neuronal cells

Non-Pharmacological Approaches to ADHD: Exploring Inflammation and Omega-3s

Posted on by Simon Moe

Attention-Deficit/Hyperactivity Disorder (ADHD) is a complex neurodevelopmental disorder that affects millions worldwide. Current therapeutic treatment relies on pharmaceutical approaches, but emerging research suggests that dietary supplements, such as omega-3 fatty acids, may offer complementary therapeutic options. A recent study published in the Journal of Psychiatric Research explores the relationship between inflammation and dietary supplements to determine how they might influence ADHD pathology. This work was conducted in Dr. Edna Grünblatt’s lab at the University of Zurich and was supported through Promega’s Academic Access Program. I had the chance to interview Dr. Natalie Walter, the lead author, to learn more about how her work offers potential opportunities for non-pharmacological interventions.

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Developing a Model System to Test Ketamine Toxicity

Posted on by Sara Klink

Figure 2. Ketamine induced morphological changes in neurons derived from iPSCs. Cells were treated with 0μM (Panel A), 20μM (Panel B), 100μM (Panel C) or 500μM (Panel D) ketamine for 24 hours. doi:10.1371/journal.pone.0128445.g002
Ketamine induced morphological changes in neurons derived from iPSCs.
Cells were treated with 0μM (Panel A), 20μM (Panel B), 100μM (Panel C) or 500μM (Panel D) ketamine for 24 hours. Scale bar = 50μm. From Ito, H., Uchida, T. and Makita, K. (2015) Ketamine causes mitochondrial dysfunction in human induced pluripotent stem cell-derived neurons. PLOS ONE 10, e0128445.
doi:10.1371/journal.pone.0128445.g002
When I consider that major surgery was performed long before anesthetics were developed, I am grateful to be alive in the anesthesia era. Just the thought of being subjected to various cutting and retracting instruments without general anesthesia calls to mind a phrase: The cure is worse than the disease. Despite the advantages of unconsciousness during surgery, anesthesia can have side effects. Studies in neonatal nonhuman primates have demonstrated that the anesthetic ketamine has toxic effects. However, the differences between humans and nonhuman primates mean the outcome in one species is not the same in another. In an article recently published in PLOS ONE, scientists were interested in creating an experimental model of developing human neurons and using the model to better understand the toxic effects of ketamine on human cells. Continue reading “Developing a Model System to Test Ketamine Toxicity”