Spring 2021, PY 630: Affective Neuroscience

Instructor: Dr. Caitlin M. Hudac (she/her/hers)
Email: cmhudac [at] ua.edu 
Student hoursReadily available by appointment; Prefer Mondays between 11 am and 1 pm 

​Prerequisites: Clinical Psychology students are required to take PY 629 (Biological Bases of Behavior) prior to this course. Other students may request an override of this pre-requisite with professor permission if the student has completed complimentary coursework.

Required text:
Armony, J., & Vuilleumier, P. (Eds.). (2013). The Cambridge handbook of human affective neuroscience. Cambridge University Press. [Book -- Amazon]
Course descriptionThis course will overview of the principles, theory, and applications of human affective neuroscience. The course introduce theory and research in major areas of affective neuroscience, including cross-level integration of biological data, including neural and physiological data. The course will describe laboratory techniques and methodological principles in human affective neuroscience methods and will include demonstrations. Readings will include introductions to topics and relevant selections from the current literature. The basis of the course will involve a combination of lecture and discussions co-facilitated by students and the professor.

Copy of syllabus: Download file

Planned schedule of topics, reading, and assignment due dates

Week 1
Wed 1/13
Facilitator
​Hudac
Introduction to course; Importance of affective neuroscience
Readings: Syllabus, start reading for Week 2
Complete beginning of class survey  
Week 2
​Watch lecture video
Mon 1/18- No class
Wed 1/20​
Facilitator
​Hudac
What is emotion? What is affect? Major theories and the link to cognition
No Monday class for Martin Luther King, Jr. University Holiday.
Readings to supplement Monday class:
  1. Introduction of book: Armony, J., & Vuilleumier, P. (Eds.). (2013). The Cambridge handbook of human affective neuroscience. Cambridge University Press.
  2. Davidson, R. J., & Sutton, S. K. (1995). Affective neuroscience: The emergence of a discipline. Current opinion in neurobiology, 5(2), 217-224.
  3. Shackman, A. J., & Wager, T. D. (2019). The emotional brain: Fundamental questions and strategies for future research.
Readings for Wednesday discussion:
  1. Anderson, B., & Harrison, P. (2006). Questioning affect and emotion. Area, 38(3), 333-335.
  2. Davis, K. L., & Montag, C. (2019). Selected principles of Pankseppian affective neuroscienceFrontiers in neuroscience12, 1025.
  3. Leshin, J. C., & Lindquist, K. A. (2019). Neuroimaging of emotion dysregulation. In The Oxford handbook of emotion dysregulation.
Week 3
Watch method video
​Mon 1/25
Wed 1/27
Facilitator
​Hudac
[1]
[2]
The anatomy of feelings: Autonomic nervous system and neuroanatomy
Recorded method video: Brief primer to MRI connectivity (more to come Week 4)
Readings to supplement Monday class:
  1. Chapter 3 of book: Harrison, N. A., Kreibig, S. D., & Critchley, H. D. (2013). A two-way road: Efferent and Afferent Pathways of Autonomic Activity in Emotion. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 82-106.
  2. Feinstein, J. S., Adolphs, R., Damasio, A., & Tranel, D. (2011). The human amygdala and the induction and experience of fear. Current biology21(1), 34-38.
Readings for Wednesday discussion:
  1. Lindquist, K & Barrett, L (2012). A functional architecture of the human brain: emerging insights from the science of emotion. TiCS
  2. Pessoa, L. (2017). A network model of the emotional brain. Trends in cognitive sciences, 21(5), 357-371.
  3. Dolcos, F., Iordan, A. D., & Dolcos, S. (2011). Neural correlates of emotion–cognition interactions: A review of evidence from brain imaging investigations. Journal of Cognitive Psychology, 23(6), 669-694.
Week 4
Watch method video
Mon 2/1
Wed 2/3
Facilitator
​Hudac
[3]
[4]
Emotion perception – fMRI, fNIRS
Recorded method video: Method overview of BOLD signal
Readings to supplement Monday class:
  1. Chapter 5 of book: Armony, J. & Han, J.E. (2013). PET and fMRI: Basic Principles and Applications in Affective Neuroscience Research. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 133-153.
