I will argue that the fairly common assumption that brain imaging may compromise people’s privacy in an undesirable way only if moral crimes are committed is false. Sometimes persons’ privacy is compromised because of failures of privacy. A normal emotional reaction to failures of privacy is embarrassment and shame, not moral resentment like in the cases of violations of right to privacy. I will claim that if (1) neuroimaging will provide all kinds of information about persons’ inner life (...) and not only information that is intentionally searched for, and (2) there will be more and more application fields of fMRI and more and more people whose brains will be scanned (without any coercion), then, in the future, shame may be an unfortunately common feeling in our culture. This is because failures of privacy may dramatically increase. A person may feel shame strongly and long, especially if his failure is witnessed by people who he considers relatively important, but less than perfectly trustworthy. (shrink)

This paper explores whether brain images may be admitted as evidence in criminal trials under Federal Rule of Evidence 403, which weighs probative value against the danger of being prejudicial, confusing, or misleading to fact finders. The paper summarizes and evaluates recent empirical research relevant to these issues. We argue that currently the probative value of neuroimages for criminal responsibility is minimal, and there is some evidence of their potential to be prejudicial or misleading. We also propose experiments that (...) will directly assess how jurors are influenced by brain images. (shrink)

Brain-imaging technologies have posed the problem of breaching our brain privacy. Until the invention of those technologies, many of us entertained the idea that nothing can threaten our mental privacy, as long as we kept it, for each of us has private access to his or her own mind but no access to any other. Yet, philosophically, the issue of private, mental accessibility appears to be quite unsettled, as there are still many philosophers who reject the idea (...) of private, mental accessibility. I have attempted to refute such rejections and to establish this idea on firmer grounds. My arguments in this paper show that brain imaging allows no access to our mind and that mind privacy is quite different from brain privacy, as the latter can be breached by brain imaging, whereas the former cannot. A reduction of the mind to the body inescapably fails, as there is a categorial difference between mind and body or brain, which is compatible with their inseparability. Brain imaging cannot enable one to “read” the mind or to breach our mental privacy. There is no external access to one’s mind. Each of us has exclusive access to his or her own mind. (shrink)

In this paper we consider two major issues: conceptual–experimental approaches to the self, and the neuroanatomical substrate of the self. We distinguish content- and processed-based concepts of the self that entail different experimental strategies, and anatomically, we investigate the concept of midline structures in further detail and present a novel view on the anatomy of an integrated subcortical–cortical midline system. Presenting meta-analytic evidence, we show that the anterior paralimbic, e.g. midline, regions do indeed seem to be specific for self-specific stimuli. (...) We conclude that future investigation of the self need to develop novel concepts that are more empirically plausible than those currently in use. Different concepts of self will require novel experimental designs that include, for example, the brain’s resting state activity as an independent variable. Modifications of both conceptual and anatomical dimensions will allow an empirically more plausible account of the relationship between brain and self. (shrink)

The approach of Revonsuo is criticised as being based on a misplaced emphasis on coupled oscillatory dynamics, as well as on too limited an approach to recent advances in brain imaging. This results in the nature of attention as a basic component in consciousness being ignored, and prevents any attempt to attack the crucial problem for consciousness of inner experience: of ‘what it is like to be’.

While philosophers have, for centuries, pondered upon the relation between mind and brain, neuroscientists have only recently been able to explore the connection analytically — to peer inside the black box. This ability stems from recent advances in technology and emerging neuroimaging modalities. It is now possible not only to produce remarkably detailed images of the brain’s structure (i.e. anatomical imaging) but also to capture images of the physiology associated with mental processes (i.e. functional imaging). We (...) are able to see how specific regions of the brain ‘light up’ when activities such as reading this book are performed, and how our neurons and their elaborate cast of supporting cells organize and coordinate their tasks. As demonstrated in the other chapters of this book, the mapping of the human mind (mostly by measuring regional changes in blood flow, initially by positron emission tomography (PET) and recently by functional magnetic resonance imaging or (fMRI)) has provided insight into the functional neuroanatomy of neuropsychiatric diseases. Amazingly, the idea that regional cerebral blood flow (rCBF) is related intimately to brain function goes back more than a century. As is often the case in science, this idea was initially the result of unexpected observations. The Italian physiologist Angelo Mosso first expressed the idea while studying pulsations of the living human brain that keep pace with the heartbeat (Mosso, 1881). These brain pulsations can be observed on the surface of the fontanelles in newborn children. Mosso believed that they reflected blood flow to the brain. He observed similar pulsations in an adult with a post-traumatic skull defect over the frontal lobes. While studying this subject, a peasant named Bertino, Mosso observed a sudden increase in the magnitude of the ‘brain’s heart-beats’ when the church bells signalled 12 o’clock, the time for a required prayer. The changes in brain pulsations occurred independently of any change in pulsations in the forearm.. (shrink)

