A brief post to point to an engaging article in The New Yorker by Lizzie Widdicombe that describes the efforts of Andy Puddicombe and others to bring meditation and mindfulness techniques to digital burnouts, expanding the definition of success beyond money and power to include well-being, wonder, wisdom, giving...etc.
Sunday, July 05, 2015
Friday, July 03, 2015
Here's an interesting bit. de Groot et al. obtained armpit sweat from 12 young Caucasian heterosexual men in three consecutive sessions (with fear-inducing, happiness-inducing, or neutral film clips), separated by a week's interval. 36 female Caucasian undergraduates served as "receivers" of the odor stimuli. Exposure to sweat from happy senders elicited a happier facial expression than did sweat from fearful or neutral senders; further, sweat from happy senders elicited a more global processing style relative to sweat from fearful senders. Here is their abstract:
It is well known that feelings of happiness transfer between individuals through mimicry induced by vision and hearing. The evidence is inconclusive, however, as to whether happiness can be communicated through the sense of smell via chemosignals. As chemosignals are a known medium for transferring negative emotions from a sender to a receiver, we examined whether chemosignals are also involved in the transmission of positive emotions. Positive emotions are important for overall well-being and yet relatively neglected in research on chemosignaling, arguably because of the stronger survival benefits linked with negative emotions. We observed that exposure to body odor collected from senders of chemosignals in a happy state induced a facial expression and perceptual-processing style indicative of happiness in the receivers of those signals. Our findings suggest that not only negative affect but also a positive state (happiness) can be transferred by means of odors.
Thursday, July 02, 2015
Why are there more than 2 million cat videos on YouTube with an average of 12,000 views per clip? Myrick surveyed ~ 7,000 internet users to find that in general people felt less anxious, annoyed or sad after watching the clips, with an emotional payoff that was stronger than feeling of guilt over procrastinating. And, it certainly is cheaper than paying a shrink! Here is the abstract, which gives you an idea of the waffling nature of the text:
Anecdotes abound about the frequent use of the Internet to view cat-related media. Yet, research has yet to seriously address this popular culture phenomenon rooted largely in social media platforms. It is possible that viewing of online cat media improves mood, but this activity may also foster negative outcomes linked to using the Internet for procrastination. The present survey of Internet users (N = 6795) explored the correlates of viewing “Internet cats,” motivations for consuming this media, and its potential effects on users. It also tested a conceptual model predicting enjoyment as a function of the relationships between procrastination, guilt, and happiness. Results reveal significant relationships between viewing and personality types and demonstrate conceptual nuances related to the emotional benefits of watching Internet cats.I can't resist throwing in a cat video as a bonus:
Wednesday, July 01, 2015
Amazing. Now we are going to start treating normal aging as a disease? Maybe not as crazy as it sounds. Some clips from a review by Hayden:
Current treatments for diseases related to ageing “just exchange one disease for another”, says physician Nir Barzilai of the Albert Einstein College of Medicine in New York. That is because people treated for one age-related disease often go on to die from another relatively soon thereafter. “What we want to show is that if we delay ageing, that’s the best way to delay disease.”
Barzilai and other researchers plan to test that notion in a clinical trial called Targeting Aging with Metformin, or TAME. They will give the drug metformin to thousands of people who already have one or two of three conditions — cancer, heart disease or cognitive impairment — or are at risk of them. People with type 2 diabetes cannot be enrolled because metformin is already used to treat that disease. The participants will then be monitored to see whether the medication forestalls the illnesses they do not already have, as well as diabetes and death.
On 24 June, researchers will try to convince FDA officials that if the trial succeeds, they will have proved that a drug can delay ageing. That would set a precedent that ageing is a disorder that can be treated with medicines, and perhaps spur progress and funding for ageing research.
The TAME test is for metformin, which suppresses glucose production by the liver and increases sensitivity to insulin. The drug has been used for more than 60 years and is safe and prolongs healthy life and lifespan in worms and in some mouse strains. Data also suggest that it could delay heart disease, cancer, cognitive decline and death in people with diabetes. Plans call for the trial to enrol 3,000 people aged 70–80 years at roughly 15 centres around the United States. The trial will take 5–7 years and cost US$50 million, Barzilai estimates, although it does not yet have funding.
