OBJECTIVE: To evaluate the long-term effect of Deferiprone (DFP) in reducing brain iron overload and improving neurological manifestations in patients with NBIA. METHODS: 6 NBIA patients (5 with genetically confirmed PKAN), received DFP solution at 15 mg/kg po bid. They were assessed by UPDRS/III and UDRS scales and blinded video rating, performed at baseline and every six months. All patients underwent brain MRI at baseline and during follow up. Quantitative assessment of brain iron was performed with T2* relaxometry, using a gradient multi-echo T2* sequence. RESULTS: After 48 months of treatment clinical rating scales and blinded video rating indicated a stabilization in motor symptoms in 5/6 Pts. In the same subjects MRI evaluation showed reduced hypointensity in the globus pallidus (GP); quantitative assessment confirmed a significant increment in the T2* value, and hence reduction of the iron content of the GP. CONCLUSION: The data from our 4-years follow-up study confirm the safety of DFP as a chelator agent for iron accumulation. The clinical stabilization observed in 5/6 of our patients suggests that DFP may be a reasonable therapeutic option for the treatment of the neurological manifestations linked with iron accumulation and neurodegeneration, especially in adult patients at early stage of the disease. (Clinicaltrials.gov identifier: NTC00907283).
OBJECTIVE: To evaluate the long-term effect of Deferiprone (DFP) in reducing brain iron overload and improving neurological manifestations in patients with NBIA. METHODS: 6 NBIApatients (5 with genetically confirmed PKAN), received DFP solution at 15 mg/kg po bid. They were assessed by UPDRS/III and UDRS scales and blinded video rating, performed at baseline and every six months. All patients underwent brain MRI at baseline and during follow up. Quantitative assessment of brain iron was performed with T2* relaxometry, using a gradient multi-echo T2* sequence. RESULTS: After 48 months of treatment clinical rating scales and blinded video rating indicated a stabilization in motor symptoms in 5/6 Pts. In the same subjects MRI evaluation showed reduced hypointensity in the globus pallidus (GP); quantitative assessment confirmed a significant increment in the T2* value, and hence reduction of the iron content of the GP. CONCLUSION: The data from our 4-years follow-up study confirm the safety of DFP as a chelator agent for iron accumulation. The clinical stabilization observed in 5/6 of our patients suggests that DFP may be a reasonable therapeutic option for the treatment of the neurological manifestations linked with iron accumulation and neurodegeneration, especially in adult patients at early stage of the disease. (Clinicaltrials.gov identifier: NTC00907283).
Authors: Marina Svetel; Aleksandra Tomić; Nataša Dragašević; Igor Petrović; Nikola Kresojević; Robert Jech; Dušan Urgošik; Isidora Banjac; Jelena Vitković; Ivana Novaković; Vladimir S Kostić Journal: J Neurol Date: 2019-08-29 Impact factor: 4.849
Authors: Ethan Gore; Brian S Appleby; Mark L Cohen; Suzanne D DeBrosse; James B Leverenz; Bruce L Miller; Sandra L Siedlak; Xiongwei Zhu; Alan J Lerner Journal: Neurocase Date: 2016-11-01 Impact factor: 0.881
Authors: Liangliang Zhao; Majda Hadziahmetovic; Chenguang Wang; Xueying Xu; Ying Song; H A Jinnah; Jolanta Wodzinska; Jared Iacovelli; Natalie Wolkow; Predrag Krajacic; Alyssa Cwanger Weissberger; John Connelly; Michael Spino; Michael K Lee; James Connor; Benoit Giasson; Z Leah Harris; Joshua L Dunaief Journal: J Neurochem Date: 2015-09-29 Impact factor: 5.372