This article addresses the question of the relevance of brain imaging to legal criteria that are behavioral, that is, that require evaluation of a defendant's actions or mental states. It begins with the legal standard for the admissibility of scientific and technical evidence. Then it considers the relevance of imaging to behavioral legal criteria. The problem is translating mechanistic neuroscience data into the law's folk psychological standards. It uses examples from the criminal law, but the analysis generalizes (...) to behavioral criteria in the civil law. The central question is, “How, precisely, does the proffered scan or data based on scanning answer the specific legal question it supposedly helps answer?” I conclude that, at present, brain imaging has little relevance to behavioral legal criteria. The final section takes note of a rampant disorder, brain overclaim syndrome, and offers a remedy, cognitive jurotherapy. (shrink)

Since the mid‐1980s, psychologists and neuroscientists have used brain imaging to test hypotheses about human thought processes and their neural instantiation. In just three decades, functional neuroimaging has been transformed from a crude clinical tool to a widely used research method for understanding the human brain and mind. Such rapidly achieved success is bound to evoke skepticism. A degree of skepticism toward new methods and ideas is both inevitable and useful in any field. It is especially valuable (...) in a science as young as cognitive neuroscience and its even younger siblings, social and affective neuroscience. Healthy skepticism encourages us to check our assumptions, recognize the limitations of our methods, and proceed thoughtfully. Skepticism itself, however, also must be examined.In this article, I review the most commonly voiced criticisms of functional neuroimaging. In the spirit of healthy skepticism, I will critically examine these criticisms themselves. Each contains at least a kernel of truth, although I will argue that in some cases the kernel has been overextended in ways that are inaccurate or misleading. (shrink)

The data discussed strongly suggest that neural imaging does not unduly sway judges and jurors; in fact, it is often counterproductive. The percentage of appellate cases in which the decision was favorable to defendants with brain scan data mirrored those of decisions without such proffered evidence. Moreover, fully two-thirds of the scans admitted were either inconclusive or showed normal brain structures. In decisions referencing brain scans, judges mentioned defendant behavior significantly more often than they referred to (...) the defendant’s brain. Finally, in the actual decisions themselves, judges often ignored relevant imaging data in favor of case precedent or misinterpreted the data so that they would fit with the judges’ initial reactions and opinions. (shrink)

The ability to image the human brain has provided a new perspective for neuropsychologists in their efforts to understand, diagnose, and treat insults to the human brain that might occur as the result of stroke, tumor, traumatic injury, degenerative disease, or errors in development. These new ®ndings are the major theme of this special issue. In our article, we consider brain networks that carry out the functions of attention. We outline several such networks that have been studied (...) in normal and pathological states. These include networks for orienting to sensory stimuli, for maintaining the alert state, and for orchestrating volitional control. (shrink)

To maximize brain plasticity after stroke, several rehabilitation strategies have been explored, including the use of intensive motor training, motor imagery, and action observation. Growing evidence of the positive impact of virtual reality (VR) techniques on recovery following stroke has been shown. However, most VR tools are designed to exploit active movement, and hence patients with low level of motor control cannot fully benefit from them. Consequently, the idea of directly training the central nervous system has been promoted by (...) utilizing motor-imagery (MI) based brain-computer interfaces (BCIs). To date, detailed information on which VR strategies lead to successful functional recovery is still largely missing, and very little is known about how to optimally integrate BCI and VR paradigms for stroke rehabilitation. The purpose of this study was to examine the efficacy of a BCI-VR system using a MI paradigm for post-stroke upper limb rehabilitation on functional assessments, and related changes in MI ability and brain imaging. To achieve this, a 60 years old male chronic stroke patient was recruited. The patient underwent a 3-week intervention in a clinical environment, resulting in 10 BCI-VR training sessions. The patient was assessed before and after intervention, as well as on a one-month follow-up, in terms of clinical scales and brain imaging using functional MRI (fMRI). Consistent with prior research, we found important improvements in upper extremity scores (Fugl-Meyer) and identified increases in brain activation measured by fMRI that suggest neuroplastic changes in brain motor networks. This study expands on the current body of evidence as more data are needed on the effect of this type of interventions not only on functional improvement but also through brain imaging to study the effect of the intervention on plasticity. (shrink)

