Thursday, March 26, 2015

Information overload is filter failure.

I pass on the following brief lucid piece by Jay Rosen.You might also have a look at Peder Zane's "In the Age of Information, Specializing to Survive."
Information Overload
We should retire the idea that goes by the name "information overload." It is no longer useful.
The Internet scholar Clay Shirky puts it well: "There's no such thing as information overload. There's only filter failure." If your filters are bad there is always too much to attend to, and never enough time. These aren't trends powered by technology. They are conditions of life.
Filters in a digital world work not by removing what is filtered out; they simply don't select for it. The unselected material is still there, ready to be let through by someone else's filter. Intelligent filters, which is what we need, come in three kinds:
A smart person who takes in a lot and tells you what you need to know. The ancient term for this is "editor." The front page of the New York Times still works this way.
An algorithm that sifts through the choices other smart people have made, ranks them, and presents you with the top results. That's how Google works— more or less.
A machine learning system that over time gets to know your interests and priorities and filters the world for you in a smarter and smarter way. Amazon uses systems like that. Here's the best definition of information that I know of: information is a measure of uncertainty reduced. It's deceptively simple. In order to have information, you need two things: an uncertainty that matters to us (we're having a picnic tomorrow, will it rain?) and something that resolves it (weather report.) But some reports create the uncertainty that is later to be solved.
Suppose we learn from news reports that the National Security Agency "broke" encryption on the Internet. That's information! It reduces uncertainty about how far the U.S. government was willing to go. (All the way.) But the same report increases uncertainty about whether there will continue to be a single Internet, setting us up for more information when that larger picture becomes clearer. So information is a measure of uncertainty reduced, but also of uncertainty created. Which is probably what we mean when we say: "well, that raises more questions than it answers."
Filter failure occurs not from too much information but from too much incoming "stuff" that neither reduces existing uncertainty nor raises questions that count for us. The likely answer is to combine the three types of filtering: smart people who do it for us, smart crowds and their choices, smart systems that learn by interacting with us as individuals. It's at this point that someone usually shouts out: what about serendipity? It's a fair point. We need filters that listen to our demands, but also let through what we have no way to demand because we don't know about it yet. Filters fail when they know us too well and when they don't know us well enough.

Wednesday, March 25, 2015

Expert listening to music alters gene transcription...So?

I can't resist comment on a piece generated by PsyBlog, "Classical Music's Surprising Effect on Genes Vital to Memory and Learning." ..."How 20 minutes of Mozart affects the expression of genes vital to learning, memory and more…" that points to work of Järvelä​ and collaborators, whose abstract states:
To verify whether listening to classical music has any effect on human transcriptome, we performed genome-wide transcriptional profiling from the peripheral blood of participants after listening to classical music (n = 48), and after a control study without music exposure (n = 15). As musical experience is known to influence the responses to music, we compared the transcriptional responses of musically experienced and inexperienced participants separately with those of the controls. Comparisons were made based on two subphenotypes of musical experience: musical aptitude and music education. In musically experienced participants, we observed the differential expression of 45 genes (27 up- and 18 down-regulated) and 97 genes (75 up- and 22 down-regulated) respectively based on subphenotype comparisons...
Apart from issues of control and sample sizes, there is the problem that almost distinctive behavior (athletic engagement, meditation, whatever, can be shown to alter genes transcription. Presenting a trained (versus a naive) person with stimuli in the trained area of expertise would be expected to alter the “transcriptome” to support the brain processing required for that expertise, regardless of what the area is (music, visual art, literature, athletics). We're a long way from being able to make much sense of or interpret the statements that conclude the abstract:
...the up-regulated genes are primarily known to be involved in the secretion and transport of dopamine, neuron projection, protein sumoylation, long-term potentiation and dephosphorylation. Down-regulated genes are known to be involved in ATP synthase-coupled proton transport, cytolysis, and positive regulation of caspase, peptidase and endopeptidase activities. One of the most up-regulated genes, alpha-synuclein (SNCA), is located in the best linkage region of musical aptitude on chromosome 4q22.1 and is regulated by GATA2, which is known to be associated with musical aptitude. Several genes reported to regulate song perception and production in songbirds displayed altered activities, suggesting a possible evolutionary conservation of sound perception between species. We observed no significant findings in musically inexperienced participants.
To be sure, primitive first steps such as these are useful, but it is unfortunate when their popularization by blogs vying for attention proceeds to overinterpretation and hyperbole.