Tuesday, June 30, 2015
Ramirez et al. make the fascinating observation that depressive-like stress responses in mice can be acutely suppressed through artificial reactivation of a small population of neurons that had previously been activated by a positive experience - these cells apparently being the physical substrate, or engram, of the positive memory. This suggests a fundamental explanation for why eliciting the recall of pleasant memories can sometimes be an effective psychotherapeutic technique for relieving stress, lack of motivation, or anhedonia in humans.
Stress is considered a potent environmental risk factor for many behavioural abnormalities, including anxiety and mood disorders. Animal models can exhibit limited but quantifiable behavioural impairments resulting from chronic stress, including deficits in motivation, abnormal responses to behavioural challenges, and anhedonia. The hippocampus is thought to negatively regulate the stress response and to mediate various cognitive and mnemonic aspects of stress-induced impairments, although the neuronal underpinnings sufficient to support behavioural improvements are largely unknown. Here we acutely rescue stress-induced depression-related behaviours in mice by optogenetically reactivating dentate gyrus cells that were previously active during a positive experience. A brain-wide histological investigation, coupled with pharmacological and projection-specific optogenetic blockade experiments, identified glutamatergic activity in the hippocampus–amygdala–nucleus-accumbens pathway as a candidate circuit supporting the acute rescue. Finally, chronically reactivating hippocampal cells associated with a positive memory resulted in the rescue of stress-induced behavioural impairments and neurogenesis at time points beyond the light stimulation. Together, our data suggest that activating positive memories artificially is sufficient to suppress depression-like behaviours and point to dentate gyrus engram cells as potential therapeutic nodes for intervening with maladaptive behavioural states.
Monday, June 29, 2015
I can't resist passing on a few selected clips from Anthony Lane's review of the new Pixar Movie, "Inside Out." Pixar writer and director Pete Docter, in describing the actor's inside a child's head, has produced an an engaging depiction of of many of the ideas I try to get across (much more obtusely and ponderously) in my MindStuff: Guide for the curious user written ten years ago.
The new Pixar film, “Inside Out,” is about the life of Riley. She is an only child...who, aged eleven, moves with her parents ... from Minnesota to San Francisco. Not much happens...The bulk of the movie takes place out of sight, within the confines of Riley’s mind, where primary feelings affect her every move. There are five in all: Joy (Amy Poehler), who is butter-yellow and fuzzy at the edges; Anger (Lewis Black), who looks like SpongeBob soaked in blood; Fear (Bill Hader), a writhing dweeb with a bow tie; Disgust (Mindy Kaling), who has frosted green hair and lashes; and Sadness (Phyllis Smith), a bespectacled blob of blue. Now and then, they contend for supremacy, but mostly they join forces and react to the world beyond. They behold it through Riley’s eyes, from a spiffy control center, like Kirk, Spock, and the gang on the bridge of the Enterprise...Dreams are produced in—where else?—a dream factory, with soundstages and camera crews. It closes down when she wakes. Experiences are delivered to the control room as if they were bowling balls, colored according to their mood; some are stored away, others dropped into a pit of forgetfulness, where they darken and crumble like spent coals, and a few are enthroned as core memories. And that, we are told, is how a personality is made.
So brisk is the defining of all this...that we barely pause to consider the assumptions behind it. Pixar...has no time for old-school habits, like lodging the emotions in the heart...They are located squarely in the brain, presumably displacing Reason, whom we never meet, but whom I picture as French, bald, and wearing an English suit. ... Neurologists and therapists will examine the movie and pronounce themselves largely satisfied. ... I sensed..., that I was following the transcription, by very clever adults, of their own theorizing—literate, frantic, and endlessly chewed over—on the subject of human development, rather than the story of a growing girl.
