The Neuroethics of Brainprinting

By Anna Farrell 

Anna Farrell is a rising second year undergraduate student at Emory University. Early on in her Neuroscience major she became interested in Neuroscience’s interdisciplinary nature and continued on to declare a second major in English. 

As cyber espionage and hacking are on the rise (Watson, 2016), major corporations, governments, and financial systems have pushed for using biometrics as a more secure way to guard their data. Biometrics measures unique physical characteristics as a way of ascertaining someone’s identity. A wide range of physical characteristics are currently used in biometrics, including DNA, iris, retina, face, fingerprint, finger geometry, hand geometry, odor, vein, and voice identification (Types of Biometrics). Governmental uses for biometrics span border control, customs services, and online access to critical systems. However, fingerprint and iris identification results are becoming more replicable as hacker’s abilities advance (Watson, 2016), causing researchers to begin to look beyond the typical biometric features. One of the new methods being studied is electroencephalogram (EEG)-based neurological identification. However, using brain wave biometrics as a means of identification establishes a framework which, if underestimated, could put sensitive personal data in jeopardy. 

Neuroethics as Outreach

By Adina Roskies

Adina Roskies is The Helman Family Distinguished Professor of Philosophy and chair of the Cognitive Science Program at Dartmouth College. She received a Ph.D from the University of California, San Diego in Neuroscience and Cognitive Science in 1995, a Ph.D. from MIT in philosophy in 2004, and an M.S.L. from Yale Law School in 2014. Prior to her work in philosophy she held a postdoctoral fellowship in cognitive neuroimaging at Washington University with Steven Petersen and Marcus Raichle from 1995-1997, and from 1997-1999 was Senior Editor of the neuroscience journal Neuron. Dr. Roskies’ philosophical research interests lie at the intersection of philosophy and neuroscience, and include philosophy of mind, philosophy of science, and ethics. She has coauthored a book with Stephen Morse, A Primer on Criminal Law and Neuroscience. 

As I write this, I am thinking more broadly about ethics and neuroscience than I usually do, pushed by political necessity. The topic of my concern is science education, construed generally. In this era in which “alternative facts” are allowed to bear that name, rather than their true name -- which is “lies and misinformation” -- and in which science is ignored, deemed irrelevant, or actively suppressed, I see a growing need for people in all the sciences and in ethics to speak out and to educate, wherever possible.

The Neuroethics Blog Series on Black Mirror: White Bear

By Kristie Garza

Image courtesy of  Wikimedia Commons.

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 of the 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 treat our technology and how it can affect us in return. This piece is part of a series of posts that discuss ethical issues surrounding neuro-technologies featured in the show and will compare how similar technologies are impacting us in the real world. 

*SPOILER ALERT* - The following contains plot spoilers for the Netflix television series Black Mirror. 

What can neuroethicists learn from public attitudes about moral bioenhancement?

By Peter Reiner

Dr. Reiner is Professor and co-founder of the National Core for Neuroethics at the University of British Columbia where he is a member of the Department of Psychiatry and the Centre for Brain Health. Dr. Reiner began his research career studying the cellular and molecular physiology of the brain, with particular interests in the neurobiology of behavioural states and the molecular underpinnings of neurodegenerative disease. In 1998, Dr. Reiner became President and CEO of Active Pass Pharmaceuticals, a drug discovery company that he founded to tackle the scourge of Alzheimer's disease. Upon returning to academic life in 2004, Dr. Reiner refocused his scholarly work in the area of neuroethics, co-founding the National Core for Neuroethics with Dr. Judy Illes in 2007. Dr. Reiner has championed quantitative analysis of public attitudes towards diverse issues in neuroethics including the propriety of cognitive and moral enhancement, the contours of autonomy in the real world, and the neuroethical implications of Technologies of the Extended Mind.

Moral behavior is fundamental to human society. Wherever one goes on the planet, one finds a set of norms that guide behavior, and following these norms is a basic tenet of peaceful coexistence with one’s fellow humans. Despite abundant evidence that the arc of human history trends towards decreased violence (Pinker, 2011), a proxy for moral behavior, scholars have suggested that society might be better off were we to enhance our moral capacities, and that using biological methods to do so is warranted (Douglas, 2008; Persson and Savulescu, 2008). This has engendered a vigorous debate that goes beyond the usual divide between bioconservatives and technoprogressives (Reiner, 2013a); in this arena, even ardent proponents of enhancement technologies have registered dissent (Harris, 2010).

