Recognition of Facial Expressions: Selective Impairment of Specific Emotions in Huntington's Disease

Recognition of facial expressions of basic emotions was investigated in HL and UJ, two people with Huntington's disease who showed little evidence of general cognitive deterioration. No impairments were found in tests of the perception of age, sex, familiar face identity, unfamiliar face identity, and gaze direction, indicating adequate processing of the face as a physical stimulus. Computer-interpolated ("morphed") images of facial expressions of basic emotions were used to demonstrate deficits in the recognition of disgust and fear for UJ. HL also showed a deficit in the recognition of disgust, and was not very adept (but not significantly impaired) at recognising fear. Other basic emotions (happiness, surprise, sadness, anger) were recognised atnormal levels of performance by HL and UJ. These results show that impairments of emotion recognition can be circumscribed; affecting some emotions more than others, and occurring in people who do not show pronounced perceptual or intellectual deterioration. Questionnaires examining self-assessed emotion indicated normal experience of anger by HL and UJ, but possible abnormalities for disgust and fear. The processes involved in recognising other people's emotions may therefore be linked to those involved in experiencing emotion, and the basic emotions of fear and disgust may have separable neural substrates.     

Discrimination thresholds for recognizing facial emotions: mostly higher among the elderly

Elderly people have lower ability for recognizing facial emotions than younger people. Previous studies showed that older adults had difficulty in recognizing anger, sadness and fear, but there were no consistent results for happiness, surprise and disgust. Most of these studies used a small number of stimuli, and tabulated the number of correct responses for facial expressions. These characteristics of the task might be the source of the discrepancy in the findings. The present study used a task which measures participants' discrimination thresholds for six basic emotions using psychophysical measurement methods. The results showed that the thresholds for elderly participants (74.8 +/- 6.5 yrs) were significantly higher than for younger participants (20.1 +/- 1.6 yrs) for sadness, surprise, anger, disgust and fear. There was no significant difference for happiness. Since the task that we developed was sufficiently sensitive, it is a useful tool for assessing individuals' ability to perceive emotion.     

Brain oscillations and BIS/BAS (behavioral inhibition/activation system) effects on processing masked emotional cues.: ERS/ERD and coherence measures of alpha band

Alpha brain oscillation modulation was analyzed in response to masked emotional facial expressions. In addition, behavioural activation (BAS) and behavioural inhibition systems (BIS) were considered as an explicative factor to verify the effect of motivational significance on cortical activity. Nineteen subjects were submitted to an ample range of facial expressions of emotions (anger, fear, surprise, disgust, happiness, sadness, and neutral). The results demonstrated that anterior frontal sites were more active than central and posterior sites in response to facial stimuli. Moreover, right-side responses varied as a function of emotional types, with an increased right-frontal activity for negative emotions. Finally, whereas higher BIS subjects generated a more right hemisphere activation for some negative emotions (such as fear, anger, and surprise), Reward-BAS subjects were more responsive to positive emotion (happiness) within the left hemisphere. Valence and potential threatening power of facial expressions were considered to elucidate these cortical differences.     

Concordance of facial reactions to facial expressions

Participants watching a facial expression of emotion tend to respond with the same facial expression. This facial concordance is well known for happiness, but not for other emotions. The present study investigated whether facial expressions of basic six emotions induce facial concordance in participants by average-face method. Facial reactions of 20 subjects were videotaped while watching a facial expression of six emotions performed by amateur actors in a computer display. The six average faces were made from corresponding facial expression of emotions in the display. Newly chosen 62 subjects were asked to classify those average faces into six categories of emotion. The facial concordance was found for happiness and surprise, but not for disgust and fear. However, for average face of anger and that of sadness, classifications were divided into a few categories. This result suggests a possibility that an average faces might have included ambiguous or different faces. It may be necessary to conduct re-classification not with the average-face but with individual faces.     

