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1 rietal junction would be required to disrupt empathy).
2 l underpinnings of individual differences in empathy.
3 to others' distress, and a lack of guilt or empathy.
4 ocessing others' rewards is related to trait empathy.
5 regions involved in cognitive and emotional empathy.
6 on expression of affect, understanding, and empathy.
7 nagement of patients with impaired emotional empathy.
8 I review how focal lesions affect emotional empathy.
9 l affect recognition, social perception, and empathy.
10 icated in social understanding and cognitive empathy.
11 gical explanations evoked significantly less empathy.
12 disorders, which could increase clinicians' empathy.
13 elf-reported measures of autistic traits and empathy.
14 in the evolution of social cognition such as empathy.
15 compared with patients with intact affective empathy.
16 es, may help to clarify the origins of human empathy.
17 important to parenting are those involved in empathy.
18 sychiatric diagnoses, social engagement, and empathy.
19 elopmental psychology as well as research on empathy.
20 prosodic comprehension had spared affective empathy.
21 lly intact inpatients on a test of affective empathy.
22 s and may thereby promote both imitation and empathy.
23 to experience negative emotions), but not to empathy.
24 essed enormous growth in the neuroscience of empathy.
25 riables in medicine and to improve physician empathy.
26 s, which differences are also known of human empathy.
27 t and behavior than individuals low in trait empathy.
28 of citalopram varied as a function of trait empathy.
29 n recognition, decision-making, morality and empathy.
30 IFG, SRC, and STS were related to cognitive empathy.
31 th networks is strongly related to cognitive empathy.
32 etworks contribute to multiple components of empathy.
33 he precentral gyrus was related to affective empathy.
34 cry are pervasive, automatic, and facilitate empathy.
35 at spans from neural anatomy to language and empathy.
36 ly relevant emotional process-other-oriented empathy.
37 ndividuals suggest that chimpanzees may feel empathy.
38 ience of another's pain is characteristic of empathy.
39 ies, but not its sensory qualities, mediates empathy.
40 ide an essential functional architecture for empathy.
41 omical correlates of cognitive and affective empathy.
42 not regions involved in cognitive control or empathy.
43 enues for examining the neural substrates of empathy.
44 rning experiences are sufficient to increase empathy.
45 ve processes, such as perspective taking and empathy.
46 d positively with individual levels of trait empathy.
47 ough an implicit kinematic process linked to empathy.
48 condition including gullibility and impaired empathy.
49 social learning, which is predicted by trait empathy.
50 re specific, brain targets for studying pain empathy.
51 o interpret other's behavior and potentially empathy.
52 2 to 42.6; Delta = 2.4; 95% CI, 1.2 to 3.6); empathy (116.6 to 121.2; Delta = 4.6; 95% CI, 2.2 to 7.0
53 ptoms would affect mental health clinicians' empathy--a crucial component of the relationship between
54 scattered studies of patients with impaired empathy after stroke and other focal injury, but these s
56 ontinuer statement, which is one that offers empathy and allows patients to continue expressing emoti
58 suggest that those who increased the most in empathy and altruistic behaviors, and who decreased the
60 Here we administered self-report measures of empathy and apathy-motivation to a large sample of healt
62 simulation and memory can play in fostering empathy and begin to offer insight into the underlying m
63 ggesting that microstructural features of an empathy and body-related network are crucial for underst
64 behaviour is motivated, at least in part, by empathy and concern for the welfare of others (hereafter
66 t equivalent neural functions are engaged by empathy and direct emotion experiences remains to be dem
69 are distinct constructs, but that affective empathy and emotional motivation are underpinned by the
70 ersonality disorder characterised by lack of empathy and guilt, shallow affect, manipulation of other
71 nd ToM are distinct components; however, ToM empathy and intention subcomponents might share some fun
72 chanisms underlying altruism remain unknown, empathy and its component abilities, such as the percept
75 ations for disorders associated with reduced empathy and motivation as well as the understanding of t
78 or donations were reflected in participants' empathy and perspective taking responses in a separate f
82 reported that their children expressed more empathy and sensitivity for justice in everyday life tha
90 te highly specific roles of AI for affective empathy and TPJ for cognitive perspective taking as prec
92 sonal (e.g. depression), interpersonal (e.g. empathy), and emotion regulation skills measures (e.g. e
93 ts of mindfulness, psychological mindedness, empathy, and affect consciousness are shown to partially
94 e and neural mechanisms underlying emotional empathy, and how they contribute to the management of pa