Tuesday, March 24, 2015

Thought for the day: America devolving into a plutocracy...

A clip from Tom Engelhardt writing in Salon:
...let me be as clear as I can be about something that seems murky indeed: this period doesn’t represent a version, no matter how perverse or extreme, of politics as usual; nor is the 2016 campaign an election as usual; nor are we experiencing Washington as usual. Put together our 1% elections, the privatization of our government, the de-legitimization of Congress and the presidency, as well as the empowerment of the national security state and the U.S. military, and add in the demobilization of the American public (in the name of protecting us from terrorism), and you have something like a new ballgame.
While significant planning has been involved in all of this, there may be no ruling pattern or design. Much of it may be happening in a purely seat-of-the-pants fashion. In response, there has been no urge to officially declare that something new is afoot, let alone convene a new constitutional convention. Still, don’t for a second think that the American political system isn’t being rewritten on the run by interested parties in Congress, our present crop of billionaires, corporate interests, lobbyists, the Pentagon, and the officials of the national security state.
Out of the chaos of this prolonged moment and inside the shell of the old system, a new culture, a new kind of politics, a new kind of governance is being born right before our eyes. Call it what you want. But call it something. Stop pretending it’s not happening.

Transcranial direct current stimulation increases propensity to mind-wander

Alelrod et al. show that stimulation of the frontal lobe areas involved in our attentional network increase mind wandering associated with our default mode network (see previous posts here and here for discussion of these networks).
Humans mind-wander quite intensely. Mind wandering is markedly different from other cognitive behaviors because it is spontaneous, self-generated, and inwardly directed (inner thoughts). However, can such an internal and intimate mental function also be modulated externally by means of brain stimulation? Addressing this question could also help identify the neural correlates of mind wandering in a causal manner, in contrast to the correlational methods used previously (primarily functional MRI). In our study, participants performed a monotonous task while we periodically sampled their thoughts to assess mind wandering. Concurrently, we applied transcranial direct current stimulation (tDCS). We found that stimulation of the frontal lobes [anode electrode at the left dorsolateral prefrontal cortex (DLPFC), cathode electrode at the right supraorbital area], but not of the occipital cortex or sham stimulation, increased the propensity to mind-wander. These results demonstrate for the first time, to our knowledge, that mind wandering can be enhanced externally using brain stimulation, and that the frontal lobes play a causal role in mind-wandering behavior. These results also suggest that the executive control network associated with the DLPFC might be an integral part of mind-wandering neural machinery.

Monday, March 23, 2015

Impulse control with weak currents applied to the head - a new therapy?

Spieser et al. apply a very small current (1 milliamp) using the electrodes shown in the figure to slightly hyperpolarize, or make less excitable, the supplementary motor cortex, and find that this inhibits impulsive responses in a reaction time task.
To err is human. However, an inappropriate urge does not always result in error. Impulsive errors thus entail both a motor system capture by an urge to act and a failed inhibition of that impulse. Here we show that neuromodulatory electrical stimulation of the supplementary motor complex in healthy humans leaves action urges unchanged but prevents them from turning into overt errors. Subjects performed a choice reaction-time task known to trigger impulsive responses, leading to fast errors that can be revealed by analyzing accuracy as a function of poststimulus time. Yet, such fast errors are only the tip of the iceberg: electromyography (EMG) revealed fast subthreshold muscle activation in the incorrect response hand in an even larger proportion of overtly correct trials, revealing covert response impulses not discernible in overt behavior. Analyzing both overt and covert response tendencies enables to gauge the ability to prevent these incorrect impulses from turning into overt action errors. Hyperpolarizing the supplementary motor complex using transcranial direct current stimulation (tDCS) preserves action impulses but prevents their behavioral expression. This new combination of detailed behavioral, EMG, and tDCS techniques clarifies the neurophysiology of impulse control, and may point to avenues for improving impulse control deficits in various neurologic and psychiatric disorders.