Brain imaging technologies are increasingly used to find networks and brain regions that are specific to the functional realization of particular aspects of the self. In this paper, we aim to show how neuroscientific research and techniques could be used in the context of self-formation without treating them as representations of an inner realm. To do so, we show first how a Cartesian framework underlies the interpretation and usage of brain imaging technologies as functional evidence. (...) To illustrate how material-technological inventions and developments can have a significant and lasting impact on views of the self, we show how this framework was influenced by another technology: the camera obscura. Subsequently, we show that brain imaging technologies challenge the idea that privileged access to the self can be obtained merely through introspection, indicating a strong discontinuity between the Cartesian and the current neuroscientific framework. Building on these insights, we reframe the self in terms of self-formation. This view neither regards the brain as an independent realizer of aspects of the self, nor assumes that self-knowledge can be obtained through introspection. From this perspective, self-formation is realized throughcritical self-identification: instead of offering representational knowledge of an ‘inner self,’ the potential use of brain imaging technologies within this framework lies in their capacity to offer what we call ‘extrospective knowledge’ that pragmatically can contribute to self-formation. Brain imaging technologies contribute to this process because they foreground our neurophysiology, which helps to critically integrate biological aspects into self-formation. (shrink)

Our understanding of the cognitive functions of the human brain has tremendously benefited from the population functional Magnetic Resonance Imaging (fMRI) studies in the last three decades. The reliability and replicability of the fMRI results, however, have been recently questioned, which has been named the replication crisis. Sufficient statistical power is fundamental to alleviate the crisis, by either “going big,” leveraging big datasets, or by “going small,” densely scanning several participants. Here we reported a “going small” project implemented (...) in our department, the Bergen breakfast scanning club (BBSC) project, in which three participants were intensively scanned across a year. It is expected this kind of new data collection method can provide novel insights into the variability of brain networks, facilitate research designs and inference, and ultimately lead to the improvement of the reliability of the fMRI results. (shrink)

Fielding and Marwede attempt to lay down directions for an applied onto-psychiatry. According to their proposal, such an enterprise requires us to accept certain metaphysical and methodological claims about how brain and experience are related. To put it in one sentence, our critique is that we find their metaphysics questionable and their methodology clinically impracticable.A first fundamental problem for their project, as it is expressed in their paper, is that their overall aim is unclear. At least three different aims (...) might be read as motivating their efforts, here listed according to their strength:They aim to develop tools for the development of knowledge representational systems that can be used by .. (shrink)

Posner & Raichle's (1994) exciting, wonderfully illustrated book describes the past successes and future potential of the relatively noninvasive imaging of the nervous systems of living people. The focus has been on cognitive processes but there is no reason why emotional and motivational systems cannot also be tapped. Although the authors do not formally address such contentious issues as consciousness and the private experience of other species, imaging methods may hold promise for helping us to understand these phenomena, (...) as well as to integrate psychological processes into ethological and phylogenetic research in general. (shrink)

The approach adopted by Posner & Raichle in this book, with its strong emphasis on the cognitive level of description, is ideally suited to the study of psychotic illnesses. However, their discussion of depression and schizophrenia is based on a very small number of studies and involves ad hoc arguments derived largely from neuroanatomy. Their conclusions are almost certainly wrong.

If we assume that consciousness is a natural biological phenomenon in the brain, should we expect the current brain sensing and imaging methods to somehow ‘discover’ consciousness? The answer depends on the following points: What kind of level of biological organization do we assume consciousness to be? What would count as the discovery of this level? What are the levels of organization from which the currently available research instruments pick signals and acquire data? Single-cell recordings, PET, fMRI, (...) EEG and MEG pick different types of signals from different levels of organization in the brain. However, it seems they do not manage to pick signals that would allow the direct visualization and reconstruction of the higher levels of electrophysiological organization that are crucial for the empirical discovery and theoretical explanation of consciousness. The message of the present paper is twofold: On the one hand, we should be aware of the practical limitations of the currently available methods of cognitive neuroscience and not read too much into the images produced by them. On the other hand, the present limitations could be overcome by more sophisticated methods in the future. Therefore, contrary to what several philosophers have argued, the empirical discovery of consciousness in the brain is not impossible in principle. (shrink)

The practice of reductionism in science and philosophy includes attempts to essentialize human persons, which can lead to serious social problems. Reductionism is not necessary, as comparative philosophers and alternative-thinking scientists have shown.

