Papers

2024

  • Harada Y, Ohyama J, Sano M, Ishii N, Maida K, Wada M, Wada M. Temporal characteristics of facial ensemble in individuals with autism spectrum disorder: examination from arousal and attentional allocation. Frontiers in Psychiatry, 15: 1328708 , 2024.

2023

  • Harada Y, Wada M. Effectiveness of Immersive Visual Guidance on Spatial Cognitive Ability is Related to Autism-Related Traits: A Pilot Study. Frontiers in Virtual Reality. 4, 1291516, 2023.
  • Hidaka S, Chen N, Ishii N, Iketani R, Suzuki K, Longo MR, Wada M. No differences in implicit hand maps among different degrees of autistic traits. Autism Res. 16(9), 1750-1764, 2023.
  • Chen N, Watanabe K, Spence C, & Wada M. People with higher autistic traits show stronger binding for color–shape associations. Scientific Reports, 13, 9611, 2023.
  • Wada M, Hayashi K, Seino K, Ishii N, Nawa T, Nishimaki K. Qualitative and quantitative analysis of self-care regarding sensory issues among people with neurodevelopmental disorders Frontiers in Child and Adolescent Psychiatry, 2,1177075, 2023.
  • Hidaka, S., Gotoh, M., Yamamoto, S., Wada, M. Exploring relationships between autistic traits and body temperature, circadian rhythms, and age. Scientific Reports, 13, 5888, 2023.
  • Chen N, Watanabe K, Kobayakawa T, Wada M. Reasons for adding different tastes: example of sprinkling salt on watermelon and its relation to subjective taste perception, taste preference, and autistic traits. Journal of Food Quality, Volume 2023, Article ID 9945339, 2023.
  • Wada M, Hayashi K, Seino K, Ishii N, Nawa T, Nishimaki K. Qualitative and quantitative analysis of self-reported sensory issues in individuals with neurodevelopmental disorders. Frontiers in Psychiatry,  14:1077542, 2023.
  • Harada Y, Ohyama J, Wada M. Effects of temporal properties of facial expressions on the perceived intensity of emotion. Royal Society Open Science, 10(1):220585, 2023.

2022

  • Chen N, Watanabe K, Kobayakawa T, Wada M. Relationships between autistic traits, taste preference, taste perception, and eating behaviour. European Eating Disorders Review. 30(5):628-640, 2022.
  • Umesawa Y, Ide M, Wada M. The relationship between the effect of hand visibility on visuotactile temporal resolution and autistic traits. Experimental Brain Research. 240(5):1557-1564, 2022.
  • Wada M, Umesawa Y, Sano M, Tajima S, Kumagaya S, Miyazaki M. Weakened Bayesian Calibration for Tactile Temporal Order Judgment in Individuals with Higher Autistic Traits. Journal of Autism and Developmental Disorders. 53(1):378-389, 2023 (Published online 22 Jan 2022).
  • Harada Y., & Ohyama, J. Quantitative evaluation of visual guidance effects for 360‑degree directions. Virtual Reality, 26, 759–770, 2022 (Published online 3 Sep 2021).

2021

  • Chen N, Watanabe K, Wada M. People with high autistic traits show less crossmodal correspondences between visual features and tastes. Frontiers in Psychology, 12:714277, 2021.
  • Fukui T, Chakrabarty M, Sano M, Tanaka A, Suzuki M, Kim S, Agarie H, Fukatsu R, Nishimaki K, Nakajima Y, Wada M. Enhanced use of gaze cue in a face-following task after brief trial experience in individuals with autism spectrum disorder. Scientific Reports, 11, 11240, 2021.
  • Wada M, Takano K, Ide M, Sano Y, Shinoda Y, Furuichi T, Kansaku K. Task-related c-Fos expression in the posterior parietal cortex during the “rubber tail task” is diminished in Ca2+-dependent activator protein for secretion 2 (Caps2)-knockout mice. Frontiers in Behavioral Neuroscience, 15:680206, 2021.
  • Wada M, Ikeda H, Kumagaya S. Atypical Effects of Visual Interference on Tactile Temporal Order Judgment in Individuals with Autism Spectrum Disorder. Multisensory Research, 34, 129–151, 2021 (Published online 17 Aug 2020 ).

2020

  • Harada Y., Ohyama, J. The Effect of Task-Irrelevant Spatial Contexts on 360-degree Attention. PLoS ONE 15(8): e0237717, 2020.
  • Kamikura Y, Okawa I, Ide M, Wada M. Evaluation of self-disturbance in patients with schizophrenia using the rubber hand illusion technique. The Japanese Journal of Psychology, 91(4)257-266, 2020 (In Japanese).
  • Ide M‡, Atsumi T‡, Chacraberty M‡, Yaguchi A, Umesawa Y, Fukatsu R, Wada M. Neural basis of extremely high temporal sensitivity: Insights from a patient with autism. Frontiers in Neuroscience, 14:340, 2020.
  • Chakrabarty M, Wada M. Perceptual effects of fast and automatic visual ensemble statistics from faces in individuals with typical development and autism spectrum conditions. Scientific Reports, 10, 2169, 2020.
  • Umesawa Y, Matsushima K, Atsumi T, Fukatsu R, Wada M, Ide M. Altered GABA concentration in brain motor area is associated with the severity of motor disabilities in individuals with autism spectrum disorder. Journal of Autism and Developmental Disorders. 50, 2710–2722, 2020.
  • Wada M, Ide M, Ikeda H, Sano M, Tanaka A, Suzuki M, Agarie H, Kim S, Tajima S, Nishimaki K, Fukatsu R, Nakajima Y, Miyazaki M. Cutaneous and stick rabbit illusions in individuals with autism spectrum disorder. Scientific Reports. 10, 1665, 2020.

