VITRAKVI 20 mg/mL oral solution (Strawberry flavour)

Summary of Product Characteristics Updated 14-Nov-2024 | Bayer plc

black_triangle.svg This medicinal product is subject to additional monitoring. This will allow quick identification of new safety information. Healthcare professionals are asked to report any suspected adverse reactions. See section 4.8 for how to report adverse reactions.

1. Name of the medicinal product

VITRAKVI 20 mg/mL oral solution

2. Qualitative and quantitative composition

Each mL of oral solution contains larotrectinib sulfate equivalent to 20 mg of larotrectinib.

Excipients with known effect:

Each mL of oral solution contains 2 mg sodium benzoate.

For the full list of excipients, see section 6.1.

3. Pharmaceutical form

Oral solution.

Colourless to yellow or orange or red or brownish solution.

4. Clinical particulars
4.1 Therapeutic indications

VITRAKVI as monotherapy is indicated for the treatment of adult and paediatric patients with solid tumours that display a Neurotrophic Tyrosine Receptor Kinase (NTRK) gene fusion,

- who have a disease that is locally advanced, metastatic or where surgical resection is likely to result in severe morbidity, and

- who have no satisfactory treatment options (see sections 4.4 and 5.1).

4.2 Posology and method of administration

Treatment with VITRAKVI should be initiated by physicians experienced in the administration of anticancer therapies.

The presence of an NTRK gene fusion in a tumour specimen should be confirmed by a validated test prior to initiation of treatment with VITRAKVI.

Posology

Adults

The recommended dose in adults is 100 mg larotrectinib twice daily, until disease progression or until unacceptable toxicity occurs.

Paediatric population

Dosing in paediatric patients is based on body surface area (BSA). The recommended dose in paediatric patients is 100 mg/m2 larotrectinib twice daily with a maximum of 100 mg per dose until disease progression or until unacceptable toxicity occurs.

Missed dose

If a dose is missed, the patient should not take two doses at the same time to make up for a missed dose. Patients should take the next dose at the next scheduled time. If the patient vomits after taking a dose, the patient should not take an additional dose to make up for vomiting.

Dose modification

For all grade 2 adverse reactions, continued dosing may be appropriate, though close monitoring to ensure no worsening of the toxicity is advised.

For all grade 3 or 4 adverse reactions not referring to liver function test abnormalities:

- VITRAKVI should be withheld until the adverse reaction resolves or improves to baseline or grade 1. Resume at the next dose modification if resolution occurs within 4 weeks.

- VITRAKVI should be permanently discontinued if an adverse reaction does not resolve within 4 weeks.

The recommended dose modifications for VITRAKVI for adverse reactions are provided in Table 1.

Table 1: Recommended dose modifications for VITRAKVI for adverse reactions

Dose modification

Adult and paediatric patients with body surface area of at least 1.0 m2

Paediatric patients with body surface area less than 1.0 m2

First

75 mg twice daily

75 mg/m2 twice daily

Second

50 mg twice daily

50 mg/m2 twice daily

Third

100 mg once daily

25 mg/m2 twice dailya

a Paediatric patients on 25 mg/m² twice daily should remain on this dose even if body surface area becomes greater 1.0 m² during the treatment. Maximum dose should be 25 mg/m² twice daily at the third dose modification.

VITRAKVI should be permanently discontinued in patients who are unable to tolerate VITRAKVI after three dose modifications.

The recommended dose modifications in case of liver function tests abnormalities during treatment with VITRAKVI are provided in Table 2.

Table 2: Recommended dose modifications and management for VITRAKVI for liver function test abnormalities

Laboratory parameters

Recommended measures

Grade 2 ALT and/or AST (>3x ULN and ≤ 5x ULN)

- Conduct serial laboratory evaluations frequently after the observation of grade 2 toxicity, until resolved, to establish whether a dose interruption or reduction is required.

Grade 3 ALT and/or AST (>5x ULN and ≤ 20x ULN)

or

Grade 4 ALT and/or AST (>20x ULN), with bilirubin <2x ULN

- Withhold treatment until the adverse reaction resolves or improves to baseline. Monitor liver function frequently until resolution or return to baseline. Permanently discontinue treatment if an adverse reaction does not resolve.

- Resume at the next dose modification if adverse reactions resolve. Treatment should only be resumed in patients where the benefit outweighs the risk.

- Permanently discontinue treatment if a grade 4 ALT and/or AST elevation occurs after resuming treatment.

ALT and/or AST ≥ 3x ULN with bilirubin ≥ 2x ULN

- Withhold treatment and monitor liver function frequently until resolution or return to baseline.

- Consider permanent treatment discontinuation.

- Treatment should only be resumed in patients where the benefit outweighs the risk.

- If resumed, start at the next lower dose. Monitor liver function frequently upon restart.

- Permanently discontinue treatment if adverse reaction recurs after resuming treatment.

ALT Alanine aminotransferase

AST Aspartate aminotransferase

ULN upper limit of normal

Special populations

Elderly

No dose adjustment is recommended in elderly patients (see section 5.2).

Hepatic impairment

The starting dose of VITRAKVI should be reduced by 50% in patients with moderate (Child-Pugh B) to severe (Child-Pugh C) hepatic impairment. No dose adjustment is recommended for patients with mild hepatic impairment (Child-Pugh A) (see section 5.2).

Renal impairment

No dose adjustment is required for patients with renal impairment (see section 5.2).

Co-administration with strong CYP3A4 inhibitors

If co-administration with a strong CYP3A4 inhibitor is necessary, the VITRAKVI dose should be reduced by 50%. After the inhibitor has been discontinued for 3 to 5 elimination half-lives, VITRAKVI should be resumed at the dose taken prior to initiating the CYP3A4 inhibitor (see section 4.5).

Method of administration

VITRAKVI is for oral use.

VITRAKVI is available as a capsule or oral solution with equivalent oral bioavailability and may be used interchangeably.

The oral solution should be administered by mouth using an oral syringe of 1 mL or 5 mL volume or enterally by using a nasogastric feeding tube.

- For doses below 1 mL a 1 mL oral syringe should be used. The calculated dose volume should be rounded to the nearest 0.1 mL.

- For doses of 1 mL and higher a 5 mL oral syringe should be used. The dose volume should be calculated to the nearest 0.2 mL.

- VITRAKVI should not be mixed with feeding formulas, if administered via nasogastric feeding tube. Mixing with the feeding formulas could lead to tube blockages.

- For instructions for use of oral syringes and feeding tubes see section 6.6.

The oral solution can be taken with or without food but should not be taken with grapefruit or grapefruit juice.

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

Efficacy across tumour types

The benefit of VITRAKVI has been established in single arm trials encompassing a relatively small sample of patients whose tumours exhibit NTRK gene fusions. Favourable effects of VITRAKVI have been shown on the basis of overall response rate and response duration in a limited number of tumour types. The effect may be quantitatively different depending on tumour type, as well as on concomitant genetic alterations (see section 5.1). For these reasons, VITRAKVI should only be used if there are no treatment options for which clinical benefit has been established, or where such treatment options have been exhausted (i.e., no satisfactory treatment options).

