Articles by Ahreum Baek in JoVE
تقييم السلوك العصبي في نموذج ماوس لإصابة في الدماغ التاكسج الدماغية حديثي الولادة MinGi Kim1,2, Ji Hea Yu1, Jung Hwa Seo1,2, Yoon-Kyum Shin1,2, Soohyun Wi1,2, Ahreum Baek1,3, Suk-Young Song1,5, Sung-Rae Cho1,2,4,5 1Department and Research Institute of Rehabilitation Medicine, Yonsei University College of Medicine, 2Brain Korea 21 PLUS Project for Medical Science, Yonsei University, 3Department of Rehabilitation Medicine, Yonsei University Wonju College of Medicine, 4Rehabilitation Institute of Neuromuscular Disease, Yonsei University College of Medicine, 5Graduate Program of NanoScience and Technology, Yonsei University أجرينا انسداد الشريان السباتي الانفرادية في يوم الولادة مؤتمر نزع السلاح 7-10-1 ماوس الجراء لإنشاء نموذج (مرحبا) التاكسج الدماغية الولدان والتحقيق في آثار إصابات الدماغ مرحبا. ودرسنا وظائف السلوك العصبي في هذه الفئران مقارنة بالفئران العادية غير المعدنية.
Other articles by Ahreum Baek on PubMed
The Modulation of Neurotrophin and Epigenetic Regulators: Implication for Astrocyte Proliferation and Neuronal Cell Apoptosis After Spinal Cord Injury Annals of Rehabilitation Medicine. | Pubmed ID: 27606261 To investigate alterations in the expression of the main regulators of neuronal survival and death related to astrocytes and neuronal cells in the brain in a mouse model of spinal cord injury (SCI).
Elucidation of Gene Expression Patterns in the Brain After Spinal Cord Injury Cell Transplantation. | Pubmed ID: 28933220 Spinal cord injury (SCI) is a devastating neurological disease. The pathophysiological mechanisms of SCI have been reported to be relevant to central nervous system injury such as brain injury. In this study, gene expression of the brain after SCI was elucidated using transcriptome analysis to characterize the temporal changes in global gene expression patterns in a SCI mouse model. Subjects were randomly classified into 3 groups: sham control, acute (3 h post-injury), and subacute (2 wk post-injury) groups. We sought to confirm the genes differentially expressed between post-injured groups and sham control group. Therefore, we performed transcriptome analysis to investigate the enriched pathways associated with pathophysiology of the brain after SCI using Database for Annotation Visualization, and Integrated Discovery (DAVID), which yielded Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway. Following enriched pathways were found in the brain: oxidative phosphorylation pathway; inflammatory response pathways-cytokine-cytokine receptor interaction and chemokine signaling pathway; and endoplasmic reticulum (ER) stress-related pathways-antigen processing and presentation and mitogen-activated protein kinase signaling pathway. Oxidative phosphorylation pathway was identified at acute phase, while inflammation response and ER stress-related pathways were identified at subacute phase. Since the following pathways-oxidative phosphorylation pathway, inflammatory response pathways, and ER stress-related pathways-have been well known in the SCI, we suggested a link between SCI and brain injury. These mechanisms provide valuable reference data for better understanding pathophysiological processes in the brain after SCI.