References

Law PCF, Miller SM, Ngo TT (preprint forthcoming; click for draft manuscript). Slow binocular rivalry: Translating a replicated biomarker for bipolar disorder.

Miller SM (2020). Fluctuations of consciousness, mood, and science: The interhemispheric switch and sticky switch models two decades on. The Journal of Comparative Neurology. 528, 17, 3171-3197.

Law PCF, Miller SM, Ngo TT (2017b). The effect of stimulus strength on binocular rivalry rate in healthy individuals: Implications for genetic, clinical and individual differences studies. Physiology & Behavior, 181: 127–136.

Law PCF, Gurvich CT, Ngo TT, Miller SM (2017a). Evidence that eye-movement profiles do not explain slow binocular rivalry rate in bipolar disorder: Support for a perceptual endophenotype. Bipolar Disorders, 19 (6): 465–476.

Law PCF, Riddiford JA, Paton BK, Gurvich CT, Ngo TT, Miller SM (2015). No relationship between binocular rivalry rate and eye-movement profiles in healthy individuals: A Bayes factor analysis. Perception, 44 (6): 643–661.

Law PCF, Paton BK, Thomson RH, Liu GB, Miller SM, Ngo TT (2013). Dichoptic viewing methods for binocular rivalry research: Prospects for large-scale clinical and genetic studies. Twin Research and Human Genetics, 16 (6): 1033–1078.

Ngo TT, Barsdell WN, Law PCF, Miller SM (2013). Binocular rivalry, brain stimulation and bipolar disorder. In S. M. Miller (Ed.), The constitution of visual consciousness: Lessons from binocular rivalry (pp. 211–252). Advances in Consciousness Research (Vol. 90). Amsterdam, The Netherlands: John Benjamins Publishing Company.

Miller SM, Ngo TT, van Swinderen B (2012). Attentional switching in humans and flies: Rivalry in large and miniature brains. Frontiers in Human Neuroscience, 5 (188): 1–17.

Ngo TT, Mitchell PB, Martin NG, Miller SM (2011). Psychiatric and genetic studies of binocular rivalry: An endophenotype for bipolar disorder? Acta Neuropsychiatrica, 23 (1): 37–42.

Miller SM, Hansell NK, Ngo TT, Liu GB, Pettigrew JD, Martin NG, Wright MJ (2010). Genetic contribution to individual variation in binocular rivalry rate. Proceedings of the National Academy of Sciences of the USA, 107 (6): 2664–2668.

Miller SM, Gynther BD, Heslop KR, Liu GB, Mitchell PB, Ngo TT, Pettigrew JD, Geffen LB (2003). Slow binocular rivalry in bipolar disorder. Psychological Medicine, 33 (4): 683–692.

Pettigrew JD, Miller SM (1998). A ‘sticky’ interhemispheric switch in bipolar disorder? Proceedings of the Royal Society of London B (Biological Sciences), 265 (1411): 2141–2148.

Independent Replication Studies

Zhu R, Ye X, Zhou X, Yang J, Yue Y, Wang K (2013). Applications of the binocular rivalry paradigm in patients with bipolar disorder. Chinese Journal of Nervous and Mental Diseases, 8: 449–452.

Vierck E, Porter RJ, Luty SE, Moor S, Crowe MT, Carter JD, Inder ML, Joyce PR (2013). Further evidence for slow binocular rivalry rate as a trait marker for bipolar disorder. Australian and New Zealand Journal of Psychiatry, 47 (4): 371–379.

Nagamine M, Yoshino A, Miyazaki M, Takahashi Y, Nomura S (2009). Difference in binocular rivalry rate between patients with bipolar I and bipolar II disorders. Bipolar Disorders, 11 (5): 539–546.

Additional Relevant Studies

Chen B, Zhu Z, Na R, Fang W, Zhang W, Zhou Q, ... Rao Y (2018). Genomic analyses of visual cognition: Perceptual rivalry and top-down control. The Journal of Neuroscience, 38 (45): 9668–9678.

