Fake News – A Role for Neuroethics?

By Neil Levy

Neil Levy is professor of philosophy at Macquarie University, Sydney, and a senior research fellow at the Uehiro Centre for Practical Ethics, University of Oxford.

Fake news proliferates on the internet, and it sometimes has consequential effects. It may have played a role in the recent election of Donald Trump to the White House, and the Brexit referendum. Democratic governance requires a well-informed populace: fake news seems to threaten the very foundations of democracy.

How should we respond to its challenge? The most common response has been a call for greater media literacy. Fake news often strikes more sophisticated consumers as implausible. But there are reasons to think that the call for greater media literacy is unlikely to succeed as a practical solution to the problem of fake news. For one thing, the response seems to require what it seeks to bring about: a better informed population. For another, while greater sophistication might allow us to identify many instances of fake news, some of it is well crafted enough to fool the most sophisticated (think of the recent report that the FBI was fooled by a possibly fabricated Russian intelligence report).

Have I Been Cheating? Reflections of an Equestrian Academic

By Kelsey Drewry

Kelsey Drewry is a student in the Master of Arts in Bioethics program at the Emory University Center for Ethics where she works as a graduate assistant for the Healthcare Ethics Consortium. Her current research focuses on computational linguistic analysis of health narrative data, and the use of illness narrative for informing clinical practice of supportive care for patients with neurodegenerative disorders.

After reading a recent study in Frontiers in Public Health (Ohtani et al. 2017) I realized I might have unwittingly been taking part in cognitive enhancement throughout the vast majority of my life. I have been a dedicated equestrian for over twenty years, riding recreationally and professionally in several disciplines. A fairly conservative estimate suggests I’ve spent over 5000 hours in the saddle. However, new evidence from a multi-university study in Japan suggests that horseback riding improves certain cognitive abilities in children. Thus, it seems my primary hobby and passion may have unfairly advantaged me in my academic career. Troubled by the implication that I may have unknowingly spent much of my time violating the moral tenets upon which my intellectual work rests, I was compelled to investigate the issue.

The Neuroethics Blog Series on Black Mirror: Virtual Reality

By Hale Soloff

Hale is a Neuroscience PhD student at Emory University. He aims to integrate neuroethics investigations with his own research on human cognition. Hale is passionate about science education and public science communication, and is pursuing a career in teaching science. 

Humans in the 21st century have an intimate relationship with technology. Much of our lives are spent being informed and entertained by screens. Technological advancements in science and medicine have helped and healed in ways we previously couldn’t dream of. But what unanticipated consequences may be lurking behind our rapid expansion into new technological territory? This question is continually being explored in the British sci-fi TV series Black Mirror, which provides a glimpse into the not-so-distant future and warns us to be mindful of how we utilize our technology and how it can affect us in return. This piece is the first in a series of posts that will discuss ethical issues surrounding neuro-technologies featured in the show and will compare how similar technologies are impacting us in the real world. 

Gender Bias in the Sciences: A Neuroethical Priority

By Lindsey Grubbs

Lindsey Grubbs is a doctoral candidate in English at Emory University, where she is also pursuing a certificate in bioethics. Her work has been published in Literature & Medicine and the American Journal of Bioethics Neuroscience, and she has a chapter co-authored with Karen Rommelfanger forthcoming in the Routledge Handbook of Neuroethics.   

In a March 29, 2017 lecture at Emory University, Dr. Bita Moghaddam, Chair of the Department of Behavioral Neuroscience at Oregon Health & Science University, began her talk, “Women’s Reality in Academic Science,” by asking the room of around fifty undergraduate and graduate students, “Who’s not here today?”

The answer? Men. (Mostly. To be fair, there were two.) Women in the audience offered a few hypotheses: maybe men felt like they would be judged for coming to a “women’s” event; maybe they wanted the women in their community to enjoy a female-majority space; maybe they don’t think that gender impacts their education and career.

How you’ll grow up, and how you’ll grow old

By Nathan Ahlgrim

Nathan Ahlgrim is a third year Ph.D. candidate in the Neuroscience Program at Emory. In his research, he studies how different brain regions interact to make certain memories stronger than others. In his own life, he strengthens his own brain power by hiking through the north Georgia mountains and reading highly technical science...fiction.

An ounce of prevention can only be worth a pound of cure if you know what to prevent in the first place. The solution to modifying disease onset can be fairly straightforward if the prevention techniques are rooted in lifestyle, such as maintaining a healthy diet and weight to prevent hypertension and type-II diabetes. However, disorders of the brain are more complicated – both to treat and to predict. The emerging science of preclinical detection of brain disorders was on display at Emory University during the April 28th symposium entitled, “The Use of Preclinical Biomarkers for Brain Diseases: A Neuroethical Dilemma.” Perspectives from ethicists, researchers conducting preclinical research, and participants or family members of those involved in clinical research were brought together over the course of the symposium. The diversity of panelists provided a holistic view of where preclinical research stands, and what must be considered as the field progresses.

Happy 15th Birthday, Neuroethics!