Neurologic reactions

Neurologic reactions including dizziness, gait disturbance and paraesthesia were reported in patients receiving larotrectinib (see section 4.8). For the majority of neurologic reactions, onset occurred within the first three months of treatment. Withholding, reducing, or discontinuing VITRAKVI dosing should be considered, depending on the severity and persistence of these symptoms (see section 4.2).

Hepatotoxicity

Abnormalities of liver function tests including increased ALT, AST, alkaline phosphatase (ALP) and bilirubin have been observed in patients receiving larotrectinib (see section 4.8). The majority of ALT and AST increases occurred within 3 months of starting treatment. Cases of hepatotoxicity with increases in ALT and/or AST of grade 2, 3 or 4 severity and increases in bilirubin ≥ 2x ULN have been reported in adult patients.

In patients with hepatic transaminase elevations, withhold, modify dose or permanently discontinue VITRAKVI based on the severity (see section 4.2).

Liver function including ALT, AST, ALP and bilirubin should be monitored before the first dose, then every 2 weeks during the first month of treatment, then monthly for the next 6 months of treatment, then periodically during treatment. In patients who develop transaminase elevations, more frequent testing is needed (see section 4.2).

Co-administration with CYP3A4/P-gp inducers

Avoid co-administration of strong or moderate CYP3A4/P-gp inducers with VITRAKVI due to a risk of decreased exposure (see section 4.5).

Contraception in female and male

Women of childbearing potential must use highly effective contraception while taking VITRAKVI and for at least one month after stopping treatment (see sections 4.5 and 4.6).

Males of reproductive potential with a non-pregnant woman partner of childbearing potential should be advised to use highly effective contraception during treatment with VITRAKVI and for at least one month after the final dose (see section 4.6).

Important information about some of the ingredients

Sodium benzoate: this medicinal product contains 2 mg per 1 mL.

Sodium: this medicinal product contains less than 1 mmol sodium (23 mg) per 5 mL, that is to say essentially 'sodium-free'.

4.5 Interaction with other medicinal products and other forms of interaction

Effects of other agents on larotrectinib

Effect of CYP3A, P-gp and BCRP inhibitors on larotrectinib

Larotrectinib is a substrate of cytochrome P450 (CYP) 3A, P-glycoprotein (P-gp) and breast cancer resistance protein (BCRP). Co-administration of VITRAKVI with strong or moderate CYP3A inhibitors, P-gp and BCRP inhibitors (e.g. atazanavir, clarithromycin, indinavir, itraconazole, ketoconazole, nefazodone, nelfinavir, ritonavir, saquinavir, telithromycin, troleandomycin, voriconazole or grapefruit) may increase larotrectinib plasma concentrations (see section 4.2).

Clinical data in healthy adult subjects indicate that co-administration of a single 100 mg VITRAKVI dose with itraconazole (a strong CYP3A inhibitor and P-gp and BCRP inhibitor) 200 mg once daily for 7 days increased larotrectinib Cmax and AUC by 2.8-fold and 4.3-fold, respectively.

Clinical data in healthy adult subjects indicate that co-administration of a single 100 mg VITRAKVI dose with a single dose of 600 mg rifampicin (a P-gp and BCRP inhibitor) increased larotrectinib Cmax and AUC by 1.8-fold and 1.7-fold, respectively.

Effect of CYP3A and P-gp inducers on larotrectinib

Co-administration of VITRAKVI with strong or moderate CYP3A inducers and strong P-gp inducers (e.g. carbamazepine, phenobarbital, phenytoin, rifabutin, rifampicin, or St. John's Wort) may decrease larotrectinib plasma concentrations and should be avoided (see section 4.4).

Clinical data in healthy adult subjects indicate that co-administration of a single 100 mg VITRAKVI dose with rifampicin (a strong CYP3A and P-gp inducer) 600 mg once daily for 11 days decreased larotrectinib Cmax and AUC by 71% and 81%, respectively. No clinical data is available on the effect of a moderate inducer, but a decrease in larotrectinib exposure is expected.

Effects of larotrectinib on other agents

Effect of larotrectinib on CYP3A substrates

Clinical data in healthy adult subjects indicate that co-administration of VITRAKVI (100 mg twice daily for 10 days) increased the Cmax and AUC of oral midazolam 1.7-fold compared to midazolam alone, suggesting that larotrectinib is a weak inhibitor of CYP3A.

Exercise caution with concomitant use of CYP3A substrates with narrow therapeutic range (e.g. alfentanil, ciclosporin, dihydroergotamine, ergotamine, fentanyl, pimozide, quinidine, sirolimus, or tacrolimus) in patients taking VITRAKVI. If concomitant use of these CYP3A substrates with narrow therapeutic range is required in patients taking VITRAKVI, dose reductions of the CYP3A substrates may be required due to adverse reactions.

Effect of larotrectinib on CYP2B6 substrates

In vitro studies indicate that larotrectinib induces CYP2B6. Co-administration of larotrectinib with CYP2B6 substrates (e.g. bupropion, efavirenz) may decrease their exposure.

Effect of larotrectinib on other transporter substrates

In vitro studies indicate that larotrectinib is an inhibitor of OATP1B1. No clinical studies have been performed to investigate interactions with OATP1B1 substrates. Therefore, it cannot be excluded whether co-administration of larotrectinib with OATP1B1 substrates (e.g. valsartan, statins) may increase their exposure.

Effect of larotrectinib on substrates of PXR regulated enzymes

In vitro studies indicate that larotrectinib is a weak inducer of PXR regulated enzymes (e.g. CYP2C family and UGT). Co-administration of larotrectinib with CYP2C8, CYP2C9 or CYP2C19 substrates (e.g. repaglinide, warfarin, tolbutamide or omeprazole) may decrease their exposure.

Hormonal contraceptives

It is currently unknown whether larotrectinib may reduce the effectiveness of systemically acting hormonal contraceptives. Therefore, women using systemically acting hormonal contraceptives should be advised to add a barrier method.

4.6 Fertility, pregnancy and lactation

Women of childbearing potential / Contraception in males and females

Based on the mechanism of action, foetal harm cannot be excluded when administering larotrectinib to a pregnant woman. Women of childbearing potential should have a pregnancy test prior to starting treatment with VITRAKVI.

Women of reproductive potential should be advised to use highly effective contraception during treatment with VITRAKVI and for at least one month after the final dose. As it is currently unknown whether larotrectinib may reduce the effectiveness of systemically acting hormonal contraceptives, women using systemically acting hormonal contraceptives should be advised to add a barrier method.

Males of reproductive potential with a non-pregnant woman partner of childbearing potential should be advised to use highly effective contraception during treatment with VITRAKVI and for at least one month after the final dose.