...the biggest laughs, without exception, come when we exit Riley’s head and take a quick vacation to the crania—and the mania—of others. During an argument at dinner, for instance, her father’s emotions are miles away; all of them are watching a hockey game. And, as the closing credits approach, Docter, realizing that he has a pack of wild gags that have been kept leashed for too long, releases the lot in a flurry. We peek inside the mind of a dog, a cat, a prepubescent boy (“Girl! Girl!” the alarms sing out), and, best of all, the cool chick with eyeshadow at Riley’s school, voiced by Rashida Jones. ...You start to wonder what a grownup sequel to “Inside Out” would look like, with a host of new feelings barging into central command and wrenching the controls away from Joy. Would Lust be spoken by Rupert Everett, or would it sound more like Chico Marx, working his way through a chorus line? How about Love of Money, or black-browed Mortal Terror? There are places, I guess, where even Pixar cannot go.
Friday, June 26, 2015
The difference in academic achievement between students from higher- and lower-income backgrounds is substantial and growing. A group of collaborators from M.I.T., Harvard, and Columbia has examined the neuroanatomical correlates of the income-achievement gap by comparing the structure of the cerebral cortex (which supports perception, language, and thought) in public-school students who do (lower income) and do not (higher income) receive free or reduced-price lunch, and by relating this neuroanatomy to performance on standardized tests of academic skills. For further discussion of effects of poverty on young brains see the article by Ostrander in The New Yorker.
In the United States, the difference in academic achievement between higher- and lower-income students (i.e., the income-achievement gap) is substantial and growing. In the research reported here, we investigated neuroanatomical correlates of this gap in adolescents (N = 58) in whom academic achievement was measured by statewide standardized testing. Cortical gray-matter volume was significantly greater in students from higher-income backgrounds (n = 35) than in students from lower-income backgrounds (n = 23), but cortical white-matter volume and total cortical surface area did not differ significantly between groups. Cortical thickness in all lobes of the brain was greater in students from higher-income than lower-income backgrounds. Greater cortical thickness, particularly in temporal and occipital lobes, was associated with better test performance. These results represent the first evidence that cortical thickness in higher- and lower-income students differs across broad swaths of the brain and that cortical thickness is related to scores on academic-achievement tests.
Cortical-thickness differences between income groups. The brain images in (a) show regions where cortical thickness was significantly greater in the higher-income (HI) group than in the lower-income (LI) group.
Thursday, June 25, 2015
From the commentary by Lazer:
Bakshy et al. examine... whether Facebook's curation of news feeds prevents the intersection of conflicting points of view. That is, does a “filter bubble” emerge from this algorithmic curation process, so that individuals only see posts that they agree with? Such an algorithmic sorting has the potential to be unhealthy for our democracy, fostering polarization and undermining the construction of a vision of the common good...Their answer, after parsing the Facebook pages of ∼10 million U.S. individuals with self-declared ideologies, is that the curation does ideologically filter what we see.
It is laudable that Facebook supported this research and has invested in the public good of general scientific knowledge. Indeed, the information age hegemons should proactively support research on the ethical implications of the systems that they build. Facebook deserves great credit for building a talented research group and for conducting this research in a public way.Here is the Bakshy et al. abstract:
Exposure to news, opinion, and civic information increasingly occurs through social media. How do these online networks influence exposure to perspectives that cut across ideological lines? Using deidentified data, we examined how 10.1 million U.S. Facebook users interact with socially shared news. We directly measured ideological homophily in friend networks and examined the extent to which heterogeneous friends could potentially expose individuals to cross-cutting content. We then quantified the extent to which individuals encounter comparatively more or less diverse content while interacting via Facebook’s algorithmically ranked News Feed and further studied users’ choices to click through to ideologically discordant content. Compared with algorithmic ranking, individuals’ choices played a stronger role in limiting exposure to cross-cutting content.
Wednesday, June 24, 2015
I've sometimes wondered why I feel a bit flat (anhedonic) after taking acetaminophen (Tylenol). Durso et al. show that it blunts sensitivity to both negative and positive stimuli.
