatelet or anticoagulant therapy. If haemorrhage occurs, patients should be treated as clinically indicated (see section 4.4).

Left ventricular ejection fraction (LVEF) reduction/Left ventricular dysfunction

Decreased LVEF has been reported in 5.3% of paediatric patients, with Grade 3 events occurring in <1% of patients. The median time to onset for the first occurrence of LVEF decrease was around one month.

Patients with LVEF lower than the institutional lower limit of normal were not included in clinical studies with dabrafenib. Dabrafenib in combination with trametinib should be used with caution in patients with conditions that could impair left ventricular function (see sections 4.2 and 4.4). Please refer to the trametinib powder for oral solution SmPC (section 4.4).

Pyrexia

Fever has been reported in clinical studies with dabrafenib in combination with trametinib (see section 4.4). Pyrexia was reported in 65% of paediatric patients, with Grade 3 events occurring in 8.8% of patients. Approximately half of the first occurrences of pyrexia in adult patients happened within the first month of therapy and approximately one-third of the patients had 3 or more events. In 1% of patients receiving dabrafenib as monotherapy in the integrated adult safety population, serious non-infectious febrile events were identified (defined as fever accompanied by severe rigors, dehydration, hypotension and/or acute renal insufficiency of pre-renal origin in patients with normal baseline renal function). The onset of these serious non-infectious febrile events was typically within the first month of therapy. Patients with serious non-infectious febrile events responded well to dose interruption and/or dose reduction and supportive care (see sections 4.2 and 4.4).

Hepatic events

Hepatic adverse reactions have been reported in adult and paediatric clinical studies with dabrafenib in combination with trametinib. In the paediatric safety population, increased ALT and AST were very common, reported in 12.3% and 15.2% of patients, respectively (see section 4.4). Please refer to the trametinib powder for oral solution SmPC for additional information.

Blood pressure changes

Hypertension was reported in 2.3% of paediatric patients, with Grade 3 events occurring in 1.2% of patients. The median time to onset of the first occurrence of hypertension in paediatric patients was 5.4 months.

Hypotension was reported in 3.5% of paediatric patients, with Grade ≥ 3 events occurring in 2.3% of patients. The median time to onset of the first occurrence of hypotension in paediatric patients was 1.5 months.

Blood pressure should be measured at baseline and monitored during treatment, with control of hypertension by standard therapy as appropriate (see section 4.4).

Arthralgia

Arthralgia was reported very commonly in the integrated adult and paediatric safety populations of dabrafenib in combination with trametinib. In the paediatric safety population, arthralgia was reported in 12.3% of patients, with <1% of patients with Grade 3 severity. Arthralgia was reported in 25% of adult patients, although these were mainly Grade 1 and 2 in severity with Grade 3 occurring uncommonly (<1%).

Hypophosphataemia

Hypophosphataemia has been reported commonly in the integrated adult and paediatric safety populations of dabrafenib in combination with trametinib in 4% and 5.8% of patients, respectively. It should be noted that Grade 3 events occurred in 1% of adult patients. In paediatric patients, hypophosphataemia occurred only with Grade 1 and 2 severity.

Pancreatitis

Pancreatitis was reported in 1.2% of paediatric patients, with <1% of patients with Grade 3 severity. In clinical studies in adult patients, one pancreatitis event occurred on the first day of dabrafenib dosing of a metastatic melanoma patient and recurred following rechallenge at a reduced dose. Unexplained abdominal pain should be promptly investigated to include measurement of serum amylase and lipase. Patients should be closely monitored when restarting treatment after an episode of pancreatitis (see section 4.4).

Cutaneous malignancies

In the integrated adult safety population for dabrafenib in combination with trametinib, 2% of patients developed cuSCC with a median time to onset of 18 to 31 weeks. The median time to diagnosis of the first occurrence of cuSCC was 223 days (range 56 to 510 days). All adult patients who developed cuSCC or new primary melanoma continued on treatment without dose modification (see section 4.4).

Non-cutaneous malignancies

Activation of MAP kinase signalling in BRAF wild-type cells which are exposed to BRAF inhibitors may lead to increased risk of non-cutaneous malignancies, including those with RAS mutations (see section 4.4). Non-cutaneous malignancies were reported in <1% of patients in the integrated adult safety population of dabrafenib in combination with trametinib. Cases of RAS-driven malignancies have been seen with dabrafenib in combination with trametinib. Patients should be monitored as clinically appropriate.