Pregnancy

There are no data from the use of larotrectinib in pregnant women.

Animal studies do not indicate direct or indirect harmful effects with respect to reproductive toxicity (see section 5.3).

As a precautionary measure, it is preferable to avoid the use of VITRAKVI during pregnancy.

Breast-feeding

It is unknown whether larotrectinib/metabolites are excreted in human milk.

A risk to newborns/infants cannot be excluded.

Breast-feeding should be discontinued during treatment with VITRAKVI and for 3 days following the final dose.

Fertility

There are no clinical data on the effect of larotrectinib on fertility. No relevant effects on fertility were observed in repeat-dose toxicity studies (see section 5.3).

4.7 Effects on ability to drive and use machines

VITRAKVI has a moderate influence on the ability to drive and use machines. Dizziness and fatigue have been reported in patients receiving larotrectinib, mostly grade 1 and 2 during the first 3 months of treatment. This may influence the ability to drive and use machines during this time period. Patients should be advised not to drive and use machines, until they are reasonably certain VITRAKVI therapy does not affect them adversely (see section 4.4).

4.8 Undesirable effects

Summary of the safety profile

The most common adverse drug reactions (≥ 20%) of VITRAKVI in order of decreasing frequency were increased ALT (35%), increased AST (32%), vomiting (29%), anaemia (28%), constipation (27%), diarrhoea (26%), nausea (23%), fatigue (22%), and dizziness (20%).

The majority of adverse reactions were grade 2 or 3. Grade 4 was the highest reported grade for adverse reactions neutrophil count decreased (2%), ALT increased (1%), AST increased, leukocyte count decreased, platelet count decreased, muscular weakness and blood alkaline phosphatase increased (each in < 1%). The highest reported grade was grade 3 for adverse reactions anaemia (6%), weight increased (4%), diarrhoea (3%), gait disturbance and vomiting (each 1%), and fatigue, dizziness, paraesthesia, nausea, myalgia, and constipation (each in < 1%).

Permanent discontinuation of VITRAKVI for treatment emergent adverse reactions occurred in 2% of patients (2 cases each of neutrophil count decreased, ALT increased, and AST increased, 1 case each of gait disturbance, and muscular weakness). The majority of adverse reactions leading to dose reduction occurred in the first three months of treatment.

Tabulated list of adverse reactions

The safety of VITRAKVI was evaluated in 361 patients with TRK fusion-positive cancer in one of three on-going clinical trials, Studies 1, 2 (“ NAVIGATE” ), and 3 (“ SCOUT” ) and post-marketing. The safety population characteristics were comprised of patients with a median age of 39.0 years (range: 0, 90) with 37% of patients being paediatric patients. Median time on treatment for the overall safety population (n=361) was 13.1 months (range: 0.1, 76.4).

The adverse drug reactions reported in patients (n=361) treated with VITRAKVI are shown in Table 3 and Table 4.

The adverse drug reactions are classified according to the System Organ Class.

Frequency groups are defined by 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 available data).

Within each frequency group, undesirable effects are presented in order of decreasing seriousness.

Table 3: Adverse drug reactions reported in TRK fusion-positive cancer patients treated with VITRAKVI at recommended dose (overall safety population, n=361) and post-marketing

System organ class

Frequency

All grades

Grades 3 and 4

Blood and lymphatic system disorders

Very common

Anaemia

Neutrophil count decreased (Neutropenia)

Leukocyte count decreased (Leukopenia)

Common

Platelet count decreased (Thrombocytopenia)

Anaemia

Neutrophil count decreased (Neutropenia)a

Leukocyte count decreased (Leukopenia)a, b

Uncommon

Platelet count decreased (Thrombocytopenia)a, b

Nervous system disorders

Very common

Dizziness

Common

Gait disturbance

Paraesthesia

Gait disturbance

Uncommon

Dizziness

Paraesthesia

Gastrointestinal disorders

Very common

Nausea

Constipation

Vomiting

Diarrhoea

Common

Dysgeusiac

Diarrhoea

Uncommon

Vomiting

Nausea

Constipation

Hepatobiliary disorders

Not known

Liver injuryd

Musculoskeletal and connective tissue disorders

Very common

Myalgia

Common

Muscular weakness

Uncommon

Myalgia

Muscular weaknessa, b

General disorders and administration site conditions

Very common

Fatigue

Uncommon

Fatigue

Investigations

Very common

Alanine aminotransferase (ALT) increased

Aspartate aminotransferase (AST) increased

Weight increased (Abnormal weight gain)

Common

Blood alkaline phosphatase increased

Alanine aminotransferase (ALT) increaseda

Aspartate aminotransferase (AST) increaseda

Weight increased (Abnormal weight gain)

Uncommon

Blood alkaline phosphatase increaseda, b

a grade 4 reactions were reported

b each grade frequency was less than <1%

c ADR dysgeusia includes the preferred terms “ dysgeusia” and “ taste disorder”

d includes cases with ALT/AST ≥ 3x ULN and bilirubin ≥ 2x ULN

Table 4: Adverse drug reactions reported in TRK fusion-positive paediatric cancer patients treated with VITRAKVI at recommended dose (n=135); all grades

System organ class

Frequency

Infants and toddlers

(n=43)a

Children

(n=67)b

Adolescents

(n=25)c

Paediatric patients

(n=135)

Blood and lymphatic system disorders

Very common

Anaemia

Neutrophil count decreased (Neutropenia)

Leukocyte count decreased (Leukopenia)

Platelet count decreased (Thrombocytopenia)

Anaemia

Neutrophil count decreased (Neutropenia)

Leukocyte count decreased (Leukopenia)

Anaemia

Neutrophil count decreased (Neutropenia)

Leukocyte count decreased (Leukopenia)

Anaemia

Neutrophil count decreased (Neutropenia)

Leukocyte count decreased (Leukopenia)

Platelet count decreased (Thrombocytopenia)

Common

Platelet count decreased (Thrombocytopenia)

Platelet count decreased (Thrombocytopenia)

Nervous system disorders

Very common

Dizziness

Common

Dizziness

Dizziness

Paraesthesia

Gait disturbance

Paraesthesia

Gait disturbance

Dizziness

Paraesthesia

Gait disturbance

Gastrointestinal disorders

Very common

Nausea

Constipation

Vomiting

Diarrhoea

Nausea

Constipation

Vomiting

Diarrhoea

Nausea

Constipation

Vomiting

Diarrhoea

Nausea

Constipation

Vomiting

Diarrhoea

Common

Dysgeusia

Dysgeusia

Musculoskeletal and connective tissue disorders

Very common

Myalgia

Myalgia

Myalgia

Common

Muscular weakness

Muscular weakness

Muscular weakness

General disorders and administration site conditions

Very common

Fatigue

Fatigue

Fatigue

Fatigue

Investigations

Very common

Alanine aminotransferase (ALT) increased

Aspartate aminotransferase (AST) increased

Weight increased (Abnormal weight gain)