A Feminist Neuroethics of Mental Health

By Ann E. Fink

Ann Fink is currently the Wittig Fellow in Feminist Biology at the University of Wisconsin–Madison, with an appointment in Gender and Women’s Studies and concurrent affiliations with Psychology and the Center for Healthy Minds. Her research in cellular and behavioral neuroscience has appeared in the Journal of Neuroscience, Journal of Neurophysiology, PNAS and other journals. Ann’s interdisciplinary work addresses the ethics of neuroscience in relation to gender, mental health and social justice. 

Emotionality and gender are tied together in the popular imagination in ways that permeate mental health research. At first glance, gender, emotion, and mental health seem like a simple equation: when populations are divided in two, women show roughly double the incidence of depression, anxiety, and stress-related disorders^1-3. Innate biological explanations are easy to produce in the form of genes or hormones. It could be tempting to conclude that being born with XX chromosomes is simply the first step into a life of troubled mood. Yet, buried in the most simplistic formulations of mental illness as chemical imbalance or mis-wiring is the knowledge that human well-being is a shifting, psychosocial phenomenon. Learning and memory research offers a treasure trove of knowledge about how the physical and social environment changes the brain. Feminist scholarship adds to this understanding through critical inquiry into gender as a mode of interaction with the world. This essay explores how a feminist neuroethics framework enriches biological research into mental health. 

The Politics of Elder Care, Social Care, and the “Dementia Tax”: A View from the United Kingdom

By Richard Ashcroft

Professor Richard Ashcroft, an AJOB Neuroscience Editorial Board member, teaches medical law and ethics at both the undergraduate and postgraduate level in the Department of Law at Queen Mary University of London.

The United Kingdom has recently gone through a General Election. The main reason the election was called by Prime Minister Theresa May was to secure a stronger mandate for the ruling Conservative Party, which was governing with a small overall majority of 19 seats over the Opposition parties. PM May’s argument was that in the negotiations with the other member states of the European Union over the UK’s exit from that Union (Brexit), an increased majority would give her a stronger bargaining position. As the election turned out, the electorate returned the Conservatives with fewer seats, and PM May had to form a minority administration, with a partial agreement to support the Conservative Party made with one of the smaller parties, the Democratic Unionist Party, which only contests seats in Northern Ireland. As a result PM May has a working majority, but one that is more fragile, rather than stronger.

Commentators have suggested a number of reasons for this outcome, but there seems to be general agreement that a turning point in the electoral campaign was the release of the election manifesto of the Conservative Party. While there are many reasons that might explain the downturn in support for PM May, one particular policy announced in the manifesto, deemed the “dementia tax,” attracted widespread criticism. 

The Neuroethics Blog Series on Black Mirror: The Entire History of You

By Somnath Das

Somnath Das recently graduated from Emory University where he majored in Neuroscience and Chemistry. He will be attending medical school at Thomas Jefferson University starting in the Fall of 2017. The son of two Indian immigrants, he developed an interest in healthcare after observing how his extended family sought help from India's healthcare system to seek relief from chronic illnesses. Somnath’s interest in medicine currently focuses on understanding the social construction of health and healthcare delivery. Studying Neuroethics has allowed him to combine his love for neuroscience, his interest in medicine, and his wish to help others into a multidisciplinary, rewarding practice of scholarship which to this day enriches how he views both developing neurotechnologies and the world around him. 

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 treat our technology and how it can affect us in return. This piece is part of 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. 

*SPOILER ALERT* - The following contains plot spoilers for the Netflix television series Black Mirror.

Criminal Law and Neuroscience: Hope or Hype?

By Stephen J. Morse

Stephen J. Morse, J.D., Ph.D., is a lawyer and a psychologist. He is Ferdinand Wakeman Hubbell Professor of Law, Professor of Psychology and Law in Psychiatry, and Associate Director of the Center for Neuroscience & Society at the University of Pennsylvania. Professor Morse is also a Diplomate in Forensic Psychology of the American Board of Professional Psychology. He has been working on the relation of neuroscience to law, ethics and social policy for over two decades, has written numerous articles and book chapters on these topics and has edited A Primer on Neuroscience and Criminal Law (Oxford University Press, 2013, with Adina Roskies). He was previously Co-Director of the MacArthur Foundation Law and Neuroscience Project and was a member of the MacArthur Foundation Law and Neuroscience Research Network. Professor Morse is a recipient of the American Academy of Forensic Psychology’s Distinguished Contribution Award, and a recipient of the American Psychiatric Association’s Isaac Ray Award for distinguished contributions to forensic psychiatry and the psychiatric aspects of jurisprudence. 

