Profiling neuroprotective potential of trehalose in animal models of neurodegenerative diseases: a systematic review
Author:
Publisher
Medknow
Subject
Developmental Neuroscience
Reference80 articles.
1. Assoni G, Frapporti G, Colombo E, Gornati D, Perez-Carrion MD, Polito L, Seneci P, Piccoli G, Arosio D (2021) Trehalose-based neuroprotective autophagy inducers. Bioorg Med Chem Lett. 40:127929.
2. Bebarta V, Luyten D, Heard K (2003) Emergency medicine animal research: does use of randomization and blinding affect the results? Acad Emerg Med 10:684-687.
3. Bello S, Krogsbøll LT, Gruber J, Zhao ZJ, Fischer D, Hróbjartsson A (2014) Lack of blinding of outcome assessors in animal model experiments implies risk of observer bias. J Clin Epidemiol. 67:973-983.
4. Bodranghien F, Bastian A, Casali C, Hallett M, Louis ED, Manto M, Mariën P, Nowak DA, Schmahmann JD, Serrao M (2016) Consensus paper: revisiting the symptoms and signs of cerebellar syndrome. Cerebellum 15:369-391.
5. Cabezas R, Ávila M, Gonzalez J, El-Bachá RS, Báez E, García-Segura LM, Jurado Coronel JC, Capani F, Cardona-Gomez GP, Barreto GE (2014) Astrocytic modulation of blood brain barrier: Perspectives on Parkinson’s disease. Front Cell Neurosci 8:211.
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