Blood alkaline phosphatase increased

Alanine aminotransferase (ALT) increased

Aspartate aminotransferase (AST) increased

Weight increased (Abnormal weight gain)

Blood alkaline phosphatase increased

Alanine aminotransferase (ALT) increased

Aspartate aminotransferase (AST) increased

Weight increased (Abnormal weight gain)

Blood alkaline phosphatase increased

Alanine aminotransferase (ALT) increased

Aspartate aminotransferase (AST) increased

Weight increased (Abnormal weight gain)

Blood alkaline phosphatase increased

a Infant/toddlers (28 days to 23 months): 5 grade 4 Neutrophil count decreased (Neutropenia) reactions and 2 Blood alkaline phosphatase increased reported. Grade 3 reactions included 11 cases of Neutrophil count decreased (Neutropenia), 4 cases of ALT increased, 3 cases each of Anaemia, and Weight increased (Abnormal weight gain), and 2 cases each of Blood alkaline phosphatase increased, Diarrhoea, and Vomiting and 1 case of AST increased.

b Children (2 to 11 years): 1 grade 4 Leukocytes count decreased reported. 8 reported grade 3 cases of Neutrophil count decreased (Neutropenia), 2 cases each of Anaemia, Diarrhoea, and Vomiting and 1 case each of ALT increased, AST increased, Gait disturbance, Weight increased (Abnormal weight gain), Paraesthesia and Myalgia.

c Adolescents (12 to <18 years): no grade 4 reactions were reported. Grade 3 reactions were reported in 1 case each of ALT increased, AST increased, Fatigue, Gait disturbance, and Muscular weakness.

Description of selected adverse reactions

Neurologic reactions

In the overall safety database (n=361), the maximum grade neurologic adverse reaction observed was grade 3 or 4 which was observed in 10 (3%) patients and included gait disturbance (4 patients, 1%), dizziness (3 patients, <1%), and paraesthesia (3 patients, <1%). The overall incidence was 20% for dizziness, 6% for paraesthesia and 5% for gait disturbance. Neurologic reactions leading to dose modification or interruptions included dizziness (1%), gait disturbance (<1%), and paraesthesia (<1%). One patient permanently discontinued the treatment due to grade 3 gait disturbance. In all cases except of one, patients with evidence of anti-tumour activity who required a dose reduction were able to continue dosing at a reduced dose and/or schedule (see section 4.4).

Hepatotoxicity

Abnormalities of liver function tests including ALT, AST, ALP and bilirubin have been observed in patients treated with VITRAKVI.

In the overall safety database (n=361), the maximum grade transaminase elevation observed was grade 4 ALT increase in 7 patients (2%) and AST increase in 4 patients (1%). Grade 3 ALT and AST increases in 25 (7%) and 22 (6%) of patients, respectively. Majority of grade 3 elevations were transient appearing in the first three months of treatment and resolving to grade 1 by months 3-4. Grade 2 ALT and AST increases were observed in 35 (10%) and 32 (9%) of patients, respectively, and grade 1 ALT and AST increases were observed in 173 (48%) and 177 (49%) of patients, respectively.

ALT and AST increases leading to dose modifications or interruptions occurred in 24 (7%) patients and 21 (6%) patients, respectively (see section 4.4). Two patients permanently discontinued the treatment with 1 patient due to grade 3 ALT and grade 3 AST increases.

Cases of hepatotoxicity with increases in ALT and/or AST of grade 2, 3 or 4 severity and increases in bilirubin ≥ 2x ULN have been reported in adult patients. In some cases, the dose of VITRAKVI was withheld and restarted at a reduced dose, while in other cases treatment was permanently discontinued (see section 4.4).

Additional information on special populations

Paediatric patients

Of the 361 patients treated with VITRAKVI, 135 (37%) patients were from birth to < 18 years of age (n=13 from birth to < 3 months, n=4 ≥ 3 months to < 6 months, n=17 ≥ 6 months to < 12 months, n=9 ≥ 12 months to < 2 years, n=31 ≥ 2 years to < 6 years, n=36 ≥ 6 years to < 12 years, n=25 ≥ 12 years to < 18 years). The majority of adverse reactions were grade 1 or 2 in severity and were resolved without VITRAKVI dose modification or discontinuation. Adverse reactions of grade 3 or 4 in severity were generally observed more frequently in patients < 6 years of age. They were reported in 69% of patients from birth to < 3 months and in 44% of patients ≥ 3 months to < 6 years. Decreased neutrophil count has been reported to have led to study drug discontinuation, dose modification and dose interruption.

Elderly

Of the 361 patients in the overall safety population who received VITRAKVI, 69 (19%) patients were 65 years or older and 22 (6%) patients were 75 years or older. The safety profile in elderly patients (≥ 65 years) is consistent with that seen in younger patients. The adverse reaction dizziness (30% versus 28% in all adults), anaemia (35% versus 27% in all adults), diarrhoea (25% versus 22% in all adults), muscular weakness (13% versus 10% in all adults), platelet count decreased (12% versus 6% in all adults), gait disturbance (9% versus 5% in all adults), and dysgeusia (9% versus 6% in all adults) were more frequent in patients of 65 years or older.

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 https://yellowcard.mhra.gov.uk or search for MHRA Yellow Card in the Google Play or Apple App Store.

4.9 Overdose

There is limited experience of overdose with VITRAKVI. Symptoms of overdose are not established. In the event of overdose, physicians should follow general supportive measures and treat symptomatically.

5. Pharmacological properties
5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Antineoplastic and immunomodulating agents, antineoplastic agents, protein kinase inhibitors, ATC code: L01EX12.

Mechanism of action

Larotrectinib is an adenosine triphosphate (ATP)-competitive and selective tropomyosin receptor kinase (TRK) inhibitor that was rationally designed to avoid activity with off-target kinases. The target for larotrectinib is the TRK family of proteins inclusive of TRKA, TRKB, and TRKC that are encoded by NTRK1, NTRK2 and NTRK3 genes, respectively. In a broad panel of purified enzyme assays, larotrectinib inhibited TRKA, TRKB, and TRKC with IC50 values between 5-11 nM. The only other kinase activity occurred at 100-fold higher concentrations. In in vitro and in vivo tumour models, larotrectinib demonstrated anti-tumour activity in cells with constitutive activation of TRK proteins resulting from gene fusions, deletion of a protein regulatory domain, or in cells with TRK protein overexpression.

In-frame gene fusion events resulting from chromosomal rearrangements of the human genes NTRK1, NTRK2, and NTRK3 lead to the formation of oncogenic TRK fusion proteins. These resultant novel chimeric oncogenic proteins are aberrantly expressed, driving constitutive kinase activity subsequently activating downstream cell signalling pathways involved in cell proliferation and survival leading to TRK fusion-positive cancer.