Friday, March 20, 2015

Losing the music - Aging affects the perception of musical harmony

An open access article from Bones and Plack:
When two musical notes with simple frequency ratios are played simultaneously, the resulting musical chord is pleasing and evokes a sense of resolution or “consonance”. Complex frequency ratios, on the other hand, evoke feelings of tension or “dissonance”. Consonance and dissonance form the basis of harmony, a central component of Western music. In earlier work, we provided evidence that consonance perception is based on neural temporal coding in the brainstem (Bones et al., 2014). Here, we show that for listeners with clinically normal hearing, aging is associated with a decline in both the perceptual distinction and the distinctiveness of the neural representations of different categories of two-note chords. Compared with younger listeners, older listeners rated consonant chords as less pleasant and dissonant chords as more pleasant. Older listeners also had less distinct neural representations of consonant and dissonant chords as measured using a Neural Consonance Index derived from the electrophysiological “frequency-following response.” The results withstood a control for the effect of age on general affect, suggesting that different mechanisms are responsible for the perceived pleasantness of musical chords and affective voices and that, for listeners with clinically normal hearing, age-related differences in consonance perception are likely to be related to differences in neural temporal coding.
By the way, the same issue of J. Neuroscience has another interesting article by Vaden et al. on noting cingulo-opercular cortical activity that predicts how well older adults recognize speech in noise.

Thursday, March 19, 2015

Thomas Metzinger on (the absence of) our conscious agency.

The edge.org question for 2014 was “What scientific idea is ready for retirement?” I want to pass on a few clips from Metzinger’s lucid brief contribution, and strongly suggest that you read it.
Thinking is not something you do. Most of the time it is something that happens to you. Cutting-edge research on the phenomenon of Mind Wandering now clearly shows how almost all of us, for more than two thirds of their conscious lifetime, are not in control of their conscious thought processes…The sudden loss of inner autonomy—which all of us experience many hundred times every day—seems to be based on a cyclically recurring process in the brain. The ebb and flow of autonomy and meta-awareness might well be a kind of attentional see-sawing between our inner and outer worlds, caused by a constant competition between the brain networks underlying spontaneous subpersonal thinking and goal-oriented cognition.
Interestingly, the neural correlate of non-autonomous conscious thought overlaps to a considerable degree with ongoing activity in what neuroscientists call the "default mode network". I think that one global function of Mind Wandering may be "autobiographical self-model maintenance". Mind Wandering creates an adaptive form of self-deception, namely, an illusion of personal identity across time. It helps to maintain a fictional "self" that then lays the foundation for important achievements like reward prediction or delay discounting. As a philosopher, my conceptual point is that only if an organism simulates itself as being one and the same across time will it be able to represent reward events or the achievement of goals as a fulfillment of its own goals, as happening to the same entity. I like to call this the "Principle of Virtual Identity Formation": Many higher forms of intelligence and adaptive behavior, including risk management, moral cognition and cooperative social behavior, functionally presuppose a self-model that portrays the organism as a single entity that endures over time. Because we are really only cognitive systems, complex processes without any precise identity criteria, the formation of an (illusory) identity across time can only be achieved on a virtual level, for example through the creation of an automatic narrative. This could be the more fundamental and overarching computational goal of mind wandering, and one it may share with dreaming. If I am right, the default mode of the autobiographical self-modeling constructs a domain-general functional platform enabling long-term motivation and future planning.
Mental autonomy (and how it can be improved) will be one of the hottest topics for the future. There is even a deep link between mental and political autonomy—you cannot sustain one without the other. Because there are not only bodily actions, but also mental actions, autonomy has to do with freedom—and in one of the deepest and most fundamental senses of the word. But the ability to act autonomously implies not only reasons, arguments and rationality. Much more fundamentally it refers to the capacity to wilfully inhibit, suspend, or terminate our own actions—bodily, socially, or mentally. The breakdown of this ability is what we call Mind Wandering.

