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1. “Mind-Reading” Machines

   https://doi.org/10.3389/frym.2022.771696  

   Lu, Hung-Yun; Jeanpierre, Grace M.; Mitchell, Jaz; Santacruz, Samantha R. (December 2022, Frontiers for Young Minds)

   How do we know how the brain works? Doctors cannot open the skull like a jar of candy and close the lid afterward… or can they? In fact, putting electrical wires into human brains has been safely performed for many years. These devices, termed brain-machine interfaces, can help doctors and scientists record electrical signals from the brain, to tell them how the brain interacts with the world. Researchers are using this technique to improve the quality of paralyzed patients’ lives and to build brain-controlled game prototypes. Though powerful, brain-machine interfaces still face many challenges. Does this sound like a field that you might want to pursue? Keep reading to find out more! 

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2. Microbial Mind Control

   https://doi.org/10.1016/j.chom.2020.07.016  

   Matty, Molly A.; Chalasani, Sreekanth H. (August 2020, Cell Host & Microbe)
3. From fossils to mind

   https://doi.org/10.1038/s42003-023-04803-4  

   de_Sousa, Alexandra A; Beaudet, Amélie; Calvey, Tanya; Bardo, Ameline; Benoit, Julien; Charvet, Christine J; Dehay, Colette; Gómez-Robles, Aida; Gunz, Philipp; Heuer, Katja; et al (December 2023, Communications Biology)

   Abstract Fossil endocasts record features of brains from the past: size, shape, vasculature, and gyrification. These data, alongside experimental and comparative evidence, are needed to resolve questions about brain energetics, cognitive specializations, and developmental plasticity. Through the application of interdisciplinary techniques to the fossil record, paleoneurology has been leading major innovations. Neuroimaging is shedding light on fossil brain organization and behaviors. Inferences about the development and physiology of the brains of extinct species can be experimentally investigated through brain organoids and transgenic models based on ancient DNA. Phylogenetic comparative methods integrate data across species and associate genotypes to phenotypes, and brains to behaviors. Meanwhile, fossil and archeological discoveries continuously contribute new knowledge. Through cooperation, the scientific community can accelerate knowledge acquisition. Sharing digitized museum collections improves the availability of rare fossils and artifacts. Comparative neuroanatomical data are available through online databases, along with tools for their measurement and analysis. In the context of these advances, the paleoneurological record provides ample opportunity for future research. Biomedical and ecological sciences can benefit from paleoneurology’s approach to understanding the mind as well as its novel research pipelines that establish connections between neuroanatomy, genes and behavior. 

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4. Browsing a corporation’s mind

   https://doi.org/10.1057/s41271-017-0103-y  

   Horel, Stéphane (February 2018, Journal of Public Health Policy)
5. The eye–mind wandering link: Identifying gaze indices of mind wandering across tasks.

   https://doi.org/10.1037/xhp0000743  

   Faber, Myrthe; Krasich, Kristina; Bixler, Robert E.; Brockmole, James R.; D'Mello, Sidney K. (October 2020, Journal of Experimental Psychology: Human Perception and Performance)

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