Predicting Posttraumatic Growth in COVID-19 Patients Using Electroencephalogram Signals
-
Mahnoosh Kamranvand
,
Fatemeh Dehghani Arani
,
Reza Rostami
,
Khosro Sadeghniat
,
Hojjatollah Farahani
Abstract
Purpose: The present study aimed to investigate the quantitative pattern of brain waves with post-traumatic growth dimensions in patients admitted due to Coronavirus Disease (COVID-19). Post-traumatic growth is the mental experience of positive psychological changes caused by the individual as a result of coping with challenging situations.
Materials and Methods: In this study, 66 individuals with COVID-19 who were admitted to Baharloo Hospital in Tehran as a stressful event were selected by convenience sampling and completed a post-traumatic growth inventory (PTGI) and their brain waves in rest were recorded.
Results: The results showed that brain components are a good predictor of post-traumatic growth dimensions. Alpha-parietal, F3-Sensorimotor Rhythm (F3-SMR) and alpha asymmetry predicted new possibilities component, alpha-F3 and alpha asymmetry predicted relating to others component, F4-SMR predicted spiritual change component and alpha asymmetry significantly predicted the total post-traumatic growth score. Also, Quantitative Electroencephalogram (QEEG) components did not significantly predict the appreciation of life and personal strength component.
Conclusion: According to the results, it can be said that more objective instruments such as Electroencephalogram )EEG( have good predictive power in complex psychological and multidimensional cases such as post-traumatic growth. The results of this study confirm the hypothesis that post-traumatic growth may reflect a process of active struggle to achieve new goals and perspectives. Accordingly, especially the more guided dimensions of post-traumatic growth (e.g., the new possibilities dimension) may be associated with the asymmetry of the frontal lobe of the brain. In contrast, the dimensions of appreciation of life and personal strength were not predicted by the brain component; these two components were slightly more abstract than the others and may lead to more / less neural network activity in functional Magnetic Resonance Imaging (fMRI) that is more observable.
2- Sandro Galea, Melissa Tracy, Fran Norris, and Scott F Coffey, "Financial and social circumstances and the incidence and course of PTSD in Mississippi during the first two years after Hurricane Katrina." Journal of Traumatic Stress: Official Publication of The International Society for Traumatic Stress Studies, Vol. 21 (No. 4), pp. 357-68, (2008).
3- Alyne Oliveira Correia, Pedro Walisson Gomes Feitosa, Jorge Lucas de Sousa Moreira, Samuel Átila Rodrigues Nogueira, Ricardo Brandão Fonseca, and Maria Elizabeth Pereira Nobre, "Neurological manifestations of COVID-19 and other coronaviruses: a systematic review." Neurology, Psychiatry and Brain Research, Vol. 37pp. 27-32, (2020).
4- Viktor E Frankl, Man's search for meaning. Simon and Schuster, (1985).
5- Susan Nolen-Hoeksema and Christopher G Davis, "Theoretical and methodological issues in the assessment and interpretation of posttraumatic growth." Psychological Inquiry, Vol. 15 (No. 1), pp. 60-64, (2004).
6- Richard G Tedeschi and Lawrence G Calhoun, "" Posttraumatic growth: conceptual foundations and empirical evidence"." Psychological Inquiry, Vol. 15 (No. 1), pp. 1-18, (2004).
7- Richard G Tedeschi and Lawrence G Calhoun, Trauma and transformation. Sage, (1995).
8- BJ Kennedy, Auke Tellegen, Sharon Kennedy, and Nancy Havernick, "Psychological response of patients cured of advanced cancer." Cancer, Vol. 38 (No. 5), pp. 2184-91, (1976).
9- Holger Ursin and Hege R Eriksen, "The cognitive activation theory of stress." Psychoneuroendocrinology, Vol. 29 (No. 5), pp. 567-92, (2004).
10- Jerika C Norona, Miri Scharf, Deborah P Welsh, and Shmuel Shulman, "Predicting post-breakup distress and growth in emerging adulthood: The roles of relationship satisfaction and emotion regulation." Journal of adolescence, Vol. 63pp. 191-93, (2018).
11- Hannah Stockton, Nigel Hunt, and Stephen Joseph, "Cognitive processing, rumination, and posttraumatic growth." Journal of traumatic stress, Vol. 24 (No. 1), pp. 85-92, (2011).
12- Sirko Rabe, Tanja Zöllner, Andreas Maercker, and Anke Karl, "Neural correlates of posttraumatic growth after severe motor vehicle accidents." Journal of Consulting and Clinical Psychology, Vol. 74 (No. 5), p. 880, (2006).
13- Pushpa Kanagaratnam and Arve E Asbjørnsen, "Executive deficits in chronic PTSD related to political violence." Journal of anxiety disorders, Vol. 21 (No. 4), pp. 510-25, (2007).