Acetaminophen, an effective and popular over-the-counter pain reliever (e.g., the active ingredient in Tylenol), has recently been shown to blunt individuals’ reactivity to a range of negative stimuli in addition to physical pain. Because accumulating research has shown that individuals’ reactivity to both negative and positive stimuli can be influenced by a single factor (an idea known as differential susceptibility), we conducted two experiments testing whether acetaminophen blunted individuals’ evaluations of and emotional reactions to both negative and positive images from the International Affective Picture System. Participants who took acetaminophen evaluated unpleasant stimuli less negatively and pleasant stimuli less positively, compared with participants who took a placebo. Participants in the acetaminophen condition also rated both negative and positive stimuli as less emotionally arousing than did participants in the placebo condition (Studies 1 and 2), whereas nonevaluative ratings (extent of color saturation in each image; Study 2) were not affected by drug condition. These findings suggest that acetaminophen has a general blunting effect on individuals’ evaluative and emotional processing, irrespective of negative or positive valence.
Tuesday, June 23, 2015
Park et al. examine individuals with schizotypal personality disorder, which is characterized by need for social isolation, anxiety in social situations, odd behavior and thinking, and often unconventional beliefs, but does not engage the false beliefs, unclear or confused thinking, and auditory hallucinations characteristic of schizophrenia. They suggest that the greater levels of creative behavior found in such individuals correlates with deactivation of specific cortical areas, in agreement with 'less is more' models for creativity.
Empirical studies indicate a link between creativity and schizotypal personality traits, where individuals who score highly on schizotypy measures also display greater levels of creative behaviour. However, the exact nature of this relationship is not yet clear, with only a few studies examining this association using neuroimaging methods. In the present study, the neural substrates of creative thinking were assessed with a drawing task paradigm in healthy individuals using fMRI. These regions were then statistically correlated with the participants’ level of schizotypy as measured by the Oxford–Liverpool Inventory of Feelings and Experiences (O-LIFE), which is a questionnaire consisting of four dimensions. Neural activations associated with the creativity task were observed in bilateral inferior temporal gyri, left insula, left parietal lobule, right angular gyrus, as well as regions in the prefrontal cortex. This widespread pattern of activation suggests that creative thinking utilises multiple neurocognitive networks, with creative production being the result of collaboration between these regions. Furthermore, the correlational analyses found the Unusual Experiences factor of the O-LIFE to be the most common dimension associated with these areas, followed by the Impulsive Nonconformity dimension. These correlations were negative, indicating that individuals who scored the highest in these factors displayed the least amount of activation when performing the creative task. This is in line with the idea that ‘less is more’ for creativity, where the deactivation of specific cortical areas may facilitate creativity. Thus, these findings contribute to the evidence of a common neural basis between creativity and schizotypy.
Monday, June 22, 2015
From Brian Ray in the Editor's Choice section of the June 5 issue of Science, another approach to life-extension drugs (and, to possibly curb your enthusiasm about the desirability of such anti-aging efforts, also have a look at "What Happens When We All Live to 100?" in The Atlantic Magazine). :
As organisms age, they accumulate cells that can no longer proliferate. Such cells— termed “senescent”—persist and appear to promote aging by producing and secreting a variety of proteins. Zhu et al. tested whether drugs that inhibit cellular signaling pathways that make senescent cells resistant to stress and cell death could deplete senescent cells in mice. A combination of two drugs that inhibit such pathways selectively killed senescent cells in vitro, improved heart and vascular function in aging mice, and improved symptoms in a mouse model of accelerated aging. Although pinpointing the relevant targets of these drugs is difficult, the studies indicate that selectively targeting senescent cells with small molecules may be feasible.The Zhu et al. technical abstract:
The healthspan of mice is enhanced by killing senescent cells using a transgenic suicide gene. Achieving the same using small molecules would have a tremendous impact on quality of life and the burden of age-related chronic diseases. Here, we describe the rationale for identification and validation of a new class of drugs termed senolytics, which selectively kill senescent cells. By transcript analysis, we discovered increased expression of pro-survival networks in senescent cells, consistent with their established resistance to apoptosis. Using siRNA to silence expression of key nodes of this network, including ephrins (EFNB1 or 3), PI3Kδ, p21, BCL-xL, or plasminogen-activated inhibitor-2, killed senescent cells, but not proliferating or quiescent, differentiated cells. Drugs targeting these same factors selectively killed senescent cells. Dasatinib eliminated senescent human fat cell progenitors, while quercetin was more effective against senescent human endothelial cells and mouse BM-MSCs. The combination of dasatinib and quercetin was effective in eliminating senescent MEFs. In vivo, this combination reduced senescent cell burden in chronologically aged, radiation-exposed, and progeroid Ercc1−/Δ mice. In old mice, cardiac function and carotid vascular reactivity were improved 5 days after a single dose. Following irradiation of one limb in mice, a single dose led to improved exercise capacity for at least 7 months following drug treatment. Periodic drug administration extended healthspan in Ercc1−/Δ mice, delaying age-related symptoms and pathology, osteoporosis, and loss of intervertebral disk proteoglycans. These results demonstrate the feasibility of selectively ablating senescent cells and the efficacy of senolytics for alleviating symptoms of frailty and extending healthspan.
