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| ID | Type | Description | Link |
|---|---|---|---|
| 2025-521257-17 | EudraCT Number |
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| Name | Class |
|---|---|
| Imagine Institute | OTHER |
| URC-CIC Paris Descartes Necker Cochin | OTHER |
| Association FranƧaise contre les Myopathies (AFM), Paris | OTHER |
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The purpose of this study is to evaluate the Safety and Efficacy of DREAM01, a gene therapy for Sickle Cell Disease (SCD). The therapy consists of transplanting autologous CD34+ cells transduced ex vivo with a bifunctional lentiviral vector expressing βAS3m-globin and an anti-βS miRNA. It aims to reduce or eliminate vaso-occlusive events and long-term organ damage in severe SCD patients lacking a Human Leukocyte Antigen (HLA) identical sibling donor.
Sickle cell anaemia is a hereditary disease caused by a mutation in the gene for beta haemoglobin, essential for oxygen transport by red blood cells. This genetic mutation causes a deformation of the red blood cells, giving them a crescent shape (also known as a sickle) and leading to their massive destruction, resulting in anaemia. Other serious consequences are linked to this disease, such as recurrent painful obstructive crises, known as vaso-occlusive crises (VOC), as well as strokes, acute respiratory syndromes (ARS) and multi-organ damage. All these complications are linked to the obstruction of capillaries caused by deformed red blood cells.
Management of the disease consists of regular transfusions of healthy red blood cells and/or specific drug therapy such as hydroxyurea (HU). HU increases the production of foetal haemoglobin, which can prevent the deformation of red blood cells characteristic of sickle cell disease. By reducing the number of sickle-shaped red blood cells, hydroxyurea helps reduce the frequency of painful attacks and other complications associated with the disease. During these painful attacks, deformed red blood cells block small blood vessels, leading to intense pain and organ damage. These treatments help prevent the risks associated with the disease, but also entail transfusion-related risks (immunological response that may prevent the necessary transfusion).
The only curative treatment to date is a bone marrow transplant from a compatible sibling donor. Bone marrow contains stem cells capable of producing blood cells (red blood cells, white blood cells and platelets) throughout an individual's life. Unfortunately, this treatment is only available for 25% of patients, and is associated with significant immunological complications caused by the white blood cells present in the graft (graft-versus-host disease) or risk of rejection (if partially compatible donor). The aim of this study is to treat patients with severe sickle cell disease with a new experimental gene therapy treatment. This is a new therapeutic approach for patients without a compatible donor, and patients will be followed for 2 years.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| DREPAMIR drug product | Experimental | DREAM01 is a genetically modified cell therapy product that consists of autologous CD34+ cells transduced ex vivo by the bifunctional βAS3m/mR7m lentiviral vector expressing the βAS3m-globin and a micro-RNA (miRNA) targeting specifically the endogenous sickle βS-globin gene. With or without prior administration of an anti-inflammatory therapy in case of severe inflammation detected at the inclusion phase |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| DREAM01 drug product | Genetic | Each patient will receive a single IV infusion of DREAM01, autologous CD34+ stem cells transduced with βAS3m/miR7m lentiviral vector |
|
| Measure | Description | Time Frame |
|---|---|---|
| Neutrophil recovery | Neutrophil recovery defined as the first of three consecutive days with an ANC of > 500/µL | within the 24 months following IV infusion of DREAM01 |
| Platelet recovery | Platelet recovery defined as the first of three consecutive days with a platelet count of > 20.000/µL sustained without platelet transfusion for at least seven days | within the 24 months following IV infusion of DREAM01 |
| In vivo engraftment (neutrophils and platelets) | hematopoietic reconstitution after IV infusion of the drug product | every 3 months between 3 to 24 months following IV infusion of DREAM01 |