Brascamp JW, Becker MW, Hambrick DZ (2018). Revisiting individual differences in the time course of binocular rivalry. Journal of Vision, 18 (7): 1–20.

Katyal S, He S, He B, Engel SA (2018). Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry. Human Brain Mapping, 40 (8): 2422–2433.

Xiao G, He K, Chen X, Wang L, Bai X, Gao L, Zhu C, Wang K (2018). Slow binocular rivalry as a potential endophenotype of schizophrenia. Frontiers in Neuroscience, 12 (634): 1–9.

Karaminis T, Lunghi C, Neil L, Burr D, Pellicano E (2017). Binocular rivalry in children on the autism spectrum. Autism Research, 10: 1096–1106.

Robertson CE, Ratai E-M, Kanwisher N (2016). Reduced GABAergic action in the autistic brain. Current Biology, 26: 80–85.

Amador-Campos JA, Aznar-Casanova JA, Ortiz-Guerra JJ, Moreno-Sánchez M, Medina-Peña A (2015). Assessing attention deficit by binocular rivalry. Journal of Attention Disorders, 19: 1064–1073.

Bosten JM, Goodbourn PT, Lawrance-Owen AJ, Bargary G, Hogg RE, Mollon J D (2015). A population study of binocular function. Vision Research, 110: 34–50.

Freyberg J, Robertson CE, Baron-Cohen S (2015). Reduced perceptual exclusivity during object and grating rivalry in autism, Journal of Vision, 15 (13): 1–12.

Jia T, Ye X, Wei Q, Xie W, Cai C, Mu J, ... Wang K (2015). Difference in the binocular rivalry rate between depressive episodes and remission. Physiology & Behavior, 151: 272–278.

Amador-Campos JA, Aznar-Casanova JA, Moreno-Sánchez M, Medina-Peña A, Ortiz-Guerra JJ (2013). Psychometric properties of a test for ADHD based on binocular rivalry. The Spanish Journal of Psychology, 16: 1–8.

Anderson EC, Dryman MT, Worthington J, Hoge EA, Fischer LE, Pollack MH, ... Simon NM (2013). Smiles may go unseen in generalized social anxiety disorder: Evidence from binocular rivalry for reduced visual consciousness of positive facial expressions. Journal of Anxiety Disorders, 27: 619–626.

Aznar Casanova JA, Amador Campos JA, Moreno Sánchez M, Supèr H (2013). Onset time of binocular rivalry and duration of inter-dominance periods as psychophysical markers of ADHD. Perception, 42: 16–27.

Robertson CE, Kravitz DJ, Freyberg J, Baron-Cohen S, Baker CI (2013). Slower rate of binocular rivalry in autism. The Journal of Neuroscience, 33 (43): 16983–16991.

Said CP, Egan RD, Minshew NJ, Behrmann M, Heeger DJ (2013). Normal binocular rivalry in autism: Implications for the excitation/inhibition imbalance hypothesis. Vision Research, 77: 59–66.

van Loon AM, Knapen T, Scholte HS, St. John-Saaltink E, Donner TH, Lamme VAF (2013). GABA shapes the dynamics of bistable perception. Current Biology, 23: 823–827.

Shannon RW, Patrick CJ, Jiang Y, Bernat E, He S (2011). Genes contribute to the switching dynamics of bistable perception Journal of Vision, 11: 1–7.

Nagamine M, Yoshino A, Miyazaki M, Takahashi Y, Nomura S (2008). Effects of selective 5-HT1A agonist tandospirone on the rate and rhythmicity of binocular rivalry. Psychopharmacology, 198 (2): 279–286.

Nagamine M, Yoshino A, Yamazaki M, Obara M, Sato S, Takahashi Y, Nomura S (2007). Accelerated binocular rivalry with anxious personality. Physiology & Behavior, 91 (1): 161–165.