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Emotional responsivity is the ability to acknowledge an affective stimulus by exhibiting emotions. Reduced emotional responsivity refers to demonstrating less response to a stimulus. Increased emotional responsivity refers to demonstrating more response to a stimulus. Any response exhibited after exposure to the stimulus, whether it is appropriate or not, would be considered as an emotional response. Although emotional responsivity applies to nonclinical populations, it is more typically associated with individuals with schizophrenia and autism.

Emotional responsivity is connected to broader psychology concepts about emotions. People exhibit emotions in response to outside stimuli. Positive affective stimuli trigger feelings of pleasure such as happiness; negative affective stimuli trigger feelings of displeasure such as disgust and fear. Emotional responses include but are not limited to facial expressions and neurophysiological activities. For example, people display a “smile” when exposed to positive stimuli and a “frown” when exposed to negative stimuli. The feeling associated with emotion is called an affect, which can be categorized by valence and arousal. Valence describes the degree to which the feeling is a pleasure or displeasure. Arousal describes the degree to which a person is awoken by outside stimuli.

Measuring emotional responsivity
Clinical studies of emotional responsivity involve two essential procedures. First, the researchers try to stimulate emotions from the participants by engaging participants in specific tasks. Then, the researchers measure the degree to which the participants respond to the stimuli.

Tasks used to stimulate emotional responses include:


 * Picture stimuli: this task involves showing participants pleasant or unpleasant pictures and ask participants to rate the arousal and valence level of the picture. A pleasant picture could be erotica between the opposite sex; an unpleasant picture could be a burned human body. The International Affective Picture System is a photo database that helps generate pictures designed to arouse specific emotions.
 * Film clips: this task asks participants to view film clips that arouse different emotions. For example, comedies’ clips trigger potential feelings of joy. Neutral clips such as scenes of rainforests usually are included to serve as a control group.
 * Experimenter distress: this task involves the experimenter to stimulate emotions from participants by acting scenarios of distress. For example, the experimenter bans his or her knee and display expressions of pain.
 * Facial stimuli: this task involves asking a participant to view pictures of human faces that display different facial expressions. Participants would then be asked to rate their emotional experience. The facial expression would be considered as the affective stimuli.
 * Yummy-yucky: in this task, a child is asked to eat a certain food that was chosen by his or her parent. An experimenter then tastes the chosen food and displays either pleased or disgusted facial expression.
 * Surprise box: this task intends to stimulate an emotional response by opening a box in front of a participant, usually a child, and displaying either an “amazed” reaction by saying “ohh” or a “frightened” reaction by saying “ahh”.

After exposing participants to the affective stimuli, researchers typically use the following methods to measure emotional responsivity


 * Skin conductance (electrodermal activity): Skin conductivity indicates emotional arousal because increased sweat produced by certain emotions increases the skin conductivity level.
 * fMRI: this technology generates neuro-images of brain activities. fMRI can detect neurophysiological changes in the brain and thereby help determine the degree to which a person is aroused by the stimulus. For example, increased amygdala activity can be an indication of feeling fear.
 * Facial Action Coding System (FACS): this method uses the taxonomy of the face to measure movements of facial muscles. For example, the contraction of the orbicularis oculi muscle is an indication of happiness.
 * Maximally Discriminative Facial Movement Coding System: this system is mostly used to measure the emotional responsivity of young children by corresponding universally recognized facial expressions to emotions. For example, lowering eyebrows indicates emotions of anger.
 * Self-report: this method asks the participants to rate their valence and arousal level through questionnaires such as the Emotionally Expressivity Scales and the Berkley Expressivity Questionnaire. Studies have shown that self-report might not correspond to objective measures such as fMRI.

Autism
Autism is associated with decreased emotional responsivity. There was a study involving twenty-six children with autism and fifteen children with other learning disabilities, in which an adult displayed some form of emotion to study how the children respond. They focused on attention, hedonic tone, latency to changes in tone and an emotional contagion summery was made. Studies show correlations between measures of joint attention, emotional contagion, and the severity of autism. Results demonstrate that children with autism did not demonstrate changes in affect; however, their responses occurred much less than in comparison groups.

