Keyword search (4,164 papers available)

"perception" Keyword-tagged Publications:

Title Authors PubMed ID
1 Tuned to walk: cue type, beat perception, and gait dynamics during rhythmic stimulation in aging Parker A; Dalla Bella S; Penhune VB; Young L; Grenet D; Li KZH; 41661338
PSYCHOLOGY
2 Imagining the beat: causal evidence for dorsal premotor cortex (dPMC) role in beat imagery via transcranial magnetic stimulation (TMS) Lazzari G; Ferreri L; Cattaneo L; Penhune V; Lega C; 41248776
PSYCHOLOGY
3 Auditory and vibrotactile interactions in perception of timbre acoustic features Chauvette L; Sophie Grenier A; Albouy P; Coffey E; Zatorre R; Sharp A; 41168236
PSYCHOLOGY
4 Obsessive-compulsive symptoms moderate the effect of contamination motion on disgust intensity Pelzer M; Ouellet-Courtois C; Krause S; Coughtrey A; Fink-Lamotte J; 40858003
CCRH
5 Speech, Timbre, and Pitch Perception in Cochlear Implant Users With Flat-Panel CT-Based Frequency Reallocations: A Longitudinal Prospective Study Gilbert ML; Lewis RM; Deroche MLD; Jiam NT; Jiradejvong P; Mo J; Cooke DL; Limb CJ; 40689899
PSYCHOLOGY
6 Sound degradation type differentially affects neural indicators of cognitive workload and speech tracking Gagné N; Greenlaw KM; Coffey EBJ; 40412301
PSYCHOLOGY
7 Topography of Functional Organization of Beat Perception in Human Premotor Cortex: Causal Evidence From a Transcranial Magnetic Stimulation (TMS) Study Lazzari G; Costantini G; La Rocca S; Massironi A; Cattaneo L; Penhune V; Lega C; 40344601
PSYCHOLOGY
8 Auditory working memory mechanisms mediating the relationship between musicianship and auditory stream segregation Liu M; Arseneau-Bruneau I; Farrés Franch M; Latorre ME; Samuels J; Issa E; Payumo A; Rahman N; Loureiro N; Leung TCM; Nave KM; von Handorf KM; Hoddinott JD; Coffey EBJ; Grahn J; Zatorre RJ; 40226491
PSYCHOLOGY
9 Domains of wheelchair users socio-emotional experiences: Design insights from a scoping review Rasoulivalajoozi M; Cucuzzella C; Farhoudi M; 40164524
CONCORDIA
10 Unveiling the association between information sources and young adults attitudes and concerns during COVID-19: Results from the iCARE study Tremblay N; Lavoie KL; Bacon SL; Bélanger-Gravel A; 40043475
HKAP
11 Exploring the Qualitative Experiences of Administering and Participating in Remote Research via Telephone Using the Montreal Cognitive Assessment-Blind: Cross-Sectional Study of Older Adults Dumassais S; Grewal KS; Aubin G; O' Connell M; Phillips NA; Wittich W; 39546346
PSYCHOLOGY
12 Approaches to studying emotion using physiological responses to spoken narratives: A scoping review Savard MA; Merlo R; Samithamby A; Paas A; Coffey EBJ; 38961524
PSYCHOLOGY
13 Understanding Adolescents' Experiences With Menstrual Pain to Inform the User-Centered Design of a Mindfulness-Based App: Mixed Methods Investigation Study Gagnon MM; Brilz AR; Alberts NM; Gordon JL; Risling TL; Stinson JN; 38587886
PSYCHOLOGY
14 Spatial experience of cancer inpatients in the oncology wards: A qualitative study in visual design aspects Cucuzzella C; Rasoulivalajoozi M; Farzamfar G; 38518630
CONCORDIA
15 Methodological approach to sleep state misperception in insomnia disorder: Comparison between multiple nights of actigraphy recordings and a single night of polysomnography recording Maltezos A; Perrault AA; Walsh NA; Phillips EM; Gong K; Tarelli L; Smith D; Cross NE; Pomares FB; Gouin JP; Dang-Vu TT; 38325157
HKAP
16 Parent and Youth Athlete Perceptions of Concussion Injury: Establishing a Factor Structure Bretzin AC; Schmitt AJ; Teel E; Holmes JH; Wiebe DJ; Beidler E; 38244578
HKAP
17 COVID-19 related stress and fears of contamination: the impact of feared self-perceptions Audet JS; Jacmin-Park S; Kheloui S; Gravel C; Juster RP; Aardema F; 37359678
PSYCHOLOGY
18 Predicting emotion perception abilities for cochlear implant users Paquette S; Deroche MLD; Goffi-Gomez MV; Hoshino ACH; Lehmann A; 36047767
PSYCHOLOGY
19 Social decision-making in Parkinson's disease Caballero JA; Auclair Ouellet N; Phillips NA; Pell MD; 35997248
PSYCHOLOGY
20 Effects of cognitive behavioral therapy for insomnia on subjective and objective measures of sleep and cognition Perrault AA; Pomares FB; Smith D; Cross NE; Gong K; Maltezos A; McCarthy M; Madigan E; Tarelli L; McGrath JJ; Savard J; Schwartz S; Gouin JP; Dang-Vu TT; 35691208
PERFORM
21 Survey of Cooperative Advanced Driver Assistance Systems: From a Holistic and Systemic Vision González-Saavedra JF; Figueroa M; Céspedes S; Montejo-Sánchez S; 35459025
ENCS
22 The relationship between weight bias internalization and healthy and unhealthy weight control behaviours Levy M; Kakinami L; Alberga AS; 35201546
PERFORM
23 Metallic: A Bivalent Ambimodal Material Property? Spence C; Carvalho FM; Howes D; 34540193
ENCS
24 Mediating role of body-related shame and guilt in the relationship between weight perceptions and lifestyle behaviours. Lucibello KM, Sabiston CM, O'Loughlin EK, O'Loughlin JL 32874671
HKAP
25 The Effect of Stimulus Duration on the Nostril Localization of Eucalyptol. Frasnelli J, Gingras-Lessard F, Robert J, Steffener J 28334125
PERFORM
26 Language learning experience and mastering the challenges of perceiving speech in noise Kousaie S; Baum S; Phillips NA; Gracco V; Titone D; Chen JK; Chai XJ; Klein D; 31284145
PSYCHOLOGY
27 The Impact of Instrument-Specific Musical Training on Rhythm Perception and Production Matthews TE; Thibodeau JN; Gunther BP; Penhune VB; 26869969
PSYCHOLOGY
28 What Is the Link Between Hallucinations, Dreams, and Hypnagogic-Hypnopompic Experiences? Waters F, Blom JD, Dang-Vu TT, Cheyne AJ, Alderson-Day B, Woodruff P, Collerton D 27358492
PERFORM