Acquired resistance mutations after progression on TRK inhibitors have been observed. Larotrectinib had minimal activity in cell lines with point mutations in the TRKA kinase domain, including the clinically identified acquired resistance mutation, G595R. Point mutations in the TRKC kinase domain with clinically identified acquired resistance to larotrectinib include G623R, G696A, and F617L.

The molecular causes for primary resistance to larotrectinib are not known. It is therefore not known if the presence of a concomitant oncogenic driver in addition to an NTRK gene fusion affects the efficacy of TRK inhibition. The measured impact of any concomitant genomic alterations on larotrectinib efficacy is provided below (see clinical efficacy).

Pharmacodynamic effects

Cardiac electrophysiology

In 36 healthy adult subjects receiving single doses ranging from 100 mg to 900 mg, VITRAKVI did not prolong the QT interval to any clinically relevant extent.

The 200 mg dose corresponds to a peak exposure (Cmax) similar to that observed with larotrectinib 100 mg BID at steady state. A shortening of QTcF was observed with VITRAKVI dosing, with a maximum mean effect observed between 3 and 24 hours after Cmax, with a geometric mean decrease in QTcF from baseline of -13.2 msec (range -10 to -15.6 msec). Clinical relevance of this finding has not been established.

Clinical efficacy

Overview of studies

The efficacy and safety of VITRAKVI were studied in three multicentre, open-label, single-arm clinical studies in adult and paediatric cancer patients (Table 5). The studies are still ongoing.

Patients with and without documented NTRK gene fusion were allowed to participate in Study 1 and Study 3 (“ SCOUT” ). Patients enrolled to Study 2 (“ NAVIGATE” ) were required to have TRK fusion-positive cancer. The pooled primary analysis set of efficacy includes 302 patients with TRK fusion-positive cancer enrolled across the three studies that had measurable disease assessed by RECIST v1.1, a non-CNS primary tumour and received at least one dose of larotrectinib as of July 2023. These patients were required to have received prior standard therapy appropriate for their tumour type and stage of disease or who, in the opinion of the investigator, would have had to undergo radical surgery (such as limb amputation, facial resection, or paralysis causing procedure), or were unlikely to tolerate, or derive clinically meaningful benefit from available standard of care therapies in the advanced disease setting. The major efficacy outcome measures were overall response rate (ORR) and duration of response (DOR), as determined by a blinded independent review committee (BIRC).

In addition, 55 patients with primary CNS tumours and measurable disease at baseline were treated in Study 2 (“ NAVIGATE” ) and in Study 3 (“ SCOUT” ). Forty of the 55 primary CNS tumour patients had received prior cancer treatment (surgery, radiotherapy and/or previous systemic therapy). Tumour responses were assessed by the investigator using RANO or RECIST v1.1 criteria.

Identification of NTRK gene fusions relied on tissue samples for the molecular test methods: next generation sequencing (NGS) used in 320 patients, polymerase chain reaction (PCR) used in 14 patients, fluorescence in situ hybridization (FISH) used in 18 patients, and other testing methods (Sequencing, Nanostring, Sanger sequencing, or Chromosome Microarray) used in 5 patients.

Table 5: Clinical studies contributing to the efficacy analyses in solid and primary CNS tumours

Study name, design and patient population

Dose and formulation

Tumour types included in efficacy analysis

n

Study 1

NCT02122913

• Phase 1, open-label, dose escalation and expansion study; expansion phase required tumours with an NTRK gene fusion

• Adult patients (≥ 18 years) with advanced solid tumours with an NTRK gene fusion

Doses up to 200 mg once or twice daily (25 mg, 100 mg capsules or 20 mg/mL oral solution)

Thyroid (n=4)

Salivary gland (n=3)

GIST (n=2)a

Soft tissue sarcoma (n=2)

NSCLC (n=1)b, c

Unknown primary cancer (n=1)

13

Study 2 “ NAVIGATE”

NCT02576431

• Phase 2 multinational, open label, tumour “ basket” study

• Adult and paediatric patients ≥ 12 years with advanced solid tumours with an NTRK gene fusion

100 mg twice daily (25 mg, 100 mg capsules or 20 mg/mL oral solution)

NSCLC (n=29)b, c

Soft tissue sarcoma (n=28)

Thyroid (n=26)b

Salivary gland (n=24)

Colon (n=24)

Primary CNS (n=19)

Melanoma (n=10)b

Breast, non-secretory (n=9)b

Pancreas (n=7)

Breast, secretory (n=5)

Cholangiocarcinoma (n=4)

GIST (n=3)a

Gastric (n=3)

Prostate (n=2)

Appendix, Atypical carcinoid lung cancer, Bone sarcoma, Cervix, Hepatice, Duodenal, External auditory canalb, Oesophageal, SCLCb, d, Rectal, Testesb, Thymus, Unknown primary cancer, Urothelial, Uterus (n=1 each)

208

Study 3 “ SCOUT”

NCT02637687

• Phase 1/2 multinational, open-label, dose escalation and expansion study; Phase 2 expansion cohort required advanced solid tumours with an NTRK gene fusion, including locally advanced infantile fibrosarcoma

• Paediatric patients from birth to 21 years with advanced cancer or with primary CNS tumours

Doses up to 100 mg/m2 twice daily (25 mg, 100 mg capsules or 20 mg/mL oral solution)

Infantile fibrosarcoma (n=49)

Soft tissue sarcoma (n=42)b

Primary CNS (n=36)

Congenital mesoblastic nephroma (n=2)

Bone sarcoma (n=2)

Breast secretory, Cervix, Lipofibromatosis, Melanoma, Thyroid (n=1 each)

136

Total number of patients (n)*

357

* consist of 302 patients with IRC tumour response assessment and 55 patients with primary CNS tumours (including astrocytoma, ganglioglioma, glioblastoma, glioma, glioneuronal tumours, neuronal and mixed neuronal-glial tumours, and primitive neuro-ectodermal tumour, not specified) with investigator tumour response assessment

a GIST: gastrointestinal stromal tumour

b brain metastases were observed in some patients in the following tumour types: lung (NSCLC, SCLC), thyroid, melanoma, breast (non-secretory), external auditory canal, soft tissue sarcoma and testes

c NSCLC: non-small cell lung cancer

d SCLC: small cell lung cancer

e hepatocellular carcinoma

Baseline characteristics for the pooled 302 patients with solid tumours with an NTRK gene fusion were as follows: median age 44 years (range 0-90 years); 33% < 18 years of age, and 67% ≥ 18 years; 55% white and 47% male; and ECOG PS 0-1 (88%), 2 (10%), or 3 (2%). Ninety-one percent of patients had received prior treatment for their cancer, defined as surgery, radiotherapy, or systemic therapy. Of these, 71% had received prior systemic therapy with a median of 1 prior systemic treatment regimen. Twenty-six percent of all patients had received no prior systemic therapy. Of those 302 patients the most common tumour types represented were soft tissue sarcoma (24%), infantile fibrosarcoma (16%), lung cancer (11%), thyroid cancer (10%), salivary gland tumour (9%) and colon cancer (8%).