| Adverse event | Adverse event will be measured using CTCAE | within the 24 months following IV infusion of DREAM01 |
| Transplant-related mortality (TRM) | Transplant-related mortality | within 100 days following IV infusion of DREAM01 |
| Transplant-related mortality (TRM) | Transplant-related mortality | within the first year following IV infusion of DREAM01 |
| All-cause mortality | Mortality | Up to the 24 months following IV infusion of DREAM01 |
| Efficacy of DREAM01 |
| Measure | Description | Time Frame |
|---|---|---|
| Annualized rate of VOE | Proportion of subjects with reduction in annualized rate of VOE at the time of analysis from baseline by at least 90% up to 24 months after DREAM01 infusion | Up to the 24 months following IV infusion of DREAM01 |
| Transfusion requirement |
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Inclusion Criteria:
Age 12 - 35 years
Acceptation of myelogram (bone marrow aspiration)
Diagnosis of HbSS by Hb electrophoresis and genetic analysis to analyse the alpha locus
Clinical history or ongoing evidence of severe sickle cell anemia with one OR more of the following clinical complications demonstrating disease severity:
Failed hydroxyurea (HU) therapy, OR Inadequate clinical response to HU, defined as any one of the following outcomes, while on HU for at least 3 months: 2 or more acute sickle pain crisis requiring hospitalization, requirement of transfusion to maintain Hb >6.0g/dL, an episode of ACS despite adequate supportive care measures
Karnovsky/Lansky performance score ā„ 60%
Sexually active patients must be willing to use an acceptable method of double-barrier contraception for at least 12 months post-infusion (beyond 12 months at the discretion of the investigator)
Procedure for obtaining consent (adults, dependent minors, to give their consent)
Affiliation to social security
Exclusion Criteria:
Evaluations within 6 months prior to screening visit:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Marina CAVAZZANA, MD, PhD | Contact | 01 44 49 50 68 | +33 | m.cavazzana@aphp.fr |
| Nelly BRIAND, PhD | Contact | 01 44 38 18 62 | +33 | nelly.briand@aphp.fr |
| Name | Affiliation | Role |
|---|---|---|
| Elisa MAGRIN, PhD | Department of Biotherapy, Necker-Enfants Malades Hospital | Study Director |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Department of Biotherapy, Necker-Enfants Malades Hospital | Recruiting | Paris | Ćle-de-France Region | 75015 | France |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 35075288 | Background | Magrin E, Semeraro M, Hebert N, Joseph L, Magnani A, Chalumeau A, Gabrion A, Roudaut C, Marouene J, Lefrere F, Diana JS, Denis A, Neven B, Funck-Brentano I, Negre O, Renolleau S, Brousse V, Kiger L, Touzot F, Poirot C, Bourget P, El Nemer W, Blanche S, Treluyer JM, Asmal M, Walls C, Beuzard Y, Schmidt M, Hacein-Bey-Abina S, Asnafi V, Guichard I, Poiree M, Monpoux F, Touraine P, Brouzes C, de Montalembert M, Payen E, Six E, Ribeil JA, Miccio A, Bartolucci P, Leboulch P, Cavazzana M. Long-term outcomes of lentiviral gene therapy for the beta-hemoglobinopathies: the HGB-205 trial. Nat Med. 2022 Jan;28(1):81-88. doi: 10.1038/s41591-021-01650-w. Epub 2022 Jan 24. | |
| 37090420 |
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| anti-inflammatory therapy | Drug | Patient will receive anti-inflammatory therapy if necessary |
|
absence of vaso-occlusive events (VOE) in patients who have discontinued the transfusion program or/and hydroxyurea |
| between 3 and 15 months following IV infusion of DREAM01 |
| Efficacy of anti-inflammatory therapy | Decrease of HSPCs inflammation assessed through a reduction of the score and/or the number of inflammatory pathways (among the 6 pathways established) by transcriptomic analysis on HSPCs between inclusion and after 3 months of anti-inflammatory therapy treatment before infusion | within the 3 months following administration of anti-inflammatory therapy |
Number of transfusion requirement |
| Up to the 24 months following IV infusion of DREAM01 |
| Change in number of units of RBCs transfused | change in number of units of RBCs transfused for SCD-related indications over time | Up to the 24 months following IV infusion of DREAM01 |
| Percentage of HbAS3 | Measure of HbAS3 | Up to the 24 months following IV infusion of DREAM01 |
| Percentage of HbS | Measure of Measure of HbS | Up to the 24 months following IV infusion of DREAM01 |