By Henry T. Greely

Henry T. (Hank) Greely is the Deane F. and Kate Edelman Johnson Professor of Law and Professor, by courtesy, of Genetics at Stanford University. He specializes in ethical, legal, and social issues arising from advances in the biosciences, particularly from genetics, neuroscience, and human stem cell research. He directs the Stanford Center for Law and the Biosciences and the Stanford Program on Neuroscience in Society; chairs the California Advisory Committee on Human Stem Cell Research; is the President Elect of the International Neuroethics Society; and serves on the Neuroscience Forum of the National Academy of Medicine; the Committee on Science, Technology, and Law of the National Academy of Sciences; and the NIH Multi-Council Working Group on the BRAIN Initiative. He was elected a fellow of the American Association for the Advancement of Science in 2007. His book, THE END OF SEX AND THE FUTURE OF HUMAN REPRODUCTION, was published in May 2016. 

Professor Greely graduated from Stanford in 1974 and from Yale Law School in 1977. He served as a law clerk for Judge John Minor Wisdom on the United States Court of Appeals for the Fifth Circuit and for Justice Potter Stewart of the United States Supreme Court. After working during the Carter Administration in the Departments of Defense and Energy, he entered private law practice in Los Angeles in 1981. He joined the Stanford faculty in 1985. 

Fifteen years ago, on May 13, 2002, a two-day conference called “Neuroethics: Mapping the Field” began at the Presidio in San Francisco. And modern neuroethics was born. That conference was the first meeting to bring together a wide range of people who were, or would soon be, writing in “neuroethics;” it gave the new field substantial publicity; and, perhaps most importantly, it gave it a catchy name. 

Reading into the Science: The Neuroscience and Ethics of Enhancement

By Shweta Sahu

Image courtesy of Pexels.

I was always an average student: I was good, just not good enough. I often wondered what my life and grades would be like if I’d had a better memory or learned faster. I remember several exams throughout my high school career where I just could not recall what certain rote memorization facts or specific details were, and now in college, I realize that if I could somehow learn faster, how much time would I save and be able to study even more? Would a better memory have led me to do better on my exams in high school, and would my faster ability to learn new information have increased my GPA?

Such has been the question for years now in the ongoing debates of memory enhancement and cognitive enhancement, respectively. I’m not the only student to have ever felt this way and I’m sure I won’t be the last. Technology and medicine seem to be on the brink of exciting new findings, ones that may help us in ways we’ve never before thought imaginable.

The [Sea] Monster Inside Me

By Sunidhi Ramesh

A side-by-side comparison of a sea horse and the human
hippocampus (Greek for sea monster).
(Image courtesy of Wikimedia Commons.)

In 1587, Venetian anatomist Julius Aranzi gave a name to the intricate, hallmark structure located in the medial temporal lobe of the human brain—the hippocampus, Greek for sea monster.

The hippocampus, often said to resemble a sea horse, has since been identified as a key player in the consolidation of information (from short-term memory to long-term memory) and in the spatial memory that allows for our day-to-day navigation. Because of its importance in learning and memory, hippocampal damage is often a culprit in varying forms of dementia, Alzheimer’s disease, short-term memory loss, and amnesia.

Since its discovery, the hippocampus has been the subject of extensive research ranging from understanding diet and exercise as cognitive modulators to demonstrating the three-step encoding, storage, and retrieval process that the structure so consistently performs. In this time, it has become apparent that the hippocampus is not only a vital structure for normal human functioning, but it is also necessary to what makes us uniquely human.

The Science March: Can science-based advocacy be both nuanced and effective?

By Jennifer Lee

Jenn Laura Lee is a PhD candidate in neuroscience at New York University. She is also a member of the Scientist Action and Advocacy Network (ScAAN.net), which offers pro bono data science and research to organizations seeking to implement positive social change.

I believe in protests. I attend them, I endorse them, and I think that they make a difference. Raising political consciousness in the scientific community in any form seems like a good thing. The Science March moreover seems like a great opportunity for a community of people sharing common livelihood to advocate for the importance of their work in policy-making, as it relates to nuclear non-proliferation, climate change, vaccination, and so on. 

But while I plan to attend the March for Science in New York, I’m hoping to use this article to examine, articulate, and hopefully mitigate the slight unease that’s been growing in me surrounding some of the language that scientists have been using to describe the march (both critics and proponents alike).

Would You Want to be a Savant?

By John Banja

John Banja, PhD is a medical ethicist at Emory University’s Center for Ethics, a professor in the Department of Rehabilitation Medicine, and the editor of AJOB Neuroscience.

Darold Treffert (2010), a psychiatrist who has devoted the better part of his career to studying savants, notes that there are at least 3 kinds.

First, those who manifest the “savant syndrome” and display the most astonishing of savant abilities, such as Kim Peek who was the inspiration for Dustin Hoffman’s character, Raymond Babbitt, in the movie Rain Man. Peek, who died from a heart attack in 2009, was remarkable even by savant standards: He memorized more than 12,000 books and was able to read two pages simultaneously, one page with the right eye, the other page with the left. He also had a remarkably hospitable form of dyslexia where he could read words on a page turned sideways or upside down or backwards—such as reflected in a mirror. He could add a column of numbers from a telephone book page and instantly tell you the mean of those numbers, and he could do lightning calendar calculations like telling you which day of the week you were born upon knowing your birth date (Treffert, 2010, pp. 120-129). These were only a few of his talents.