Baseline characteristics for the 55 patients with primary CNS tumours with an NTRK gene fusion assessed by investigator were as follows: median age 11 years (range 0-79 years); 38 patients < 18 years of age, and 17 patients ≥ 18 years, and 36 patients white and 27 patients male; and ECOG PS 0-1 (47 patients), or 2 (5 patients). Fifty-two (95%) patients had received prior treatment for their cancer, defined as surgery, radiotherapy, or systemic therapy. There was a median of 1 prior systemic treatment regimen received.

Efficacy results

The pooled efficacy results for overall response rate, duration of response and time to first response, in the primary analysis population (n=302) and with post-hoc addition of primary CNS tumours (n=55) resulting in the pooled population (n=357), are presented in Table 6 and Table 7.

Table 6: Pooled efficacy results in solid tumours including and excluding primary CNS tumours

Efficacy parameter

Analysis in solid tumours excluding primary CNS tumours

(n=302)a

Analysis in solid tumours including primary CNS tumours

(n=357)a, b

Overall response rate (ORR) % (n)

[95% CI]

65% (195)

[59, 70]

59% (210)

[54, 64]

Complete response (CR)

22% (65)

19% (68)

Pathological complete responsec

6% (17)

5% (17)

Partial response (PR)

37% (113)

35% (125)

Time to first response (median, months) [range]

1.84

[0.89, 22.90]

1.84

[0.89, 22.90]

Duration of response (median, months)

[range]

% with duration ≥ 12 months

% with duration ≥ 24 months

% with duration ≥ 36 months

% with duration ≥ 48 months

43.3

[0.0+, 73.7+]

79%

67%

55%

48%

43.3

[0.0+, 73.7+]

78%

65%

54%

47%

+ denotes ongoing

a Independent review committee analysis by RECIST v1.1 for solid tumours except primary CNS tumours (302 patients).

b Investigator assessment using either RANO or RECIST v1.1 criteria for primary CNS tumours (55 patients).

c A pathological CR was a CR achieved by patients who were treated with larotrectinib and subsequently underwent surgical resection with no viable tumour cells and negative margins on post-surgical pathology evaluation. The pre-surgical best response for these patients was reclassified pathological CR after surgery following RECIST v.1.1.

Table 7: Overall response rate and duration of response by tumour type*

Tumour type

Patients (n=357)

ORRa

DOR

%

95% CI

months

Range (months)

12

24

36

Soft tissue sarcoma

72

68%

56%, 79%

80%

72%

55%

0.03+, 72.7+

Primary CNS

55

27%

16%, 41%

63%

32%

32%

5.8, NE

Infantile fibrosarcoma

49

94%

83%, 99%

81%

64%

55%

1.6+, 73.7+

Lung

32

66%

47%, 81%

73%

59%

47%

1.9+, 56.2+

Thyroid

31

65%

45%, 81%

85%

63%

54%

3.7, 72.4+

Salivary gland

27

81%

62%, 94%

90%

86%

75%

5.5, 65.3+

Colon

24

46%

26%, 67%

81%

81%

40%

3.9, 45.2+

Breast

15

Non-secretoryc

9

33%

7%, 70%

67%

NR

NR

7.4, 12.5+

Secretoryb

6

83%

36%, 100%

80%

80%

80%

11.1, 58.2+

Melanoma

11

45%

17%, 77%

50%

NR

NR

1.9+, 23.2+

Pancreas

7

14%

0%, 58%

0%

0%

0%

5.8, 5.8

Gastrointestinal stromal tumour

5

80%

28%, 99%

75%

38%

38%

9.5, 50.4+

Bone sarcoma

3

33%

1%, 91%

0%

0%

0%

9.5, 9.5

Congenital mesoblastic nephroma

2

100%

16%, 100%

100%

100%

50%

32.9, 44.5

Cervix

2

50%

1%, 99%

NR

NR

NR

2.1+, 2.1+

Unknown primary cancer

2

100%

16%, 100%

0

0

0

5.6, 7.4

External auditory canal

1

100%

3%, 100%

100%

100%

NR

33.8+, 33,8+

DOR: duration of response

NE: not evaluable

NR: not reached

* no data are available for the following tumour types: cholangiocarcinoma (n=4); gastric (n=3); prostate (n=2); appendix, hepatic, duodenal, lipofibromatosis, oesophageal, rectal, testes, thymus, urothelial, uterus (n=1 each)

+ denotes ongoing response

a evaluated per independent review committee analysis by RECIST v1.1 for all tumour types except patients with a primary CNS tumour who were evaluated per investigator assessment using either RANO or RECIST v1.1 criteria

b with 3 complete, 2 partial response

c with 1 complete, 2 partial response

Due to the rarity of TRK fusion-positive cancer, patients were studied across multiple tumour types with a limited number of patients in some tumour types, causing uncertainty in the ORR estimate per tumour type. The ORR in the total population may not reflect the expected response in a specific tumour type.

In the adult sub-population (n=220), the ORR was 50%. In the paediatric sub-population (n=137), the ORR was 72%.

In 247 patients with wide molecular characterisation before larotrectinib treatment, the ORR in 117 patients who had other genomic alterations in addition to NTRK gene fusion was 54%, and in 130 patients without other genomic alterations ORR was 68%.

Pooled primary analysis set

The pooled primary analysis set consisted of 302 patients and did not include primary CNS tumours. Median time on treatment before disease progression was 14.4 months (range: 0.1 to 87.4 months) based on July 2023 cut-off. Fifty-three percent of patients had received VITRAKVI for 12 months or more, 36% had received VITRAKVI 24 months or more, and 24% had received VITRAKVI 36 months or more, with follow-up ongoing at the time of the analysis.

At the time of analysis, the median duration of response is 43.3 months (range: 0.0+ to 73.7+), an estimated 79% [95% CI: 72, 85] of responses lasted 12 months or longer, 67% [95% CI: 60, 74] of responses lasted 24 months or longer, and 55% [95% CI: 47, 64] of responses lasted 36 months or longer. Eighty-three percent (83%) [95% CI: 79, 87] of patients treated were alive one year after the start of therapy, 74% [95% CI: 68, 79] after two years after the start of therapy, and 70% [95% CI: 64, 75] after three years with the median for overall survival not yet being reached. Median progression free survival was 28.1 months at the time of the analysis, with a progression free survival rate of 62% [95% CI: 56, 68] after 1 year, 54% [95% CI: 48, 60] after 2 years, and 43% [95% CI: 37, 50] after 3 years.

The median change in tumour size in the pooled primary analysis set was a decrease of 65%.

