• Full Text
    • Scholarly Journal

    Nonverbal Communication Processing in Deaf Adults: An Activation Likelihood Estimation Meta-Analysis

    . 
    ; Basel Vol. 15, Iss. 12,  (2025): 1299.     DOI:10.3390/brainsci15121299
    PDF CiteCite
    Copy URLPrintAll Options

    Documents with shared references (745)

    • 1.

      The neural network for sign language comprehension

      Terhune‐Cotter, Brennan; Emmorey, Karen.  Language and Linguistics Compass Vol. 19, Iss. 4,  (Jul-Aug 2025): e70018.
      4 reference(s) in common
    • 2.

      Audiovisual integration and acoustic change complex in adult cochlear implant users: An electrophysiological and behavioral investigation

      Kartal Özcan, Ahsen; Çiprut, Ayça; Yumuşakhuylu, Ali Cemal.  International Journal of Audiology (Nov 20, 2025).
      3 reference(s) in common
    • 3.

      Growing up with cochlear implants: Development of deaf and hard of hearing children and adolescents

      Knoors, Harry; Dirks, Evelien.  381 Pages. New York, NY, US: Oxford University Press, 2025.
      3 reference(s) in common
    • 4.

      Utilizing functional neuroimaging to study early language development

      Olson, Halie A; Day, Trevor K. M; Hiersche, Kelly J; Manning, Brittany L; Bradley, Holly; et al.  Developmental Cognitive Neuroscience Vol. 76,  (Dec 2025): 101641.
      2 reference(s) in common
    • 5.

      Sensorimotor contingencies in congenital hearing loss: The critical first nine months

      Kral, Andrej; Kishon-Rabin, Liat; O'Donoghue, Gerard M; Romeo, Rachel R.  Hearing research Vol. 467,  (Nov 2025): 109401.
      2 reference(s) in common
    • 6.

      Empathy responses to others’ physical pain in the deaf college students: Evidence from an event-related potential study

      Du, Xue; Li, Chenxi; Liang, Jian; Mou, Jianjun; Zheng, Qinqin.  Cerebral Cortex Vol. 35, Iss. 8,  (Aug 2, 2025): bhaf198.
      2 reference(s) in common
    • 7.

      Unraveling the impact of congenital deafness on individual brain organization

      Amaral Lenia; Wang, Xiaosha; Bi Yanchao; Striem-Amit Ella.  eLife; Cambridge Vol. 13,  (2025).
      2 reference(s) in common
    • 8.

      Differences in biological motion perception associated with hearing status and age of signed language exposure

      Willis, Athena S; Leannah, Carly; Schwenk, Melody; Palagano, Joseph; Quandt, Lorna C.  Journal of Experimental Psychology: General Vol. 153, Iss. 10,  (Oct 2024): 2378-2393.
      2 reference(s) in common
    • 9.

      Neurodevelopmental Aspects and Cortical Auditory Maturation in Children with Cochlear Implants

      Pantelemon Cristina; Necula Violeta; Alexandra-Stefania, Berghe; Livinț-Popa Livia; Palade Steluța; et al.  Medicina; Basel Vol. 56, Iss. 7,  (2020): 344.
      2 reference(s) in common
    • 10.

      Crossmodal reorganisation in deafness: Mechanisms for functional preservation and functional change

      Cardin, Velia; Grin, Konstantin; Vinogradova, Valeria; Manini, Barbara.  Neuroscience and Biobehavioral Reviews Vol. 113,  (Jun 2020): 227-237.
      2 reference(s) in common
    • 11.

      Developmental, cognitive, and neurocognitive perspectives on language development in children who use cochlear implants

      Rinaldi, Pasquale; Pavani, Francesco; Caselli, Maria Cristina.  In The Oxford handbook of deaf studies in learning and cognition, by Marschark, Marc (ed.) ; Knoors, Harry (ed.) .  33-45, 456 Pages. New York, NY, US: Oxford University Press, 2020.
      2 reference(s) in common
    • 12.

      Speechreading Revisited

      Woll, Bencie.  Deafness and Education International Vol. 14, Iss. 1,  (Mar 2012): 16-21.
      2 reference(s) in common
    • 13.

      Longitudinal loss of gray matter volume in patients with first-episode schizophrenia: DARTEL automated analysis and ROI validation

      Asami, Takeshi; Bouix, Sylvain; Whitford, Thomas J; Shenton, Martha E; Salisbury, Dean F; et al.  NeuroImage; Amsterdam Vol. 59, Iss. 2,  (Jan 16, 2012): 986-96.
      1 reference(s) in common
    • 14.

      Cortical thickness analysis and optimized voxel-based morphometry in children and adolescents with prelingually profound sensorineural hearing loss

      Li, Jianhong; Li, Wenjing; Xian, Junfang; Li, Yong; Liu, Zhaohui; et al.  Brain Research Vol. 1430,  (Jan 9, 2012): 35-42.
      1 reference(s) in common
    • 15.

      Uncovering auditory evoked potentials from cochlear implant users with independent component analysis

      Viola, Filipa C; Thorne, Jeremy D; Bleeck, Stefan; Eyles, Julie; Debener, Stefan.  Psychophysiology; Oxford Vol. 48, Iss. 11,  (Nov 2011): 1470-1480.
      1 reference(s) in common
    • 16.

      Explaining left lateralization for words in the ventral occipitotemporal cortex

      Seghier, Mohamed L; Price, Cathy J.  The Journal of Neuroscience Vol. 31, Iss. 41,  (Oct 12, 2011): 14745-14753.
      1 reference(s) in common
    • 17.

      Search-related suppression of hippocampus and default network activity during associative memory retrieval

      Reas, Emilie T; Gimbel, Sarah I; Hales, Jena B; Brewer, James B.  Frontiers in Human Neuroscience Vol. 5,  (Sep 30, 2011).
      1 reference(s) in common
    • 18.

      How the ventral pathway got lost – and what its recovery might mean

      Weiller, Cornelius; Bormann, Tobias; Saur, Dorothee; Musso, Mariachristina; Rijntjes, Michel.  Brain and Language Vol. 118, Iss. 1-2,  (Jul 2011): 29-39.
      1 reference(s) in common
    • 19.

      Neuroplasticity of semantic representations for musical instruments in professional musicians

      Hoenig, Klaus; Müller, Cornelia; Herrnberger, Bärbel; Sim, Eun-Jin; Spitzer, Manfred; et al.  NeuroImage; Amsterdam Vol. 56, Iss. 3,  (Jun 1, 2011): 1714-1725.
      1 reference(s) in common
    • 20.

      Effect of coordination biofeedback on (re)learning preferred postural patterns in post-stroke patients

      Varoqui, Deborah; Froger, Jerome; Pélissier, Jacques-Yvon; Bardy, Benoit G.  Motor control Vol. 15, Iss. 2,  (Apr 2011): 187-205.
      1 reference(s) in common