Facial Emotion Recognition after Bilateral Amygdala Damage: Differentially Severe Impairment of Fear

Although the amygdala is widely believed to have a role in the recognition of emotion, a central issue concerns whether it is involved in the recognition of all emotions or whether it is more important to some emotions than to others. We describe studies of two people, DR and SE, with impaired recognition of facial expressions in the context of bilateral amygdala damage. When tested with photographs showing facial expressions of emotion from the Ekman and Friesen (1976) series, both DR and SE showed deficits in the recognition of fear. Problems in recognising fear were also found using photographic quality images interpolated (“morphed”) between prototypes of the six emotions in the Ekman and Friesen (1976) series to create a hexagonal continuum (running from happiness to surprise to fear to sadness to disgust to anger to happiness). Control subjects identified these morphed images as belonging to distinct regions of the continuum, corresponding to the nearest prototype expression. However, DR and SE were impaired on this task, with problems again being most clearly apparent in the region of the fear prototype. An equivalent test of recognition of morphed identities of six famous faces was performed normally by DR, confirming the dissociability of impairments affecting the recognition of identity and expression from the face. Further two-way forced-choice tests showed that DR was unable to tell fear from anger, but could tell happiness from sadness without difficulty. The finding that the recognition of fear can be differentially severely affected by brain injury is consistent with reports of the effects of bilateral amygdala damage in another case (Adolphs, Tranel, Damasio, & Damasio, 1994, 1995). The recognition of facial expressions of basic emotions may therefore be linked, to some extent, to specific neural substrates.     

Voluntary Facial Action Generates Emotion-Specific Autonomic Nervous System Activity

Four experiments were conducted to determine whether voluntarily produced emotional facial configurations are associated with differentiated patterns of autonomic activity, and if so, how this might be mediated. Subjects received muscle-by-muscle instructions and coaching to produce facial configurations for anger, disgust, fear, happiness, sadness, and surprise while heart rate, skin conductance, finger temperature, and somatic activity were monitored. Results indicated that voluntary facial activity produced significant levels of subjective experience of the associated emotion, and that autonomic distinctions among emotions: (a) were found both between negative and positive emotions and among negative emotions, (b) were consistent between group and individual subjects' data, (c) were found in both male and female subjects, (d) were found in both specialized (actors, scientists) and nonspecialized populations, (e) were stronger when the voluntary facial configurations most closely resembled actual emotional expressions, and (f) were stronger when experience of the associated emotion was reported. The capacity of voluntary facial activity to generate emotion-specific autonomic activity: (a) did not require subjects to see facial expressions (either in a mirror or on an experimenter's face), and (b) could not be explained by differences in the difficulty of making the expressions or by differences in concomitant somatic activity.     

Face emotion labeling deficits in children with bipolar disorder and severe mood dysregulation

Children with narrow phenotype bipolar disorder (NP-BD; i.e., history of at least one hypomanic or manic episode with euphoric mood) are deficient when labeling face emotions. It is unknown if this deficit is specific to particular emotions, or if it extends to children with severe mood dysregulation (SMD; i.e., chronic irritability and hyperarousal without episodes of mania). Thirty-nine NP-BD, 31 SMD, and 36 control subjects completed the emotional expression multimorph task, which presents gradations of facial emotions from 100% neutrality to 100% emotional expression (happiness, surprise, fear, sadness, anger, and disgust). Groups were compared in terms of intensity of emotion required before identification occurred and accuracy. Both NP-BD and SMD youth required significantly more morphs than controls to label correctly disgusted, surprised, fearful, and happy faces. Impaired face labeling correlated with deficient social reciprocity skills in NP-BD youth and dysfunctional family relationships in SMD youth. Compared to controls, patients with NP-BD or SMD require significantly more intense facial emotion before they are able to label the emotion correctly. These deficits are associated with psychosocial impairments. Understanding the neural circuitry associated with face-labeling deficits has the potential to clarify the pathophysiology of these disorders.     