Friday, June 19, 2015
As a followup to yesterday's post on a positive effects of amphetamine on the cognition of aging adults, I thought it would be interesting to point out a dark side of amphetamine by noting the paper by Young et al. showing reversal of amphetamine-induced social impairments by oxytocin treatment. (In addicts who fail to develop or maintain intimate relationships amphetamine appears to hijack the brain's social reward circuitry. Clinical trials in humans are indicating a clear potential for oxytocin as a treatment for addiction.) They use the prairie vole male pair bonding model.
Drug addiction has devastating consequences on social behaviors and can lead to the impairment of social bonding. Accumulating evidence indicates that alterations in oxytocin (OT) and dopamine (DA) neurotransmission within brain reward circuitry may be involved. We investigated this possibility, as well as the therapeutic potential of OT for drug-induced social deficits, using the prairie vole (Microtus ochrogaster)—a socially monogamous rodent that forms enduring pair bonds between adult mates. We demonstrate that repeated exposure to the commonly abused psychostimulant amphetamine (AMPH) inhibits the formation of partner preferences (an index of pair bonding) in female prairie voles. AMPH exposure also altered OT and DA neurotransmission in regions that mediate partner preference formation: it decreased OT and DA D2 receptor immunoreactivity in the medial prefrontal cortex (mPFC) and nucleus accumbens (NAcc), respectively, and increased NAcc DA levels. Administration of OT directly into the mPFC of AMPH-exposed voles restored partner preferences, and altered NAcc DA levels, and this effect was dependent on OT receptor activation. Together, these data suggest that repeated AMPH exposure impairs pair bonding through an OT-mediated mechanism, and that OT and DA systems within brain reward circuitry may interact to mediate the complex relationship between drug abuse and social bonding. Further, these results provide empirical support for the idea that the central OT system may represent an important target for the treatment of social deficits in addiction.
Thursday, June 18, 2015
Fascinating. Garrett et al. show that raising dopamine levels with amphetamine (sold as the prescription drug Adderall, for ADHD), increases the brain wave variability that enhances working memory, so that seniors perform as well as younger people on the n-back working memory test. (Common prescription doses of 5-30 mg act as a cognitive enhancer.
Younger, better performing adults typically show greater brain signal variability than older, poorer performers, but the mechanisms underlying this observation remain elusive. We attempt to restore deficient functional-MRI–based blood oxygen level-dependent (BOLD) signal variability (SD) levels in older adults by boosting dopamine via d-amphetamine (AMPH). Notably, older adults met or exceeded young adult SD levels under AMPH. AMPH-driven changes in SDSD also predicted AMPH-driven changes in reaction time speed and variability on a working memory task, but depended greatly on age and drug administration order. These findings (i) suggest that dopamine may account for adult age differences in brain signal variability and (ii) highlight the importance of considering practice effects and state dependencies when evaluating the neurochemical basis of age- and cognition-related brain dynamics.
