Highlights
  • Original Article | October 31, 2023

    Lactobacillus reuteri ATG-F4 can potentially alleviate chronic stress-induced anhedonic symptoms by regulating the brain serotonergic system, making F4 a promising treatment.

    Show more full text
    Lactobacillus reuteri ATG-F4 can potentially alleviate chronic stress-induced anhedonic symptoms by regulating the brain serotonergic system, making F4 a promising treatment.
    Jiyun Lee, Eum-Ji Kim, Gun-Seok Park et al.
  • Original Article | October 31, 2023

    Extracellular vesicles derived from Lactobacillus paracasei (Lpc-EV) have the ability to counteract the expression of genes that were changed by glucocorticoid (GC) in cultured neuronal cells, and rescue stress-induced depressive-like behavior in mice.

    Show more full text
    Extracellular vesicles derived from Lactobacillus paracasei (Lpc-EV) have the ability to counteract the expression of genes that were changed by glucocorticoid (GC) in cultured neuronal cells, and rescue stress-induced depressive-like behavior in mice.
    Hyejin Kwon, Eun-Hwa Lee, Juli Choi et al.
  • Original Article | October 31, 2023

    In this study, we uncover the critical role of spinal astrocytes in later phase of chronic pain states induced by sciatic nerve crush injury. We have identified a potential mechanistic link between spinal astrocytic activity and BDNF/TrkB signaling during the development of neuropathic pain. Ultimately, our research provides evidence that inhibiting BDNF/TrkB signaling alleviates mechanical allodynia and reduces astrogliosis, highlighting the therapeutic potential of targeting glial BDNF-related pathways for pain management.

    Show more full text
    In this study, we uncover the critical role of spinal astrocytes in later phase of chronic pain states induced by sciatic nerve crush injury. We have identified a potential mechanistic link between spinal astrocytic activity and BDNF/TrkB signaling during the development of neuropathic pain. Ultimately, our research provides evidence that inhibiting BDNF/TrkB signaling alleviates mechanical allodynia and reduces astrogliosis, highlighting the therapeutic potential of targeting glial BDNF-related pathways for pain management.
    Tien Thuy Phan, Nishani Jayanika Jayathilake, Kyu Pil Lee and Joo Min Park
  • Original Article | October 31, 2023

    This study explored ETMR genetics & methylation, differentiating C19MC amplified & non-amplified groups with DICER1 mutations. Findings inform genetic counseling for DICER1-mutant ETMR due to associated germline & somatic mutations in cancer.

    Show more full text
    This study explored ETMR genetics & methylation, differentiating C19MC amplified & non-amplified groups with DICER1 mutations. Findings inform genetic counseling for DICER1-mutant ETMR due to associated germline & somatic mutations in cancer.
    Eric Eunshik Kim, Kwanghoon Lee, Ji-Hoon Phi et al.
  • Original Article | October 31, 2023

    Alcohol dependance impacts the whole-brain network’s structural stability, including the somato-motor network, default mode network, and global efficiency of the control network.

    Show more full text
    Alcohol dependance impacts the whole-brain network’s structural stability, including the somato-motor network, default mode network, and global efficiency of the control network.
    Hyunjung Lee, Joon Hyung Jung, Seungwon Chung et al.
Vol.32 No.5 | October 31, 2023

VISITORS

since Jan. 01, 2020
TODAY 207
TOTAL 479,102
Search
the Korean Society for Brain and Neural Sciences en Experimental Neurobiology in SCIe As of August 2017 Covered from 2015
2019 Impact Factor 2.370. 2020 Impact Factor 3.261. 2021 Impact Factor 3.800. 2022 Impact Factor 2.4. Bexco, busan, korea

Forthcoming

  • In Preparation

Highly Cited Papers

News

close
Lee et al. investigated the brain structural connectivity in patients with alcohol dependence employing a graph theoretical analysis of whole brain tractography. Graph measures were derived from an average structural connectivity matrix, with fiber counts from 1000 repeated tractographies with random parameters as edges, and 400 cortical regions parcellated by the functionally defined Schaefer Atlas as nodes. The study revealed reduced local efficiency of the whole-brain, somato-motor, and default mode networks, as well as decreased global efficiency of the control network in the alcohol group, suggesting disrupted structural brain network stability in patients with alcohol dependence.