Social Neuroscience Iii :Social Neuroscience Iii psy400


Topics :Topics What is social neuroscience? (15) Neuroimaging and TMS: Tools of SN (35)


What is Social Neuroscience (SN)? :What is Social Neuroscience (SN)? Physics biology neuroscience Cognitive psychology Social psychology math sociology economics anthropology humanities ecosystems chemistry


What is Social Neuroscience (SN)? :What is Social Neuroscience (SN)? SN: An interdisciplinary field that uses methodologies from both the neuro and social sciences to better understand the biological mechanism that underlie social processes and behaviour Holds that this multi-level analysis can enlighten both social psychology and neuroscience


Slide 5:SN is a new field, Partly because the tools did not exist to appropriately study SN Partly because social psychology is ‘messier’ than, say, cognitive. Therefore many neuroscientists ignored it, in order to simplify a dauntingly complex brain. What is Social Neuroscience (SN)?


EEG(Electroencephelagram) :EEG(Electroencephelagram) How it works: Electrodes placed on the scalp record voltage differences between different parts of the brain Pros: High temporal resolution, Measures neuronal activity directly (via electrical output), Relatively easy to use. Cons: Limited to surface (cortical) activity Limited spatial resolution/anatomical specificity


Pet(Positron emission tomography) :Pet(Positron emission tomography) How it works: A scanning device reads the positron emissions that are released as a previously injected sugar decays. Thus, it can assess the blood flow, oxygen and glucose consumption in different parts of the brain. Pros: Unlike EEG, offers 3D resolution Can measure several metabolic indicators Tracers can reveal neurotransmitter receptors/transporters Cons: Requires radioactive injections Radioactive half life means only short tasks can be measured Blood flow, oxygen and glucose consumption are all indirect correlates of brain activity


MRI(magnetic resonance imaging) :MRI(magnetic resonance imaging) How it works: Uses magnetic fields and radio waves to produce high quality images by manipulating the spin of hydrogen protons Pros: No radioactive tracers needed High resolution imaging Can register water content, inflammation and bleeding Cons: Can only register structure, and not function


fMRI(functional magnetic resonance imaging) :fMRI(functional magnetic resonance imaging) How it works: Adapts MRI to register the magnetic properties of oxygenated and deoxygenated hemoglobin, allowing real-time blood flow to be imaged Pros: Can see activation in addition to high res brain structures Scanners can be fitted to present stimuli Higher spatial and temporal resolution than PET Cons: Cannot trace neurotransmission like PET Blood flow is, again, only an indirect correlate of brain activity


TMs(transcranial magnetic stimulation) :TMs(transcranial magnetic stimulation) How it works: Targeted magnetic pulses temporarily excite sugar-cube sized groups of neurons, allowing increases or decreases in neuronal excitability Pros: Can manipulate activation rather than just image it, allowing causality to be inferred Temporary with no lasting damage Cons: Researchers still unclear on how it works, exactly 1cm3


Beyond“It happens in the brain!” :Beyond“It happens in the brain!” Only a deeply ingrained dualism makes people amazed when behaviours are tied to brain regions: “Wow, that happens in the brain?!”-ism. But of course it does. SCN goes beyond this, requiring the neural correlates (or causes) of social behaviour do edify it, rather than merely locate it.


Other tools :Other tools Animal Models From Aplysia to Rattus and Hominoidea Neuro-endocrinology The roles of, e.g. Androgens and estrogens Corticosteroids Oxytocin and vasopressin Clinical patients


Social Neuroscience Ii :Social Neuroscience Ii psy400


Topics :Topics Key Studies in SN Stereotyping (35) Social Rejection (15)


Some Social areas under sn study :Some Social areas under sn study Stereotyping Social Rejection Social Emotions Attitudes and Attitude Change


stereotyping :stereotyping What can social neuroscience tell us about stereotyping that we don’t already know? How does stereotyping arise in the brain? How automatic is it? How difficult is it to prevent?


stereotyping :stereotyping Hart et al. (2000). Differential response in the human amygdala to racial outgroup vs. ingroup face stimuli. Neuroreport, 11, 2351-2355 Used fMRI to compare amygdalic activation when Black and White subjects were presented with unfamiliar Black and White faces. In first block, amygdala activation found for both race congruent (ingroup) and race incongruent faces (outgroup But in second block, activation had habituated for ingroup faces, but not for outgroup faces.