  2. Dubois, J., & Adolphs, R. (2016). Building a science of individual differences from fMRITrends in cognitive sciences20(6), 425-443.
  3. Yücel, M. A., Lühmann, A. V., Scholkmann, F., Gervain, J., Dan, I., Ayaz, H., ... & Wolf, M. (2021). Best practices for fNIRS publicationsNeurophotonics8(1), 012101.
  4. For reference
    1. Goebel, R. (2015). Revealing Brain Activity and White Matter Structure Using Functional and Diffusion-Weighted Magnetic Resonance Imaging. In Clinical Functional MRI (pp. 13-60). Springer Berlin Heidelberg. 
Readings for Wednesday discussion:
  1. Kluczniok, D., Hindi Attar, C., Stein, J., Poppinga, S., Fydrich, T., Jaite, C., ... & Bermpohl, F. (2017). Dissociating maternal responses to sad and happy facial expressions of their own child: An fMRI studyPloS one12(8), e0182476.
  2. Mauri, M., Grazioli, S., Crippa, A., Bacchetta, A., Pozzoli, U., Bertella, S., ... & Nobile, M. (2020). Hemodynamic and behavioral peculiarities in response to emotional stimuli in children with attention deficit hyperactivity disorder: An fNIRS study. Journal of Affective Disorders277, 671-680.
Week 5
Watch method videos 
Mon 2/8
Wed 2/10
Facilitator
​Hudac
[5]
[6]
Emotion perception – Basic physiology, eye tracking
Recorded method video: Method overview basic physiology
Recorded method video: Method overview of eye tracking
Readings to supplement Monday class:
  1. Egger, M., Ley, M., & Hanke, S. (2019). Emotion recognition from physiological signal analysis: A reviewElectronic Notes in Theoretical Computer Science343, 35-55.
  2. Carter, B. T., & Luke, S. G. (2020). Best practices in eye tracking researchInternational Journal of Psychophysiology.
Readings for Wednesday discussion:
  1. Mather, M., & Thayer, J. F. (2018). How heart rate variability affects emotion regulation brain networks. Current opinion in behavioral sciences, 19, 98-104.
  2. Malsert, J., Palama, A., & Gentaz, E. (2020). Emotional facial perception development in 7, 9 and 11 year-old children: The emergence of a silent eye-tracked emotional other-race effectPlos one15(5), e0233008.
  3. Nuske, H. J., Vivanti, G., & Dissanayake, C. (2016). Others’ emotions teach, but not in autism: an eye-tracking pupillometry studyMolecular autism7(1), 36.
Week 6
Watch method video
Mon 2/15
Wed 2/17
Test opens 2/18
Facilitator
​Hudac
[7]
[8]
Emotion perception – EEG/ERP
Recorded method video: Method overview of electrophysiology
Readings to supplement Monday class:
  1. Chapter 4 of book: Keil. A. (2013). Electro- and Magneto-Encephalography in the Study of Emotion. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 107-132.
  2. Webb, S. J., Bernier, R., Henderson, H. A., Johnson, M. H., Jones, E. J., Lerner, M. D., ... & Westerfield, M. (2015). Guidelines and best practices for electrophysiological data collection, analysis and reporting in autismJournal of autism and developmental disorders45(2), 425-443.
  3. Hinojosa, J. A., Mercado, F., & Carretié, L. (2015). N170 sensitivity to facial expression: A meta-analysisNeuroscience & Biobehavioral Reviews55, 498-509. 
Readings for Wednesday discussion:
  1. Steber, S., König, N., Stephan, F., & Rossi, S. (2020). Uncovering electrophysiological and vascular signatures of implicit emotional prosodyScientific Reports10(1), 1-14. [note: ERP and fNIRS]
  2. Moshirian Farahi, S. M., Asghari Ebrahimabad, M. J., Gorji, A., Bigdeli, I., & Moshirian Farahi, S. M. M. (2019). Neuroticism and frontal EEG asymmetry correlated with dynamic facial emotional processing in adolescentsFrontiers in psychology10, 175.
Week 7
Mon 2/22
Wed 2/24
Facilitator
​Hudac
[9]
[10]
Elicitation of affective responses
Readings to supplement Monday class:
  1. Chapter 9 of book: Rainville, P. (2013). Pain and the Emotional Responses to Noxious Stimuli. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, starting page 232.