2019

  • Wada M, Ide M, Atsumi T, Sano Y, Shinoda Y, Furuichi T, Kansaku K. Rubber tail illusion is weakened in Ca2+-dependent activator protein for secretion 2 (Caps2)-knockout mice. Scientific Reports. 9, 7552, 2019.
  • Wada M. Body ownership illusions in humans and other animals. Japanese Journal of Animal Psychology, 6(2)81-89, 2019 (In Japanese, Review).
  • Ide, M., Yaguchi, A., Sano, M., Fukatsu, R., & Wada, M. Higher tactile temporal resolution as a basis of hypersensitivity in individuals with autism spectrum disorder. Journal of Autism and Developmental Disorders. 49(1)44-53, 2019 (Published online 2018 Jul 17).

2018

  • Hidaka S, Suzuishi Y, Ide M, Wada M. Effects of spatial consistency and individual difference on touch-induced visual suppression effect. Scientific Reports. 8, 17018, 2018.
  • Atsumi T, Ide M, Wada M. Spontaneous discriminative response to the biological motion displays involving a walking conspecific in mice. Frontiers in Behavioral Neuroscience. 12, 263. 2018.
  • Fukui T, Sano M, Tanaka A, Suzuki M, Kim S, Agarie H, Fukatsu R, Nishimaki K, Nakajima K, Wada M. Older adolescents and young adults with autism spectrum disorder have difficulty chaining motor acts when performing prehension movements compared to typically developing peers. Frontiers in Human Neuroscience. 12, 430, 2018.
  • Ikeda H, Wada M. Individuals with high autistic traits focus explicitly on body parts when transforming visual perspectives. Psychologia. 61(1)53-66, 2018 (accepted on March 18, 2019).

2017

  • Ide M & Wada M. Salivary oxytocin concentration associates with the subjective feeling of body ownership during the rubber hand illusion. Frontiers in Human Neuroscience, 11:166, doi:10.3389/fnhum.2017.00166, 2017.
  • Takemura N, Inui T & Fukui T. A Neural network model for development of reaching and pointing based on the interaction of forward and inverse transformations, Developmental Science, in press.
  • Yamaguchi Y, Atsumi T, Poirot R, Lee YA, Kato A & Goto Y. Dopamine-dependent Visual Attention Preference to Social Stimuli in Non-human Primate. Psychopharmacology, 234(7): 1113–1120, 2017.
  • Atsumi T, Koda H & Masataka N. Goal attribution to inanimate moving objects by Japanese macaques (Macaca fuscata). Scientific Reports, 7, 40033, 2017.

2016

  • Ide M, Hidaka S, Ikeda H & Wada M. Neural mechanisms underlying touch-induced visual perceptual suppression: An fMRI study. Scientific Reports, 6, 37301, 2016.
  • Wada M, Takano K, Ora H, Ide M & Kansaku K. The Rubber Tail Illusion as Evidence of Body Ownership in Mice. Journal of Neuroscience, 36(43):11133-11137, 2016.
  • Ide M & Wada M. Periodic visuotactile stimulation slowly enhances the rubber hand illusion in individuals with high autistic traits. Frontiers in Integrative Neuroscience, 10:21, 2016.
  • Ikeda H & Watanabe K. Action congruency influences crowding when discriminating biological motion direction. Perception, 45(9):1046-1059,2016.
  • Wada M & Ide M. Rubber hand presentation modulates visuotactile interference effect, especially in persons with high autistic traits. Experimental Brain Research, 234(1):51-65, 2016.
  • Ikeda H, Tanaka C, Hidaka S, Ishiyama T, Miyazaki G. Effects of Image Resolutions on Subjective Impressions of Moving Images in Association with Image Contents and the Presentation Manner of Movies.Cognitive Studies: Bulletin of the Japanese Cognitive Science Society.23(2):101-117, 2016 (In Japanese).

2015

  • Hidaka S & Ide M. Sound can suppress visual perception. Scientific Reports, 5, 10483, 2015.
  • Fukui T & Inui T. Use of early phase online vision for grip configuration is modulated according to movement duration in prehension. Experimental Brain Research, 233(8): 2257-2268, 2015.
  • Takemura T, Fukui T & Inui T. A computational model for aperture control in reach-to-grasp movement based on predictive variability, Frontiers in Computational Neuroscience, 9, 143, 2015.
  • Nishikawa N, Shimo Y, Wada M, Hattori N & Kitazawa S. Effects of aging and idiopathic Parkinson’s disease on tactile temporal order judgment. PLOS ONE. 10(3) e0118331, 2015.

2014

  • Wada M, Suzuki M, Takaki A, Miyao M, Spence C & Kansaku K. Spatio-temporal processing of tactile stimuli in autistic children. Scientific Reports, 4:5985, 2014.

( Equal contribution.)