736 Summary: Many people who experience traumatic brain injury report a loss of empathy following their injury. Researchers consider how to reconnect those who have a TBI with their feelings of empathy and emotional recognition. Source: The Conversation Most people can easily determine when a loved one is feeling sad or anxious. This recognition will often trigger the person to offer a comforting gesture or even have a contagious emotional reaction, causing them to also feel sad or anxious, too. These important actions are referred to as emotion recognition and empathy, and they are fundamental to establishing human emotional connections and relationships. But imagine waking up one morning and your loved one lost the ability to recognize and empathize with your feelings. For the last couple of decades, researchers have been showing this to be a common outcome for people who have suffered a traumatic brain injury. The inability to recognize and empathize with others’ emotions after brain injury has a resounding impact on family and friends and has sparked research leading to promising treatments. I started studying emotion recognition and empathy in 2005, and this is exactly how the wife of my first research participant described it happened for her husband who was in a car accident and suffered a traumatic brain injury, or TBI. Once a very affectionate partner who responded to all of her emotional needs, he now failed to recognize her sadness or comfort her when she lost her father. Conversely, he was unable to feel the emotional contagion of her joy when she received recognition at work. This once very strong couple later divorced. Crashes, blasts and falls that affect millions A TBI is when an external physical force leads to a disruption in brain function. Falls and motor vehicle accidents are the most common causes, but damage also results from many other injuries, including blast injuries that are frequently experienced by active duty military. In 2014, almost 3 million Americans received some type of medical care or died from a TBI-related incident. Problems with attention, memory, planning, reasoning or problem solving are common. But often more troublesome are the frequent emotional and behavioral changes, such as increased anger and aggression. Emotional and behavioral changes have been linked with problems recognizing others’ emotions and an inability to share another’s feelings. Prevalence rates of problems with emotion recognition and decreased empathy after brain injury are 39% and 60%, respectively. This is quite concerning for people with TBI and their family members, as this impairment has been related to worse social relations after TBI. The first step of empathy It has been a longstanding theory that a person must recognize others’ emotions in order to empathize with them. However, despite the strong theoretical rationale, scientific experiments have had trouble finding strong support for this belief, in people with and without brain injury. When I looked at how the past studies were conducted, I saw clear design flaws. Many of the former studies assessed emotion recognition and empathy in isolation of one another. Empathy was typically measured with unrelated subjective questionnaires. So it is not too surprising little relationship was found between two unrelated tests. For example, researchers would administer an emotion recognition test, such as pictures of facial expressions. The researchers would then give participants a questionnaire about their general empathic tendencies. But the researchers did not test how the person with TBI felt in response to the facial expressions they had to identify. For example, did they feel sad when looking at a sad person? By not gauging a person’s feelings in response to the emotional expression in the picture, researchers were not measuring a direct empathic response to another’s feelings. A second step to empathy Due to the limitations of previous studies, my colleague, Dr. Barbra Zupan, and I decided to take a different approach. In our recent publication, we showed subjects with and without TBI emotional film clips and had them identify how the character in the clip felt and how they felt while watching the clip. Understanding the facial cues from another person is a component of empathy. The image is in the public domain. Since a shared emotional response is an element of empathy, when participants felt the same emotion they identified the character to be feeling, we defined that as an empathic response. We did not require them to recognize the character’s emotion accurately to be classified as an empathic response. Using this approach allowed us to measure the direct relationship between recognizing another’s emotion and having a shared empathic response. If we made accurate emotion recognition a requirement to be considered an empathic response, we would not have been able to measure this relationship. We had several interesting findings. Based on past research showing impaired empathy after TBI, we expected the percent of empathic responses to be pretty low in our participants with TBI. While participants with TBI did not have as many empathic responses as their uninjured age and gender-matched peers (79%), they did respond empathically 67% of the time. Further, we found that accurate recognition of characters’ emotions was associated with a greater number of empathic responses. The empathic responses of participants with TBI more than doubled when they accurately identified the character’s emotion, compared to a misrecognized emotion (71% vs. 32%, respectively). We think it is important to note that correct emotion recognition was not sufficient for an empathic response to occur in either group. That is, participants did not always respond empathically when they correctly recognized the emotion.See alsoFeaturedNeuroscienceOpen Neuroscience ArticlesPsychologyRobotics·March 10, 2020Robots that admit mistakes foster better conversation in humans Our findings also suggest that participants with TBI had a harder time recognizing and empathizing with sad and fearful emotions, compared to happy emotions. This was indicated by their lower recognition and empathic responses when characters were acting sad and afraid. This means that when loved ones need comforting the most – when feeling fearful or sad – they are unlikely to get it from a partner with TBI. Helping those with TBI We think these findings have important clinical implications. First, clinicians treating people with TBI should plan to evaluate emotion recognition and empathy in their patients and learn how to treat these impairments. Interviewing patients with TBI and their family members can help paint a picture of how a person has changed compared to his or her pre-injury self and lead to goals for rehabilitation. There are evidence-based approaches and free treatment tools, designed by our group, that have now been deemed practice standards for improving emotion recognition skills. When training emotion recognition after TBI, clinicians should also discuss with the patient ways they can respond empathically to loved ones. Newer research from another group in the Netherlands shows that this combination – both recognition and responding empathically – is effective and should involve the family member as part of treatment. Also, clinicians should consider educating survivors of TBI and their families about these common changes after TBI, why it happens, what they might expect in terms of changes in behavior, and notifying them that it could improve with treatment. Finally, family members could be directed to be more explicit about their emotions and what they would like from their loved one with a brain injury. Together, these efforts could improve outcomes after TBI and minimize the common relationship strains experienced after a brain injury. Funding: Dawn Neumann has received funding from the Cannon Research Center at Carolinas Rehabilitation, The Humanity Research Institute at Brock University, and the National Institute on Disability, Independent Living and Rehabilitation Research (grant no. H133G080043) [divider]About this neuroscience research article[/divider] Source: The Conversation Media Contacts: Dawn Neumann – The Conversation Image Source: The image is in the public domain. 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