Wednesday, March 18, 2015

Hunger promotes acquisition of nonfood objects

Here is a fascinating nugget of information from Xu et al.:
Hunger motivates people to consume food, for which finding and acquiring food is a prerequisite. We test whether the acquisition component spills over to nonfood objects: Are hungry people more likely to acquire objects that cannot satisfy their hunger? Five laboratory and field studies show that hunger increases the accessibility of acquisition-related concepts and the intention to acquire not only food but also nonfood objects. Moreover, people act on this intention and acquire more nonfood objects (e.g., binder clips) when they are hungry, both when these items are freely available and when they must be paid for. However, hunger does not influence how much they like nonfood objects. We conclude that a basic biologically based motivation can affect substantively unrelated behaviors that cannot satisfy the motivation. This presumably occurs because hunger renders acquisition-related concepts and behaviors more accessible, which influences decisions in situations to which they can be applied.

Tuesday, March 17, 2015

What can music ensembles tell us about social cognition and interaction?

D'Ausilio et al. note that most studies of how cognition and brain organization is shaped by social factors have used subjects in defined experimental settings, rather than natural ones. The problem is that experimental rigor is inversely related to ecological naturalness. They suggest that musical ensemble performance offers a promising solution for balancing the trade-off between experimental control and ecological naturalness. Here is their list of features that make music a promising avenue for social cognition research.
Ecological validity: ensemble musicians participate in a socially-relevant interaction, obviating the need to introduce an artificial task, manipulation, or training to induce a social context.
Motivational factors: motivation is an inherent part of music and hence it is not necessary to employ extrinsic techniques (monetary compensation, competition, or response-contingent reward) to trigger the emergence of interaction.
Generalizability: musicality is a widespread human capacity, enabling almost everyone to sing together with others and to produce rhythms through body movements (e.g., simple drumming or dance).
Multi-level interactivity: information transfer is both continuous (body movements) and discrete (musical sounds). Furthermore, musicians’ movements that function to produce sound on an instrument can be dissociated from those that are not necessary for sound production (e.g., ancillary movements that serve expressive functions) [15]. These properties allow the investigation of the multi-level communicative functions (hierarchical musical structure and expressive intentions) of musical social interaction.
Temporal dependencies: information transfer is not only based on the content of an individual's instantaneous response but also is affected by rhythmic timing, tempo, and the degree of interpersonal synchrony.
Formal description of interaction: the musical score is a script-like description of the interaction that the experimenter can manipulate to control the emergence of social structures and different roles (e.g., leader vs follower) played by each musician.
The authors briefly review research that that traverses a continuum of ecological interaction. These classes include an individual interacting with a recording, a computer-controlled virtual partner that responds to the individual, another individual in a duo, multiple individuals in mixed ensembles (extending to large orchestras), and others in the presence of a live audience.

Monday, March 16, 2015

The happiness gap between conservatives and liberals debunked

Given the number of MindBlog posts that have passed on research supporting the standard orthodoxy that conservatives are happier than liberals, I immediately pass on this abstract from Wojcik et al. reporting experiments that prove just the opposite (See also the NYTimes summary of this work.)
Research suggesting that political conservatives are happier than political liberals has relied exclusively on self-report measures of subjective well-being. We show that this finding is fully mediated by conservatives’ self-enhancing style of self-report (study 1; N = 1433) and then describe three studies drawing from “big data” sources to assess liberal-conservative differences in happiness-related behavior (studies 2 to 4; N = 4936). Relative to conservatives, liberals more frequently used positive emotional language in their speech and smiled more intensely and genuinely in photographs. Our results were consistent across large samples of online survey takers, U.S. politicians, Twitter users, and LinkedIn users. Our findings illustrate the nuanced relationship between political ideology, self-enhancement, and happiness and illuminate the contradictory ways that happiness differences can manifest across behavior and self-reports.

Friday, March 13, 2015

Emotional foundations of cognitive control.

Cognitive control (self control, self regulation) allows us to restrain from temptations of the present to focus on more long term goals. Emotion is usually cast as its enemy. Inzlicht et al. suggest, however, that cognitive control rises from and is dependent on emotional primitives, in particular the negative affect associated with conflicting stimuli.  Their highlights and abstract:
• Cognitive control can be understood as an emotional process. 
• Negative affect is an integral, instantiating aspect of cognitive control. 
• Cognitive conflict has an emotional cost, evoking a host of emotional primitives. 
• Emotion is not an inert byproduct of conflict, but helps in recruiting control.
Often seen as the paragon of higher cognition, here we suggest that cognitive control is dependent on emotion. Rather than asking whether control is influenced by emotion, we ask whether control itself can be understood as an emotional process. Reviewing converging evidence from cybernetics, animal research, cognitive neuroscience, and social and personality psychology, we suggest that cognitive control is initiated when goal conflicts evoke phasic changes to emotional primitives that both focus attention on the presence of goal conflicts and energize conflict resolution to support goal-directed behavior. Critically, we propose that emotion is not an inert byproduct of conflict but is instrumental in recruiting control. Appreciating the emotional foundations of control leads to testable predictions that can spur future research.