95 iations between depression, autistic traits, empathy, and likelihood of suicidal ideation and suicide
96 chrony, primary intersubjectivity, emotional empathy, and mirror neurons; and it is associated with o
98 rom social psychology studies on mimicry and empathy, and recent empirical findings from the neurosci
102 s of an error with quality of life, burnout, empathy, and symptoms of depression were determined usin
104 anisms through which learning interacts with empathy, and thus provide a neurobiological account for
105 on to OT-pathway genes, including parenting, empathy, and using social relationships to manage stress
106 phenotypes, such as maternal sensitivity and empathy, and with neuropsychiatric disorders associated
111 endent variables and error rate on emotional empathy as the dependent variable to test a predictive m
112 exhibited lower behavioral and dispositional empathy, as measured by the "Reading the Mind in the Eye
113 ontext, share Power in the interaction, show Empathy, ask about Concerns or fears, and work to develo
115 more positive caregiving experiences through empathy-building interventions and enhanced understandin
117 tudies have investigated the neural basis of empathy, but few corroborative human lesion studies exis
118 cation predicted the error rate in emotional empathy, but only percentage damage to the uncinate fasc
119 re known to exhibit behaviours suggestive of empathy, but the development and maintenance of these tr
120 there is a critical level of concern, i.e., empathy, by the sick individuals above which disease is
122 es for altruistic decision-making (affective empathy, cognitive perspective taking, and domain-genera
123 ions for the emergence of inequity aversion, empathy, compassion, and egalitarian moral values via th
128 cumulating evidence indicates that emotional empathy depends on coordinated functions of orbitofronta
132 ter understanding of the neural responses to empathy-eliciting stimuli in psychopathy is necessary to
133 ther such shared activations imply that pain empathy engages similar neural functions as first-hand p
135 behavior was heavily influenced by affective empathy exhibited higher predictive accuracies for gener
137 ation that individuals high in dispositional empathy experience these physiological changes more quic
139 al in turn predicts a subsequent increase of empathy for a different out-group member (generalization
141 oparietal junction [TPJ]) encoded trial-wise empathy for beneficiaries, whereas the TPJ (but not AI)
142 making, supporting home care, demonstrating empathy for family emotions and relationships, and atten
144 Previous human imaging studies focusing on empathy for others' pain have consistently shown activat
148 ial neuroscience has consistently shown that empathy for pain recruits brain areas that are also acti
149 Subjective and neural measures of pain and empathy for pain were collected using self-report and ev
151 iew that self-nociception is involved during empathy for pain, and demonstrate the possibility to use
152 ng placebo analgesia also reported decreased empathy for pain, and this was associated with reduced e
159 research areas to the "end in mind" through empathy for the real-life problems embodied in the perso
161 is unsatisfactory, with a perceived lack of empathy from professionals and a shortage of stimulating
163 d emotional skills, including expressions of empathy, has received scant attention in other primates
165 The neural mechanisms underlying emotional empathy have been widely studied with functional imaging
169 of chimpanzees lends further support to the empathy hypothesis in that consolation occurred dispropo
171 able to test a predictive model of emotional empathy in 30 patients with acute ischemic right hemisph
172 colleagues in this issue of Neuron evaluates empathy in a unique population--individuals with congeni
174 implicated in decision making, morality and empathy in boys with callous-unemotional conduct problem
177 hermore, we assessed dispositional levels of empathy in observers to determine how empathy might be r
178 f basic human qualities such as kindness and empathy in staff and, at service level, the extent of lo
179 which may reflect poor affect reactivity and empathy in the presence of hyperactive executive control
186 rs such as social network size, anxiety, and empathy independently contributed to loneliness, only ba
189 ex picture where selected ToM subcomponents (empathy; intention) showed a relationship to specific EF
190 s lesion studies have provided evidence that empathy involves dissociable cognitive functions that re
206 methodology sufficiently sensitive to detect empathy-like responses previously, observer hens showed
208 ge in support of the proposal that affective empathy--making inferences about how another person feel
209 n together, these findings suggest that pain empathy may be associated with neural responses and neur
210 rds are processed in the brain and vary with empathy may be key for understanding disorders of social
211 perimental studies on our closest relatives, empathy may be the main motivator of prosocial behavior.
