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Trauma Relapse in a Novel Context May Be Preventable
Title Trauma Relapse in a Novel Context May Be Preventable
Department Public Relations & Cooperation Team Date 2020-02-12
Attachments pdf [Press Release] Trauma Relapse in a Novel Context May Be Preventable.pdf

Trauma Relapse in a Novel Context May Be Preventable

- Dr. Ja Wook Koo and Dr. Sukwon Lee of KBRI publish new findings in an international scientific journal
- Discovery of a brain region linked to fear renewal may hold promise for developing PTSD treatment strategies 


□ Korea Brain Research Institute (KBRI, President: Pann-Ghill Suh) announced on February 10 that its research team led by Dr. Ja Wook Koo and Dr. Sukwon Lee proved that the posterior parietal cortex (PPC) of the cerebrum plays a role in fear renewal occurring in a novel context. 
   * Posterior parietal cortex (PPC): The posterior parietal cortex is a part of the parietal lobe located in the upper-rear part of the brain and is related to high-level cognitive functions of the brain, including spatial reasoning and decision-making. 
 
 ○ The findings were published in the February issue of the international scientific journal Molecular Brain. The title of the paper and its authors are as below.
   * Title: Posterior parietal cortex mediates fear renewal in a novel context
   * Authors: Bitna Joo (first author), Ja Wook Koo, and Sukwon Lee (corresponding authors)
 
Posttraumatic stress disorder (PTSD) is a mental health condition ‘where‘ a person exposed to traumatic events such as severe accidents and violence repeatedly suffers from mental or physical distress. PTSD patients experience chronic distress because a mere visit to a place that reminds them of their trauma can result in relapse. For instance, some survivors of national disasters, such as the Sewol ferry incident and the Daegu subway fire, can no longer board a ship or are reluctant to use the subway in another city. 
 
□ A KBRI research team has discovered, for the first time in the world, that PPC is associated with fear renewal in a novel context. 
   * In this study, fear memory was produced in the form of associative memory through the simultaneous use of auditory and electric stimuli. This memory was a conditioned memory as shown in Pavlov’s dogs salivate in response to bell ringings after several repetitions of being fed while bell ringing.
 
○ The research team exposed mice simultaneously to sound and electric shock in order to create an auditory fear memory, and then exposed them again to the same sound in a novel context. 
 
○ Control mice that received no treatment exhibited the same fear response in both novel and familiar contexts, ‘where‘as experimental mice whose PPC was inactivated via drug treatment or light stimulation showed no fear response in a novel context. (Still, in a familiar context, their fear relapse could not be prevented.) 
 
□ The present study has proved that fear renewal in a novel context requires the activation of the PPC. The findings also suggest that, among regions of the cerebral cortex that perform high-level cognitive tasks (e.g. perception, thinking and memorizing), the PPC plays a crucial role in spatial reasoning and decision-making. 
 
□ Dr. Ja Wook Koo and Dr. Sukwon Lee of KBRI stated that the research team “discovered a new role for the PPC that had previously not been fully understood” and that they hoped to “help researchers develop treatment strategies needed to prevent fear renewal from occurring in patients with PTSD and fear-related disorders.” 
 
□ In 2016, KBRI established the Co-operative Cerebral Cortex Research Group to study the PPC of the cerebrum. This group has been researching animal models associated with socialization and cognitive behavior, and aims to complete, by 2026, the creation of a PPC-centered functional brain map.
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