Better-performing younger adults typically express greater brain signal variability relative to older, poorer performers. Mechanisms for age and performance-graded differences in brain dynamics have, however, not yet been uncovered. Given the age-related decline of the dopamine (DA) system in normal cognitive aging, DA neuromodulation is one plausible mechanism. Hence, agents that boost systemic DA [such as d-amphetamine (AMPH)] may help to restore deficient signal variability levels. Furthermore, despite the standard practice of counterbalancing drug session order (AMPH first vs. placebo first), it remains understudied how AMPH may interact with practice effects, possibly influencing whether DA up-regulation is functional. We examined the effects of AMPH on functional-MRI–based blood oxygen level-dependent (BOLD) signal variability (SD) in younger and older adults during a working memory task (letter n-back). Older adults expressed lower brain signal variability at placebo, but met or exceeded young adult SD levels in the presence of AMPH. Drug session order greatly moderated change–change relations between AMPH-driven SD and reaction time means (RT) and SDs (RTSD). Older adults who received AMPH in the first session tended to improve in RTmean and RTSD when SD was boosted on AMPH, whereas younger and older adults who received AMPH in the second session showed either a performance improvement when SD decreased (for RT) or no effect at all (for RTSD). The present findings support the hypothesis that age differences in brain signal variability reflect aging-induced changes in dopaminergic neuromodulation. The observed interactions among AMPH, age, and session order highlight the state- and practice-dependent neurochemical basis of human brain dynamics.
Figure. Increased BOLD variability and improved cognitive performance under AMPH. Multivariate partial least-squares model of relation between SD, Age Group, AMPH, and Task Condition. Higher brain scores reflect higher BOLD signal variability. Error bars represent bootstrapped 95% confidence intervals (1,000× with replacement). Brain images are plotted in neurological orientation (left is Left). AMPH, amphetamine; BSR, bootstrap ratio.
Wednesday, June 17, 2015
Here is an interesting bit of work from Kurczek et al. showing that thinking about the past and future requires activation of the hippocampus in the medial temporal lobes,and referring oneself to that thinking requires medial prefrontal cortex.
•We examined the role of the MTL and mPFC in self-projection and self-referential processing.
•MTL patients were impaired in self-projection but not self-referential processing.
•mPFC patients were impaired in self-referential processing but not self-projection.
•MTL and mPFC make differential contributions to the neural network supporting self-projection and self-referential processing.
Converging evidence points to a neural network that supports a range of abilities including remembering the past, thinking about the future, and introspecting about oneself and others. Neuroimaging studies find hippocampal activation during event construction tasks, and patients with hippocampal amnesia are impaired in their ability to (re)construct events of the past and the future. Neuroimaging studies of constructed experiences similarly implicate the medial prefrontal cortex (mPFC), but it remains unknown whether the mPFC is critical for such processes. The current study compares performance of five patients with bilateral mPFC damage, six patients with bilateral hippocampal damage, and demographically matched comparison participants on an event construction task. Participants were given a neutral cue word and asked to (re)construct events across four time conditions: real past, imagined past, imagined present, and future. These event narratives were analyzed for the number of internal and external details to quantify the extent of episodic (re)experiencing. Given the literature on the involvement of the mPFC in self-referential processing, we also analyzed the event narratives for self-references. The patients with mPFC damage did not differ from healthy comparison participants in their ability to construct highly detailed episodic events across time periods but displayed disruptions in their incorporation of the self. Patients with hippocampal damage showed the opposite pattern; they were impaired in their ability to construct highly detailed episodic events across time periods but not in their incorporation of the self. The results suggest differential contributions of hippocampus and medial prefrontal cortex to the distributed neural network for various forms of self-projection.
Yet another study, from Shaw and Porter, demonstrating how flawed our memory systems can be. This sort of experiment explains in part the continuing parade of individuals, imprisoned on the basis of false witness memories reported after suggestive interviews with zealous prosecutors, who are being released on the basis of evidence suppressed or ignored in their trial.
Memory researchers long have speculated that certain tactics may lead people to recall crimes that never occurred, and thus could potentially lead to false confessions. This is the first study to provide evidence suggesting that full episodic false memories of committing crime can be generated in a controlled experimental setting. With suggestive memory-retrieval techniques, participants were induced to generate criminal and noncriminal emotional false memories, and we compared these false memories with true memories of emotional events. After three interviews, 70% of participants were classified as having false memories of committing a crime (theft, assault, or assault with a weapon) that led to police contact in early adolescence and volunteered a detailed false account. These reported false memories of crime were similar to false memories of noncriminal events and to true memory accounts, having the same kinds of complex descriptive and multisensory components. It appears that in the context of a highly suggestive interview, people can quite readily generate rich false memories of committing crime.