The discovery of functional magnetic resonance imaging (fMRI) in 1991, which permits non-invasive imaging of brain function, and the wide availability of scanners for research starting in about 2000 fueled claims that what we would learn about the brain and behavior would transform and perhaps revolutionize criminal law. Most commonly, many thought that traditional notions of criminal responsibility would be undermined for various reasons, such as demonstrating that people really cannot control themselves as well as we believe, or as indicating that more action was automatic, thoughtless and non-rational than we think. Most radically, the neuroexuberants argued that neuroscience shows that no one is really responsible because we are not agents; rather, we are victims of neuronal circumstances that mechanistically produce our epiphenomenal thoughts and our bodily movements. Similar claims were made when the genome was cracked. The age of cognitive, affective, and social neuroscience (behavioral neuroscience)—the neurosciences most relevant to law—is almost two decades old. What have we learned that is legally relevant and how has it transformed criminal law doctrine and practice?

Grounding ethics from below: CRISPR-cas9 and genetic modification

By Anjan Chatterjee

The University of Pennsylvania Anjan Chatterjee is the Frank A. and Gwladys H. Elliott Professor and Chair of Neurology at Pennsylvania Hospital. He is a member of the Center for Cognitive Neuroscience, and the Center for Neuroscience and Society at the University of Pennsylvania. He received his BA in Philosophy from Haverford College, MD from the University of Pennsylvania and completed his neurology residency at the University of Chicago. His clinical practice focuses on patients with cognitive disorders. His research addresses questions about spatial cognition and language, attention, neuroethics, and neuroaesthetics. He wrote The Aesthetic Brain: How we evolved to desire beauty and enjoy art and co-edited: Neuroethics in Practice: Mind, medicine, and society, and The Roots of Cognitive Neuroscience: behavioral neurology and neuropsychology. He is or has been on the editorial boards of: American Journal of Bioethics: Neuroscience, Behavioural Neurology, Cognitive and Behavioral Neurology, Neuropsychology, Journal of Cognitive Neuroscience, Journal of Alzheimer’s Disease, Journal of the International Neuropsychological Society, European Neurology, Empirical Studies of the Arts, The Open Ethics Journal and Policy Studies in Ethics, Law and Technology. He was awarded the Norman Geschwind Prize in Behavioral and Cognitive Neurology by the American Academy of Neurology and the Rudolph Arnheim Prize for contribution to Psychology and the Arts by the American Psychological Association. He is a founding member of the Board of Governors of the Neuroethics Society, the past President of the International Association of Empirical Aesthetics, and the past President of the Behavioral and Cognitive Neurology Society. He serves on the Boards of Haverford College, the Associated Services for the Blind and Visually Impaired and The College of Physicians of Philadelphia. 

In 1876, Gustav Fechner (1876) introduced an “aesthetics from below.” He contrasted this approach with an aesthetics from above by which he meant that, rather than defining aesthetic experiences using first principles, one could investigate people’s responses to stimuli and use these data to ground aesthetic theory. Neuroethics could benefit with a similar grounding by an ethics from below, especially when ethical concerns affect public policy and regulation.

Revising the Ethical Framework for Deep Brain Stimulation for Treatment-Resistant Depression

By Somnath Das

Somnath Das recently graduated from Emory University where he majored in Neuroscience and Chemistry. He will be attending medical school at Thomas Jefferson University starting in the Fall of 2017. Studying Neuroethics has allowed him to combine his love for neuroscience, his interest in medicine, and his wish to help others into a multidisciplinary, rewarding practice of scholarship which to this day enriches how he views both developing neurotechnologies and the world around him. 

Despite the prevalence of therapeutics for treating depression, approximately 20% of patients fail to respond to multiple treatments such as antidepressants, cognitive-behavioral therapy, and electroconvulsive therapy (Fava, 2003). Zeroing on an effective treatment of “Treatment-Resistant Depression” (TRD) has been the focus of physicians and scientists. Dr. Helen Mayberg’s groundbreaking paper on Deep Brain Stimulation (DBS) demonstrates that electrical modulation an area of the brain called subgenual cingulate resulted in a “sustained remission of depression in four of six (TRD) patients” These patients experienced feelings that were described as “lifting a void,” or “a sudden calmness.” (Mayberg et al. 2005). The importance of this treatment lies in the fact participants who received DBS for TRD (DBS-TRD) often have no other treatment avenues, and thus Mayberg’s findings paved the way for DBS to have great treatment potential for severely disabling depression.