Thursday, March 12, 2015

Observing brain correlates of self affirmation and its healthy consequences

From the introduction of Falk et. al. :
...according to the World Health Organization, “60% to 85% of people in the world—from both developed and developing countries—lead sedentary lifestyles”...self-relevant health messages can be perceived to be threatening to self-worth and are often met with resistance...Affirmation of core values (self-affirmation) preceding potentially threatening messages can reduce resistance and increase intervention effectiveness Therefore, one way to increase receptivity to messages discouraging sedentary behavior among sedentary individuals may be to affirm their core values in unrelated domains before exposure to the messages.
We focused on the brain’s ventromedial prefrontal cortex (VMPFC) during exposure to potentially threatening health messages emphasizing the need to be more active and less sedentary in a group of sedentary adults. VMPFC is the most common region implicated in self-related processing and is also a key region, along with the ventral striatum, implicated in positive valuation of stimuli.
Their abstract:
Health communications can be an effective way to increase positive health behaviors and decrease negative health behaviors; however, those at highest risk are often most defensive and least open to such messages. For example, increasing physical activity among sedentary individuals affects a wide range of important mental and physical health outcomes, but has proven a challenging task. Affirming core values (i.e., self-affirmation) before message exposure is a psychological technique that can increase the effectiveness of a wide range of interventions in health and other domains; however, the neural mechanisms of affirmation’s effects have not been studied. We used functional magnetic resonance imaging (fMRI) to examine neural processes associated with affirmation effects during exposure to potentially threatening health messages. We focused on an a priori defined region of interest (ROI) in ventromedial prefrontal cortex (VMPFC), a brain region selected for its association with self-related processing and positive valuation. Consistent with our hypotheses, those in the self-affirmation condition produced more activity in VMPFC during exposure to health messages and went on to increase their objectively measured activity levels more. These findings suggest that affirmation of core values may exert its effects by allowing at-risk individuals to see the self-relevance and value in otherwise-threatening messages.

(A) VMPFC ROI. (B) Participants who showed higher levels of VMPFC activity during exposure to health messages subsequently decreased their sedentary behavior more in the month following the scan, controlling for baseline sedentary behavior and demographics.

Wednesday, March 11, 2015

Spontaneous emergence of shared social conventions.

