On June 2, 2022 Vertex Pharmaceuticals Incorporated (Nasdaq: VRTX) and CRISPR Therapeutics (NASDAQ: CRSP) reported new late-breaking clinical data accepted for oral presentation at the 2022 European Hematology Association (EHA) (Free EHA Whitepaper) Congress (Press release, CRISPR Therapeutics, JUN 2, 2022, View Source [SID1234615416]). Vertex also announced three abstracts accepted for poster presentation at EHA (Free EHA Whitepaper).

Schedule your 30 min Free 1stOncology Demo!
Discover why more than 1,500 members use 1stOncology™ to excel in:

Early/Late Stage Pipeline Development - Target Scouting - Clinical Biomarkers - Indication Selection & Expansion - BD&L Contacts - Conference Reports - Combinatorial Drug Settings - Companion Diagnostics - Drug Repositioning - First-in-class Analysis - Competitive Analysis - Deals & Licensing

                  Schedule Your 30 min Free Demo!

Late-breaking abstract #LB2367 entitled "Efficacy and Safety of A Single Dose of CTX001 For Transfusion-Dependent Βeta-Thalassemia and Severe Sickle Cell Disease," will be an oral presentation on Sunday, June 12 at 09:45‑11:15 CEST. The abstract from Vertex and CRISPR Therapeutics includes data on patients treated in CLIMB‑111 and CLIMB‑121 and followed in CLIMB‑131 with CTX001, now known as exagamglogene autotemcel (exa-cel). This abstract has been selected for the media briefing program and is therefore embargoed until Saturday, June 11 at 09:00 am CEST.

In addition, three real-world evidence and health economics abstracts from Vertex have been accepted for poster presentation.

Abstract #P1704 entitled "Projected Lifetime Economic Burden of Severe Sickle Cell Disease in the United States," will be a poster presentation on Friday, June 10 at 16:30‑17:45 CEST. The abstract posted online projects the per-patient lifetime direct health care cost of severe sickle cell disease (SCD) from a U.S. health care payer perspective using an economic model developed based on published model frameworks.

Abstract #P1703 entitled "Economic Burden of Transfusion‑Dependent Beta‑Thalassemia in the United States," will be a poster presentation on Friday, June 10 at 16:30‑17:45 CEST. The abstract posted online estimates the economic burden of transfusion-dependent beta thalassemia (TDT) using administrative claims data to estimate the costs and health care utilization associated with disease management in the U.S.

Abstract #P1482 entitled "Patients With Severe Sickle Cell Disease on Standard-of-Care Treatment Are Very Unlikely to Become VOC‑Free for One Year: A Cohort Study of Medicaid Enrollees," will be a poster presentation on Friday, June 10 at 16:30‑17:45 CEST. The abstract posted online contextualizes the efficacy of exa‑cel in eliminating vaso‑occlusive crises (VOCs) in patients with SCD using nationwide U.S. Medicaid claims data from 2000 to 2014 to assess the proportion of patients with recurrent VOCs who became VOC‑free during a 1‑year follow up on standard of care.
The accepted abstracts are now available online on the EHA (Free EHA Whitepaper) website.

Exa‑cel is being investigated in multiple ongoing clinical trials as a potential one-time therapy for patients with either TDT or SCD.

About exagamglogene autotemcel (exa-cel)

Exa‑cel, formerly known as CTX001, is an investigational, autologous, ex vivo CRISPR/Cas9 gene‑edited therapy that is being evaluated for patients with TDT or SCD characterized by recurrent VOCs, in which a patient’s own hematopoietic stem cells are edited to produce high levels of fetal hemoglobin (HbF; hemoglobin F) in red blood cells. HbF is the form of the oxygen‑carrying hemoglobin that is naturally present during fetal development, which then switches to the adult form of hemoglobin after birth. The elevation of HbF by exa‑cel has the potential to alleviate transfusion requirements for patients with TDT and reduce painful and debilitating sickle crises for patients with SCD. Earlier results from these ongoing trials were published in The New England Journal of Medicine in January of 2021.

Based on progress in this program to date, exa‑cel has been granted Regenerative Medicine Advanced Therapy (RMAT), Fast Track, Orphan Drug, and Rare Pediatric Disease designations from the U.S. Food and Drug Administration (FDA) for both TDT and SCD. Exa-cel has also been granted Orphan Drug Designation from the European Commission, as well as Priority Medicines (PRIME) designation from the European Medicines Agency (EMA), for both TDT and SCD.

Among gene‑editing approaches being evaluated for TDT and SCD, exa‑cel is the furthest advanced in clinical development.

About CLIMB‑111 and CLIMB‑121

The ongoing Phase 1/2/3 open‑label trials, CLIMB‑111 and CLIMB‑121, are designed to assess the safety and efficacy of a single dose of exa‑cel in patients ages 12 to 35 years with TDT or with SCD, characterized by recurrent VOCs, respectively. The trials are now closed for enrollment. Patients will be followed for approximately two years after exa‑cel infusion. Each patient will be asked to participate in CLIMB‑131, a long‑term follow‑up trial.

About CLIMB-131

This is a long‑term, open‑label trial to evaluate the safety and efficacy of exa‑cel in patients who received exa‑cel in CLIMB‑111, CLIMB‑121, CLIMB‑141 or CLIMB‑151. The trial is designed to follow participants for up to 15 years after exa‑cel infusion.

About CLIMB‑141 and CLIMB‑151

The ongoing Phase 3 open-label trials, CLIMB‑141 and CLIMB‑151, are designed to assess the safety and efficacy of a single dose of exa‑cel in patients ages 2 to 11 years with TDT or with SCD, characterized by recurrent VOCs, respectively. The trials are now open for enrollment and currently enrolling patients ages 5 to 11 years of age and will plan to extend to ages 2 to less than 5 years of age at a later date. Each trial will enroll up to 12 patients. Patients will be followed for approximately two years after infusion. Each patient will be asked to participate in CLIMB-131, a long‑term follow‑up trial.

About the Gene‑Editing Process in These Trials

Patients who enroll in these trials will have their own hematopoietic stem and progenitor cells collected from peripheral blood. The patient’s cells will be edited using the CRISPR/Cas9 technology. The edited cells, exa‑cel, will then be infused back into the patient as part of an autologous hematopoietic stem cell transplant (HSCT), a process which involves a patient being treated with myeloablative busulfan conditioning. Patients undergoing HSCT may also encounter side effects (ranging from mild to severe) that are unrelated to the administration of exa‑cel. Patients will initially be monitored to determine when the edited cells begin to produce mature blood cells, a process known as engraftment. After engraftment, patients will continue to be monitored to track the impact of exa‑cel on multiple measures of disease and for safety.

About the Vertex‑CRISPR Collaboration

Vertex and CRISPR Therapeutics entered into a strategic research collaboration in 2015 focused on the use of CRISPR/Cas9 to discover and develop potential new treatments aimed at the underlying genetic causes of human disease. Exa‑cel represents the first potential treatment to emerge from the joint research program. Under an amended collaboration agreement, Vertex now leads global development, manufacturing and commercialization of exa‑cel and splits program costs and profits worldwide 60/40 with CRISPR Therapeutics.