Intro: Sickle cell disease is a genetic disorder caused by a mutation of the β hemoglobin called HbS, which causes red blood cell (RBC) abnormalities responsible for hemolysis, mainly intravascular, leading to chronic anemia. Intravascular hemolysis is responsible for severe inflammation and endothelial dysfunction. Maintaining hemoglobin in its oxygenated R-conformation is one of the strategies for inhibiting the polymerization of HbS. Previous experimental therapeutic approaches having this effect have been discontinued due to poor pharmaceutical properties or toxicity. Nevertheless, they proved the validity of the concept by demonstrating an increase in oxyhemoglobin and a decrease in biomarkers of hemolysis. Voxelotor binds to the α chain of globin and maintains Hb in its R conformation, thereby inhibiting the polymerization of HbS while increasing the affinity of Hb for oxygen. Because of its mechanism of action affecting anemia and hemolysis, Voxelotor is a promising treatment for the prevention and treatment of renal and cerebral arterial disease. Hypothesis/Objective : Investigator hypothesis is that the treatment by Voxelotor (GBT440) will improve intra vascular hemolysis and will increase the total mass of hemoglobin with beneficial effects on organ function. The primary objective of the study is to evaluate the biological activity of Voxelotor on the reduction of intra vascular hemolysis measured by plasma hemoglobin. The secondary objectives of the study will aim at characterizing the effects of GBT 440 Voxelotor on: * Intra vascular hemolysis measured by plasma Heme * Total hemoglobin mass (MHb) * RBCs lifespan * Blood volumes (plasma volume (PV), red blood cell mass (RBCM), total blood volume (BV)) * Blood viscosity * Cerebral perfusion * Cerebrovascular vaso-reactivity * Cognitive function (MoCA) * Six minute walk test * Renal perfusion and iron deposits in renal cortex * Measurement of Glomerular filtration rate Estimation of glomerular filtration rate (CKD/EPI equation) * Urine albumin/creatinine ratio * Ability to decrease or stop erythropoietin in patients under EPO treatment * Safety (VOC, ACS, Priapism) and tolerability of voxelotor * RBC properties Method: This is an open-label, single-arm, single-stage phase II trial in patients treated with Voxelotor 1500 mg daily for 48 weeks. Assessments will be done during the study at week 0, week 6, week 12, week 24, week 36 and week 48.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
30
This is an open-label, single-arm, single-stage phase II trial of voxelotor in patients with sickle-cell disease. Voxelotor 500mg tablets. Voxelotor will be administered as 500mg tablets orally once daily. The participant should always take all 3 tablets in a row at the same time each day, unless the study doctor has instructed them to adjust the dose.
Hospital Henri Mondor
Créteil, France
RECRUITINGEvaluation of the biological activity of voxelotor on the change of intra vascular hemolysis measured by decrease of plasma hemoglobin.
Change of Intravascular hemolysis, as defined by a ≥20% decrease of plasma Hemoglobin (µmol/l)
Time frame: Change from Baseline at Week 48
Intra vascular hemolysis measured by plasma Heme
Absolute and relative (%) changes in plasma Hemoglobin (µmol/l) and free plasma Heme (µmol/l)
Time frame: Week 0, Week 24, Week 48
Total hemoglobin mass (MHb)
Measurement of total hemoglobin mass based on the CO rebreathing technique (g of Hb / kg), or a stable evolution (i.e. decrease ≤ 10%) in patients initially under EPO therapy and who decreased or discontinued EPO during the study period.
Time frame: Week 0, Week 24, Week 48
RBCs lifespan
RBC lifespan by measurement of alveolar CO (in days).
Time frame: Week 0, Week 24, Week 48
Change of blood volumes (plasma volume (PV) and total blood volume (BV))
Blood volumes by CO rebreathing method (Total blood volume (L), Plasma Volume (L) )
Time frame: Week 0, Week 24, Week 48
Change of red blood cell mass (RBCM)
RBC mass (g)
Time frame: Week 0, Week 24, Week 48
Change of Total Mass of Hemoglobin
Total Mass of Hemoglobin (g of Hb)
Time frame: Week 0, Week 24, Week 48
Change of blood viscosity
Blood viscosity (cP)
Time frame: Week 0, Week 24, Week 48
Cerebral perfusion
Cerebral perfusion measured by MRI
Time frame: Week 0, Week 24, Week 48
Change of cerebrovascular vaso-reactivity measured by transcranial Doppler
Transcranial Doppler (Breath holding test)
Time frame: Week 0, Week 24, Week 48
Change of cerebrovascular vaso-reactivity measured by Near Infra Red Spectroscopy
Cerebral vaso-reactivity measured by Near Infra Red Spectroscopy
Time frame: Week 0, Week 24, Week 48
Cognitive function (MoCA)
Cognitive performance measured by MoCA Improvement in the 6 minutes walk test on : Time spent under Sp02 88 and 90%, Borg Rating of Perceived Exertion (RPE), distance.
Time frame: Week 0, Week 24, Week 48
Measurement of renal perfusion and amount of deoxyhemoglobin
Amount of deoxyhemoglobin by MRI
Time frame: Week 0, Week 24, Week 48
Study of iron deposits in renal cortex
Iron deposits in renal cortex measured by MRI
Time frame: Week 0, Week 24, Week 48
Measurement of Glomerular filtration rate
Estimation of glomerular filtration rate (CKD/EPI equation)
Time frame: Week 0, Week 24, Week 48
Ability to decrease or stop erythropoietin in patients under EPO treatment
Concomitant treatment observation: decrease / interruption of EPO dose
Time frame: From Week 0 to Week48
Incidence of Treatment-Adverse Events VOC, ACS and Priapism
Presence/Absence of adverse Events VOC, ACS, Priapism
Time frame: From Week 0 to Week48
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