Centola and Baronchelli have recruited subjects from the world wide web to play a live game. They demonstate that myopic players interacting in sequential pairs in social networks can unintentionally create percolating cascades of coordinated behavior. Their findings demonstrate that social conventions can spontaneously evolve in large human populations without any institutional mechanisms to facilitate the process. The results highlight the causal role played by network connectivity in the dynamics of establishing shared norms. I pass on first the abstract and then sections on experimental design and methods.
How do shared conventions emerge in complex decentralized social systems? This question engages fields as diverse as linguistics, sociology, and cognitive science. Previous empirical attempts to solve this puzzle all presuppose that formal or informal institutions, such as incentives for global agreement, coordinated leadership, or aggregated information about the population, are needed to facilitate a solution. Evolutionary theories of social conventions, by contrast, hypothesize that such institutions are not necessary in order for social conventions to form. However, empirical tests of this hypothesis have been hindered by the difficulties of evaluating the real-time creation of new collective behaviors in large decentralized populations. Here, we present experimental results—replicated at several scales—that demonstrate the spontaneous creation of universally adopted social conventions and show how simple changes in a population’s network structure can direct the dynamics of norm formation, driving human populations with no ambition for large scale coordination to rapidly evolve shared social conventions.
Experimental Design
Each live game, or experimental “trial,” consisted of a set of participants, a specific social network structure, and a prespecified number of rounds to play. When participants arrived to play the game, they were randomly assigned to positions within a social network. In a given round of the game, two network “neighbors” were chosen at random to play with one another. Both players simultaneously assigned names to a pictured object (i.e., a human face), blindly attempting to coordinate in the real-time exchange of naming choices. If the players coordinated on a name, they were rewarded with a successful payment; if they failed, they were penalized (Materials and Methods). After a single round, the participants could see only the choices that they and their partner had made, and their cumulative pay was updated accordingly. They were then randomly assigned to play with a new neighbor in their social network, and a new round would begin. The object that participants were trying to name was the same for the entire duration of the game, and for all members of the game. Participants in the study did not have any information about the size of the population that was attempting to coordinate nor about the number of neighbors to whom they were connected.
Materials and Methods
Participants in the study were recruited at large from the World Wide Web. When participants arrived to play a game, they were randomly assigned to an experimental condition (i.e., a social network) and then randomly assigned to a position within that social network. In a given round of the game, two network neighbors were chosen at random to play with one another. Both players simultaneously assigned names to a pictured object (e.g., a human face), blindly attempting to coordinate in the real-time exchange of naming choices. If the players coordinated on a name, they were rewarded with a successful payment ($0.50); if they failed, they were penalized (–$0.25). (Participants could not go into debt, so failures did not incur a penalty if a participant had a balance of $0.) After a single round, the participants could see only the choices that they and their partner had made, and their cumulative pay was updated accordingly. They were then randomly assigned to play with a new neighbor in their social network, and a new round would begin. The object that participants were trying to name was the same for the entire duration of the game and for all members of the game. An experimental trial concluded when all members completed the specified number of rounds. Participants did not have any information about the size of the population nor about the number of neighbors to whom they were connected nor even about which individuals they were interacting with in a given round. We explored the dynamics of convention formation over different network sizes between 24 and 96 and degrees of social connectedness. However, the controls within the experimental design ensured that the informational resources provided to subjects were identical across all conditions of the study.

Tuesday, March 10, 2015

Predictions and the brain: how musical sounds become rewarding

I want to point to the review article in Trends in Cognitive Science by Salimpoor, Zatorre, and collaborators  that outlines brain mechanisms underlying the pleasure we can feel on listening to music. (Motivated readers can request a copy of the article from me.)
•Dopamine release in mesolimbic reward circuits leads to reinforcement tied to predictions and outcomes. 
•Musical pleasure involves complex interactions between dopamine systems and cortical areas. 
•Individual variability in superior temporal cortex may explain varied musical preferences. 
•Cognitive, auditory, affective, and reward circuits interact to make music pleasurable. Music has always played a central role in human culture. 
The question of how musical sounds can have such profound emotional and rewarding effects has been a topic of interest throughout generations. At a fundamental level, listening to music involves tracking a series of sound events over time. Because humans are experts in pattern recognition, temporal predictions are constantly generated, creating a sense of anticipation. We summarize how complex cognitive abilities and cortical processes integrate with fundamental subcortical reward and motivation systems in the brain to give rise to musical pleasure. This work builds on previous theoretical models that emphasize the role of prediction in music appreciation by integrating these ideas with recent neuroscientific evidence.
(added note.... I just realized that I am repeating mention of the same article I pointed to in my more thorough Feb. 13 post! I guess the 72 year old brain is getting a bit forgetful.)

Monday, March 09, 2015

Hugging can make you less likely to catch a virus cold.

Daily social stress is known to correlate with susceptibility to cold virus infection. Cohen et al. ask whether social support and the actual receipt of physical touch during daily life—being hugged—attenuate the association of interpersonal stressors (social conflict) with subsequent risk for infection, cold signs, and clinical disease in response to an experimentally administered cold virus. They find, not surprisingly, that the answer is yes, consistent with numerous studies that have shown that social support boosts immune function. Here is their abstract:
Perceived social support has been hypothesized to protect against the pathogenic effects of stress. How such protection might be conferred, however, is not well understood. Using a sample of 404 healthy adults, we examined the roles of perceived social support and received hugs in buffering against interpersonal stress-induced susceptibility to infectious disease. Perceived support was assessed by questionnaire, and daily interpersonal conflict and receipt of hugs were assessed by telephone interviews on 14 consecutive evenings. Subsequently, participants were exposed to a virus that causes a common cold and were monitored in quarantine to assess infection and illness signs. Perceived support protected against the rise in infection risk associated with increasing frequency of conflict. A similar stress-buffering effect emerged for hugging, which explained 32% of the attenuating effect of support. Among infected participants, greater perceived support and more-frequent hugs each predicted less-severe illness signs. These data suggest that hugging may effectively convey social support.

