style="font-size:15px;"> R. Nelson and B. Trainor, “Neural Mechanisms of Aggression,” Nat Rev Nsci 8 (2007): 536.
21
Другие следствия повреждения миндалины у человека изложены в работах: A. Young et al., “Face Processing Impairments After Amygdalotomy,” Brain 118 (1995): 15; H. Narabayashi et al., “Stereotaxic Amygdalotomy for Behavior Disorders,” Arch Neurol 9 (1963): 1; V. Balasubramaniam and T. Kanaka, “Amygdalotomy and Hypothalamotomy: A Comparative Study,” Confinia Neurologia 37 (1975): 195; R. Heimburger et al., “Stereotaxic Amygdalotomy for Epilepsy with Aggressive Behavior,” JAMA 198 (1966): 741; B. Ramamurthi, “Stereotactic Operation in Behavior Disorders: Amygdalotomy and Hypothalamotomy,” Acta Neurochirurgica (Wien) 44 (1988): 152; G. Lee et al., “Clinical and Physiological Effects of Stereotaxic Bilateral Amygdalotomy for Intractable Aggression,” J.Neuropsychiatry and Clin Nsci 10 (1998): 413; E. Hitchcock and V. Cairns, “Amygdalotomy,” Postgraduate Med J.49 (1973): 894 и M. Mpakopoulou et al., “Stereotactic Amygdalotomy in the Management of Severe Aggressive Behavioral Disorders,” Neurosurgical Focus 25 (2008): E6.
22
Вот некоторые статьи, касающиеся политических споров вокруг хирургического удаления миндалины: V. Mark et al., “Role of Brain Disease in Riots and Urban Violence,” JAMA 201 (1967): 217; P. Breggin, “Psychosurgery for Political Purposes,” Duquesne Law Rev 13 (1975): 841; E. Valenstein, Great and Desperate Cures: The Rise and Decline of Psychosurgery and Other Radical Treatments for Mental Illness (New York: Basic Books 2010).
23
C. Holden, “Fuss over a Terrorist’s Brain,” Sci 298 (2002): 1551
24
D. Eagleman, “The Brain on Trial,” Atlantic, June 7, 2011; G. Lavergne, A Sniper in the Tower (Denton: University of North Texas Press, 1997); H. Hylton, “Texas Sniper’s Brother John Whitman Shot,” Palm Beach Post, July 5, 1973, p. A1.
25
Великолепный обзор роли агрессии в формировании страха: J. LeDoux, The Emotional Brain: The Mysterious Underpinnings of Emotional Life (New York: Simon and Schuster, 1998).
26
N. Kalin et al., “The Role of the Central Nucleus of the Amygdala in Mediating Fear and Anxiety in the Primate,” J Nsci 24 (2004): 5506; T. Hare et al., “Contributions of Amygdala and Striatal Activity in Emotion Regulation,” BP 57 (2005): 624; D. Zald, “The Human Amygdala and the Emotional Evaluation of Sensory Stimuli,” Brain Res Rev 41 (2003): 88.
27
D. Mobbs et al., “When Fear Is Near: Threat Imminence Elicits Prefrontal-Periaqueductal Gray Shifts in Humans,” Sci 317 (2007): 1079.
28
G. Berns, “Neurobiological Substrates of Dread,” Sci 312 (2006): 754. Также о роли миндалины в реакции испуга у человека можно прочитать в следующих статьях: R. Adolphs et al., “Impaired Recognition of Emotion in Facial Expressions Following Bilateral Damage to the Human Amygdala,” Nat 372 (1994): 669; A. Young et al., “Face Processing Impairments After Amygdalotomy,” Brain 118 (1995): 15; J. Feinstein et al., “The Human Amygdala and the Induction and Experience of Fear,” Curr Biol 21 (2011): 34; A. Bechara et al., “Double Dissociation of Conditioning and Declarative Knowledge Relative to the Amygdala and Hippocampus in Humans,” Sci 269 (1995): 1115.
29
A. Gilboa et al., “Functional Connectivity of the Prefrontal Cortex and the Amygdala in PTSD,” BP 55 (2004): 263.
30
M. Hsu et al., “Neural Systems Responding to Degrees of Uncertainty in Human Decision-Making,” Sci 310 (2006): 1680; J. Rilling et al., “The Neural Correlates of Mate Competition in Dominant Male Rhesus Macaques,” BP 56 (2004): 364.
31
C. Zink et al., “Know Your Place: Neural Processing of Social Hierarchy in Humans,” Neuron 58 (2008): 273; M. Freitas-Ferrari et al., “Neuroimaging in Social Anxiety Disorder: A Systematic Review of the Literature,” Prog Neuro-Psychopharmacology and Biol Psychiatry 34 (2010): 565.
32
G. Berns et al., “Neurobiological Correlates of Social Conformity and Independence During Mental Rotation,” BP 58 (2005): 245.
33
K. Tye et al., “Amygdala Circuitry Mediating Reversible and Bidirectional Control of Anxiety,” Nat 471 (2011): 358; S. Kim et al., “Differing Neural Pathways Assemble a Behavioural State from Separable Features in Anxiety,” Nat 496 (2013): 219.
34
J. Ipser et al., “Meta-analysis of Functional Brain Imaging in Specific Phobia,” Psychiatry and Clin Nsci 67 (2013): 311; U. Lueken, “Neural Substrates of Defensive Reactivity in Two Subtypes of Specific Phobia,” SCAN 9 (2013): 11; A. Del Casale et al., “Functional Neuroimaging in Specific Phobia,” Psychiatry Res 202 (2012): 181; J. Feinstein et al., “Fear and Panic in Humans with Bilateral Amygdala Damage,” Nat Nsci 16 (2013): 270.
35
M. Cook and S. Mineka, “Selective Associations in the Observational Conditioning of Fear in Rhesus Monkeys,” J Exp Psych and Animal Behav Processes 16 (1990): 372; S. Mineka and M. Cook, “Immunization Against the Observational Conditioning of Snake Fear in Rhesus Monkeys,” J Abnormal Psych 95 (1986): 307.
36
S. Rodrigues et al., “Molecular Mechanisms Underlying Emotional Learning and Memory in the Lateral Amygdala,” Neuron 44 (2004): 75; J. Johansen et al., “Optical Activation of Lateral Amygdala Pyramidal Cells Instructs Associative Fear Learning,” PNAS 107 (2010): 12692; S. Rodrigues et al., “The Influence of Stress Hormones on Fear Circuitry,” Ann Rev of Nsci, 32 (2009): 289; S. Rumpel et al., “Postsynaptic Receptor Trafficking Underlying a Form of Associative Learning,” Sci 308 (2005): 83. Другие работы в этой области: C. Herry et al., “Switching On and Off Fear by Distinct Neuronal Circuits,” Nat 454 (2008): 600; S. Maren and G. Quirk, “Neuronal Signaling of Fear Memory,” Nat Rev Nsci 5 (2004): 844; S. Wolff et al., “Amygdala Interneuron Subtypes Control Fear Learning Through Disinhibition,” Nat 509 (2014): 453; R. LaLumiere,
