Efficacy/Safety Study of Deferiprone Compared to Deferasirox in Paediatric Patients

Phase 3

Completed

Conditions: Chronic Iron Overload

Interventions: Drug: Deferiprone
Drug: Deferasirox

Registration Number: NCT01825512

Lead Sponsor: Consorzio per Valutazioni Biologiche e Farmacologiche

Brief Summary: Multicentre, randomised, open label, non-inferiority active-controlled trial to evaluate efficacy and safety of a 12-months treatment with deferiprone (DFP) at dose of 75-100 mg/kg/day versus deferasirox (DFX) at dose of 20-40 mg/kg/day in paediatric patients (1 month \< 18 years old) affected by hereditary haemoglobinopathies and requiring frequent transfusions and chelation.

Detailed Description: Haemoglobinopathies are a group of inherited disorders characterized by structural variations of the haemoglobin molecule. Most of the patients affected require for survival chronic red blood cells transfusions to overcome ineffective erythropoiesis. Unfortunately, all chronically transfused patients become clinically iron overloaded as there is no physiological mechanism for the removal of iron from the body. The pathologic changes and clinical manifestations associated to chronic iron overload are common among all transfusional iron-overload patients, albeit best documented in patients with beta-thalassemia major. The recommended treatment consists in regular blood transfusions combined with chelating therapy to remove the harmful iron accumulation in the body.

Currently, in the clinical practice particularly in children and adolescents, the criteria leading to the choice of the chelating agent include also the adherence to therapy, thus favouring the use of oral chelators (Ceci A et al., 2011) DFP (Deferiprone) was the first oral chelator authorised in Europe in 1999 as second line treatment for the treatment of iron overload in patients with thalassaemia major when DFO (Deferoxamine) is contraindicated or inadequate. However, despite a wide experience of DFP with iron overloaded (specifically thalassaemic )patients, limited data are available for younger children. For this reason the need for additional data in younger children is expressively included in the 2009 PDCO (Paediatric Committee) Priority List.

The purpose of this study is to assess the non-inferiority of DFP compared to DFX (deferasirox)in paediatric patients affected by hereditary haemoglobinopathies requiring chronic transfusions and chelation. Non inferiority will be established in terms of percentage of patients successfully chelated, as assessed by serum ferritin levels (in all patients) and cardiac MRI T2\* (in patients above 10 years of age able to have an MRI scan without sedation).

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 435

Inclusion Criteria

Patients of both genders aged from 1 month up to less than 18 years at the time of enrolment
Patients affected by any hereditary haemoglobinopathy requiring chronic transfusion therapy and chelation, including but not limited to thalassemia syndromes and sickle cell disease
Patients on current treatment with deferoxamine (DFO) or DFX or DFP in a chronic transfusion program receiving at least 150 mL/kg/year of packed red blood cells (corresponding approximately to 12 transfusions);
For patients naïve to chelation treatment: patients that have received at least 150 mL/kg of packed red blood cells (corresponding to approximately 12 transfusions) in a chronic transfusion program and with serum ferritin levels ≥ 800 ng/mL;
Until availability of results from the PK Study (Study DEEP-1, EudraCT n. 2012-000658-67) for patients aged from 1 month to less than 6 years: known intolerance or contraindication to DFO;
Written informed consent and patient's informed assent, relating to his/her comprehension abilities and level of maturity

Exclusion Criteria

Patients with intolerance or known contraindication to either DFP or DFX
Patients receiving DFX at a dose > 40 mg/kg/day or DFP at a dose > 100 mg/kg/day at screening
Platelet count <100.000/mm3 during the run-in phase
Absolute neutrophils count <1.500/mm3 during the run-in phase
Hb levels lower than 8g/dL during the run-in phase
Evidence of abnormal liver function
Iron overload from causes other than transfusional haemosiderosis
Severe heart dysfunction secondary to iron overload
Serum creatinine level > ULN (Upper Limit of Normal) for age during the run-in phase
History of significant medical or psychiatric disorder
The patient has received another investigational drug within 30 days prior to this clinical trial
Fever and other signs/symptoms of infection in the 10 days before baseline assessment
Concomitant use of trivalent cation-dependent medicinal products such as aluminium-based antacids
Positive test for β-HCG (Human chorionic gonadotropin) and lactating female patients