Revonsuo argues that current brain imaging methods do not allow us to ‘discover’ consciousness. While all observational methods in science have limitations, consciousness is such a massive and pervasive phenomenon that we cannot fail to observe its effects at every level of brain organization: molecular, cellular, electrical, anatomical, metabolic, and even the ‘higher levels of electrophysiological organization that are crucial for the empirical discovery and theoretical explanation of consciousness’ . Indeed, the first major discovery in that respect (...) was Hans Berger's finding that scalp EEG is massively different between waking and deep sleep, already seven decades ago. We now have perhaps a dozen sophisticated methods for monitoring consciousness-related activity at multiple levels of brain observation. Theoretical progress has come quite rapidly. Recently, E.R. John and colleagues have made fundamental findings using Quantitative EEG, showing consistent brainwide changes as a result of several types of general anaesthetics . John has proposed a neuronal ‘field theory’ to account for those results. Another promising new method involves frequency-tagging of competing stimuli, allowing us to follow the activity of billions of neurons synchronized to particular conscious stimuli, always compared to very similar unconscious input . A fundamental theoretical account of such results has been provided by Tononi & Edelman . Such results and theory are in broad agreement with the cognitive theory proposed by Baars. (shrink)

Recent functional neuroimaging data, acquired in studies of religious experience, have been used to explain and justify religion and its origins. In this paper, we critique the move from describing brain activity associated with self-reported religious states, to explaining why there is religion at all. Toward that end, first we review recent neuroimaging findings on religious experience, and show how those results do not necessarily support a popular notion that religion has a primitive evolutionary origin. Importantly, we call into (...) question an assumption—key to that account of religion—concerning a conceptual relation between 'religion' and 'religious experience'. Then, we examine the conditions that must be met in order to explain religion on the basis of brain imaging findings. Moreover, we list principled reasons to be sceptical of explanations of religion in terms of the neural underpinnings of experiences. We conclude that the data from neuroimaging studies are not suited for an explanation of religion. (shrink)

The article addresses the potential impact of functional brain imaging (functional magnetic resonance imaging and positron-emission tomography) on surrogate end-of-life decision-making in light of varying state-law definitions of consciousness, some of which define awareness behaviorally and others functionally. The article concludes that, in light of admonitions by neuroscientists that functional brain imaging cannot yet replace behavioral evaluation to determine the existence of consciousness, state legislatures, courts and drafters of written advance healthcare directives should consider treating (...) behavior, not function, as the touchstone for end-of-life decision-making. (shrink)

This article critiques contemporary feminist theory's frequent ocularcentric readings of the anorexic body as a surface of cultural inscription or as a paradigmatic sign of the female body's alienation through sexual difference. In an initial speculative attempt to find a theoretical framework that might sustain a more generative and embodied account of anorexia, I read anorexia through Butler's theory of gender as psychic `incorporation' because she problematizes an interior/exterior topography of the subject. This Butlerian framework proves problematic because, by establishing (...) an association between visibly queer gender and subversion, it effectively designates as hegemonic any sense of gender as a felt interiority. In a second framework, I draw on Prosser's anti-ocularcentric reading of transsexual `body narratives' derived from Anzieu's theory of the `skin ego'. Filtering Butler's theory of melancholia through this skin ego framework, I find a theoretical space for anorexia as a transitional embodied subjectivity which both re-lives and relieves the melancholic trauma of gender. (shrink)

A unifying theory of general anesthetic-induced unconsciousness must explain the common mechanism through which various anesthetic agents produce unconsciousness. Functional-brain-imaging data obtained from 11 volunteers during general anesthesia showed specific suppression of regional thalamic and midbrain reticular formation activity across two different commonly used volatile agents. These findings are discussed in relation to findings from sleep neurophysiology and the implications of this work for consciousness research. It is hypothesized that the essential common neurophysiologic mechanism underlying anesthetic-induced unconsciousness is, (...) as with sleep-induced unconsciousness, a hyperpolarization block of thalamocortical neurons. A model of anesthetic-induced unconsciousness is introduced to explain how the plethora of effects anesthetics have on cellular functioning ultimately all converge on a single neuroanatomic/neurophysiologic system, thus providing for a unitary physiologic theory of narcosis related to consciousness. (shrink)