Common and specific brain responses to scenic emotional stimuli

Processing of emotions has been an enduring topic of interest in neuroimaging research, but studies have mostly used facial emotional stimuli. The aim of this study was to determine neural networks involved in emotion processing using scenic emotional visual stimuli. One hundred and twenty photographs from the International Affective Picture System (IAPS), including ecological scenes of disgust, fear, happiness, and sadness, were presented to 40 healthy participants while they underwent functional magnetic imaging resonance (fMRI). Afterwards they evaluated the emotional content of the pictures in an offline task. The occipito-temporal cortex and the amygdala–hippocampal complex showed a non-specific emotion-related activation, which was more marked in response to negative emotions than to happiness. The temporo-parietal cortex and the ventral anterior cingulate gyrus showed deactivation, with the former being marked for all emotions except fear and the latter being most marked for disgust. The fusiform gyrus showed activation in response to disgust and deactivation in response to happiness or sadness. Brain regions involved in processing of scenic emotion therefore resemble those reported for facial expressions of emotion in that they respond to a range of different emotions, although there appears to be specificity in the intensity and direction of the response.     

Reduced sensitivity in the recognition of anger and disgust in social anxiety disorder

Introduction. The aim of this study was to investigate the recognition of facial expressions in patients with a generalised social anxiety disorder. It is well documented that in different psychiatric disorders (e.g., depression, schizophrenia) patients may show an altered processing of emotions. However, in generalised social anxiety, emotion recognition has not been studied.

Methods. 24 Patients with generalised social anxiety disorder and 26 healthy controls, matched on age, education, and sex were included. The task entailed the emotional labelling of faces with different facial expressions (happiness, fear, disgust, sadness, surprise, anger) presented in different intensities. Subjects were asked to make a forced‐choice response.

Results. These revealed that patients with a generalised social anxiety disorder were less sensitive for the negative facial expressions of anger and disgust compared to the control group.

Conclusions. This deficit could play a role in the development and/or the maintaining of the social anxiety. Both explanations are discussed.     

Facial emotion identification in males with fragile X syndrome

Fifteen postpubertal males with fragile X syndrome (FRA(X)) and 15 non-FRA(X) males matched on IQ and age were assessed for their ability to identify the facially expressed emotions of happiness, sadness, anger, fear, disgust, and surprise. Emotions of happiness and sadness were the easiest to identify for both groups of participants. Regardless of etiology, individuals with higher IQ scores performed better at this task than did individuals with lower IQ scores. Results were consistent with findings in females having the fragile X mutation. The current study supported the notion that FRA(X) individuals are sensitive to facial emotion cues presented by others. This finding is discussed in the context of autism and gaze aversion. © 1996 Wiley-Liss, Inc.     

A means of measuring facial expressions and a method for predicting emotion categories in clinical disorders of affect

In a radical departure from traditional approaches, it was found that only seven measures of facial expression are required to accurately distinguish between normal displays of happiness, sadness, fear, disgust, surprise and anger. Using these prototypical emotion categories it has been shown that particular facial areas in Parkinson's disease (PD) are responsible for communication of blended, rather than the intended expressions. We consider how assessment of facial expressions made in this way can be used to quantify progress of therapeutic intervention in PD. We also show that in gaining a better understanding of the structure of emotion categories, advances in understanding need not be overshadowed by methodological complexity. The simplicity of the approach presented here leads us to propose that the perceptual and behavioural aspects of affective disorders can now be tackled in a unified manner.     

Basic and complex emotions in depression and anxiety

The current study was designed to assess the emotion states that occur across the clinical disorders of depression, anxiety and mixed anxiety depression. The emotion states were assessed using the Basic Emotions Scale, which includes a set of simple and complex emotions rationally derived from the basic emotions of sadness, anger, fear, disgust and happiness. The profiles of emotion states across the clinical disorders and across a matched healthy control group supported an analysis in which emotions related to sadness and disgust were elevated in the depressed and mixed disorders, whereas increased levels of anger and fear, and decreased levels of happiness did not distinguish between clinical groups but were found in all disorders in comparison to healthy controls. Further factor analyses gave support for the proposed basic emotions model and did not support alternative models such as the Positive Affect‐Negative Affect model. The findings demonstrate how a theoretically based emotion analysis can provide a useful foundation from which to explore the emotional disorders. Copyright © 2007 John Wiley & Sons, Ltd.     

