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                        <td><span style="font-family:Helvetica, sans-serif; font-size:20px;font-weight:bold;">Psychology Research News -- ScienceDaily</span></td>
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                        <td><a href="https://www.sciencedaily.com/releases/2024/04/240410161544.htm" style="font-family:Helvetica, sans-serif; letter-spacing:-1px;margin:0;padding:0 0 2px;font-weight: bold;font-size: 19px;line-height: 20px;color:#222;">New origin of deep brain waves discovered</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 10th 2024, 16:15</div>

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                        <p>Biomedical engineering researchers have uncovered a previously unknown source of two key brain waves crucial for deep sleep: slow waves and sleep spindles. Traditionally believed to originate from one brain circuit linking the thalamus and cortex, the team's findings suggest that the axons in memory centers of the hippocampus play a role.</p>
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                        <td><a href="https://www.sciencedaily.com/releases/2024/04/240410112638.htm" style="font-family:Helvetica, sans-serif; letter-spacing:-1px;margin:0;padding:0 0 2px;font-weight: bold;font-size: 19px;line-height: 20px;color:#222;">Brain stimulation treatment may improve depression, anxiety in older adults</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 10th 2024, 11:26</div>

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                        <p>A noninvasive brain stimulation treatment improved depression and anxiety symptoms among older adults in a new study.</p>
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                        <td><a href="https://www.sciencedaily.com/releases/2024/04/240410112224.htm" style="font-family:Helvetica, sans-serif; letter-spacing:-1px;margin:0;padding:0 0 2px;font-weight: bold;font-size: 19px;line-height: 20px;color:#222;">Connecting lab-grown brain cells provides insight into how our own brains work</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 10th 2024, 11:22</div>

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                        <p>Researchers have developed a technique to connect lab-grown neural 'organoids' (three-dimensional developmental brain-like structures grown from human stem cells) using axonal bundles, similar to the connections between regions in the human brain. This technique allows brain networks to be better represented experimentally in the lab, and will improve understanding and studies of network-related brain disorders.</p>
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<p><strong>Forwarded by:<br />
Michael Reeder LCPC<br />
Baltimore, MD</strong></p>

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