14- AR Moradi, "A comparative study on the performance of PTSD and OCD in executive functions." (2013).
15- Juri Kropotov, Functional neuromarkers for psychiatry: Applications for diagnosis and treatment. Academic Press, (2016).
16- Toshinori Chiba et al., "Current status of neurofeedback for post-traumatic stress disorder: a systematic review and the possibility of decoded neurofeedback." Frontiers in human neuroscience, Vol. 13p. 233, (2019).
17- Rafał Morga et al., "ELECTROPHYSIOLOGICAL EVALUATION OF THE EFFECTIVENESS OF NEUROFEEDBACK IN AMELIORATING CHRONIC POST-TRAUMATIC STRESS DISORDER." Acta Neuropsychologica, Vol. 17 (No. 2), (2019).
18- Ehud Levi and Eytan Bachar, "The moderating role of narcissism on the relationship between posttraumatic growth and PTSD symptoms." Personality and Individual Differences, Vol. 138pp. 292-97, (2019).
19- Sharon G Smith and Sarah L Cook, "Are reports of posttraumatic growth positively biased?" Journal of Traumatic Stress: Official Publication of The International Society for Traumatic Stress Studies, Vol. 17 (No. 4), pp. 353-58, (2004).
20- Marcin Rzeszutek, Włodzimierz Oniszczenko, and Ewa Firląg-Burkacka, "Social support, stress coping strategies, resilience and posttraumatic growth in a Polish sample of HIV-infected individuals: results of a 1 year longitudinal study." Journal of Behavioral Medicine, Vol. 40 (No. 6), pp. 942-54, (2017).
21- Rabee Rahimi, Mehdi Heidarzadeh, and Robab Hassanzadeh, "Post-traumatic growth among patients with myocardial infarction." Iranian Journal of Cardiovascular Nursing, Vol. 4 (No. 2), pp. 44-52, (2015).
22- Thalía Harmony et al., "EEG delta activity: an indicator of attention to internal processing during performance of mental tasks." International journal of psychophysiology, Vol. 24 (No. 1-2), pp. 161-71, (1996).
23- Nataša Jokić-begić and Dražen Begić, "Quantitative electroencephalogram (qEEG) in combat veterans with post-traumatic stress disorder (PTSD)." Nordic Journal of Psychiatry, Vol. 57 (No. 5), pp. 351-55, (2003).
24- Tobias Egner and John H Gruzelier, "Learned self-regulation of EEG frequency components affects attention and event-related brain potentials in humans." Neuroreport, Vol. 12 (No. 18), pp. 4155-59, (2001).
25- Sebastian Ocklenburg et al., "Beyond frontal alpha: investigating hemispheric asymmetries over the EEG frequency spectrum as a function of sex and handedness." Laterality: Asymmetries of Body, Brain and Cognition, Vol. 24 (No. 5), pp. 505-24, (2019).
26- Corey LM Keyes, Dov Shmotkin, and Carol D Ryff, "Optimizing well-being: the empirical encounter of two traditions." Journal of personality and social psychology, Vol. 82 (No. 6), p. 1007, (2002).
27- Heather L Urry et al., "Making a life worth living: Neural correlates of well-being." Psychological science, Vol. 15 (No. 6), pp. 367-72, (2004).
28- Stephen Joseph and P Alex Linley, "Positive adjustment to threatening events: An organismic valuing theory of growth through adversity." Review of general psychology, Vol. 9 (No. 3), pp. 262-80, (2005).
29- Steven K Sutton and Richard J Davidson, "Prefrontal brain electrical asymmetry predicts the evaluation of affective stimuli." Neuropsychologia, Vol. 38 (No. 13), pp. 1723-33, (2000).
30- Daren C Jackson et al., "Now you feel it, now you don't: Frontal brain electrical asymmetry and individual differences in emotion regulation." Psychological science, Vol. 14 (No. 6), pp. 612-17, (2003).
31- Richard J Davidson, John R Marshall, Andrew J Tomarken, and Jeffrey B Henriques, "While a phobic waits: Regional brain electrical and autonomic activity in social phobics during anticipation of public speaking." Biological psychiatry, Vol. 47 (No. 2), pp. 85-95, (2000).
32- Elissa S Epel, Bruce S McEwen, and Jeannette R Ickovics, "Embodying psychological thriving: Physical thriving in response to stress." Journal of Social issues, Vol. 54 (No. 2), pp. 301-22, (1998).
| Files | ||
| Issue | Vol 9 No 3 (2022) | |
| Section | Original Article(s) | |
| DOI | https://doi.org/10.18502/fbt.v9i3.9643 | |
| Keywords | ||
| Electroencephalogram Posttraumatic Growth Trauma COVID-19 | ||
| Rights and permissions | |
|
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
