Summary Basis of Decision for Scemblix

As described above, the New Drug Submission (NDS) for Scemblix was reviewed as part of the New Active Substance Work-Sharing Initiative. Health Canada reviewed the clinical efficacy and pharmacology components of the NDS for Scemblix. The review of the clinical safety component was conducted by the United Kingdom's Medicines and Healthcare products Regulatory Agency (MHRA). Although the agencies collaborated on the review of the submission, each agency made its regulatory decision independently.

As described above, the review of the clinical safety component of the NDS for Scemblix was based on the critical assessment of the foreign review report by the MHRA, referring to the data filed in Canada, as necessary, in accordance with Method 2 described in the Draft Guidance Document: The Use of Foreign Reviews by Health Canada.

Clinical Pharmacology

Asciminib, the medicinal ingredient in Scemblix, is an oral ABL/BCR::ABL1 tyrosine kinase inhibitor (TKI). It inhibits the ABL1 kinase activity of the BCR::ABL1 fusion protein by specifically targeting the ABL myristoyl pocket.

Asciminib is rapidly absorbed, with a median time to reach maximum plasma concentration (T_max) of 2 to 3 hours after oral administration. A food-effect study demonstrated that oral administration of the Scemblix tablet (asciminib 40 mg) under fed conditions resulted in a reduction in asciminib bioavailability when compared to dosing under fasted conditions. The effect was greater under high-fat, high-calorie conditions (greater than 60% reduction in the area under the concentration-time curve [AUC]) than under low-fat, low-calorie conditions (approximately 30% reduction in the AUC). The Scemblix Product Monograph reflects the results of this food-effect study and recommends that Scemblix should be taken without food.

Asciminib is primarily metabolized via oxidation mediated by cytochrome P450 (CYP) 3A4 (CYP3A4) and glucuronidation mediated by uridine diphosphate (UDP)-glucuronosyltransferase 2B7 (UGT2B7) and UGT2B17.

Drug-drug interaction studies showed that concomitant administration of Scemblix with strong CYP3A4 inducers reduced asciminib plasma concentrations. Concomitant administration of Scemblix with CYP3A4 substrates or CYP2C9 substrates increased plasma concentrations of these substrates. Concomitant administration of Scemblix with P-glycoprotein substrates may increase plasma concentrations of these substrates. A list of established or potential drug-drug interactions, along with appropriate precautionary measures, has been included in the approved Scemblix Product Monograph.

The concentration-effect analysis demonstrated that asciminib treatment is associated with an exposure-related prolongation of the QT interval corrected for heart rate by Fridericia formula (QTcF interval). Asciminib is not predicted to cause large mean increases in QTcF interval (i.e., over 20 ms) following a total daily dose of 80 mg.

Key clinical pharmacology findings, relevant risks and uncertainties are appropriately addressed in the Scemblix Product Monograph. The clinical pharmacology data support the use of Scemblix for the recommended indication.

For further details, please refer to the Scemblix Product Monograph, approved by Health Canada and available through the Drug Product Database.

Clinical Efficacy

The clinical efficacy of Scemblix was primarily assessed in the pivotal study CABL001A2301 (ASCEMBL), herein referred to as A2301. This was a Phase III, multicentre, active-controlled, open-label, randomized study designed to compare the efficacy and safety of Scemblix versus bosutinib in the treatment of patients with Philadelphia chromosome‑positive chronic myeloid leukemia in chronic phase (Ph+ CML-CP) who had received at least two prior tyrosine kinase inhibitors (TKIs). Bosutinib is an accepted standard of care for CML-CP. A Phase I, open-label, dose-finding study (CABL001X2101, herein referred to as X2101) provided supportive data for the clinical efficacy of Scemblix. Both studies were ongoing at the time of the review of the submitted clinical data.

Pivotal Study

In the pivotal study, 233 patients with Ph+ CML-CP were randomized in a 2:1 ratio to receive Scemblix (40 mg twice daily) or bosutinib (500 mg once daily). Patients were stratified according to major cytogenetic response status at baseline. In both treatment arms, patients were to continue treatment until treatment failure (i.e., lack of efficacy), unacceptable toxicity or withdrawal.