Tuesday, June 16, 2015
Philippi et al. analyze 142 adult male prison inmates, and offer a detailed analysis showing that psychopathy can be correlated with altered connectivity in the default mode, frontoparietal, and cingulo-opercular networks. There are no correlations with connectivity in auditory or visual networks. The authors note that "the large and diverse inmate sample affords us a unique opportunity to examine the neural correlates of the two primary “factors” and the four “facets,” or dimensions, of psychopathy. Factor 1 corresponds to the interpersonal/affective traits of psychopathy (e.g., callousness, egocentrism), whereas Factor 2 corresponds to the lifestyle/antisocial features (e.g., impulsivity, irresponsibility). Factor 1 can be further subdivided into Facet 1 (interpersonal traits) and Facet 2 (affective traits), whereas Factor 2 can be further subdivided into Facet 3 (lifestyle traits) and Facet 4 (antisocial traits)." Here is their rather dense and condensed abstract:
Psychopathy is a personality disorder characterized by callous antisocial behavior and criminal recidivism. Here we examine whether psychopathy is associated with alterations in functional connectivity in three large-scale cortical networks. Using fMRI in 142 adult male prison inmates, we computed resting-state functional connectivity using seeds from the default mode network, frontoparietal network, and cingulo-opercular network. To determine the specificity of our findings to these cortical networks, we also calculated functional connectivity using seeds from two comparison primary sensory networks: visual and auditory networks. Regression analyses related network connectivity to overall psychopathy scores and to subscores for the “factors” and “facets” of psychopathy: Factor 1, interpersonal/affective traits; Factor 2, lifestyle/antisocial traits; Facet 1, interpersonal; Facet 2, affective; Facet 3, lifestyle; Facet 4, antisocial. Overall psychopathy severity was associated with reduced functional connectivity between lateral parietal cortex and dorsal anterior cingulate cortex. The two factor scores exhibited contrasting relationships with functional connectivity: Factor 1 scores were associated with reduced functional connectivity in the three cortical networks, whereas Factor 2 scores were associated with heightened connectivity in the same networks. This dissociation was evident particularly in the functional connectivity between anterior insula and dorsal anterior cingulate cortex. The facet scores also demonstrated distinct patterns of connectivity. We found no associations between psychopathy scores and functional connectivity within visual or auditory networks. These findings provide novel evidence on the neural correlates of psychopathy and suggest that connectivity between cortical association hubs, such as the dorsal anterior cingulate cortex, may be a neurobiological marker of the disorder.
Monday, June 15, 2015
From Strickland et al., I've learned a new word - telicity:
According to a theoretical tradition dating back to Aristotle, verbs can be classified into two broad categories. Telic verbs (e.g., “decide,” “sell,” “die”) encode a logical endpoint, whereas atelic verbs (e.g., “think,” “negotiate,” “run”) do not, and the denoted event could therefore logically continue indefinitely. Here we show that sign languages encode telicity in a seemingly universal way and moreover that even nonsigners lacking any prior experience with sign language understand these encodings. In experiments 1–5, nonsigning English speakers accurately distinguished between telic (e.g., “decide”) and atelic (e.g., “think”) signs from (the historically unrelated) Italian Sign Language, Sign Language of the Netherlands, and Turkish Sign Language. These results were not due to participants' inferring that the sign merely imitated the action in question. In experiment 6, we used pseudosigns to show that the presence of a salient visual boundary at the end of a gesture was sufficient to elicit telic interpretations, whereas repeated movement without salient boundaries elicited atelic interpretations. Experiments 7–10 confirmed that these visual cues were used by all of the sign languages studied here. Together, these results suggest that signers and nonsigners share universally accessible notions of telicity as well as universally accessible “mapping biases” between telicity and visual form.
