Efficacy results of CASGEVY®

Eliminate transfusions with CASGEVY® (exagamglogene autotemcel)1

Primary endpoint1

Primary endpoint1

Blood cells icon

91.4%

(n=32/35, primary efficacy set)

of patients were transfusion independent for ≥12 consecutive months after infusion with CASGEVY (TI12)*

(98.3% one‑sided CI: 75.7%, 100%)

  • At baseline, patients (n=35, primary efficacy set) had a median of 17 (11, 35) historical RBC transfusions/year in the 2 years prior to enrollment1
  • Three patients did not achieve TI12. These patients had reductions in annualized RBC transfusion volume requirements of 79.8%, 83.9%, and 97.9% and reductions in annualized transfusion frequency of 78.6%, 67.4%, and 94.6%, respectively, compared to baseline requirements1
  • Three patients did not achieve TI12. These patients had reductions in annualized RBC transfusion volume requirements of 79.8%, 83.9%, and 97.9% and reductions in annualized transfusion frequency of 78.6%, 67.4%, and 94.6%, respectively, compared to baseline requirements1

Study Design

Trial 2 (NCT03655678) is an ongoing, open-label, multi-center, single-arm trial to evaluate the safety and efficacy of CASGEVY in adult and adolescent patients with transfusion-dependent β-thalassemia. Eligible patients underwent mobilization and apheresis to collect CD34+ stem cells for CASGEVY manufacture, followed by myeloablative conditioning and infusion of CASGEVY. Patients were then followed in Trial 2 for 24 months after CASGEVY infusion. Patients were eligible for the study if they had a history of at least 100 mL/kg/year or 10 units/year of RBC transfusions in the 2 years prior to screening.1

*The evaluation starts 60 days after last RBC transfusion for posttransplant support or TDT disease management. Efficacy was evaluated based on interim analysis.1

  RBC=red blood cell; TDT=transfusion-dependent β-thalassemia; TI12=transfusion independence for 12 consecutive months.

*The evaluation starts 60 days after last RBC transfusion for posttransplant support or TDT disease management. Efficacy was evaluated based on interim analysis.1

RBC=red blood cell; TDT=transfusion-dependent β-thalassemia; TI12=transfusion independence for 12 consecutive months.

      Efficacy and safety in pediatric patients

      The efficacy and safety profile was generally consistent among pediatric patients aged 12 years and older and adult patients1

      The safety and efficacy of CASGEVY has been established in pediatric patients with TDT aged 12 years and older.1

      • Use of CASGEVY is supported by data in 18 patients aged 12 to less than 18 years in Trial 2 (11 patients evaluable for the primary efficacy analysis)
      • The median (min, max) time to platelet engraftment was 45 (20, 199) days in pediatric patients aged 12 years and older and 41.5 (24, 200) days in adult patients. The median (min, max) time to neutrophil engraftment was 30 (19, 56) days in pediatric patients aged 12 years and older and 28.5 (12, 40) days in adult patients

      The safety and efficacy of CASGEVY in pediatric patients aged less than 12 years has not been established.1

      Secondary endpoint1,2

      Secondary endpoint1,2

      Calendar icon

      20.8

      months

      (n=32, primary efficacy set;
      range: 13.3-45.1 months)

      Median duration of transfusion independence for patients who achieved TI12

      • All patients who achieved TI12 remained transfusion independent1

      The evaluation starts 60 days after last RBC transfusion for posttransplant support or TDT disease management. Efficacy was evaluated based on interim analysis.1

      Secondary endpoint1,2

      Secondary endpoint1,2

      Total Hb and HbF levels

      Increase icon

      >10 g/dL

      >10 g/dL

      sustained after Month 6

      HbF proportion of total Hb was

      24 months icon

      ≥88%

      ≥88%

      after Month 6

          Complete breakdown of Hb concentrations

          Total Hb and HbF over time in Trial 21

          Mean total Hb (g/dL) and total Hb and HbF proportion chart Mean total Hb (g/dL) and total Hb and HbF proportion chart