In another study involving twenty-one autism patients, FACS analysis demonstrates that people with autism display less facial responsivity when watching evocative films. Specifically, when compared to the control group, the autism group does not demonstrate the more complex muscular movements and displayed less differentiated facial responses when exposed to stimuli. A potential explanation for reduced emotional responsivity is that autism impedes social interaction and cognition.

Schizophrenia
Schizophrenia is characterized by disturbances to emotional experience. Patients usually have an increased emotional response to displeasure and a decreased emotional response to pleasure. A study involving 22 outpatients demonstrates that schizophrenia increases the emotional responsivity to low arousing negative stimuli while decreases the emotional responsivity to high arousing positive stimuli. People with Schizophrenia exhibit fewer facial expressions when watching evocative films.

There are differences in the arousal level of stimuli between paranoid and non-paranoid schizophrenia. Nonparanoid patients have increased negative emotional responsitivity and decreased positive emotional disregarding arousal levels. In comparison, paranoid schizophrenia has increased emotional responsivity to low arousing stimuli and reduced responsivity to high arousing stimuli. Schizophrenia impacts emotional responsivity by reducing a person’s hedonic capacity and producing a blunted affect.

Traumatic brain injury (TBI)
Traumatic brain injury is associated with reduced responsivity to negative affective stimuli. A study involving 21 TBI individuals use picture stimuli and self-report of valence and arousal levels to indicate that TBI has normal emotional responsivity to pleasant pictures; however, the participants showed a limited response to unpleasant pictures. A potential explanation is that TBI damages the ventral surfaces of the frontal and temporal lobes, which are areas associated with emotional processing.

Math anxiety
Math anxiety describes the situation in which a person is overly distressed by math-related classes, careers, and skills. A study involving fMRI techniques and 40 students demonstrates that people with math anxiety have increased emotional responsivity to math stimuli. The study suggests that when exposed to math-related stimuli, amygdala activity increases in the brain, thereby lowering the threshold of responding to a potential threat. Moreover, participants with math anxiety disengage and avoid the math stimuli more than images with negative valence such as a bleeding arm. The study suggests that math anxiety is similar to other types of phobia as there is increased vigilance and increased responsivity to specific stimuli.

Cocaine-exposed infants
Using cocaine during pregnancy creates neurological damage to the fetus and neurobehavioral problems to the infants. 72 infants participated in a study where 36 infants have prenatal exposure to cocaine. The results demonstrate that compared to the control group, cocaine-exposed infants have decreased emotional responsivity, as they exhibit fewer expressions of joy, interest, surprise, anger, and sadness. Specifically, the cocaine-exposed group has reduced response to positive affective stimuli, suggesting that cocaine-exposure during pregnancy decreases feelings of joyfulness.

Alcoholism:
Alcohol consumption impairs affective processing and therefore leads to abnormal responses to environmental stimuli. A study involving 42 abstinent alcoholics and 46 nonalcoholic demonstrates that alcoholics usually have lower emotional responsivity to erotic, happy, aversive, and gruesome stimuli. However, an in-depth analysis of fMRI images reveals gender differences. Alcoholic men have reduced emotional responsivity while alcoholic women have increased emotional responsivity to positive affective stimuli. The study suggests that the gender difference is associated with different functional abnormalities of emotional processing in the cortical, subcortical, and cerebellar regions of the brain.

Social interaction
Emotional responsivity is said to have a unique association with social interaction. Studies suggest that social interaction, especially at home, can influence the way a child responds to emotional stimuli. For example, if child grew up in a home where emotional displays resulted in punishment or negative criticism, the child would have the tendency to find ways to hide their emotions.

Sleep Deprivation
Sleeping issues in children have been linked to many physical and mental health problems later on in adulthood and created a greater risk for emotional and behavioral issues in children. Studies haven't been able to link the physiological functions with sleeping disturbances to these psychological consequences. Emotional liability, responsivity, psychological responses to positive and negative picture stimuli have all been a result of sleep deprivation.

Doctors today are using neuroimaging to connect

Treatment:
Current research suggests that future studies are required to find potential treatments of people with reduced or heightened emotional responsivity.