Friday, June 12, 2015
An interesting tidbit from Chen et al.:
Physical size and strength are associated with dominance and threat. The current study tested (i) whether men’s evaluations of male strangers would be negatively influenced by cues indicating physical formidability, and (ii) whether these evaluations would be influenced by oxytocin, a neuropeptide that mediates social behavior and reduces social anxiety. In a placebo-controlled double-blind design, we administered either oxytocin (24 I.U.) or placebo intranasally to 100 healthy males and assessed their responses to an image of either a physically formidable (strong) or physically non-formidable (weak) male peer. Whereas participants receiving placebo expressed dislike and avoidance of the strong male relative to the weak male, oxytocin selectively improved social evaluation of the strong male. These results provide first evidence that oxytocin regulates social evaluation of peers based on body features indicating strength and formidability. We discuss the possibility that oxytocin may promote the expansion of social networks by increasing openness toward potentially threatening individuals.
Thursday, June 11, 2015
From Sachs et al., a statement of significance, followed by a more detailed abstract:
The biological factors that determine whether an individual develops mental illness, such as depression or posttraumatic stress disorder, or responds adequately to pharmacotherapy remain almost completely unknown. Using genetically modified mice, we demonstrate that low levels of brain serotonin lead to increased vulnerability to psychosocial stress and prevent the antidepressant-like effects of fluoxetine following stress exposure. Our data also show that inhibiting the lateral habenula can reverse stress-induced behavioral avoidance in serotonin-deficient animals, which fail to respond to fluoxetine. Our results provide additional insight into the serotonin deficiency hypothesis of depression and highlight the potential of targeting the lateral habenula to treat depression and anxiety disorders in patients who fail to respond to selective serotonin reuptake inhibitors.
Brain serotonin (5-HT) deficiency and exposure to psychosocial stress have both been implicated in the etiology of depression and anxiety disorders, but whether 5-HT deficiency influences susceptibility to depression- and anxiety-like phenotypes induced by psychosocial stress has not been formally established. Most clinically effective antidepressants increase the extracellular levels of 5-HT, and thus it has been hypothesized that antidepressant responses result from the reversal of endogenous 5-HT deficiency, but this hypothesis remains highly controversial. Here we evaluated the impact of brain 5-HT deficiency on stress susceptibility and antidepressant-like responses using tryptophan hydroxylase 2 knockin (Tph2KI) mice, which display 60–80% reductions in brain 5-HT. Our results demonstrate that 5-HT deficiency leads to increased susceptibility to social defeat stress (SDS), a model of psychosocial stress, and prevents the fluoxetine (FLX)-induced reversal of SDS-induced social avoidance, suggesting that 5-HT deficiency may impair antidepressant responses. In light of recent clinical and preclinical studies highlighting the potential of inhibiting the lateral habenula (LHb) to achieve antidepressant and antidepressant-like responses, we also examined whether LHb inhibition could achieve antidepressant-like responses in FLX-insensitive Tph2KI mice subjected to SDS. Our data reveal that using designer receptors exclusively activated by designer drugs (DREADDs) to inhibit LHb activity leads to reduced SDS-induced social avoidance behavior in both WT and Tph2KI mice. This observation provides additional preclinical evidence that inhibiting the LHb might represent a promising alternative therapeutic approach under conditions in which selective 5-HT reuptake inhibitors are ineffective.
Wednesday, June 10, 2015
I thought I would pass on this humorous piece by Peter Funt on his review of YouTube videos on how to break in a new baseball glove. After reviewing videos on using microwave ovens, jacuzzis, mallets, oil, heat, hot water:
After nearly two hours of viewing, I’ve learned that: (a) it appears no certification is necessary to teach on YouTube; (b) although baseball is the national pastime, no one knows how to break in a glove; and (c) if you accidentally lock a new mitt in an old car, you might be able to use a tennis ball to break in.This sets me to mulling on what motivates the making of such videos, and indeed, what motives me to pass on or describe articles about mind, brain, and behavior that I have very little real critical insight into. Just as with a kid showing off a new toy, the 'gee whiz' or 'this is neat' moment that comes from encountering a new idea or bit of work is enhanced by sharing it with others.