Patients with primary CNS tumours

At the time of data cut-off, of the 55 patients with primary CNS tumours confirmed response was observed in 15 patients (27%) with 3 of the 55 patients (5%) being complete responders and 12 patients (22%) being partial responders. Further 24 patients (44%) had stable disease. Twelve patients (22%) had progressive disease. At the time of data cut-off, time on treatment ranged from 1.2 to 62.9 months and was ongoing in 16 out of 55 patients, with 15 of these patients receiving post-progression treatment.

Conditional approval

This medicinal product has been authorised under a so-called 'conditional approval' scheme. This means that further evidence on this medicinal product is awaited.

The Medicines and Healthcare products Regulatory Agency (MHRA) will review new information on this medicinal product at least every year and this SmPC will be updated as necessary.

5.2 Pharmacokinetic properties

In cancer patients given VITRAKVI capsules, peak plasma levels (Cmax) of larotrectinib were achieved at approximately 1 hour after dosing. Half-life (t½ ) is approximately 3 hours and steady state is reached within 8 days with a systemic accumulation of 1.6 fold. At the recommended dose of 100 mg taken twice daily, steady-state arithmetic mean (± standard deviation) Cmax and daily AUC in adults were 914 ± 445 ng/mL and 5410 ± 3813 ng*h/mL, respectively. In vitro studies indicate that larotrectinib is not a substrate for either OATP1B1 or OATP1B3.

In vitro studies indicate that larotrectinib does not inhibit CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2C19, or CYP2D6 at clinically relevant concentrations and is unlikely to affect clearance of substrates of these CYPs.

In vitro studies indicate that larotrectinib does not inhibit the transporters BCRP, P-gp, OAT1, OAT3, OCT1, OCT2, OATP1B3, BSEP, MATE1 and MATE2-K at clinically relevant concentrations and is unlikely to affect clearance of substrates of these transporters.

Absorption

VITRAKVI is available as a capsule and oral solution formulation.

The mean absolute bioavailability of larotrectinib was 34% (range: 32% to 37%) following a single 100 mg oral dose. In healthy adult subjects, the AUC of larotrectinib in the oral solution formulation was similar to the capsule, with Cmax 36% higher with the oral solution formulation.

Larotrectinib Cmax was reduced by approximately 35% and there was no effect on AUC in healthy subjects administered VITRAKVI after a high-fat and high-calorie meal compared to the Cmax and AUC after overnight fasting.

Effect of gastric pH-elevating agents on larotrectinib

Larotrectinib has pH-dependent solubility. In vitro studies show that in liquid volumes relevant to the gastrointestinal (GI) tract larotrectinib is fully soluble over entire pH range of the GI tract. Therefore, larotrectinib is unlikely to be affected by pH-modifying agents.

Distribution

The mean volume of distribution of larotrectinib in healthy adult subjects was 48 L following intravenous administration of an IV microtracer in conjunction with a 100 mg oral dose. Binding of larotrectinib to human plasma proteins in vitro was approximately 70% and was independent of drug concentration. The blood-to-plasma concentration ratio was approximately 0.9.

Biotransformation

Larotrectinib was metabolised predominantly by CYP3A4/5 in vitro. Following oral administration of a single 100 mg dose of radiolabelled larotrectinib to healthy adult subjects, unchanged larotrectinib (19%) and an O-glucuronide that is formed following loss of the hydroxypyrrolidine-urea moiety (26%) were the major circulating radioactive drug components.

Elimination

The half-life of larotrectinib in plasma of cancer patients given 100 mg twice daily of VITRAKVI was approximately 3 hours. Mean clearance (CL) of larotrectinib was approximately 34 L/h following intravenous administration of an IV microtracer in conjunction with a 100 mg oral dose of VITRAKVI.

Excretion

Following oral administration of 100 mg radiolabelled larotrectinib to healthy adult subjects, 58% of the administered radioactivity was recovered in faeces and 39% was recovered in urine and when an IV microtracer dose was given in conjunction with a 100 mg oral dose of larotrectinib, 35% of the administered radioactivity was recovered in faeces and 53% was recovered in urine. The fraction excreted as unchanged drug in urine was 29% following IV microtracer dose, indicating that direct renal excretion accounted for 29% of total clearance.

Linearity / non-linearity

The area under the plasma concentration-time curve (AUC) and maximum plasma concentration (Cmax) of larotrectinib after a single dose in healthy adult subjects were dose proportional up to 400 mg and slightly greater than proportional at doses of 600 to 900 mg.

Special populations

Paediatric patients

Based on population pharmacokinetic analyses, exposure (Cmax and AUC) in paediatric patients at the recommended dose of 100 mg/m2 with a maximum of 100 mg BID was higher than in adults (≥ 18 years of age) given the dose of 100 mg BID (see Table 8).

Data defining exposure in small children (1 month to < 2 years of age) at the recommended dose is limited (n=40).

Table 8: Exposure (Cmax and AUC on day 1a) in patients grouped by age group at the recommended dose of 100 mg/m2 with a maximum of 100 mg BID

Age group

n=348b

Fold difference compared to patients ≥ 18 years of agec

Cmax

AUCa

1 to < 3 months

9

4.2

4.5

3 to < 6 months

4

2.6

2.5

6 to < 12 months

18

2.5

1.9

1 to < 2 years

9

2.0

1.4

2 to < 6 years

31

2.0

1.4

6 to < 12 years

26

1.5

1.2

12 to < 18 years

27

1.2

1.0

18 years

224

1.0

1.0

a area under the plasma concentration-time curve for 24 hours on day 1

b number of patients from 26 November 2020 data cut-off

c fold difference is the ratio of stated age group to ≥ 18 years group. A fold-difference of 1 equates to no difference.

Elderly

There are limited data in elderly. PK data is available only in 2 patients over 65 years.

Patients with hepatic impairment

A pharmacokinetic study was conducted in subjects with mild (Child-Pugh A), moderate (Child-Pugh B) and severe (Child-Pugh C) hepatic impairment, and in healthy adult control subjects with normal hepatic function matched for age, body mass index and sex. All subjects received a single 100 mg dose of larotrectinib. An increase in larotrectinib AUC0-inf was observed in subjects with mild, moderate and severe hepatic impairment of 1.3, 2 and 3.2-fold respectively versus those with normal hepatic function. Cmax was observed to increase slightly by 1.1, 1.1 and 1.5-fold respectively.

Patients with renal impairment

A pharmacokinetic study was conducted in subjects with end stage renal disease requiring dialysis, and in healthy adult control subjects with normal renal function matched for age, body mass index and sex. All subjects received a single 100 mg dose of larotrectinib. An increase in larotrectinib Cmax and AUC0-inf, of 1.25 and 1.46-fold respectively was observed in renally impaired subjects versus those with normal renal function.

Other special populations

Gender did not appear to influence larotrectinib pharmacokinetics to a clinically significant extent. There was not enough data to investigate the potential influence of race on the systemic exposure of larotrectinib.

