Мозг знает, почему тебе плохо. Как перестать стрессовать и получить свои гормоны счастья. Камилла НордЧитать онлайн книгу.
id="n_19">
19
Butler, R. K. & Finn, D. P. Stress-induced analgesia. Progress in Neurobiology 88, 184–202 (2009).
20
Terman, G. W., Morgan, M. J. & Liebeskind, J. C. Opioid and non-opioid stress analgesia from cold water swim: importance of stress severity. Brain Research 372, 167–171 (1986).
21
Bagley, E. E. & Ingram, S. L. Endogenous opioid peptides in the descending pain modulatory circuit. Neuropharmacology 173, 108131 (2020).
22
Killian, P., Holmes, B. B., Takemori, A. E., Portoghese, P. S. & Fujimoto, J. M. Cold water swim stress- and delta-2 opioid-induced analgesia are modulated by spinal gamma-aminobutyric acidA receptors. Journal of Pharmacology and Experimental Therapeutics 274, 730–734 (1995).
23
Janssen, S. A. & Arntz, A. Real-life stress and opioid-mediated analgesia in novice parachute jumpers. Journal of Psychophysiology 15, 106 (2001).
24
Terman, G. W., Morgan, M. J. & Liebeskind, J. C. Opioid and non-Opioid stress analgesia from cold water swim: importance of stress severity.
25
Terman, G. W., Morgan, M. J. & Liebeskind, J. C. Opioid and non-Opioid stress analgesia from cold water swim: importance of stress severity.
26
Иногда анальгезия возникает и после длительного стресса (например, после долгого пребывания в холодной воде), но она вызывается не опиоидной системой, а одной из других биохимических систем мозга, участвующих в подавлении боли.
27
Terman, G. W., Morgan, M. J. & Liebeskind, J. C. Opioid and non-Opioid stress analgesia from cold water swim: importance of stress severity.
28
Rivat, C. et al. Non-nociceptive environmental stress induces hyperalgesia, not analgesia, in pain and opioid-experienced rats. Neuropsychopharmacology 32, 2217–2228 (2007).
29
Maihofner, C., Forster, C., Birklein, F., Neundorfer, B. & Handwerker, H. O. Brain processing during mechanical hyperalgesia in complex regional pain syndrome: a functional MRI study. Pain 114, 93–103 (2005).
30
Gureje, O., Simon, G. E. & Von Korff, M. A cross-national study of the course of persistent pain in primary care. Pain 92, 195–200 (2001).
31
Currie, S. R. & Wang, J. More data on major depression as an antecedent risk factor for first onset of chronic back pain. Psychological medicine 35, 1275 (2005).
32
Brandl, F. et al. Common and specific large-scale brain changes in major depressive disorder, anxiety disorders, and chronic pain: a transdiagnostic multimodal meta-analysis of structural and functional MRI studies. Neuropsychopharmacology 47, 1–10 (2022).
33
Eisenberger, N. I. & Moieni, M. Inflammation affects social experience: Implications for mental health. World Psychiatry 19, 109 (2020).
34
Moseley, G. L. & Vlaeyen, J. W. Beyond nociception: the imprecision hypothesis of chronic pain. Pain 156, 35–38 (2015).
35
Wiech, K., Ploner, M. & Tracey, I. Neurocognitive aspects of pain perception. Trends in Cognitive Sciences 12, 306–313 (2008).
36
Wiech, K., Ploner, M. & Tracey, I. Neurocognitive aspects of pain perception. Trends in Cognitive Sciences 12, 306–313 (2008).
37
Wiech, K., Ploner, M. & Tracey, I. Neurocognitive aspects of pain perception. Trends in Cognitive Sciences 12, 306–313 (2008).
38
Moseley, G. L. & Vlaeyen, J. W. Beyond nociception: the imprecision hypothesis of chronic pain.
39
Hawkes, C. H. Endorphins: the basis of pleasure? Journal of Neurology, Neurosurgery, and Psychiatry 55, 247 (1992).
40
Hambach, A., Evers, S., Summ, O., Husstedt, I. W. & Frese, A. The impact of sexual activity on idiopathic headaches: an observational study. Cephalalgia 33, 384–389 (2013).
41
Darwin, C. & Prodger, P. The expression of the emotions in man and animals. (Oxford University Press, USA, 1998).
42
Berridge, K. C. Measuring hedonic impact in animals and infants: microstructure of affective taste reactivity patterns. Neuroscience & Biobehavioral Reviews 24, 173–198 (2000).