As one of the most compelling technologies for imaging the brain, functional MRI (fMRI) produces measurements and persuasive pictures of research subjects making cognitive judgments and even reasoning through difficult moral decisions. Even after centuries of studying the link between brain and behavior, this capability presents a number of novel significant questions. For example, what are the implications of biologizing human experience? How might neuroimaging disrupt the mysteries of human nature, spirituality, and personal identity? Rather than waiting (...) for an ethical agenda to emerge from some unpredictable combination of the concerns of ethicists and researchers, the attention of journalists, or after controversy is sparked by research that cannot be retracted, we queried key figures in bioethics and the humanities, neuroscience, media, industry, and patient advocacy in focus groups and interviews. We identified specific ethical, legal and social issues (ELSI) that highlight researcher obligations and the nonclinical impact of the technology at this new frontier. (shrink)

Deception is an all-too-common human activity, one that succeeds because we cannot always detect it in others. It complicates all sorts of human decision-making, including attributing guilt for criminal offenses. The law relies on human fact-finders to determine whether criminal defendants claiming innocence, as well as witnesses testifying about a case, are telling the truth. But the fallibility of human lie detection has fueled the search for a more accurate replacement. Scientists have developed new approaches to lie detection that use (...) a brain scanning technique called functional magnetic resonance imaging (fMRI) to evaluate whether someone is lying. In experimental settings, researchers have found .. (shrink)

Brain imaging is a persuasive visual rhetoric by which neuroscience is articulated as relevant to the construction and maintenance of desirable selves. In this essay, I describe how “brain-based self-help” literature disseminates neuroscientific vocabularies to public audiences. In this genre, brain images are an authoritative visual resource for translating neuroscience into a comprehensive program for living. I use Foucault’s discussion of biopower to describe the ways in which brain-based self-help literature enables self-constitution in a biosocial (...) age where health is a central means of communicating personal worth, social value and political order. The implications of this continuous self-fashioning are not limited to the personal realm but have important political consequences. (shrink)

This interview study investigates the short- and long-term implications of incidental findings detected through brain imaging on research participants’ lives and their surroundings. For this study, nine participants of the Rotterdam Scan Study with an incidental finding were approached and interviewed. When examining research participants’ narratives on the impact of the disclosure of incidental findings, the authors identified five sets of tensions with regard to motivations for and expectations of research participation, preferences regarding disclosure, short- and long-term impacts (...) and impacts on self and others. The paper shows: that the impact of incidental findings may be greater than participants at first let on; incidental findings can have significant effects on participants’ social environment; and participants may not feel prepared for disclosure even if incidental findings have been discussed during the informed consent process. The authors call for investigators to be aware of research participants’ experiences and these short- and long-term impacts when designing suitable courses of action for the detection and management of incidental findings in research settings. (shrink)

Thomas Mann's 'The Magic Mountain' conveys some insights into the distinction between images and reality. Like a prisoner in the Platonic cave, Hans Castorp is enslaved to images. His fascination for the X-ray images of the 'interior portrait,' especially of Clawdia Chauchat, may anticipate the current illusion that brain imaging may allow access to the minds of other persons, may draw their mental portraits. In Mann's novel, Director Behrens, the ardent materialist, anticipates such an illusion. It is only (...) the 'license of fiction,' however, that allows the narrator of this novel access to the minds of some of the characters. (AN PHL2239369) Subjects: BRAIN IMAGING; CINEMA; IDENTITY; IMAGE; METAPHYSICS; MIND; NARCISSISM; REALITY. (shrink)

This essay introduces a Focus section on “Neurohistory and History of Science” by distinguishing images of the brain as governor and as transducer: the former treat the brain as the executive control center of the body, the latter as an interface between the organism and reality at large. Most of the consternation expressed in the symposium about the advent of neurohistory derives from the brain-as-governor conception, which is rooted in a “biologistic” understanding of humanity that in recent (...) years has become bound up in various nefarious “neoliberal” political and economic agendas. However, given the sophisticated attitude that neurohistory’s leading champion, Daniel Smail, displays toward evolutionary theory’s potential impact on historical practice, he is perhaps better understood as part of the brain-as-transducer tradition. This tradition, largely suppressed in current representations of neuroscience, has a strong theological provenance, ultimately concerned with our becoming attuned to the divine frequency, not least by extending the powers of the human nervous system through technology. This essay sympathetically explores the implications of this perspective for historical practice. (shrink)