Friday, March 06, 2015

Human language reveals a universal positivity bias

Dodds et al. have constructed 24 corpora (collections of writing) spread across 10 languages: English, Spanish, French, German, Brazilian Portuguese, Korean, Chinese (Simplified), Russian, Indonesian, and Arabic, including books, news outlets, social media, the, television and movie subtitles, and music lyrics. They note the most commonly used words, and how those words are perceived by individuals (on a happiness scale of 1-9) to provide a clear confirmation of the Pollyanna hypothesis suggested in 1969 by Boucher and Osgood - that there is a universal positivity bias in human communication. The authors illustrate the use of their "hedonometer", a language-based instrument for measuring expressed happiness, by constructing “happiness time series” for three famous works of literature, evaluated in their original languages of English, Russian, and French, respectively: Melville’s Moby Dick, Dostoyevsky’s Crime and Punishment, and Dumas’ The Count of Monte Cristo. Their abstract:
Using human evaluation of 100,000 words spread across 24 corpora in 10 languages diverse in origin and culture, we present evidence of a deep imprint of human sociality in language, observing that (i) the words of natural human language possess a universal positivity bias, (ii) the estimated emotional content of words is consistent between languages under translation, and (iii) this positivity bias is strongly independent of frequency of word use. Alongside these general regularities, we describe interlanguage variations in the emotional spectrum of languages that allow us to rank corpora. We also show how our word evaluations can be used to construct physical-like instruments for both real-time and offline measurement of the emotional content of large-scale texts.

Thursday, March 05, 2015

Chickens count from the left, just like us!

Rugani et. al. show (Brugger's summary) that
...3-day old chicks associate small numerosities with the left side, and large ones with the right side, of a given space. The results show that newborn chicks can understand both relative and absolute quantities, and also suggest that the brain may be prewired in how it relates numbers to space. The work casts doubt on the importance of language and symbolic thought for the ability to represent discrete quantities larger than 3 and to develop a sense of numerical order and counting routines. Field studies of avian behavior have previously documented this ability in adult birds.
Abstract:
Humans represent numbers along a mental number line (MNL), where smaller values are located on the left and larger on the right. The origin of the MNL and its connections with cultural experience are unclear: Pre-verbal infants and nonhuman species master a variety of numerical abilities, supporting the existence of evolutionary ancient precursor systems. In our experiments, 3-day-old domestic chicks, once familiarized with a target number (5), spontaneously associated a smaller number (2) with the left space and a larger number (8) with the right space. The same number (8), though, was associated with the left space when the target number was 20. Similarly to humans, chicks associate smaller numbers with the left space and larger numbers with the right space.
More from Brugger's summary:
A more specific insight from Rugani et al.'s study is that a chick's sense of numerical order is tightly coupled with its sense of space: “More than” is equivalent to “to the right of.” This leads to a left-to-right directionality in the mapping of numbers to space—a finding that puts several previous proposals for the origin of mental number lines into perspective. One reason why researchers have assumed that this kind of numerical mapping is an invention of the human mind is its cultural modification. In cultures with a left-to-right reading and writing direction, the number line expands from left to right, but cultures with an opposite directional handling of script align numbers from right to left. Obviously, reading/writing direction cannot be the ultimate cause of directionality, nor can finger-counting habits. Presumably, the predominant role of the right hemisphere for numerical ordering biases initial attention to the left side of both physical and number space. Together with a preference for increasing over decreasing order—already apparent in 4-month-old human infants—the biological default of a number line would point from left to right.

Wednesday, March 04, 2015

The high from nicotine depends on whether you think it is there.