  2. Chapter 12 of book: Koelsch, S. (2013). Emotion and Music. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 286-303
  3. Gilam, G., Gross, J. J., Wager, T. D., Keefe, F. J., & Mackey, S. C. (2020). What is the relationship between pain and emotion? Bridging constructs and communitiesNeuron107(1), 17-21.
  4. Decety, J., & Hodges, S. D. (2006). The social neuroscience of empathyBridging social psychology, 103-109.
Readings for Wednesday discussion:
  1. FakhrHosseini, S. M., & Jeon, M. (2019). How do angry drivers respond to emotional music? A comprehensive perspective on assessing emotionJournal on Multimodal User Interfaces13(2), 137-150.
  2. Sleegers, W. W., Proulx, T., & van Beest, I. (2017). The social pain of Cyberball: Decreased pupillary reactivity to exclusion cuesJournal of Experimental Social Psychology69, 187-200.
  3. Hudac, C. M. (2019). Social priming modulates the neural response to ostracism: a new exploratory approachSocial Neuroscience14(3), 313-327.
  4. Fraser, A. M., Hampton, R. S., Spinrad, T. L., Varnum, M., Blais, C., Eisenberg, N., ... & Xiao, S. X. (2020). Children’s mu suppression is sensitive to witnessing others’ social victimizationSocial Neuroscience, 1-7.
Week 8
Mon 3/1
Wed 3/3
Facilitator
​Hudac
[11]
[12]
Emotion and affect regulation
Readings to supplement Monday class:
  1. Chapter 16 of book: Phan, K.L. & Sripada, C.S. (2013). Emotion Regulation. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages starting 375.
  2. Warren, S. M., Chou, Y. H., & Steklis, H. D. (2020). Potential for Resting-State fMRI of the Amygdala in Elucidating Neural Mechanisms of Adaptive Self-Regulatory Strategies: A Systematic Review. Brain Connectivity10(1), 3-17.
  3. Perlman, S. B., & Pelphrey, K. A. (2010). Regulatory brain development: balancing emotion and cognitionSocial Neuroscience5(5-6), 533-542.
Readings for Wednesday discussion:
  1. Bartholomew, M. E., Yee, C. M., Heller, W., Miller, G. A., & Spielberg, J. M. (2019). Reconfiguration of brain networks supporting inhibition of emotional challengeNeuroImage186, 350-357.
  2. Thiruchselvam, R., Blechert, J., Sheppes, G., Rydstrom, A., & Gross, J. J. (2011). The temporal dynamics of emotion regulation: An EEG study of distraction and reappraisalBiological psychology87(1), 84-92.
  3. Hu, X., Zhuang, C., Wang, F., Liu, Y. J., Im, C. H., & Zhang, D. (2019). fNIRS evidence for recognizably different positive emotionsFrontiers in human neuroscience13, 120.
  4. Liddell, B. J., & Williams, E. N. (2019). Cultural differences in interpersonal emotion regulationFrontiers in psychology10, 999.
Week 9
​​Due Mon 3/8: Basic methods/concept test
Mon 3/8
Wed 3/10
Facilitator
​Hudac
[13]
[14]
Responses to stress and interactions with health
Readings to supplement Monday class:
  1. Chapter 22 of book: Heinrichs, M., Chen, F.S., Domes, G., & Kumstra, R. (2013). Social Stress and Social Approach. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 358-374.
Readings for Wednesday discussion:
  1. Kim, P., Evans, G. W., Angstadt, M., Ho, S. S., Sripada, C. S., Swain, J. E., ... & Phan, K. L. (2013). Effects of childhood poverty and chronic stress on emotion regulatory brain function in adulthoodProceedings of the National Academy of Sciences110(46), 18442-18447.
  2. Dijkhuis, R. R., Ziermans, T., van Rijn, S., Staal, W., & Swaab, H. (2019). Emotional Arousal During Social Stress in Young Adults With Autism: Insights From Heart Rate, Heart Rate Variability and Self-ReportJournal of autism and developmental disorders49(6), 2524-2535.
  3. Drapeau, J., Gosselin, N., Peretz, I., & McKerral, M. (2019). Electrophysiological responses to emotional facial expressions following a mild traumatic brain injuryBrain sciences9(6), 142.