| Quantification of the transgene copy number (VCN) | Quantification of the transgene copy number (VCN) on drug substance at time of cryopreservation, on PBMC, sorted T-CD3+ and sorted NK cells | Up to the 24 months following IV infusion of DREAM01 |
| Rate of hemolysis | Biological parameters that reflect hemolysis : Total hemoglobin, Reticulocytes, lactate dehydrogenase LDH, circulating erythroblasts, haptoglobin, free plasmatic heme, no conjugated bilirubin, erythropoietin EPO | Up to the 24 months following IV infusion of DREAM01 |
| Rate of anemia | Biological parameters that reflect anemia : Total hemoglobin, Reticulocytes, lactate dehydrogenase LDH, circulating erythroblasts, haptoglobin, free plasmatic heme, no conjugated bilirubin, erythropoietin EPO | Up to the 24 months following IV infusion of DREAM01 |
| Changes in brain function | Occurrence of ischemic lesions, vascular stenosis, aneurysm assessed using cervical doppler ultrasound and cerebral MRI | Up to the 24 months following IV infusion of DREAM01 |
| Changes in brain function | Occurrence of pathological flow acceleration or vascular stenosis using carotid and transcranial Doppler ultrasound | Up to the 24 months following IV infusion of DREAM01 |
| Changes in ocular function | Assessed Using Fundus examination | Up to the 24 months following IV infusion of DREAM01 |
| Changes in ocular function | Assessed Using angiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in cardiac function | evaluated through electrocardiographic (ECG) assessment | Up to the 24 months following IV infusion of DREAM01 |
| Changes in the occurrence of left ventricular ejection fraction [LVEF] right and left atrial | Occurrence of left ventricular ejection fraction [LVEF], right and left atrial, left assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in left ventricular size | Changes in left ventricular size assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in left ventricular wall thickness | Changes in the left ventricular wall thickness assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in systolic pulmonary artery pressure [sPAP] | Changes in systolic pulmonary artery pressure [sPAP], assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in tricuspid regurgitation velocity [TRV] | Changes in tricuspid regurgitation velocity [TRV] assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Changes in E/A ratio | Changes in of E/A ratio assessed using cardiac ultrasound, cardiac MRI (including myocardial imaging), Doppler echocardiography and transthoracic echocardiography | Up to the 24 months following IV infusion of DREAM01 |
| Change in serum electrolyte panel | Up to the 24 months following IV infusion of DREAM01 |
| Change in serum creatinine | Up to the 24 months following IV infusion of DREAM01 |
| Change in estimated glomerular filtration rate (eGFR) | Renal function assessed through estimated glomerular filtration rate (eGFR) calculated using CKD-EPI equation | Up to the 24 months following IV infusion of DREAM01 |
| Change in urinary microalbumin | Up to the 24 months following IV infusion of DREAM01 |
| Change in protein excretion | Up to the 24 months following IV infusion of DREAM01 |
| Change in urinary creatinine | Up to the 24 months following IV infusion of DREAM01 |
| Changes in creatinine clearence | Up to the 24 months following IV infusion of DREAM01 |
| Change in liver enzyme AST | Up to the 24 months following IV infusion of DREAM01 |
| Change in liver enzyme ALT | Up to the 24 months following IV infusion of DREAM01 |
| Change in liver enzyme GGT | Up to the 24 months following IV infusion of DREAM01 |
| Changes in in liver enzyme ALP | Up to the 24 months following IV infusion of DREAM01 |
| Change in total bilirubin | Up to the 24 months following IV infusion of DREAM01 |
| Change in unconjugated (free) bilirubin | Up to the 24 months following IV infusion of DREAM01 |
| Changes in hepatic function | Description of hepatic morphology assessed through abdominal ultrasound | Up to the 24 months following IV infusion of DREAM01 |
| Change in diffusing capacity for carbon monoxide (DLCO) | Up to the 24 months following IV infusion of DREAM01 |
| Change in vital capacity (VC) | Up to the 24 months following IV infusion of DREAM01 |
| Change in residual volume (RV) | Up to the 24 months following IV infusion of DREAM01 |
| Change in FEV1/FVC ratio (Tiffeneau index) | Up to the 24 months following IV infusion of DREAM01 |