Enrolled patients were at least 18 years of age, had an Eastern Cooperative Oncology Group (ECOG) performance status score of 0 or 1, had adequate organ function, had evidence of BCR::ABL1 transcripts at screening, had received prior treatment with two or more adenosine triphosphate (ATP)-competitive TKIs (imatinib, nilotinib, dasatinib, radotinib or ponatinib), and had experienced a treatment failure or intolerance of the most recent TKI. As bosutinib has no activity against the T315I and V299L mutant forms of the BCR::ABL1 protein, patients who had known T315I or V299L mutations were not included for this study. Overall, patient demographics and baseline disease characteristics were balanced between the two arms. Of the 233 patients, 19% were 65 years or older, while 3% were 75 years or older. The majority (75%) of patients were Caucasian, 14% were Asian, and 4% were Black. Of the 233 patients, 81% and 18% had ECOG performance status scores of 0 and 1, respectively. Enrolled patients had received two (48%), three (31%), four (15%), or five or more (6%) prior lines of TKIs.

The primary efficacy endpoint of the pivotal study was the major molecular response (MMR) rate at 24 weeks. Molecular responses are quantified by measuring the reduction in BCR::ABL1 messenger ribonucleic acid (mRNA) (i.e., BCR::ABL1 transcripts) relative to a standardized baseline. Major molecular response is defined as BCR::ABL1 transcript levels on the International Scale (BCR::ABL1^IS) ≤0.1%. A key secondary endpoint was MMR rate at 96 weeks. Major molecular response is a validated endpoint that is associated with and predictive of long‑term survival.

In the primary efficacy analysis conducted at 24 weeks, patients who were administered Scemblix 40 mg twice daily demonstrated a durable, consistent, clinically meaningful and statistically significant (p <0.03), superior MMR rate (25.5%; 95% confidence interval [CI]: 18.9, 33.0) compared to bosutinib (13.2%; 95% CI: 6.5, 22.9). Subgroup analyses demonstrated a consistent treatment effect across all subgroups.

The results of the primary efficacy analysis were supported by the results obtained for the secondary endpoints that included the depth of the response, time to response, complete cytogenic response, and time to treatment failure, all of which favoured Scemblix over bosutinib. Notably, the key secondary endpoint of MMR rate at 96 weeks could not be evaluated as the study had not reached the 96-week threshold for all randomized patients. Therefore, due to the hierarchical testing approach, the additional secondary endpoints are considered exploratory. The final analysis of the clinical efficacy data at 96 weeks will be submitted to Health Canada.

Other endpoints of interest included progression-free survival and overall survival. The data for these two endpoints were immature at the data cut-off date. The final efficacy analysis of long-term survival data from the pivotal study will be submitted to Health Canada by November 2025.

Supportive Study

Study X2101 provided supportive efficacy data from a subset of 115 CML-CP patients not harbouring a T315I mutation who were enrolled across cohorts treated with Scemblix as a single‑agent at doses ranging from 10 mg twice daily to 200 mg twice daily. The patients had received prior treatment with at least two different TKIs and had experienced a treatment failure or intolerance of the most recent TKI. Eighty-six out of the 115 CML-CP patients not harbouring the T315I mutation across the treatment cohorts were evaluable for the analysis of molecular response. Of these, 23% (20 patients) achieved MMR by Week 24. These results are consistent with the results from the primary efficacy analysis in the pivotal study A2301.

Overall Analysis of Efficacy

Overall, based on the information provided in the NDS, Scemblix is considered a beneficial and clinically meaningful treatment option for patients with CML-CP who were previously treated with two or more TKIs.

Indication

The New Drug Submission for Scemblix was filed by the sponsor with the following indication, which Health Canada subsequently approved:

• Scemblix is indicated for the treatment of adult patients with Philadelphia chromosome-positive chronic myeloid leukemia (Ph+ CML) in chronic phase (CP) previously treated with two or more tyrosine kinase inhibitors.