  4. Cote, K. A., Mondloch, C. J., Sergeeva, V., Taylor, M., & Semplonius, T. (2014). Impact of total sleep deprivation on behavioural neural processing of emotionally expressive facesExperimental brain research232(5), 1429-1442.
Week 10
Watch method video
Mon 3/15 – No class
​Wed 3/17
Facilitator
​Hudac
Early and late development of the affective brain; Nonverbal/minimally verbal approach to affective neuroscience 
Pre-Monday recorded lectures: (1) Method overview of pediatric cognitive neuroscience; (2) Mini-lecture on early development of emotion perception
Readings to supplement Monday recorded lecture:
  1. Chapter 27 of book: Viding, E., Sebastian, C.L., & McCrory, E.J. (2013). Development of Affective Circuitry. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 358-374.
  2. Chapter 28 of book: St. Jacques, P.L., Winecoff, A., & Cabeza, R. (2013). Emotion and Aging: Linking Neural Mechanisms to Psychological Theory. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 358-374.
  3. References covered in mini-lecture:
    1. Casey, B. J., Heller, A. S., Gee, D. G., & Cohen, A. O. (2019). Development of the emotional brainNeuroscience letters693, 29-34.
    2. Yeung, M. K., & Chan, A. S. (2020). A Systematic Review of the Application of Functional Near-Infrared Spectroscopy to the Study of Cerebral Hemodynamics in Healthy AgingNeuropsychology Review, 1-28.
    3. Morales, S., & Fox, N. A. (2019). A Neuroscience Perspective on Emotional Development. In Handbook of Emotional Development (pp. 57-81). Springer, Cham.
Readings for Wednesday discussion:
  1. Zhao, C., Schiessl, I., Wan, M. W., Chronaki, G., & Abel, K. M. (2020). Development of the neural processing of vocal emotion during the first year of lifeChild Neuropsychology, 1-18.
  2. O'Toole, L. J., DeCicco, J. M., Berthod, S., & Dennis, T. A. (2013). The N170 to angry faces predicts anxiety in typically developing children over a two-year period. Developmental neuropsychology38(5), 352-363.
  3. Fide, E., Emek-Savaş, D. D., Aktürk, T., Güntekin, B., Hanoğlu, L., & Yener, G. G. (2019). Electrophysiological evidence of altered facial expressions recognition in Alzheimer’s disease: a comprehensive ERP studyClinical Neurophysiology130(10), 1813-1824.
  4. TBD
Week 11
Mon 3/22
Wed 3/24
Facilitator
​Hudac
[15]
[16]
Role of cognition and attention; Utility of affective neuroscience as treatment (biofeedback, mindfulness intervention, TMS/tES)
Readings to supplement Monday class:
  1. Chapter 15 of book: Pessoa, L., Oliveira, L., & Pereira, M. (2013). Top-Down Attention and the Processing of Emotional Stimuli. In J. Armony & P. Vuilleumier (Eds.), The Cambridge handbook of human affective neuroscience, Cambridge University Press, pages 358-374.
  2. Ochsner, K. N., & Gross, J. J. (2005). The cognitive control of emotionTrends in cognitive sciences9(5), 242-249.
  3. Ros, T., Enriquez-Geppert, S., Zotev, V., Young, K. D., Wood, G., Whitfield-Gabrieli, S., ... & Thibault, R. T. (2020). Consensus on the reporting and experimental design of clinical and cognitive-behavioural neurofeedback studies (CRED-nf checklist). Brain, 143, 1674-1685.
  4. Pérez, C., Leite, J., Carvalho, S., & Fregni, F. (2016). Transcranial electrical stimulation (tES) for the treatment of neuropsychiatric disorders across lifespanEuropean Psychologist.
Readings for Wednesday discussion:
  1. Woody, M. L., James, K., Foster, C. E., Owens, M., Feurer, C., Kudinova, A. Y., & Gibb, B. E. (2019). Children’s sustained attention to emotional facial expressions and their autonomic nervous system reactivity during parent-child interactions. Biological psychology, 142, 37-44.