          HbF/Hb data not available for all patients at all timepoints.1

          Consistent with the increase in HbF levels, the mean proportion of F cells continued to increase until Month 6 and remained stable thereafter, indicating sustained pancellular expression of HbF.1

          Consistent with the increase in HbF levels, the mean proportion of F cells continued to increase until Month 6 and remained stable thereafter, indicating sustained pancellular expression of HbF.1

          Total Hb and HbF over time in Trials 2 and 33

          Hb and HbF levels through Month 42 graph Hb and HbF levels through Month 42 graph

          Baseline values for total Hb and HbF based on the full analysis set (FAS) (N=52)4

          • The baseline mean (SD) total Hb for the FAS was 10.4 g/dL (2.0)
          • The baseline mean (SD) total HbF for the FAS was 0.6 g/dL (1.0)

          Data are not included in the full Prescribing Information and are presented here for descriptive purposes only.

          BL=baseline; F cells=circulating erythrocytes expressing HbF; Hb=hemoglobin; HbF=fetal hemoglobin; SD=standard deviation; SE=standard error.

          Secondary endpoint1,2,5

          Secondary endpoint1,2,5

          Bone marrow icon

          Durable BCL11A editing was achieved in bone marrow (CD34+ cells) and peripheral blood (nucleated cells) through Month 24

            Bone marrow allele editing

            Results show proportion of alleles with intended genetic modification in CD34+ cells in bone marrow over time

            Results by patient are not included in the full Prescribing Information and are presented here for descriptive purposes only. Each line represents an individual patient.5

            Full analysis set (N=52)5

            Bone marrow allele editing (%) over time chart Bone marrow allele editing (%) over time chart

            §Allelic editing data not available for all patients at all timepoints. Allelic editing in bone marrow was first assessed at Month 6.1

            Peripheral blood allele editing

            Results show proportion of alleles with intended genetic modification in peripheral blood over time.1

            Results by patient are not included in the full Prescribing Information and are presented here for descriptive purposes only. Each line represents an individual patient.5

            Full analysis set (N=52)5

            Blood allele editing (%) over time chart Blood allele editing (%) over time chart
            Check mark icon Learn About Our Safety

            IMPORTANT SAFETY INFORMATION

            IMPORTANT SAFETY INFORMATION AND INDICATION

            WARNINGS AND PRECAUTIONS

            Neutrophil Engraftment Failure

            There is potential risk of neutrophil engraftment failure after treatment with CASGEVY. In the clinical trials, all treated patients achieved neutrophil engraftment and no patients received rescue CD34+ cells.

            There is potential risk of neutrophil engraftment failure after treatment with CASGEVY. In the clinical trials, all treated patients achieved neutrophil engraftment and no patients received rescue CD34+ cells.

            INDICATION

            CASGEVY is indicated for the treatment of patients aged 12 years and older with:

            • sickle cell disease (SCD) with recurrent vaso-occlusive crises (VOCs)
            • transfusion-dependent β-thalassemia (TDT)

             

            Monitor absolute neutrophil counts (ANC) and manage infections according to standard guidelines and medical judgement. In the event of neutrophil engraftment failure, patients should be infused with rescue CD34+ cells.

            Delayed Platelet Engraftment

            Delayed platelet engraftment has been observed with CASGEVY treatment. There is an increased risk of bleeding until platelet engraftment is achieved. In the clinical trials, there was no association observed between incidence of bleeding events and time to platelet engraftment.

            Monitor patients for bleeding according to standard guidelines and medical judgement. Conduct frequent platelet counts until platelet engraftment and platelet recovery are achieved. Perform blood cell count determination and other appropriate testing whenever clinical symptoms suggestive of bleeding arise.

            Hypersensitivity Reactions

            Hypersensitivity reactions, including anaphylaxis can occur due to dimethyl sulfoxide (DMSO) or dextran 40 in the cryopreservative solution. Monitor patients for hypersensitivity reactions during and after infusion.