| Changes in bone metabolism | Assessed through Osteodensitometry, osteoarticular MRI | Up to the 24 months following IV infusion of DREAM01 |
| Changes in muscular function | Assessed through physical capacity testing | Up to the 24 months following IV infusion of DREAM01 |
| Occurrence of iron overload | Efficacy | Up to the 24 months following IV infusion of DREAM01 |
| Fertility evaluation | Safety | Up to the 24 months following IV infusion of DREAM01 |
| Walk ability | 6-minute walk-test | Up to the 24 months following IV infusion of DREAM01 |
| Jump | Vertical jump test : The jump height will be recorded using video analysis software. The average height of the 3 jumps will be calculated | Up to the 24 months following IV infusion of DREAM01 |
| Cardiopulmonary capacity | Cardiopulmonary exercise test, using the Cardio Pulmonary Exercise Test | Up to the 24 months following IV infusion of DREAM01 |
| Physical ability | Physical ability questionnaire, using the Global physical activity questionnaire (GPAQ) (16 items) developed by WHO | Up to the 24 months following IV infusion of DREAM01 |
| Quality of life Evaluation : patient health | Medical Outcomes Study Short Form 36 SF-36 .The Short Form (36) Health Survey is a 36-item, patient-reported survey of patient health | Up to the 24 months following IV infusion of DREAM01 |
| Quality of life Evaluation : fatigue | FACIT-Fatigue (Functional Assessment of Chronic Illness Therapy-Fatigue Scale) FACIT-Fatigue is a 13-item self-report scale that assesses fatigue and its effect on daily activities and function. | Up to the 24 months following IV infusion of DREAM01 |
| Quality of life Evaluation : physical, mental, and social health | PROMIS (Patient-Reported Outcomes Measurement Information System) PROMISĀ® (Patient-Reported Outcomes Measurement Information System) is a set of person-centered measures that evaluates and monitors physical, mental, and social health in adults and children. | Up to the 24 months following IV infusion of DREAM01 |
| Health-realted Quality of life Evaluation | Pediatric Quality of Life Inventory (PedsQL) Generic Core Scales PedsQL is a modular system that assesses health-related quality of life in healthy and ill children and adolescents. It combines generic core scales and disease-specific modules into one measurement system. | Up to the 24 months following IV infusion of DREAM01 |
| Changes in brain function | Description of neuropsychological status using functional performance testing | Up to the 24 months following IV infusion of DREAM01 |
| Change in hepatic function | Occurrence of fibrosis and cirrhosis assessed through Liver elastography | Up to the 24 months following IV infusion of DREAM01 |
| Change in hepatic function | Occurence of intrahepatic iron deposition assessed through liver MRI | Up to the 24 months following IV infusion of DREAM01 |
| Background |
| Brusson M, Chalumeau A, Martinucci P, Romano O, Felix T, Poletti V, Scaramuzza S, Ramadier S, Masson C, Ferrari G, Mavilio F, Cavazzana M, Amendola M, Miccio A. Novel lentiviral vectors for gene therapy of sickle cell disease combining gene addition and gene silencing strategies. Mol Ther Nucleic Acids. 2023 Mar 22;32:229-246. doi: 10.1016/j.omtn.2023.03.012. eCollection 2023 Jun 13. |
| 40169559 | Background | Sobrino S, Joseph L, Magrin E, Chalumeau A, Hebert N, Corsia A, Denis A, Roudaut C, Aussel C, Leblanc O, Brusson M, Felix T, Diana JS, Petrichenko A, El Etri J, Godard A, Tibi E, Manceau S, Treluyer JM, Mavilio F, Bushman FD, Marcais A, Castelle M, Neven B, Hermine O, Renolleau S, Magnani A, Asnafi V, El Nemer W, Bartolucci P, Six E, Semeraro M, Miccio A, Cavazzana M. Severe inflammation and lineage skewing are associated with poor engraftment of engineered hematopoietic stem cells in patients with sickle cell disease. Nat Commun. 2025 Apr 1;16(1):3137. doi: 10.1038/s41467-025-58321-4. |
| ID | Term |
|---|---|
| D000755 | Anemia, Sickle Cell |
| D000098644 | Vaso-Occlusive Crises |
| ID | Term |
|---|---|
| D000745 | Anemia, Hemolytic, Congenital |
| D000743 | Anemia, Hemolytic |
| D000740 | Anemia |
| D006402 | Hematologic Diseases |
| D006425 | Hemic and Lymphatic Diseases |
| D006453 | Hemoglobinopathies |
| D030342 | Genetic Diseases, Inborn |
| D009358 | Congenital, Hereditary, and Neonatal Diseases and Abnormalities |
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