Ep. 29: Brain Science Podcast Featuring Dr. Ginger Campbell
Guest: Dr. Ginger Campbell, host of the brain science podcast, joins the SCP where we discuss her podcast and different "brainy" topics. We close the show ranting about the iPhone 6. Resources and Links Near-Death Experiences? Results of the World's Largest Medical Study of the Human Mind and Consciousness at Time of Death A Synthetic Stimulant Never Tested in Humans, 1,3-dimethylbutylamine (DMBA), Is Identified in Multiple Dietary Supplements Tumors Might Grow Faster at Night Sugar Linked to Memory Problems in Adolescent Rats The Ancient Heritage of Water Ice in the Solar System The 2014 Nobel Prizes At A Glance Making Old Lungs Look Young Again Judgment and Decision-making: Brain Activity Indicates There Is More than Meets the Eye Peanut Allergy Misdiagnosed In 2 Out Of 3 Cases Solving the Mystery of the “Man in the Moon” Satellite Measurements Reveal Gravity Dip from Ice Loss in West Antarctica Olfactory Dysfunction Predicts 5-Year Mortality in Older Adults A Single Bout of Resistance Exercise Can Enhance Episodic Memory Performance Sensitivity and Specificity of the Empirical Lymphocyte Genome Sensitivity (Lgs) Assay: Implications for Improving Cancer Diagnostics Sleep Twitches Light up the Brain Cells From Placentas Safe for Patients with Multiple Sclerosis Research Shows Alcohol Sensations Influenced by Genes Aromatic-Turmerone Induces Neural Stem Cell Proliferation In Vitro and In Vivo Stem Cell Treatments Surging into Clinic First Patient Treated in Neuralstem Phase I Spinal Cord Injury Stem Cell Trial through the UC San Diego Sanford Stem Cell Clinical Center Japanese University May Strip Stem-Cell Scientist of Doctorate Young, Brilliant and Underfunded Studies Bring Tumeric to Stem Cell Research Success in Creating Induced Pluripotent Stem Cells Scientists Develop Barcoding Tools for Stem Cells Giant Step toward New Diabetes Treatment Generation of Functional Human Pancreatic β Cells In Vitro Efficient Differentiation of Human Pluripotent Stem Cells to Endothelial Progenitors via Small-Molecule Activation of WNT Signaling Maternal Inflammation Contributes to Brain Overgrowth and Autism-Associated Behaviors through Altered Redox Signaling in Stem and Progenitor Cells Photo Reference: Courtesy of Dr. Ginger Campbell #footable_5807 { font-family: inherit; font-size: 14px; } #footable_parent_5807 thead { display: none; } #footable_parent_5807 a.nt_edit_link { display: none; } #footable_parent_5807 td { border-color: #fff; } #footable_parent_5807 img { margin-top: 0px; } .semantic_ui .ui.table { border: 0px solid !important; } .semantic_ui .ui.table td { padding: 0em; } #footable_5808 { font-family: inherit; font-size: 14px; } thead { display: none; } #footable_parent_5808 a.nt_edit_link { display: none; } #footable_parent_5808 td { border-color: #fff; } #footable_parent_5808 img { margin-top: 0px; } .semantic_ui .ui.table { border: 0px solid !important; } .semantic_ui .ui.table td { padding: 0em; } #footable_5807 { font-family: inherit; font-size: 14px; } #footable_parent_5807 thead { display: none; } #footable_parent_5807 a.nt_edit_link { display: none; } #footable_parent_5807 td { border-color: #fff; } #footable_parent_5807 img { margin-top: 0px; } .semantic_ui .ui.table { border: 0px solid !important; } .semantic_ui .ui.table td { padding: 0em; }
From "The Stem Cell Podcast"
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