Renal failure

Renal failure due to pyrexia-associated pre-renal azotaemia or granulomatous nephritis was uncommon in adult patients; however, dabrafenib has not been studied in patients with renal insufficiency (defined as creatinine >1.5 x ULN). Caution should be used in this setting (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

No acute overdose symptoms have been reported in paediatric patients who received dabrafenib in combination with trametinib in clinical studies. There is no specific treatment for overdose. If overdose occurs, the patient should be treated supportively with appropriate monitoring as necessary.

5. Pharmacological properties
5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Antineoplastic agents, protein kinase inhibitors, B-Raf serine-threonine kinase (BRAF) inhibitors, ATC code: L01EC02

Mechanism of action

Dabrafenib is an inhibitor of RAF kinases. Oncogenic mutations in BRAF lead to constitutive activation of the RAS/RAF/MEK/ERK pathway. The most commonly observed BRAF mutation is V600E, which has been identified in 19% of paediatric LGG and approximately 5% of paediatric HGG.

Combination with trametinib

Trametinib is a reversible, highly selective, allosteric inhibitor of mitogen-activated extracellular signal regulated kinase 1 (MEK1) and MEK2 activation and kinase activity. MEK proteins are components of the extracellular signal-related kinase (ERK) pathway. In human cancers, this pathway is often activated by mutated forms of BRAF which activates MEK. Trametinib inhibits activation of MEK by BRAF and inhibits MEK kinase activity.

Thus, trametinib and dabrafenib inhibit two kinases in this pathway, MEK and RAF, and therefore the combination provides concomitant inhibition of the pathway. The combination of dabrafenib with trametinib has shown anti-tumour activity in BRAF V600 mutation-positive cancer cell lines in vitro and delays the emergence of resistance in vivo in BRAF V600 mutation-positive xenografts.

Pharmacodynamic effects

Preclinical data generated in biochemical assays demonstrated that dabrafenib inhibits BRAF kinases with activating codon 600 mutations (Table 5).

Table 5 Kinase inhibitory activity of dabrafenib against RAF kinases

Kinase

Inhibitory concentration 50 (nM)

BRAF V600E

0.65

BRAF WT

3.2

CRAF WT

5.0

Clinical efficacy and safety

Paediatric population

The clinical efficacy and safety of dabrafenib plus trametinib combination therapy in paediatric patients aged 1 to <18 years with BRAF V600 mutation-positive glioma was evaluated in a multi-centre, open-label, Phase II clinical study (EudraCT 2015-004015-20). Patients with low-grade glioma (WHO 2016 Grades 1 and 2) who required first systemic therapy were randomised in a 2:1 ratio to dabrafenib plus trametinib or carboplatin plus vincristine, and patients with relapsed or refractory high-grade glioma (WHO 2016 Grades 3 and 4) were enrolled into a single-arm dabrafenib plus trametinib cohort.

BRAF mutation status was identified prospectively via a local test, or a central laboratory real-time polymerase chain reaction (PCR) test when a local test was not available. In addition, retrospective testing of available tumour samples by the central laboratory was performed to confirm the BRAF V600E mutation.

Dabrafenib and trametinib dosing in the clinical study was age- and weight-dependent, with dabrafenib dosed orally at 2.625 mg/kg twice daily for ages <12 years and at 2.25 mg/kg twice daily for ages 12 years and older; trametinib was dosed orally at 0.032 mg/kg once daily for ages <6 years and at 0.025 mg/kg once daily for ages 6 years and older. Dabrafenib doses were capped at 150 mg twice daily and trametinib doses at 2 mg once daily. Carboplatin and vincristine were dosed based on age and body surface area at doses of 175 mg/m2 and 1.5 mg/m2, respectively, as weekly infusions. Carboplatin and vincristine were administered in one 10-week induction course followed by eight 6-week cycles of maintenance therapy.

The primary efficacy endpoint in both cohorts was overall response rate (ORR, sum of confirmed complete/CR and partial responses/PR) by independent review based on RANO (2017) criteria for the LGG cohort, and RANO (2010) criteria for the HGG cohort. The primary analysis was performed when all patients in both cohorts had completed at least 32 weeks of therapy.

