Results 191 to 200 of about 287,227 (299)

Visual evoked potential in generalized joint hypermobility: A case-control study. [PDF]

Brain Behav
Jahromi LSM, Sayyadi A, Askarian A, Dabbaghmanesh A, Roshanzamir S.   +4 more
europepmc   +1 more source

Engineered Living Systems With Self‐Organizing Neural Networks: From Anatomy to Behavior and Gene Expression

Advanced Science, EarlyView.
Ectodermal tissue excised from Xenopus embryos self‐organizes into a three‐dimensional mucociliary organoid. Here, we generate a neural variant, termed neurobot, by implanting neural precursor cells. Neurobots develop mature neurons, adopt distinct morphologies, exhibit more complex motility, and respond differentially to neuroactive compounds. Imaging
Haleh Fotowat, Laurie O'Neill, Léo Pio‐Lopez, Megan M. Sperry, Patrick Erickson, Tiffany Lin, Michael Levin   +6 more
wiley   +1 more source

MP: A steady-state visual evoked potential dataset based on multiple paradigms. [PDF]

iScience
Zhao X, Xu S, Geng K, Zhou T, Xu T, Wang Z, Feng S, Hu H.   +7 more
europepmc   +1 more source

EMG findings in the course of vidarabine neuropathy [PDF]

, 1988
Berlit, Peter, Brosi, K., Krause, Klaus-Henning, Scheglmann, K.   +3 more
core  

Temporal and Cell‐Specific Regulation of Synaptic Homeostasis by the Chromatin Remodeler Chd1

Advanced Science, EarlyView.
Chd1, the Drosophila homologue of mammalian CHD2 ‐ a gene linked to autism, epilepsy, and intellectual disability, is required for synaptic homeostatic plasticity. Chd1 in glia is necessary for the rapid induction of synaptic homeostasis, whereas Chd1 in motoneurons, muscle, and glia is critical for long‐term maintenance.
Danielle T. Morency, Tao Cui, Yimei Cai, Chloe Lok, Rachel E. Nokku, Ruoxian Huang, Grace L. Chu, Yumeng Xie, Saleem W. Abu‐Tayeh, Kaikai He, Chengjie Qiu, Junyi Wang, Paxton M. Paganelli, Ting Wang, Gabrielle Williams, Sreejith Nair, Huadong Pei, Dion K. Dickman, Stefano Vicini, Tingting Wang   +19 more
wiley   +1 more source

[Visual evoked potentials].

No to shinkei = Brain and nerve, 1986
Y, Kuroiwa, H, Tohgi
openaire   +3 more sources

Refining Flash Visual Evoked Potential Analysis in Rats: A Novel Approach Using Bilateral Epidural Electrodes. [PDF]

Transl Vis Sci Technol
Woo KM, Guo Y, Mehrabian Z, Miller NR, Bernstein SL.   +4 more
europepmc   +1 more source

Pathogenic Role of FGFR3 Autoantibodies in Small Fiber Neuropathy

Advanced Science, EarlyView.
Autoantibodies against fibroblast growth factor receptor 3 (FGFR3) are identified as pathogenic drivers of pain in small fiber neuropathy. By binding to sensory neurons in dorsal root ganglia, FGFR3 autoantibodies activate MAPK signaling and induce hyperexcitability and mechanical hypersensitivity, establishing FGFR3 autoantibodies as a therapeutic ...
Lyuba Y. Salih, Nicolas L.A. Dumaire, Clémence Gieré, Erin Vest, Haya Alkhateeb, Christian P. Moritz, Yannick Tholance, Jean‐Philippe Camdessanché, Jean‐Christophe Antoine, Jérôme Honnorat, Jafar Kafaie, Liberty François‐Moutal, Aubin Moutal   +12 more
wiley   +1 more source

Visual evoked potential abnormalities in patients with COVID-19. [PDF]

Rev Assoc Med Bras (1992)
Balduz M, Fidancı H.
europepmc   +1 more source

Versatile CRISPR‐Cas Tools for Gene Regulation in Zebrafish via an Enhanced Q Binary System

Advanced Science, EarlyView.
This study introduces CRISPR‐Q, a transgenic CRISPR‐Cas system leveraging the QFvpr/QUAS binary expression platform in zebrafish. CRISPR‐Q overcomes previous challenges in achieving stable and efficient gene regulation. By enabling precise spatiotemporal control of transcript knockdown (CRISPR‐QKD) and gene activation (CRISPR‐Qa), it provides a ...
Miaoyuan Shi, Weiqi Ge, Changheng Li, Bin Liu, Xiaoyi Deng, Chengjie Liu, Meijun Zheng, Pu Zhang, Lei Li, Ying Guo, Yunqi Han, Yu Yang, Yanxun V. Yu, Youngnam N. Jin   +13 more
wiley   +1 more source