Fascinating observations from Gu et al.:
Significance
Nicotine is the primary addictive substance in tobacco, which stimulates neural pathways mediating reward processing. However, pure biochemical explanations are not sufficient to account for the difficulty in quitting and remaining smoke-free among smokers, and in fact cognitive factors are now considered to contribute critically to addiction. Using model-based functional neuroimaging, we show that smokers’ prior beliefs about nicotine specifically impact learning signals defined by principled computational models of mesolimbic dopamine systems. We further demonstrate that these specific changes in neural signaling are accompanied by measurable changes in smokers’ choice behavior. Our findings suggest that subjective beliefs can override the physical presence of a powerful drug like nicotine by modulating learning signals processed in the brain’s reward system.
Abstract
Little is known about how prior beliefs impact biophysically described processes in the presence of neuroactive drugs, which presents a profound challenge to the understanding of the mechanisms and treatments of addiction. We engineered smokers’ prior beliefs about the presence of nicotine in a cigarette smoked before a functional magnetic resonance imaging session where subjects carried out a sequential choice task. Using a model-based approach, we show that smokers’ beliefs about nicotine specifically modulated learning signals (value and reward prediction error) defined by a computational model of mesolimbic dopamine systems. Belief of “no nicotine in cigarette” (compared with “nicotine in cigarette”) strongly diminished neural responses in the striatum to value and reward prediction errors and reduced the impact of both on smokers’ choices. These effects of belief could not be explained by global changes in visual attention and were specific to value and reward prediction errors. Thus, by modulating the expression of computationally explicit signals important for valuation and choice, beliefs can override the physical presence of a potent neuroactive compound like nicotine. These selective effects of belief demonstrate that belief can modulate model-based parameters important for learning. The implications of these findings may be far ranging because belief-dependent effects on learning signals could impact a host of other behaviors in addiction as well as in other mental health problems.

Tuesday, March 03, 2015

Immune cells drive resilience to stress.

Evidence has been accumulating recently for back and forth interactions between the brain and immune system. Brachman et al. have now made the observation that lymphocytes isolated from stressed out mice, when transferred to naive mice, reduce anxiety and depression like behaviors in the naive mice. It would be interesting to see if a similar sort of transfer in humans had the same effect.
We examined whether cells of the adaptive immune system retain the memory of psychosocial stress and thereby alter mood states and CNS function in the host. Lymphocytes from mice undergoing chronic social defeat stress or from unstressed control mice were isolated and adoptively transferred into naive lymphopenic Rag2−/− mice. Changes in affective behavior, hippocampal cell proliferation, microglial activation states, and blood cytokine levels were examined in reconstituted stress-naive mice. The mice receiving lymphocytes from defeated donors showed less anxiety, more social behavior, and increased hippocampal cell proliferation compared with those receiving no cells or cells from unstressed donors. Mice receiving stressed immune cells had reduced pro-inflammatory cytokine levels in the blood relative to the other groups, an effect opposite to the elevated donor pro-inflammatory cytokine profile. Furthermore, mice receiving stressed immune cells had microglia skewed toward an anti-inflammatory, neuroprotective M2-like phenotype, an effect opposite the stressed donors' M1-like pro-inflammatory profile. However, stress had no effect on lymphocyte surface marker profiles in both donor and recipient mice. The data suggest that chronic stress-induced changes in the adaptive immune system, contrary to conferring anxiety and depressive behavior, protect against the deleterious effects of stress. Improvement in affective behavior is potentially mediated by reduced peripheral pro-inflammatory cytokine load, protective microglial activity, and increased hippocampal cell proliferation. The data identify the peripheral adaptive immune system as putatively involved in the mechanisms underlying stress resilience and a potential basis for developing novel rapid-acting antidepressant therapies.

Monday, March 02, 2015

MindStuff: A Guide for the Curious User

When I am trying to collect together some ideas to form a lecture or longer piece of work, I frequently think “Haven’t I seen that before?” …. and sure enough I find the ideas better put together in a previous essay I’ve done than in my current effort. I’ve just gone back and read through my 2005 web essay: MindStuff: A guide for the curious user. My reaction is the same as when last summer’s Chaos seminar group discussed the last chapter of my Biology of Mind Book. I think to myself, “Did I really write this? This is good stuff…” While there are a number of places I would tweak and update the text, the MindStuff essay still provides fundamental and useful information, particularly the “The Guide” section that starts halfway through the essay. The purpose of this post is just to point to the text.