5.3 Preclinical safety data

Systemic toxicity

Systemic toxicity was assessed in studies with daily oral administration up to 3 months in rats and monkeys. Dose limiting skin lesions were only seen in rats and were primarily responsible for mortality and morbidity. Skin lesions were not seen in monkeys.

Clinical signs of gastrointestinal toxicity were dose limiting in monkeys. In rats, severe toxicity (STD10) was observed at doses corresponding to 1- to 2-times the human AUC at the recommended clinical dose. No relevant systemic toxicity was observed in monkeys at doses which correspond to > 10-times the human AUC at the recommended clinical dose.

Embryotoxicity / Teratogenicity

Larotrectinib was not teratogenic and embryotoxic when dosed daily during the period of organogenesis to pregnant rats and rabbits at maternotoxic doses, i.e. corresponding to 32-times (rats) and 16-times (rabbits) the human AUC at the recommended clinical dose. Larotrectinib crosses the placenta in both species.

Reproduction toxicity

Fertility studies with larotrectinib have not been conducted. In 3-months toxicity studies, larotrectinib had no histological effect on the male reproductive organs in rats and monkeys at the highest tested doses corresponding to approximately 7-times (male rats) and 10-times (male monkeys) the human AUC at the recommended clinical dose. In addition, larotrectinib had no effect on spermatogenesis in rats.

In a 1-month repeat-dose study in rats, fewer corpora lutea, increased incidence of anestrus and decreased uterine weight with uterine atrophy were observed and these effects were reversible. No effects on female reproductive organs were seen in the 3-months toxicity studies in rats and monkeys at doses corresponding to approximately 3-times (female rats) and 17-times (female monkeys) the human AUC at the recommended clinical dose.

Larotrectinib was administered to juvenile rats from postnatal day (PND) 7 to 70. Pre-weaning mortality (before PND 21) was observed at the high dose level corresponding to 2.5- to 4-times the AUC at the recommended dose. Growth and nervous system effects were seen at 0.5- to 4-times the AUC at the recommended dose. Body weight gain was decreased in pre-weaning male and female pups, with a post-weaning increase in females at the end of exposure whereas reduced body weight gain was seen in males also post-weaning without recovery. The male growth reduction was associated with delayed puberty. Nervous system effects (i.e. altered hindlimb functionality and, likely, increases in eyelid closure) demonstrated partial recovery. A decrease in pregnancy rate was also reported despite normal mating at the high-dose level.

Genotoxicity and carcinogenicity

Carcinogenicity studies have not been performed with larotrectinib.

Larotrectinib was not mutagenic in bacterial reverse mutation (Ames) assays and in in vitro mammalian mutagenesis assays. Larotrectinib was negative in the in vivo mouse micronucleus test at the maximum tolerated dose of 500 mg/kg.

Safety pharmacology

The safety pharmacology of larotrectinib was evaluated in several in vitro and in vivo studies that assessed effects on the CV, CNS, respiratory, and GI systems in various species. Larotrectinib had no adverse effect on haemodynamic parameters and ECG intervals in telemetered monkeys at exposures (Cmax) which are approximately 6-fold the human therapeutic exposures. Larotrectinib had no neurobehavioural findings in adult animals (rats, mice, cynomolgus monkeys) at exposure (Cmax) at least 7-fold higher than the human exposure. Larotrectinib had no effect on respiratory function in rats; at exposures (Cmax) at least 8-times the human therapeutic exposure. In rats, larotrectinib accelerated intestinal transit and increased gastric secretion and acidity.

6. Pharmaceutical particulars
6.1 List of excipients

Purified water

Hydroxypropylbetadex 0.69

Sucralose (E 955)

Sodium citrate (E 331)

Sodium benzoate (E 211)

Strawberry flavour

Citric acid (E 330)

6.2 Incompatibilities

Not applicable.

6.3 Shelf life

2 years.

After first opening: 10 days.

Store in a refrigerator (2 ° C - 8 ° C).

6.4 Special precautions for storage

Store in a refrigerator (2 ° C - 8 ° C).

Do not freeze.

For storage conditions after first opening of the medicinal product, see section 6.3.

6.5 Nature and contents of container

Amber glass (type III) bottle with a child-resistant polypropylene (PP) screw cap.

Each carton contains two bottles containing 50 mL oral solution each.

6.6 Special precautions for disposal and other handling

Instructions for use

Oral syringe

- Use a suitable oral syringe with CE marking and bottle adapter (28 mm diameter) if applicable.

- For volumes less than 1 mL use a 1 mL oral syringe with 0.1 mL graduation.

- For volumes of 1 mL and higher use a 5 mL oral syringe with 0.2 mL graduation.

- Open the bottle: press the bottle cap and turn it counter clockwise.

- Insert the bottle adapter into the bottle neck and ensure it is well fixed.

- Take the oral syringe and ensure that the plunger is fully depressed. Put the oral syringe in the adapter opening. Turn the bottle upside down.

- Fill the oral syringe with small amount of solution by pulling the plunger down, then push the plunger upwards to remove any bubbles.

- Pull the plunger down to the graduation mark equal to the quantity in mL as prescribed.

- Turn the bottle the right way up and remove the oral syringe from the bottle adapter.

- Slowly depress the plunger, directing the liquid towards the inside cheek to allow for natural swallowing.

- Close the bottle with the original bottle cap (leaving the adapter in place).

Nasogastric feeding tube

- Use a suitable nasogastric feeding tube. The outer diameter of the nasogastric feeding tube should be selected based on the patient characteristics. Typical tube diameter, tube lengths and derived prime volumes are presented in Table 9.

- The feeding should be stopped and the tube flushed with at least 10 mL water. NOTE: See exceptions regarding neonates and patients with fluid restrictions in the sub-point directly below.

- A suitable syringe should be used to administer VITRAKVI to the nasogastric feeding tube.

The tube should be flushed again with at least 10 mL water to ensure VITRAKVI is delivered and to clear the tube.

Neonates and children with fluid restrictions may require minimal flushing volume of 0.5 to 1 mL or flushing with air to deliver VITRAKVI.

- Restart the feeding.

Table 9: Recommended tube dimensions per age group

Patient

Tube diameter for standard feeds

Tube diameter for high density feeds

Tube length (cm)

Tube prime volume (mL)

Neonate

4-5 FR

6 FR

40-50

0.25-0.5

Children

6 FR

8 FR

50-80

0.7-1.4

Adult

8 FR

10 FR

80-120

1.4-4.2

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

7. Marketing authorisation holder

Bayer plc

400 South Oak Way

Reading

RG2 6AD

8. Marketing authorisation number(s)

PLGB 00010/0741

9. Date of first authorisation/renewal of the authorisation

Date of first authorisation: 19 September 2019

Date of latest renewal: 06 November 2024

10. Date of revision of the text

06/11/2024

Company Contact Details
Bayer plc
Address

400 South Oak Way, Reading, Berkshire, RG2 6AD

Telephone

+44 (0)118 206 3000

WWW

http://www.bayer.co.uk

Medical Information e-mail