Autonomic response patterns during voluntary facial action

The effects of six voluntarily adopted emotional facial expressions on heart rate, respiration, emotional report, and effort ratings were examined. The results indicate that the facial expressions that were most difficult to produce (anger, fear, and sadness) showed larger cardiac accelerations than those that were easy to produce (disgust and surprise); the happiness expression fell somewhere in between. Emotional self-report revealed that in the majority of the facial configuration trials subjects experienced ones moderate or no emotion at all. In addition to the emotional configurations, a nonemotional expression was examined. Post hoc comparisons showed that the heart rate data of the nonemotional face were not significantly different from any of the other emotional expulsions. With respect to respiration, the production of facial expressions induced an increase in functional residual capacity, a decrease in tidal volume, shortened inspirators and expiratory phase duration, and an increase in inspiratory pause duration. These effects were most pronounced during the facial expressions that were difficult to produce. We conclude that changes in heart rate are not the consequence of the capacity of facial activity to recruit emotion-specific autonomic activity but instead are modulated by effort-related changes in respiration.     

Facial mimicry and emotional contagion to dynamic emotional facial expressions and their influence on decoding accuracy.

The present study had the goal to assess whether individuals mimic and show emotional contagion in response to relatively weak and idiosyncratic dynamic facial expressions of emotions similar to those encountered in everyday life. Furthermore, the question of whether mimicry leads to emotional contagion and in turn facilitates emotion recognition was addressed. Forty-one female participants rated a series of short video clips of stimulus persons expressing anger, sadness, disgust, and happiness regarding the emotions expressed. An unobtrusive measure of emotional contagion was taken. Evidence for mimicry was found for all types of expressions. Furthermore, evidence for emotional contagion of happiness and sadness was found. Mediational analyses could not confirm any relation between mimicry and emotional contagion nor between mimicry and emotion recognition.     

Face-selective processing and the effect of pleasant and unpleasant emotional expressions on ERP correlates.

Previous studies have revealed that decoding of facial-expressions starts very early in the brain ( approximately 180 ms post-stimulus) and might be processed separately from the basic stage of face perception. In order to explore brain potentials (ERPs) related to decoding of facial-expressions and the effect of emotional valence of the stimulus, we analyzed 18 normal subjects. Faces with five basic emotional expressions (fear, anger, surprise, happiness, sadness) and neutral stimulus were presented in random order. The results demonstrated that an emotional face elicited a negative peak at approximately 230 ms (N230), distributed mainly over the posterior site for each emotion. The electrophysiological activity observed may represent specific cognitive processing underlying the decoding of emotional facial-expressions. Nevertheless, differences in peak amplitude were observed for high-arousal negative expressions compared with positive (happiness) and low-arousal expressions (sadness). N230 amplitude increased in response to anger, fear and surprise, suggesting that subjects' ERP variations are affected by experienced emotional intensity, related to arousal and unpleasant value of the stimulus.     

Emotional expression and feeling in schizophrenia: effects of specific expressive behaviors on emotional experiences

The purpose of this study was to investigate the relationship between emotional expression and experience in schizophrenia by manipulating expressive behaviors directly and then assessing subsequent emotional feelings. In Study 1, facial expressions and bodily postures were manipulated in a sample of normals, the results of which replicate findings from previous studies of peripheral feedback effects on emotions. In Study 2, the same procedures were used with matched groups of outpatient schizophrenic men, patients with depression, and nonpsychiatric controls. Schizophrenia patients showed the usual effects from their facial expressions of sadness, fear, happiness, and surprise, but only from their postures of anger, whereas patients with depression showed the same effects only from their expressions and postures of sadness, and normal controls only from their expressions and postures of anger. These patterns may reflect those aspects of the emotional response system that are functional and dysfunctional in schizophrenia and depression.     

Emotions in everyday life: an ambulatory monitoring study with female students

Additional heart rate as an indicator of emotional arousal was monitored throughout the day with a special ambulatory device. Fifty female students received acoustic feedback every 10-20 min. The feedback was based either on events (additional heart rate present) or was random without additional heart rate. Following the feedback the subjects were asked to disclose their emotions. The following emotions were listed on the display of the monitoring device: no emotion, happiness, anger, anxiety/fear, sadness, surprise, and disgust. The frequency and quality of the emotions were not different between event-related and random feedbacks, indicating that the subjects were not able to discriminate between events with and without additional heart rate correctly. Accordingly, the physiological profiles of the differing emotions compared to conditions with "no emotion" were equivocal. The psychological ratings of excitement and enjoyment, however, came up to expectations. The results show that cognitive schemata and personality dimensions are more important in emotion perception than physiological activation.     