            Off-Target Genome Editing Risk

            Although off-target genome editing was not observed in the edited CD34+ cells evaluated from healthy donors and patients, the risk of unintended, off-target editing in an individual’s CD34+ cells cannot be ruled out due to genetic variants. The clinical significance of potential off-target editing is unknown.

            ADVERSE REACTIONS

            The most common Grade 3 or 4 non-laboratory adverse reactions (occurring in ≥ 25%) were mucositis and febrile neutropenia in patients with SCD and patients with TDT, and decreased appetite in patients with SCD.

            All (100%) of the patients with TDT and SCD experienced Grade 3 or 4 neutropenia and thrombocytopenia. Other common Grade 3 or 4 laboratory abnormalities (≥ 50%) include leukopenia, anemia, and lymphopenia.

            DRUG INTERACTIONS

            No formal drug interaction studies have been performed. CASGEVY is not expected to interact with the hepatic cytochrome P450 family of enzymes or drug transporters.

            Use of Granulocyte-Colony Stimulating Factor (G-CSF): G-CSF must not be used for CD34+ HSC mobilization of patients with SCD.

            Use of Hydroxyurea: Discontinue the use of hydroxyurea at least 8 weeks prior to start of each mobilization cycle and conditioning. There is no experience of the use of hydroxyurea after CASGEVY infusion.

            Use of Voxelotor and Crizanlizumab: Discontinue the use of voxelotor and crizanlizumab at least 8 weeks prior to start of mobilization and conditioning, as their interaction potential with mobilization and myeloablative conditioning agents is not known.

            Use of Iron Chelators: Discontinue the use of iron chelators at least 7 days prior to initiation of myeloablative conditioning, due to potential interaction with the conditioning agent. Some iron chelators are myelosuppressive. If iron chelation is required, avoid the use of non-myelosuppressive iron chelators for at least 3 months and use of myelosuppressive iron chelators for at least 6 months after CASGEVY infusion. Phlebotomy can be used instead of iron chelation, when appropriate.

            USE IN SPECIFIC POPULATIONS

            Pregnancy/Lactation: CASGEVY must not be administered during pregnancy and breastfeeding should be discontinued during conditioning because of the risks associated with myeloablative conditioning. Pregnancy and breastfeeding after CASGEVY infusion should be discussed with the treating physician.

            Females and Males of Reproductive Potential: A negative serum pregnancy test must be confirmed prior to the start of each mobilization cycle and reconfirmed prior to myeloablative conditioning.

            Women of childbearing potential and men capable of fathering a child should use effective methods of contraception from start of mobilization through at least 6 months after administration of CASGEVY. Advise patients of the risks associated with conditioning agents.

            Infertility has been observed with myeloablative conditioning therefore, advise patients of fertility preservation options before treatment, if appropriate.

            INDICATION

            CASGEVY is indicated for the treatment of patients aged 12 years and older with:

            • sickle cell disease (SCD) with recurrent vaso-occlusive crises (VOCs)
            • transfusion-dependent β-thalassemia (TDT)

            Please see full Prescribing Information for CASGEVY.

            References: 1. CASGEVY [prescribing information]. Vertex Pharmaceuticals Incorporated. Boston, MA; January 2024. 2. Data on file. Vertex Pharmaceuticals Incorporated. Boston, MA. REF-16870 (v1.0); 2021. 3. Supplement to: Locatelli F, Lang P, Wall D, et al. Exagamglogene autotemcel for transfusion-dependent β-thalassemia. N Engl J Med. 2024;390(18):1663-1676. doi:10.1056/NEJMoa2309673 4. Locatelli F, Lang P, Wall D, et al. Exagamglogene autotemcel for transfusion-dependent β-thalassemia. N Engl J Med. 2024;390(18):1663-1676. doi:10.1056/NEJMoa2309673 5. Locatelli F, Lang P, Wall D, et al. Exagamglogene autotemcel for transfusion-dependent β-thalassemia. Presented at: American Society of Hematology Annual Meeting and Exposition; December 11, 2023; San Diego, CA.