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Literature DB >> 35115728

Blood GFAP as an emerging biomarker in brain and spinal cord disorders.

Ahmed Abdelhak^1,2, Matteo Foschi^3,4, Samir Abu-Rumeileh^2,5, John K Yue⁶, Lucio D'Anna^7,8, Andre Huss², Patrick Oeckl^2,9, Albert C Ludolph^2,9, Jens Kuhle^10,11,12,13, Axel Petzold^14,15, Geoffrey T Manley⁶, Ari J Green¹, Markus Otto^2,5, Hayrettin Tumani^16,17.

Abstract

Blood-derived biomarkers for brain and spinal cord diseases are urgently needed. The introduction of highly sensitive immunoassays led to a rapid increase in the number of potential blood-derived biomarkers for diagnosis and monitoring of neurological disorders. In 2018, the FDA authorized a blood test for clinical use in the evaluation of mild traumatic brain injury (TBI). The test measures levels of the astrocytic intermediate filament glial fibrillary acidic protein (GFAP) and neuroaxonal marker ubiquitin carboxy-terminal hydrolase L1. In TBI, blood GFAP levels are correlated with clinical severity and extent of intracranial pathology. Evidence also indicates that blood GFAP levels hold the potential to reflect, and might enable prediction of, worsening of disability in individuals with progressive multiple sclerosis. A growing body of evidence suggests that blood GFAP levels can be used to detect even subtle injury to the CNS. Most importantly, the successful completion of the ongoing validation of point-of-care platforms for blood GFAP might ameliorate the decision algorithms for acute neurological diseases, such as TBI and stroke, with important economic implications. In this Review, we provide a systematic overview of the evidence regarding the utility of blood GFAP as a biomarker in neurological diseases. We propose a model for GFAP concentration dynamics in different conditions and discuss the limitations that hamper the widespread use of GFAP in the clinical setting. In our opinion, the clinical use of blood GFAP measurements has the potential to contribute to accelerated diagnosis and improved prognostication, and represents an important step forward in the era of precision medicine.

Entities: Chemical

Mesh：

Substances：

Year: 2022 PMID： 35115728 DOI： 10.1038/s41582-021-00616-3

Source DB: PubMed Journal: Nat Rev Neurol ISSN： 1759-4758 Impact factor: 44.711

155 in total

1. Glial fibrillar acidic protein in the cerebrospinal fluid of Alzheimer's disease, dementia with Lewy bodies, and frontotemporal lobar degeneration.

Authors: Aiko Ishiki; Maki Kamada; Yuki Kawamura; Chiaki Terao; Fumiko Shimoda; Naoki Tomita; Hiroyuki Arai; Katsutoshi Furukawa
Journal: J Neurochem Date: 2015-11-11 Impact factor: 5.372

2. Clinical utility of serum levels of ubiquitin C-terminal hydrolase as a biomarker for severe traumatic brain injury.

Authors: Stefania Mondello; Akinyi Linnet; Andras Buki; Steven Robicsek; Andrea Gabrielli; Joseph Tepas; Linda Papa; Gretchen M Brophy; Frank Tortella; Ronald L Hayes; Kevin K Wang
Journal: Neurosurgery Date: 2012-03 Impact factor: 4.654

3. Cytoskeletal proteins in the cerebrospinal fluid as biomarker of multiple sclerosis.

Authors: Roberto Madeddu; Cristiano Farace; Paola Tolu; Giuliana Solinas; Yolande Asara; Maria Alessandra Sotgiu; Lucia Gemma Delogu; Jose Carlos Prados; Stefano Sotgiu; Andrea Montella
Journal: Neurol Sci Date: 2012-02-24 Impact factor: 3.307

Review 4. Neurofilaments as biomarkers in neurological disorders.

Authors: Michael Khalil; Charlotte E Teunissen; Markus Otto; Fredrik Piehl; Maria Pia Sormani; Thomas Gattringer; Christian Barro; Ludwig Kappos; Manuel Comabella; Franz Fazekas; Axel Petzold; Kaj Blennow; Henrik Zetterberg; Jens Kuhle
Journal: Nat Rev Neurol Date: 2018-10 Impact factor: 42.937

Review 5. Glial fibrillary acidic protein is a body fluid biomarker for glial pathology in human disease.