BRAF mutation-positive paediatric low-grade glioma (WHO Grades 1 and 2)

In the low-grade glioma cohort, 110 patients were randomised to dabrafenib plus trametinib (n=73) or carboplatin plus vincristine (n=37). Median age was 9.5 years, with 34 patients (30.9%) aged 12 months to <6 years, 36 patients (32.7%) aged 6 to <12 years and 40 patients (36.4%) aged 12 to <18 years; 60% were female. The majority of patients (80%) had Grade 1 glioma at initial diagnosis. The most common pathologies were pilocytic astrocytoma (30.9%), ganglioglioma (27.3%) and LGG not otherwise specified (NOS) (18.2%). Metastatic sites were present in 9 patients (8.2%). Prior surgery was reported in 91 patients (82.7%), among those patients the procedure at last surgery was resection in 28 patients (25.5%). Systemic corticosteroid use was reported in 36 patients (32.7%).

The ORR in the dabrafenib plus trametinib arm showed a statistically significant improvement over carboplatin plus vincristine. The subsequent hierarchical testing also demonstrated a statistically significant improvement in progression-free survival (PFS) over chemotherapy (Table 6).

At the time of the primary analysis, conducted after all patients had completed at least 32 weeks of treatment or had discontinued earlier, the overall survival (OS) data were still immature (one death was reported in the carboplatin plus vincristine (C+V) arm).

Table 6 Response and progression-free survival in the pivotal study G2201 (LGG cohort, primary analysis)

Dabrafenib + Trametinib

(D+T)

N=73

Carboplatin + Vincristine

(C+V)

N=37

Best overall response

Complete response (CR), n (%)

2 (2.7)

1 (2.7)

Partial response (PR), n (%)

32 (43.8)

3 (8.1)

Stable disease (SD), n (%)

30 (41.1)

15 (40.5)

Progressive disease (PD), n (%)

8 (11.0)

12 (32.4)

Unknown, n (%)

1 (1.4)

6 (16.2)1

Overall response rate

ORR (CR+PR), 95% CI

46.6% (34.8 - 58.6%)

10.8% (3.0 - 25.4%)

Odds ratio2

7.19 (2.3 - 22.4), p<0.001

Risk difference

35.8% (20.6 - 51.0)

Progression-free survival (PFS)

PFS (months), (95% CI)

20.1 (12.8 - NE)

7.4 (3.6 - 11.8)

Hazard ratio (95% CI), p-value

0.31 (0.17 - 0.55), p<0.001

NE=not evaluable

1 4 patients randomised to C+V discontinued prior to receiving treatment.

2 Odds ratio (D+T vs C+V) and 95% CI are from a logistic regression with treatment as the only covariate, i.e. it is the odds of observing a response in the D+T arm compared to the odds of observing a response in the C+V arm. Odds ratio >1 favours D+T.

Figure 1 Kaplan-Meier curves for progression-free survival in the pivotal study G2201 (LGG cohort, primary analysis)

SMPC_44888_222609_3.gif

BRAF mutation-positive paediatric high-grade glioma (WHO Grades 3 and 4)

In the single-arm high-grade glioma cohort, 41 patients with relapsed or refractory HGG were enrolled and treated with dabrafenib plus trametinib for a median duration of 72.7 weeks. Median age was 13.0 years, with 5 patients (12.2%) aged 12 months to <6 years, 10 patients (24.4%) aged 6 to <12 years and 26 patients (63.4%) aged 12 to <18 years; 56% were female. The histological grade at initial diagnosis was Grade 4 in 20 patients (48.8%), Grade 3 in 13 patients (31.7%), Grade 2 in 4 patients (9.8%), Grade 1 in 3 patients (7.3%) and missing in 1 patient (2.4%). The most common pathologies were glioblastoma multiforme (31.7%), anaplastic pleomorphic xanthoastrocytoma (14.6%), HGG NOS (9.8%) and pleomorphic xanthoastrocytoma (9.8%). Prior surgery was reported in 40 patients (97.6%), among those patients the procedure at last surgery was resection in 24 patients (58.5%). Prior antineoplastic chemotherapy was reported for 33 patients (80.5%). Prior radiotherapy was reported for 37 patients (90.2%). Systemic corticosteroid use while on study treatment was reported in 21 patients (51.2%).

The ORR in this cohort was 56.1% (23/41), 95% CI (39.7%, 71.5%): CR in 12 patients (29.3%) and PR in 11 patients (26.8%). The median duration of response (DOR) was 22.2 months (95% CI: 7.6 – NE), with 15 patients (65.2%) censored at the time of the primary analysis.