  2. Van Dillen, L. F., Heslenfeld, D. J., & Koole, S. L. (2009). Tuning down the emotional brain: an fMRI study of the effects of cognitive load on the processing of affective imagesNeuroimage45(4), 1212-1219.
  3. Rosenbaum, D., Kroczek, A. M., Hudak, J., Rubel, J., Maier, M. J., Sorg, T., ... & Ehlis, A. C. (2020). Neural correlates of mindful emotion regulation in high and low ruminatorsScientific reports10(1), 1-15.
  4. Class will vote to pick one:
    1. Zaehringer, J., Ende, G., Santangelo, P., Kleindienst, N., Ruf, M., Bertsch, K., ... & Paret, C. (2019). Improved emotion regulation after neurofeedback: A single-arm trial in patients with borderline personality disorderNeuroImage: Clinical24, 102032.
    2. Lorenzetti, V., Melo, B., Basílio, R., Suo, C., Yücel, M., Tierra-Criollo, C. J., & Moll, J. (2018). Emotion regulation using virtual environments and real-time fMRI neurofeedbackFrontiers in neurology9, 390
Week 12
Mon 3/29
Wed 3/31
Due Monday 3/29: Week 14 presenter papers due for first review/grade.
Facilitator
​Hudac
[17]
[18]
Clinical and environmental considerations
Readings to supplement Monday class:
  1. Uddin, L. Q., & Karlsgodt, K. H. (2018). Future directions for examination of brain networks in neurodevelopmental disordersJournal of Clinical Child & Adolescent Psychology47(3), 483-497.
  2. Young, K. S., Sandman, C. F., & Craske, M. G. (2019). Positive and negative emotion regulation in adolescence: links to anxiety and depression. Brain sciences, 9(4), 76.
Readings for Wednesday discussion:
  1. Klapwijk, E. T., Aghajani, M., Colins, O. F., Marijnissen, G. M., Popma, A., van Lang, N. D., ... & Vermeiren, R. R. (2016). Different brain responses during empathy in autism spectrum disorders versus conduct disorder and callous‐unemotional traitsJournal of Child Psychology and Psychiatry57(6), 737-747.
  2. Mckinnon, A. I., Gray, N. S., & Snowden, R. J. (2020). Enhanced emotional response to both negative and positive images in post-traumatic stress disorder: Evidence from pupillometryBiological psychology154, 107922.
  3. Hart, H., Lim, L., Mehta, M. A., Simmons, A., Mirza, K. A. H., & Rubia, K. (2018). Altered fear processing in adolescents with a history of severe childhood maltreatment: an fMRI studyPsychological medicine48(7), 1092-1101.
Week 13
Mon 4/5
Wed 4/7
Due Monday 4/5: Week 15 presenter papers due for first review/grade.
Facilitator
​Hudac
[19]
[20]
Cultural considerations
Readings to supplement Monday class:
  1. Matsumoto, D., & Hwang, H. S. (2012). Culture and emotion: The integration of biological and cultural contributions. Journal of Cross-Cultural Psychology, 43(1), 91-118.
  2. Phelps, E. A., & Thomas, L. A. (2003). Race, behavior, and the brain: The role of neuroimaging in understanding complex social behaviorsPolitical Psychology24(4), 747-758.
Readings for Wednesday discussion:
  1. Bebko, G. M., Cheon, B. K., Ochsner, K. N., & Chiao, J. Y. (2019). Cultural Differences in Perceptual Strategies Underlying Emotion RegulationJournal of Cross-Cultural Psychology50(9), 1014-1026.
  2. Tortosa, M. I., Lupiáñez, J., & Ruz, M. (2013). Race, emotion and trust: An ERP study. Brain research1494, 44-55.
  3. Harada, T., Mano, Y., Komeda, H., Hechtman, L. A., Pornpattananangkul, N., Parrish, T. B., ... & Chiao, J. Y. (2020). Cultural influences on neural systems of intergroup emotion perception: An fMRI studyNeuropsychologia137, 107254.
Week 14
Mon 4/12
Wed 4/14
Week 14 student presentations (4-5 students each class)
Readings: No readings.
Week 15
Mon 4/19
Wed 4/21
Week 15 student presentations (4-5 students each class)
Readings: No readings.
Finals – 4/26
Due Monday: Final edits of paper due Monday 4/26 @ 11:59 pm
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