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Literature DB >> 18981035

Clinical and genetic delineation of neurodegeneration with brain iron accumulation.

Abstract

Neurodegeneration with brain iron accumulation (NBIA) describes a group of progressive neurodegenerative disorders characterised by high brain iron and the presence of axonal spheroids, usually limited to the central nervous system. Mutations in the PANK2 gene account for the majority of NBIA cases and cause an autosomal recessive inborn error of coenzyme A metabolism called pantothenate kinase associated neurodegeneration (PKAN). More recently, it was found that mutations in the PLA2G6 gene cause both infantile neuroaxonal dystrophy (INAD) and, more rarely, an atypical neuroaxonal dystrophy that overlaps clinically with other forms of NBIA. High brain iron is also present in a portion of these cases. Clinical assessment, neuroimaging, and molecular genetic testing all play a role in guiding the diagnostic evaluation and treatment of NBIA.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

Substances：

Year: 2008 PMID： 18981035 PMCID： PMC2675558 DOI： 10.1136/jmg.2008.061929

Source DB: PubMed Journal: J Med Genet ISSN： 0022-2593 Impact factor: 6.318

62 in total

1. Hallervordern Spatz disease and acanthocytes.

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Journal: Neurology Date: 1999-11-10 Impact factor: 9.910

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Journal: J Neurol Sci Date: 2000-08-01 Impact factor: 3.181

3. Neurodegeneration with brain iron accumulation, type 1 is characterized by alpha-, beta-, and gamma-synuclein neuropathology.

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Journal: Am J Pathol Date: 2000-08 Impact factor: 4.307

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Journal: Nat Genet Date: 2001-08 Impact factor: 38.330

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Journal: Nat Genet Date: 2001-08 Impact factor: 38.330

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Journal: Pediatr Neurol Date: 2001-08 Impact factor: 3.372

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Journal: Pediatr Neurol Date: 2001-08 Impact factor: 3.372

8. Alpha-synuclein accumulation in a case of neurodegeneration with brain iron accumulation type 1 (NBIA-1, formerly Hallervorden-Spatz syndrome) with widespread cortical and brainstem-type Lewy bodies.

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Journal: Acta Neuropathol Date: 2000-11 Impact factor: 17.088

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Journal: J Neuropathol Exp Neurol Date: 1999-12 Impact factor: 3.685

10. Characterization of PLA2G6 as a locus for dystonia-parkinsonism.

Authors: Coro Paisan-Ruiz; Kailash P Bhatia; Abi Li; Dena Hernandez; Mary Davis; Nick W Wood; John Hardy; Henry Houlden; Andrew Singleton; Susanne A Schneider
Journal: Ann Neurol Date: 2009-01 Impact factor: 11.274

106 in total

1. As iron goes, so goes disease?

Authors: Susan J Hayflick; Penelope Hogarth
Journal: Haematologica Date: 2011-11 Impact factor: 9.941

Review 2. The emerging role of iron dyshomeostasis in the mitochondrial decay of aging.

Authors: Jinze Xu; Emanuele Marzetti; Arnold Y Seo; Jae-Sung Kim; Tomas A Prolla; Christiaan Leeuwenburgh
Journal: Mech Ageing Dev Date: 2010-04-29 Impact factor: 5.432

3. Identification of Novel Compound Mutations in PLA2G6-Associated Neurodegeneration Patient with Characteristic MRI Imaging.

Authors: Sen Guo; Liu Yang; Huijie Liu; Wei Chen; Jinchen Li; Ping Yu; Zhong Sheng Sun; Xiang Chen; Jie Du; Tao Cai
Journal: Mol Neurobiol Date: 2016-07-09 Impact factor: 5.590

4. A parkinsonian movement disorder with brain iron deposition and a haemochromatosis mutation.

Authors: Stefan Williams; Maruthi Ravi Vinjam; Azzam Ismail; Ahamad Hassan
Journal: J Neurol Date: 2013-06-23 Impact factor: 4.849

Review 5. Pantothenate kinase-associated neurodegeneration (PKAN) and PLA2G6-associated neurodegeneration (PLAN): review of two major neurodegeneration with brain iron accumulation (NBIA) phenotypes.

Authors: Manju A Kurian; Susan J Hayflick
Journal: Int Rev Neurobiol Date: 2013 Impact factor: 3.230

6. Nigropallidal iron accumulation in pantothenate kinase-associated neurodegeneration demonstrated by susceptibility-weighted imaging.

Authors: Jae-Hyeok Lee; Dae-Seong Kim; Seung-Kug Baik; Sang-Ook Nam
Journal: J Neurol Date: 2009-12-05 Impact factor: 4.849