5.2 Pharmacokinetic properties

The pharmacokinetic properties of dabrafenib have mostly been determined in adult patients using the solid (capsule) formulation. The pharmacokinetics of dabrafenib following single or repeat weight-adjusted dosing were also evaluated in 243 paediatric patients. The population pharmacokinetic analysis included 61 patients aged 1 to <6 years, 77 patients aged 6 to <12 years and 105 patients aged 12 to <18 years. Clearance was comparable with clearance in adult patients. Weight was identified as a significant covariate of dabrafenib clearance. Age was not a significant additional covariate. The pharmacokinetic exposures of dabrafenib at the recommended weight-adjusted dose in paediatric patients were within range of those observed in adults.

Absorption

The dabrafenib dispersible tablet suspension was absorbed rapidly with a median time to achieve peak plasma concentration of 1.5 hours post-dose. The mean absolute oral bioavailability of dabrafenib capsules was 94.5%. The suspension is expected to have 20% lower bioavailability. Based on data from adult patients with the capsule formulation, a decrease in exposure was observed with repeat dosing, likely due to induction of its own metabolism. Mean accumulation AUC Day 18/Day 1 ratio was 0.73.

Dabrafenib exposure (Cmax and AUC) increased in a dose-proportional manner between 12 mg and 300 mg following single-dose administration, but the increase was less than dose-proportional after repeat twice-daily dosing.

In the pivotal paediatric study, steady-state geometric mean (%CV) Cmax and AUCtau were 1330 ng/ml (93.5%) and 4910 ng*hr/ml (54.0%) in the LGG cohort and 1520 ng/ml (65.9%) and 4300 ng*hr/ml (44.7%) in the HGG cohort.

Food effect

The impact of food on the pharmacokinetics of the dispersible tablets suspension has not been investigated. Administration of dabrafenib (capsule formulation) with food reduced the bioavailability (Cmax and AUC decreased by 51% and 31% respectively) and delayed the absorption of dabrafenib when compared to the fasted state in an adult healthy volunteer study.

Distribution

Dabrafenib binds to human plasma proteins and is 99.7% bound. The steady-state volume of distribution following intravenous microdose administration in adults was 46 L.

Biotransformation

The metabolism of dabrafenib is primarily mediated by CYP2C8 and CYP3A4 to form hydroxy-dabrafenib, which is further oxidised via CYP3A4 to form carboxy-dabrafenib. Carboxy-dabrafenib can be decarboxylated via a non-enzymatic process to form desmethyl-dabrafenib. Carboxy-dabrafenib is excreted in bile and urine. Desmethyl-dabrafenib may also be formed in the gut and reabsorbed. Desmethyl-dabrafenib is metabolised by CYP3A4 to oxidative metabolites. Hydroxy-dabrafenib terminal half-life parallels that of parent with a half-life of 10 hrs while the carboxy- and desmethyl- metabolites exhibited longer half-lives (21 to 22 hours). In paediatric patients, the mean metabolite-to-parent AUC ratios (% CV) following repeat-dose administration of the capsules or of the dispersible tablet suspension were 0.64 (28%), 15.6 (49%) and 0.69 (62%) for hydroxy-, carboxy-, and desmethyl-dabrafenib, respectively. Based on exposure, relative potency, and pharmacokinetic properties, both hydroxy- and desmethyl-dabrafenib are likely to contribute to the clinical activity of dabrafenib while the activity of carboxy-dabrafenib is not likely to be significant.

Elimination

Terminal half-life of dabrafenib following an intravenous single microdose in adult patients was 2.6 hours. Dabrafenib terminal half-life after a single oral dose of the dispersible tablet formulation was 11.5 hours (CV of 67.7%) in an adult healthy volunteer study. The apparent clearance of dabrafenib in paediatric patients (median body weight: 38.7 kg) was 11.8 L/h (CV of 49%).

After an oral dose, the major route of elimination of dabrafenib is metabolism, mediated via CYP3A4 and CYP2C8. Dabrafenib-related material was excreted primarily in faeces, with 71% of an oral dose recovered in faeces; 23% of the dose was recovered in urine in the form of metabolites only.

Medicinal product interactions

Effects of other medicinal products on dabrafenib

Dabrafenib is a substrate of human P-glycoprotein (P-gp) and human BCRP in vitro. However, these transporters have minimal impact on dabrafenib oral bioavailability and elimination and the risk for clinically relevant drug-drug interactions with inhibitors of P-gp or BCRP is low. Neither dabrafenib nor its 3 main metabolites were demonstrated to be inhibitors of P-gp in vitro.