stereotyping :stereotyping Hart et al. (2000). Differential response in the human amygdala to racial outgroup vs. ingroup face stimuli. Neuroreport, 11, 2351-2355


stereotyping :stereotyping Phelps et al. (2000). Performance on indirect measures of race evaluation predicts amygdala activation. Journal of Cognitive Neuroscience, 12, 729-738. Found positive correlation between amygdala activation and Implicit Associations Task scores of anti-Black prejudice, but not with self-report measures of anti-Black prejudice Familiar and high regarded black faces, like Bill Cosby and Will Smith, however, showed no more IAT prejudice or amygdala activation than ingroup White faces.


stereotyping :Discussion: What are the implications of Hart et al, 2000? Discussion question: How does Phelps et al. jive with Hart et al.? Can unfamiliarity and threat be parsed as explanations? If so, how? stereotyping


stereotyping :stereotyping Cunningham et al. (2004). Separable Neural Components in the Processing of Black and White Faces. Psychological Science, 15, 806-813. Used fMRI to measure amygdala and prefrontal activation while presenting Black or White faces to White participants for either 30msec (subliminal) or 525msec (supraliminal) For subliminally presented faces, found greater amygdala activation Black than White For supraliminally presented faces, found greater PFC activation for Black than White


stereotyping :stereotyping For 30msec, subliminal condition: Amygdala activation is associated with threat, vigilance, emotional arousal and ambiguity


stereotyping :stereotyping For 525msec, supraliminal condition: The prefrontal cortex and anterior cingulate are associated with inhibition, conflict and control.


stereotyping :Discussion Questions: What does Cunningham et al. suggest about the automaticity of racial prejudice? Why do you think there was PFC and ACC activation for Black faces presented supraliminally? What implications does the difference between the sub and supraliminal presentations have for research on racism? stereotyping


social rejection :social rejection Eisenberger and Lieberman (2004) Why rejection hurts: a common neural alarm system for physical and social pain. TICS, 8, 294–300 - Found an overlap between the neural regions activated during physical experiences of pain, as well as those involved is ‘social pain’ or rejection


social rejection :social rejection Eisenberger and Lieberman (2004) Suggest that the ACC plays a key role in a “neural alarm system”


social rejection :social rejection Eisenberger et al. (2006) An experimental study of shared sensitivity to physical pain and social rejection. Pain, 126, 132-138 Demonstrate that those with greater baseline sensitivity (trait) to pain also self-report more social distress in social rejection situations Greater social distress is also associated with greater pain unpleasantness (state) administered experimentally


social rejection :social rejection Eisenberger and Lieberman (2004) and Eisenberger, et al. (2006) Classic example of how social neuroscience studies can enlighten our understanding of both social psychology and neuroscience It can also shed light on the evolutionary origins of neural and cognitive brain mechanisms. DISCUSSION: How?


Social Neuroscience Iii :Social Neuroscience Iii psy400


Topics :Topics Key studies in SN II Empathy (20) Attitude change (15) Central Questions and Future Directions – Towards an integrated understanding of how human behaviour happens (15)


empathy :empathy Singer et al. (2004). Empathy for pain involves the affective but not sensory components of pain. Science, 303, 1157-1162 Used fMRI to observe brain activation when pain was administered to a subject, or to the subject’s loved one, who was seated in the same room Empathizing with an other’s pain activates the regions associated with the affective, but not sensorimotor areas of pain


empathy :empathy Singer et al. (2004). Empathy for pain involves the affective but not sensory components of pain. Science, 303, 1157-1162 Green areas show activation in the ‘self’ condition Red areas show activation in the ‘other’ condition


empathy :empathy Singer et al. (2006). Empathic neural responses are modulated by the perceived fairness of others. Nature, 439, 466-9. Male and female subjects watched confederates play an economic game where one confederate played fairly and the other played unfairly Subsequently, brain activation was monitored in the watching subjects while the game confederates were exposed to pain


empathy :empathy Singer et al. (2006). Empathic neural responses are modulated by the perceived fairness of others. Nature, 439, 466-9. Both sexes responded towards the fair players with the affective pain area activation associated with empathic pain For the unfair player, however, males showed marked decreases in this empathic response and, instead showed increased activation in areas of the nucleus accumbens typically associated with reward – suggesting a punishment ‘thrill’


empathy :empathy Singer et al. (2006). Empathic neural responses are modulated by the perceived fairness of others. Nature, 439, 466-9. females males


Attitude change :Attitude change Lieberman et al. (2001). Do amnesics exhibit cognitive dissonance reduction? The role of explicit memory and attention in attitude change. Psychological Science, 12, 135-140. Sought to see if attitude change always requires consciousness Exposed anterograde amnesic patients to the free choice paradigm. The patients were given two pictures and told to choose the one they preferred. Over time, they grew to like the preferred picture more, and dislike the other picture more, in comparison with other pictures, despite not having conscious recollection over making the initial decision that prompted the attitude change.