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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/2024/04/240423135205.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;">Innovative microscopy demystifies metabolism of Alzheimer's</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 23rd 2024, 13:52</div>

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                        <p>Using state-of-the-art microscopy techniques, researchers have shed new light on the underlying mechanisms driving Alzheimer's disease.</p>
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                        <td><a href="https://www.sciencedaily.com/releases/2024/04/240423113138.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;">In the brain, bursts of beta rhythms implement cognitive control</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 23rd 2024, 11:31</div>

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                        <p>Bursts of brain rhythms with 'beta' frequencies control where and when neurons in the cortex process sensory information and plan responses. Studying these bursts would improve understanding of cognition and clinical disorders, researchers argue in a new review.</p>
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                        <td><a href="https://www.sciencedaily.com/releases/2024/04/240423113041.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;">Exploring brain synchronization patterns during social interactions</a>
                        <div style="font-family:Helvetica, sans-serif; text-align:left;color:#999;font-size:11px;font-weight:bold;line-height:15px;">Apr 23rd 2024, 11:30</div>

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                        <p>Social interactions synchronize brain activity within individuals and between individuals. In a new study, researchers compared brain synchronization between pairs of people with relatively strong social ties (acquaintance pairs) and pairs with almost no social ties (stranger pairs). The study found that during a cooperative task, the stranger pairs exhibited more closely connected brain networks compared to the acquaintance pairs. These findings challenge the conventional understanding that stronger social bonds lead to greater brain synchronization.</p>
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<p><strong>Forwarded by:<br />
Michael Reeder LCPC<br />
Baltimore, MD</strong></p>

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