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The Evaluation of Clinical Applications for the Detection of the Alzheimer's Disease Biomarker GFAP.
Ozcelikay-Akyildiz, Goksu; Karadurmus, Leyla; Cetinkaya, Ahmet; Uludag, Inci; Ozcan, Burcu; Unal, Mehmet Altay; Sezginturk, Mustafa Kemal; Ozkan, Sibel A.
Afiliação
  • Ozcelikay-Akyildiz G; Department of Analytical Chemistry, Faculty of Pharmacy, Ankara University, Ankara, Türkiye.
  • Karadurmus L; Department of Analytical Chemistry, Faculty of Pharmacy, Adiyaman University, Adiyaman, Türkiye.
  • Cetinkaya A; Department of Analytical Chemistry, Faculty of Pharmacy, Ankara University, Ankara, Türkiye.
  • Uludag I; Bioengineering Department, Faculty of Engineering, Çanakkale Onsekiz Mart University, Çanakkale, Türkiye.
  • Ozcan B; Bioengineering Department, Faculty of Engineering, Çanakkale Onsekiz Mart University, Çanakkale, Türkiye.
  • Unal MA; Stem Cell Institute, Ankara University, Ankara, Türkiye.
  • Sezginturk MK; Bioengineering Department, Faculty of Engineering, Çanakkale Onsekiz Mart University, Çanakkale, Türkiye.
  • Ozkan SA; Department of Analytical Chemistry, Faculty of Pharmacy, Ankara University, Ankara, Türkiye.
Crit Rev Anal Chem ; : 1-12, 2024 Aug 23.
Article em En | MEDLINE | ID: mdl-39178137
ABSTRACT
One of the most prevalent neurodegenerative diseases is Alzheimer's disease (AD). The hallmarks of AD include the accumulation of amyloid plaques and neurofibrillary tangles, which cause related secondary diseases, progressive neurodegeneration, and ultimately death. The most prevalent cell type in the human central nervous system, astrocytes, are crucial for controlling neuronal function. Glial fibrillary acidic protein (GFAP) is released from tissue into the bloodstream due to astrocyte breakdown in neurological diseases. Increased levels of GFAP in the serum can function as blood markers and be an effective prognostic indicator to help diagnose neurological conditions early on, from stroke to neurodegenerative diseases. The human central nervous system (CNS) is greatly affected by diseases associated with blood GFAP levels. These include multiple sclerosis, intracerebral hemorrhage, glioblastoma multiforme, traumatic brain injuries, and neuromyelitis optica. GFAP demonstrates a strong diagnostic capacity for projecting outcomes following an injury. Furthermore, the increased ability to identify GFAP protein fragments helps facilitate treatment, as it allows continuous screening of CNS injuries and early identification of potential recurrences. GFAP has recently gained attention due to data showing that the plasma biomarker is effective in identifying AD pathology. AD accounts for 60-70% of the approximately 50 million people with dementia worldwide. It is critical to develop molecular markers for AD, whose number is expected to increase to about 3 times and affect humans by 2050, and to investigate possible targets to confirm their effectiveness in the early diagnosis of AD. In addition, most diagnostic methods currently used are image-based and do not detect early disease, i.e. before symptoms appear; thus, treatment options and outcomes are limited. Therefore, recently developed methods such as point-of-care (POC), on-site applications, and enzyme-linked immunosorbent assay-polymerase chain reaction (ELISA-PCR) that provide both faster and more accurate results are gaining importance. This systematic review summarizes published studies with different approaches such as immunosensor, lateral flow, POC, ELISA-PCR, and molecularly imprinted polymer using GFAP, a potential blood biomarker to detect neurological disorders. Here, we also provide an overview of current approaches, analysis methods, and different future detection strategies for GFAP, the most popular biosensing field.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2024 Tipo de documento: Article