Authors: Axel Petzold
Journal: Brain Res Date: 2014-12-25 Impact factor: 3.252

Review 6. Cerebrospinal fluid biomarkers of neurodegeneration in chronic neurological diseases.

Authors: Hayrettin Tumani; Charlotte Teunissen; Sigurd Süssmuth; Markus Otto; Albert C Ludolph; Johannes Brettschneider
Journal: Expert Rev Mol Diagn Date: 2008-07 Impact factor: 5.225

7. Discriminative Accuracy of Plasma Phospho-tau217 for Alzheimer Disease vs Other Neurodegenerative Disorders.

Authors: Sebastian Palmqvist; Shorena Janelidze; Yakeel T Quiroz; Henrik Zetterberg; Francisco Lopera; Erik Stomrud; Yi Su; Yinghua Chen; Geidy E Serrano; Antoine Leuzy; Niklas Mattsson-Carlgren; Olof Strandberg; Ruben Smith; Andres Villegas; Diego Sepulveda-Falla; Xiyun Chai; Nicholas K Proctor; Thomas G Beach; Kaj Blennow; Jeffrey L Dage; Eric M Reiman; Oskar Hansson
Journal: JAMA Date: 2020-08-25 Impact factor: 56.272

8. Glial and neuronal markers in cerebrospinal fluid predict progression in multiple sclerosis.

Authors: M Alba Mañé Martínez; Bob Olsson; Laura Bau; Elisabet Matas; Álvaro Cobo Calvo; Ulf Andreasson; Kaj Blennow; Lucia Romero-Pinel; Sergio Martínez-Yélamos; Henrik Zetterberg
Journal: Mult Scler Date: 2015-03-02 Impact factor: 6.312

9. Glial Activation Markers in CSF and Serum From Patients With Primary Progressive Multiple Sclerosis: Potential of Serum GFAP as Disease Severity Marker?

Authors: Ahmed Abdelhak; Tilman Hottenrott; Estrella Morenas-Rodríguez; Marc Suárez-Calvet; Uwe K Zettl; Christian Haass; Sven G Meuth; Sebastian Rauer; Markus Otto; Hayrettin Tumani; André Huss
Journal: Front Neurol Date: 2019-03-26 Impact factor: 4.003

18 in total

1. Association of day-of-injury plasma glial fibrillary acidic protein concentration and six-month posttraumatic stress disorder in patients with mild traumatic brain injury.

Authors: Jacqueline R Kulbe; Sonia Jain; Lindsay D Nelson; Frederick K Korley; Pratik Mukherjee; Xiaoying Sun; David O Okonkwo; Joseph T Giacino; Mary J Vassar; Claudia S Robertson; Michael A McCrea; Kevin K W Wang; Nancy Temkin; Christine L Mac Donald; Sabrina R Taylor; Adam R Ferguson; Amy J Markowitz; Ramon Diaz-Arrastia; Geoffrey T Manley; Murray B Stein
Journal: Neuropsychopharmacology Date: 2022-06-18 Impact factor: 8.294

2. Serum glial fibrillary acidic protein is sensitive to acute but not chronic tissue damage in cerebral small vessel disease.

Authors: Thomas Gattringer; Christian Enzinger; Daniela Pinter; Simon Fandler-Höfler; Markus Kneihsl; Melanie Haidegger; Sebastian Eppinger; Rina Demjaha; Arabella Buchmann; Andrea Jerkovic; Reinhold Schmidt; Michael Khalil
Journal: J Neurol Date: 2022-09-03 Impact factor: 6.682

Review 3. TGF-β as a Key Modulator of Astrocyte Reactivity: Disease Relevance and Therapeutic Implications.

Authors: Jian Luo
Journal: Biomedicines Date: 2022-05-23

Review 4. Astrocyte: A Foe or a Friend in Intellectual Disability-Related Diseases.

Authors: Busong Wang; Lu Zou; Min Li; Liang Zhou
Journal: Front Synaptic Neurosci Date: 2022-06-23

5. High arterial oxygen levels and supplemental oxygen administration in traumatic brain injury: insights from CENTER-TBI and OzENTER-TBI.

Authors: Emanuele Rezoagli; Matteo Petrosino; Paola Rebora; David K Menon; Stefania Mondello; D James Cooper; Andrew I R Maas; Eveline J A Wiegers; Stefania Galimberti; Giuseppe Citerio
Journal: Intensive Care Med Date: 2022-10-20 Impact factor: 41.787