Effects of dabrafenib on other medicinal products

Although dabrafenib and its metabolites, hydroxy-dabrafenib, carboxy-dabrafenib and desmethyl-dabrafenib, were inhibitors of human organic anion transporter 1 (OAT1) and OAT3 in vitro, and dabrafenib and its desmethyl- metabolite were found to be inhibitors of organic cation transporter 2 (OCT2) in vitro, the risk of a drug-drug interaction with these transporters is minimal based on clinical exposure of dabrafenib and its metabolites.

Special patient populations

Hepatic impairment

A population pharmacokinetic analysis in adult patients indicates that mildly elevated bilirubin and/or AST levels (based on National Cancer Institute [NCI] classification) do not significantly affect dabrafenib oral clearance. In addition, mild hepatic impairment as defined by bilirubin and AST did not have a significant effect on dabrafenib metabolite plasma concentrations. No data are available in patients with moderate to severe hepatic impairment. As hepatic metabolism and biliary secretion are the primary routes of elimination of dabrafenib and its metabolites, administration of dabrafenib should be undertaken with caution in patients with moderate to severe hepatic impairment (see section 4.2).

Renal impairment

A population pharmacokinetic analysis in adult patients suggests that mild renal impairment does not affect oral clearance of dabrafenib. Although data in moderate renal impairment are limited these data may indicate no clinically relevant effect. No data are available in patients with severe renal impairment (see section 4.2).

Race

A population pharmacokinetic analysis in adult patients showed no significant differences in the pharmacokinetics of dabrafenib between Asian and Caucasian patients. There are insufficient data to evaluate the potential effect of other races on dabrafenib pharmacokinetics.

Gender

Based on population pharmacokinetic analyses in adult and paediatric patients, estimated clearance of dabrafenib was slightly lower in female patients, but the difference was not considered clinically relevant.

5.3 Preclinical safety data

Carcinogenicity studies with dabrafenib have not been conducted. Dabrafenib was not mutagenic or clastogenic using in vitro tests in bacteria and cultured mammalian cells, and an in vivo rodent micronucleus assay.

In combined female fertility, early embryonic and embryo-foetal development studies in rats numbers of ovarian corpora lutea were reduced in pregnant females at 300 mg/kg/day (approximately 3 times human clinical exposure based on AUC), but there were no effects on oestrous cycle, mating or fertility indices. Developmental toxicity including embryo-lethality and ventricular septal defects and variation in thymic shape were seen at 300 mg/kg/day, and delayed skeletal development and reduced foetal body weight at ≥ 20 mg/kg/day (≥ 0.5 times human clinical exposure based on AUC).

Male fertility studies with dabrafenib have not been conducted. However, in repeat dose studies, testicular degeneration/depletion was seen in rats and dogs (≥ 0.2 times human clinical exposure based on AUC). Testicular changes in rat and dog were still present following a 4-week recovery period (see section 4.6).

Cardiovascular effects, including coronary arterial degeneration/necrosis and/or haemorrhage, cardiac atrioventricular valve hypertrophy/haemorrhage and atrial fibrovascular proliferation were seen in dogs (≥ 2 times human clinical exposure based on AUC). Focal arterial/perivascular inflammation in various tissues was observed in mice and an increased incidence of hepatic arterial degeneration and spontaneous cardiomyocyte degeneration with inflammation (spontaneous cardiomyopathy) was observed in rats (≥ 0.5 and 0.6 times human clinical exposure for rats and mice, respectively). Hepatic effects, including hepatocellular necrosis and inflammation, were observed in mice (≥ 0.6 times human clinical exposure). Bronchoalveolar inflammation of the lungs was observed in several dogs at ≥ 20 mg/kg/day (≥ 9 times human clinical exposure based on AUC) and was associated with shallow and/or laboured breathing.

Reversible haematological effects have been observed in dogs and rats given dabrafenib. In studies of up to 13 weeks, decreases in reticulocyte counts and/or red cell mass were observed in dogs and rats (≥ 10 and 1.4 times human clinical exposure, respectively).

In juvenile toxicity studies in rats, effects on growth (shorter long bone length), renal toxicity (tubular deposits, increased incidence of cortical cysts and tubular basophilia and reversible increases in urea and/or creatinine concentrations) and testicular toxicity (degeneration and tubular dilation) were observed (≥ 0.2 times human clinical exposure based on AUC).