For more information, refer to the Scemblix Product Monograph, approved by Health Canada and available through the Drug Product Database.

Clinical Safety

All Patient Safety Pool

The overall safety profile of Scemblix was evaluated in 356 patients with Ph+ CML in chronic phase (CP) and accelerated phase (AP) who received at least one dose of Scemblix. This All Patient Safety pool was derived from the pivotal study A2301 (156 Ph+ CML-CP patients) and the supportive study X2101 (115 Ph+ CML-CP patients, 70 Ph+ CML-CP patients with T315I mutation, and 15 Ph+ CML-AP patients) (see Clinical Efficacy section). The median duration of treatment from the All Patient Safety pool was 89 weeks. The safety risks identified from this broad patient population, including incidence of adverse events of any grade, adverse events Grade 3 or higher, adverse events leading to permanent discontinuation, and fatal adverse events, were included in the Warnings and Precautions section of the Scemblix Product Monograph.

Cardiovascular toxicity (including ischemic cardiac and central nervous system conditions, arterial thrombotic, and embolic conditions) and cardiac failure occurred in 28 (8%) and 10 (2.8%), respectively, of 356 patients treated with Scemblix, in the safety pool. Arrythmia, including QTc prolongation, occurred in 24 of 356 (7%) of patients receiving Scemblix. Hypertension was also observed in 18% of patients in the safety pool. Although these patients had pre-existing cardiovascular conditions or risk factors and prior treatment with two or more TKIs, the observed cardiovascular events were deemed clinically significant due to their serious and potentially life-threatening nature. A causal association with Scemblix could not be excluded.

Myelosuppression, including thrombocytopenia (28%), neutropenia (19%) and anemia (13%), was observed in the All Patient safety pool. In general, myelosuppression was reversible and managed by temporarily withdrawing Scemblix. Scemblix was permanently discontinued in less than 2% of patients with myelosuppression.

Asymptomatic increases in amylase and lipase levels were observed with an incidence of 21% in blood samples from the All Patient Safety pool; clinical events of pancreatitis were reported in 2.5% of patients.

Hepatitis B virus reactivation was also identified as an adverse event of special interest, based on the safety profile of other BCR::ABL TKI inhibitors. Accordingly, a standard statement was included in the Warnings and Precautions section of the Scemblix Product Monograph.

Pivotal Study

In the pivotal study, the safety population, i.e., patients who received at least one dose of Scemblix, included 156 patients with Ph+ CML-CP previously treated with two or more TKIs. The median duration of treatment was 67 weeks for the Scemblix arm and 30 weeks for the bosutinib arm (which included 76 patients).

The most common adverse reactions (≥10%) associated with the use of Scemblix, were gastrointestinal disorders (diarrhea, nausea, abdominal pain), fatigue, upper respiratory tract infection, musculoskeletal pain, headache, rash, and hypertension. Scemblix-treated patients had a higher incidence (>10% difference) of thrombocytopenia compared to the bosutinib arm, whereas gastrointestinal toxicity, rash, increased alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were more frequently observed in the bosutinib arm, consistent with its known safety profile. The increased incidence of thrombocytopenia in patients treated with Scemblix did not lead to an increased incidence of hemorrhage compared to patients treated with bosutinib.

Serious adverse events occurred in 15% of patients who received Scemblix; the most common were pyrexia, urinary tract infection and thrombocytopenia, which were all observed in 1.3% of patients.

Overall, the incidence of patients experiencing an adverse reaction, patients who discontinued treatment due to an adverse reaction, and patients who required treatment interruption or dose adjustment for management of adverse reactions were lower in patients receiving Scemblix compared to those receiving bosutinib. The most common reactions leading to dose discontinuation, interruption, or adjustment were thrombocytopenia and neutropenia.

Overall, the safety profile of Scemblix was considered acceptable for the target patient population. Appropriate warnings and precautions (including recommendations for monitoring and dosage modifications) are in place in the approved Scemblix Product Monograph to address the identified safety concerns.

For more information, refer to the Scemblix Product Monograph, approved by Health Canada and available through the Drug Product Database.