Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
about
Cortical Signal Analysis and Advances in Functional Near-Infrared Spectroscopy Signal: A ReviewHemodynamic correlates of cognition in human infants.Contribution of Neuroimaging Studies to Understanding Development of Human Cognitive Brain FunctionsNon-invasive measurement of a metabolic marker of infant brain function.Risk Factors Associated With Language in Autism Spectrum Disorder: Clues to Underlying Mechanisms.Hemispheric Asymmetries in Repetition Enhancement and Suppression Effects in the Newborn Brain.Top-down modulation in the infant brain: Learning-induced expectations rapidly affect the sensory cortex at 6 months.Language universals at birth.Near-infrared spectroscopy: recent advances in infant speech perception and language acquisition researchNewborn's brain activity signals the origin of word memoriesInsights on NIRS Sensitivity from a Cross-Linguistic Study on the Emergence of Phonological GrammarAn online database of infant functional near infrared spectroscopy studies: a community-augmented systematic review.Questioning the questions that have been asked about the infant brain using near-infrared spectroscopy.Language and the newborn brain: does prenatal language experience shape the neonate neural response to speech?Neural processing of repetition and non-repetition grammars in 7- and 9-month-old infants.Large-scale brain networks underlying language acquisition in early infancyStudying neonates' language and memory capacities with functional near-infrared spectroscopy.Neural Mechanisms of Body Awareness in Infants.Functional near infrared spectroscopy (fNIRS) to assess cognitive function in infants in rural AfricaDecoding the infant mind: Multivariate pattern analysis (MVPA) using fNIRS.Methodology for high-yield acquisition of functional near-infrared spectroscopy data from alert, upright infantsDecoding of four movement directions using hybrid NIRS-EEG brain-computer interfaceNovel method to classify hemodynamic response obtained using multi-channel fNIRS measurements into two groups: exploring the combinations of channels.Cortical specialisation to social stimuli from the first days to the second year of life: A rural Gambian cohortThe developmental trajectory of brain-scalp distance from birth through childhood: implications for functional neuroimagingWords in the bilingual brain: an fNIRS brain imaging investigation of lexical processing in sign-speech bimodal bilinguals.A DAQ-device-based continuous wave near-infrared spectroscopy system for measuring human functional brain activity.Modeling time resolved light propagation inside a realistic human head model.Prefrontal cortex hemodynamics and age: a pilot study using functional near infrared spectroscopy in childrenThe effects of exercise under hypoxia on cognitive functionCoregistering functional near-infrared spectroscopy with underlying cortical areas in infants.Validating a new methodology for optical probe design and image registration in fNIRS studies.Greater contribution of cerebral than extracerebral hemodynamics to near-infrared spectroscopy signals for functional activation and resting-state connectivity in infants.Diffuse optical tomography to investigate the newborn brain.Mapping Cortical Responses to Somatosensory Stimuli in Human Infants with Simultaneous Near-Infrared Spectroscopy and Event-Related Potential RecordingfNIRS evidence of prefrontal regulation of frustration in early childhood.Cortical Sensorimotor Processing of Painful Pressure in Patients with Chronic Lower Back Pain-An Optical Neuroimaging Study using fNIRSDifferent mechanosensory stimulations of the lower back elicit specific changes in hemodynamics and oxygenation in cortical sensorimotor areas-A fNIRS study.The use of near-infrared spectroscopy in the study of typical and atypical development.fNIRS detects temporal lobe response to affective touch.
P2860
Q26745378-A85ED495-4DD1-4CBC-A793-1E6F6852AD99Q26853568-BC097DF0-88CE-47AE-A3B2-CB15FEAD1CE3Q28076226-F53E8254-B319-4B58-8A4D-B09B16736EBDQ29994870-4482C4D2-C4E6-43DE-98F3-744EADE47361Q30377846-1E6E35CE-0464-49AD-839F-AFFE28E599C2Q30400162-C7A2670C-B1AB-459E-AEB6-7D22F8BADD2DQ30404916-0C3DF93B-5B12-4E11-AF4E-4A533E0B9250Q30428018-0A931545-400B-403B-A0C6-BB6DE1BDE0AEQ30432206-6F678999-5CC7-48D8-8C4E-58AE4550EBCCQ30455148-BC12A4CF-FBD1-4351-8356-C6F8B53209DAQ30455413-6D56C3CA-1447-4D0F-9217-EA4320F35CB4Q30455736-084113CD-551B-4508-95CA-2822398AA555Q30458247-1DA60A16-4DC6-433F-9D9D-60257DB44DBFQ30474032-1697EBB0-6A57-4429-BDE9-4E28BB3DBCB5Q30474606-B7123C67-C45F-4940-B471-AADA82A10B45Q30475113-53A74362-EB21-4CBA-BE05-AD77E4D19111Q30475119-8E8E943F-A9BE-4069-9820-7C29A407F6C1Q30665777-B0C12587-5F1B-4306-9C1C-D802C925B53FQ30844179-8C84F65D-1FAE-43C4-B402-6F95C442B737Q30846483-483BE4AC-E043-4A0E-81E8-5808BBE4A81FQ31119753-A2AC5BA0-2037-4891-89AF-2C0413CD7FEFQ33563749-5D77499A-A30A-4534-81D2-BDF90F5B5598Q33835881-49340A84-14D2-4F26-B363-EACE38FB59B9Q33837293-F69E11E1-B276-40E5-A710-CB556925E74DQ34034727-AAFB3041-140D-4976-92C9-C3BBCBF041C7Q34071851-3E8D5096-D816-437E-AFE2-7CBB260F8688Q34080481-EBAE7068-A4D1-4DE6-8F29-C12FC24616FCQ34649916-1A335FA8-5E10-4DF7-BD53-F37BA9766553Q34699770-89C29F95-A77F-4074-8415-53D67DC5A784Q34722939-6168E7AE-870C-486F-83DE-30C9322B492BQ34793741-48C24B6E-3790-40AE-B5A2-FDC34C391D3FQ35606124-F8D13318-EE85-4B57-9EEB-BB6D008ED73DQ35774655-3AE90658-3341-41B5-B4E6-D75555886430Q36349623-3223D572-56D2-4DF9-8CF2-D991329D1A70Q36901301-9295E063-FD23-4E11-84E4-60E244F7C6F9Q37228511-6EE78E9B-538E-40F2-AA47-CFA5DCD480F3Q37418615-76B69A09-56C8-4D67-B3BE-819782DB584AQ37514475-8B882457-A0BD-4D3F-A458-95A2C9377D7CQ37542927-0208B2E3-1C10-4F2B-A408-1C810B4566D8Q37706710-98379EAF-42B6-4E8A-9EB5-11092EF38CAC
P2860
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@en
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@nl
type
label
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@en
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@nl
prefLabel
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@en
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium.
@nl
P2093
P50
P1476
Near-infrared spectroscopy: a report from the McDonnell infant methodology consortium
@en
P2093
Charles A Nelson
Jacques Mehler
Judit Gervain
Richard N Aslin
P356
10.1016/J.DCN.2010.07.004
P577
2010-08-04T00:00:00Z