Dabrafenib was phototoxic in an in vitro mouse fibroblast 3T3 Neutral Red Uptake (NRU) assay and in vivo at doses ≥ 100 mg/kg (>44 times human clinical exposure based on Cmax) in an oral phototoxicity study in hairless mice.

Combination with trametinib

In a study in dogs in which dabrafenib and trametinib were given in combination for 4 weeks, signs of gastrointestinal toxicity and decreased lymphoid cellularity of the thymus were observed at lower exposures than in dogs given trametinib alone. Otherwise, similar toxicities were observed as in comparable monotherapy studies.

6. Pharmaceutical particulars
6.1 List of excipients

Mannitol (E 421)

Microcrystalline cellulose (E 460)

Crospovidone (E 1202)

Hypromellose (E 464)

Acesulfame potassium (E 950)

Magnesium stearate (E 470b)

Artificial berry flavour (maltodextrin, propylene glycol [E 1520], artificial flavours, triethyl citrate [E 1505], benzyl alcohol [E 1519])

Silica, colloidal anhydrous (E 551)

6.2 Incompatibilities

Not applicable.

6.3 Shelf life

Dispersible tablet

2 years.

Dispersible tablet suspension

Use within 30 minutes of preparation.

6.4 Special precautions for storage

This medicinal product does not require any special temperature storage conditions.

Store in the original package in order to protect from moisture.

6.5 Nature and contents of container

Opaque white high-density polyethylene (HDPE) bottle with polypropylene child-resistant screw cap and a silica gel desiccant.

Each bottle contains 210 dispersible tablets and two 2 g desiccant canisters. Patients should be instructed to keep the desiccant canisters in the bottle and not to swallow them.

Packs containing:

• 1 bottle (210 dispersible tablets) and 2 dosing cups.

• 2 bottles (420 dispersible tablets) and 2 dosing cups.

Each dosing cup is 30 ml in volume with 5 ml graduated increments.

Not all pack sizes may be marketed.

6.6 Special precautions for disposal and other handling

Preparation of the dispersible tablet suspension

• The prescribed dose of Finlee dispersible tablets should be placed in the dosing cup containing approximately 5 ml or 10 ml of still drinking water.

• The amount of still drinking water depends on the prescribed number of dispersible tablets. For a dose of 1 to 4 dispersible tablets, use approximately 5 ml of water; for a dose of 5 to 15 dispersible tablets, use approximately 10 ml of water.

• It may take 3 minutes (or more) to fully disperse the tablets.

• The contents should be gently stirred with the handle of a stainless steel teaspoon and then administered immediately.

• Administer the suspension no later than 30 minutes after preparation (after the tablets have fully dispersed). If more than 30 minutes have passed, do not use the suspension.

• After administration of the prepared suspension, there will be tablet residue inside the dosing cup. The residue may be difficult to see. Add approximately 5 ml of still drinking water to the empty dosing cup and stir with the handle of the stainless steel teaspoon to re-suspend any remaining particles. The entire contents of the dosing cup should be administered.

Administration using a feeding tube or an oral syringe

• Once the suspension is prepared, withdraw all of the suspension from the dosing cup into a syringe compatible with a feeding tube or oral administration.

• If administering via a feeding tube, flush the feeding tube with still drinking water before administering, and dispense the suspension into the feeding tube as per the manufacturer's instructions, and flush the feeding tube with still drinking water after administering.

• If administering via an oral syringe, place the end of the oral syringe inside the mouth with the tip touching the inside of either cheek. Slowly push the plunger all the way down to deliver the full dose.

A complete and illustrated set of instructions for use is provided at the end of the package leaflet “ Instructions for use” .

Disposal

The dosing cup can be used for up to 4 months after first use. After 4 months, the dosing cup can be thrown away in the household waste.

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

7. Marketing authorisation holder

Novartis Pharmaceuticals UK Limited

2nd Floor, The WestWorks Building, White City Place

195 Wood Lane

London

W12 7FQ

United Kingdom

8. Marketing authorisation number(s)

PLGB 00101/1228

9. Date of first authorisation/renewal of the authorisation

20/03/2024

10. Date of revision of the text

16 October 2024

LEGAL CATEGORY

POM

Company Contact Details
Novartis Pharmaceuticals UK Ltd
Address

2nd Floor, The WestWorks Building, White City Place, 195 Wood Lane, London, W12 7FQ

Medical Information Direct Line

+44 (0)1276 698 370

Customer Care direct line

+44 (0)845 741 9442

Telephone

+44 (0)1276 692 255

Medical Information e-mail
E-mail