 

Title:What Is the Link Between Hallucinations, Dreams, and Hypnagogic-Hypnopompic Experiences?
Authors:Waters FBlom JDDang-Vu TTCheyne AJAlderson-Day BWoodruff PCollerton D
Link:https://www.ncbi.nlm.nih.gov/pubmed/27358492?dopt=Abstract
DOI:10.1093/schbul/sbw076
Publication:Schizophrenia bulletin
Keywords:Parkinson's diseaseREMconsciousnesseye diseasehypnopompic and hypnagogic hallucinationmisperceptionnightmareparasomniaschizophreniasleep
PMID:27358492 Category:Schizophr Bull Date Added:2019-05-31
Dept Affiliation: PERFORM
1 Clinical Research Centre, Graylands Hospital, North Metro Health Service Mental Health, Perth, Australia; School of Psychiatry and Clinical Neurosciences, The University of Western Australia, Perth, Australia; flavie.waters@health.wa.gov.au.
2 Center for Studies in Behavioral Neurobiology, PERFORM Center and Department of Exercise Science, Concordia University; and Centre de Recherches de l'Institut Universitaire de Gériatrie de Montréal and Department of Neurosciences, University of Montreal, Montreal, QC, Canada;
3 Department of Psychology, University of Waterloo, Waterloo, ON, Canada;
4 Department of Psychology, Durham University, Durham, UK;
5 University of Sheffield, UK, Hamad Medical Corporation, Doha, Qatar;
6 Clinical Psychology, Northumberland, Tyne and Wear NHS Foundation Trust, and Institute of Neuroscience, Newcastle University, Newcastle upon Tyne, UK.

Description:

What Is the Link Between Hallucinations, Dreams, and Hypnagogic-Hypnopompic Experiences?

Schizophr Bull. 2016 09;42(5):1098-109

Authors: Waters F, Blom JD, Dang-Vu TT, Cheyne AJ, Alderson-Day B, Woodruff P, Collerton D

Abstract

By definition, hallucinations occur only in the full waking state. Yet similarities to sleep-related experiences such as hypnagogic and hypnopompic hallucinations, dreams and parasomnias, have been noted since antiquity. These observations have prompted researchers to suggest a common aetiology for these phenomena based on the neurobiology of rapid eye movement (REM) sleep. With our recent understanding of hallucinations in different population groups and at the neurobiological, cognitive and interpersonal levels, it is now possible to draw comparisons between the 2 sets of experiences as never before. In the current article, we make detailed comparisons between sleep-related experiences and hallucinations in Parkinson's disease, schizophrenia and eye disease, at the levels of phenomenology (content, sensory modalities involved, perceptual attributes) and of brain function (brain activations, resting-state networks, neurotransmitter action). Findings show that sleep-related experiences share considerable overlap with hallucinations at the level of subjective descriptions and underlying brain mechanisms. Key differences remain however: (1) Sleep-related perceptions are immersive and largely cut off from reality, whereas hallucinations are discrete and overlaid on veridical perceptions; and (2) Sleep-related perceptions involve only a subset of neural networks implicated in hallucinations, reflecting perceptual signals processed in a functionally and cognitively closed-loop circuit. In summary, both phenomena are non-veridical perceptions that share some phenomenological and neural similarities, but insufficient evidence exists to fully support the notion that the majority of hallucinations depend on REM processes or REM intrusions into waking consciousness.

PMID: 27358492 [PubMed - indexed for MEDLINE]




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