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Deferiprone	Deferiprone	75-100 mg/kg/day seven days per week
Deferasirox	Deferasirox	20 to 40 mg/kg/day seven days per week

Primary Outcome Measures

Name	Time	Method
Percentage of Successfully Chelated Patients	at baseline and after 12 months	Percentage of successfully chelated patients is assessed by serum ferritin levels (in all patients) and cardiac MRI T2\* (in patients above 10 years of age able to perform an MRI scan without sedation)

Secondary Outcome Measures

Name	Time	Method
Ferritin Level	at baseline and after 12 months	Change in serum ferritin level, assessed as difference between value at 12 months minus value at baseline.
Liver MRI	at baseline and after 12 months	Change in liver iron concentration (measured using liver MRI), assessed as difference between value at 12 months minus value at baseline.
Cardiac MRI T2*	at baseline and after 12 months	Change in cardiac iron concentration (measured using cardiac MRI T2\), assessed as difference between value at 12 months minus value at baseline. MRI T2\ is a non-invasive method based on gradient echo (GRE) sequences, where T2\* represents the spin-spin relaxation times, measured in milliseconds. The faster the curve decreases (ie, the smaller T2\), the greater amount of iron is in the tissue. Treatment success was assessed as follows: if baseline cardiac T2\ was less than 20 ms, an increase of 10% or more after 1 year of treatment was defined as treatment success; if baseline cardiac T2\* was more than 20 ms, any increase or a decrease of less than 10% after 1 year of treatment was defined as treatment success.

Trial Locations

Locations (22): Cairo University Faculty of Medicine
🇪🇬
Cairo, Egypt
Zagazig University Hospitals
🇪🇬
Zagazig, Egypt
Hospital 'Ihsan Çabej'
🇦🇱
Lushnjë, Albania
Qendra Spitalore Universitare "Nene Tereza" Tirane
🇦🇱
Tirana, Albania
Alexandria University Hospital - Faculty of Medicine
🇪🇬
Alexandria, Egypt
Clinica Pediatrica Policlinico di Modena
🇮🇹
Modena, Italy
Presidio Ospedaliero "Annunziata", Centro di Studi della Microcitemia
🇮🇹
Cosenza, Italy
Azienda Ospedaliera di Padova
🇮🇹
Padova, Italy
U.O.C. Ematologia - Emoglobinopatie, Ospedale G. Di Cristina
🇮🇹
Palermo, Italy
National And Kapodistrian University of Athens
🇬🇷
Athens, Greece
Department of Medical and Public health Services of the Ministry of Health
🇨🇾
Nicosia, Cyprus
Università di Bari - Facoltà di Medicina
🇮🇹
Bari, Italy
Centro di Thalassemia, Ospedale Civile di Lentini
🇮🇹
Lentini, SR, Italy
ASL Cagliari Ospedale Regionale per le Microcitemie
🇮🇹
Cagliari, Italy
A.O.Universitaria Meyer
🇮🇹
Firenze, Italy
Azienda Ospedaliera di Rilievo Nazionale e di Alta Specializzazione Garibaldi
🇮🇹
Catania, Italy
Ospedali Riuniti Villa Sofia - Cervello
🇮🇹
Palermo, Italy
Azienda Ospedaliera di Rilievo Nazionale "Antonio Cardarelli"
🇮🇹
Napoli, Italy
Clinica Pediatrica Università - ASL 1 D.H per Talassemia
🇮🇹
Sassari, Italy
Centre National de Greffe de Moelle Osseuse Tunis
🇹🇳
Tunis, Tunisia
Queen's Hospital
🇬🇧
Romford, United Kingdom
Barts Health NHS Trust
🇬🇧
London, United Kingdom