Cynical hostility and the accuracy of decoding facial expressions of emotions

To examine the relation between cynical hostility and the accuracy of decoding facial expressions of emotions, 101 young adult participants completed the Cook-Medley Hostility Scale and Ekman's Pictures of Facial Affect. Results revealed that higher hostility scores were correlated with a greater number of errors in decoding facial expressions of emotions. Hostile individuals were more likely than nonhostile individuals to label inaccurately facial expressions of "disgust" as being "anger" and of "happiness" as being "neutral." Results also revealed that males were more likely than females to label incorrectly facial expressions of disgust as anger. Partial correlations, controlling for gender, revealed that the relation between hostility and inaccurate perceptions of facial portrayals of happiness was significant, whereas the relation between hostility and inaccurate perceptions of facial displays of disgust was no longer significant.     

大学生情绪调节方式与抑郁的研究

目的：探讨大学生的情绪及情绪调节方法及其与抑郁和性别的关系。方法：98名大学本科生接受了情绪量表,情绪调节方式量表和抑郁量表的评定。结果：（1）大学生情绪感受频率序列（从多到少）为：快乐、兴趣,羞愧、内疚,羞涩、悲伤、惊奇、敌意、愤怒、蔑视、厌恶、恐惧等。（2）一般的模式在感受负性情绪时出现比较多的忽视和抑制,感受正性情绪时出现比较多的重视和宣泄;原因调节多于反应调节。（3）男性感受比较多的愤怒、在感受正性情绪时,男性存在比较多的忽视和抑制,女性存在比较多的重视和宣泄。（4）抑郁高分组包含比较的羞愧、羞涩、悲伤,自我敌意、恐惧、厌恶、愤怒等负性情绪,比较少的快乐和兴趣。在调节方式上,高抑郁在感受负情绪时有更多的重视和宣泄,在感受正情情绪时存在比较多的忽视和抑制,比较少的重视和宣泄,结论：不适当的情绪调节方式可能是增强抑郁的重要原因。     

Facial expression recognition and emotional regulation in narcolepsy with cataplexy

Cataplexy is pathognomonic of narcolepsy with cataplexy, and defined by a transient loss of muscle tone triggered by strong emotions. Recent researches suggest abnormal amygdala function in narcolepsy with cataplexy. Emotion treatment and emotional regulation strategies are complex functions involving cortical and limbic structures, like the amygdala. As the amygdala has been shown to play a role in facial emotion recognition, we tested the hypothesis that patients with narcolepsy with cataplexy would have impaired recognition of facial emotional expressions compared with patients affected with central hypersomnia without cataplexy and healthy controls. We also aimed to determine whether cataplexy modulates emotional regulation strategies. Emotional intensity, arousal and valence ratings on Ekman faces displaying happiness, surprise, fear, anger, disgust, sadness and neutral expressions of 21 drug‐free patients with narcolepsy with cataplexy were compared with 23 drug‐free sex‐, age‐ and intellectual level‐matched adult patients with hypersomnia without cataplexy and 21 healthy controls. All participants underwent polysomnography recording and multiple sleep latency tests, and completed depression, anxiety and emotional regulation questionnaires. Performance of patients with narcolepsy with cataplexy did not differ from patients with hypersomnia without cataplexy or healthy controls on both intensity rating of each emotion on its prototypical label and mean ratings for valence and arousal. Moreover, patients with narcolepsy with cataplexy did not use different emotional regulation strategies. The level of depressive and anxious symptoms in narcolepsy with cataplexy did not differ from the other groups. Our results demonstrate that narcolepsy with cataplexy accurately perceives and discriminates facial emotions, and regulates emotions normally. The absence of alteration of perceived affective valence remains a major clinical interest in narcolepsy with cataplexy, and it supports the argument for optimal behaviour and social functioning in narcolepsy with cataplexy.