213 nd the ability for sympathetic regulation of empathy may represent both potential gains and losses fr
216 els of empathy in observers to determine how empathy might be related to the degree of stress contagi
217 etween the individual and art (e.g., through empathy) might be a useful avenue for further considerat
218 nterior cingulate, brain areas implicated in empathy, moral processing, and introspection, are potent
221 zed by impairments in social functioning and empathy, occur more commonly in males than females.
224 o people's more general propensity to engage empathy or perspective taking can inform training progra
226 d that extra information such as reputation, empathy, or spatial structure is needed for fairness to
227 n all elements of interaction with patients: empathy, organization, and verbal and nonverbal expressi
228 01), inertia (p<0.001), loss of sympathy and empathy (p=0.008), repetitive behaviours (p<0.001) and d
229 treatment expectation, reward processing and empathy, paired with increased activation in attention-r
230 terior insula, supporting the view that pain empathy partly relies on neural processes engaged by sel
231 inhibition, apathy/inertia, loss of sympathy/empathy, perseverative/compulsive behaviours, hyperorali
232 nisms underlying altruistic decision-making (empathy, perspective taking, and attentional reorienting
234 on-related mu suppression and on theories of empathy pointing to the importance of discriminating sel
236 rceived emotional effects (eg, prosociality, empathy, psychotherapy), but surprisingly little researc
237 ese are two dimensions, measurable using the Empathy Quotient (EQ) and the Autism Spectrum Quotient (
238 re empathic participants, as measured by the empathy quotient (EQ), were better facial imitators and,
239 systemizing were assessed using the Combined Empathy Quotient-Child (EQ-C) and Systemizing Quotient-C
240 1), perspective taking subscale of physician empathy (r = 0.31, P < .001), burnout (emotional exhaust
243 we used the well-established suppression of empathy-related brain responses for the suffering of out
250 This has been interpreted as evidence that empathy relies upon neural processes similar to those un
251 ustments in focus, and the future promise of empathy research if these trends continue and expand.
253 edict more (e.g., narcissism) or less (e.g., empathy) revenge, with the opposite pattern for forgiven
254 ecognizing emotional expressions, as well as empathy, risk taking, impulsivity, behavior change, and
256 al gyrus correlated significantly with total empathy score (P < 0.05 after whole-brain correction for
259 Together, the present results suggest that empathy seems to rely on neural processes that are (part
263 eading to changes in personality, behaviour, empathy, social conduct and insight, with relative prese
266 indicate potential novel biomarkers of trait empathy, suggesting that microstructural features of an
268 ion of memes and the mirror neuron system to empathy, sympathy, and cultural influences on the develo
269 ructures predicts error rate in an emotional empathy task after acute right hemisphere ischemic strok
276 d frontotemporal dementia, disrupt emotional empathy-the ability to share in and make inferences abou
280 rall, given the link between consolation and empathy, these findings help elucidate the development o
281 omains, from perception to language and from empathy to problem solving, that were once considered ou
282 various aspects of social behaviors such as empathy, trust, in-group preference, and memory of socia
284 ted a genome-wide meta-analysis of cognitive empathy using the 'Reading the Mind in the Eyes' Test (E
290 In this study, the neuroanatomic basis of empathy was investigated in 123 patients with FTLD, Alzh
291 grity of the insular cortex, while affective empathy was predicted by a marker of iron content in sec
293 increased burnout in all domains and reduced empathy were associated with increased odds of self-perc
294 ticular, individual differences in cognitive empathy were associated with markers of myeloarchitectur
295 characterized by fun, whereas people high in empathy were central to networks characterized by trust.
297 tal junction, would cause impaired affective empathy (whereas bilateral damage to temporoparietal jun
298 prefrontal cortex is implicated in emotional empathy, whereas dorsal medial prefrontal cortex is impl
299 lights how mechanisms such as expectancy and empathy, which are seen as inducing musical emotions, ar
300 theoretical and empirical evidence regarding empathy, which raises questions about the ordering and m
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