Christian BeaulieuEdmonton Alberta, CanadaChristian BeckmanOxford, UKPaul BentleyLondon, UKGreg BernsAtlanta, USAMelanie BolyLiège, BelgiumMatthew BrookesNottingham, UKVince CalhounUniv. New Mexico/Yale Univ. NM, USAKang ChengSaitama, JapanMichael X. CohenAmsterdam, NetherlandsAndreas DaffertshoferAmsterdam, NetherlandsJean DaunizeauZurich, SwitzerlandChristos DavatzikosPhiladelphia, PA, USAStefan Debener Jena, GermanyAudrey DuarteAtlanta, USADavid EidelbergManhasset, NY, USARebecca ElliottManchester, UK

Thomas EthoferTuebingen, GermanyAdam Gazzaley San Francisco, USAJames Gee Philadelphia, PA, USANathalie GeorgeParis, FrancePamela GreenwoodFairfax, Virginia, USADoug GrieveCharlestown, MA, USAJoachim GrossGlasgow, UKGerhard GründerAachen, GermanyBin He Minneapolis, MN, USAFahmeed Hyder New Haven, NH, USASaad JbabdiOxford, UKRyusuke KakigiMyodaiji, Okazaki, JapanStephen LaConteRoanoke, VA, USARupert LanzenbergerVienna, AustriaHelmut LaufsFrankfurt am Main, GermanyC.S. Ray LiNew Haven, NH, USA

Shu-Chen LiBerlin, Germany

Fa-Hsuan LinCambridge, MA, USA

Mark J. LoweCleveland, USA

Klaus MathiakAachen, Germany

Pieter MedendorpNijmegen, Netherlands

Vinod MenonStanford, USA

Karla L. MillerOxford, UK

Janaina Mourao-MirandaLondon, UK

Kevin MurphyCardiff, UK

Sri NagarajanSan Francisco, USA

Thomas NicholsUniversity of Warwick, UK

Uta NoppeneyTuebingen, Germany

David NorrisNijmege, The NetherlandsLauren O’DonnellCambridge, MA, USA

Stephanie OrtigueSyracuse, USA

Stefan PosseAlbuquerque, NM, USA

Petra RitterBerlin, Germany

Anna W. RoeVanderbilt University

Alard RoebroeckMaastricht, Netherlands

Serge A.R. RomboutsLeiden, The Netherlands

David SalatBoston, MA, USA

Sophie SchwartzGeneva, Switzerland

Ben SeymourLondon, UK

Afonso SilvaBethesda, Maryland, USA

Olaf SpornsBloomington, IN, USA

Kâmil UludağMaastricht, The Netherlands

Essa YacoubMinneapolis, MN, USA

Susan Whitfi eld-GabrieliCambridge, MA, USA

Gagan WigCambridge, MA, USA

Mark WoolrichOxford, UK

NeuroImage

Peter BandettiniBethesda, MD

Editor-in-Chief

A Journal of Brain Function

Anatomy and PhysiologySection Editor: Marc TittgemeyerAnatomy & Structural Analysis

Andy AlexanderDiffusion Tensor Imaging

Paul CummingMolecular Imaging & PET

Simon EickhoffMeta-analysis, Mapping and Atlases

Heidi Johansen-BergDTI and Morphometry

Jason LerchPlasticity and Animal Neurophysiology

Bruce PikePhysics and Methods

Systems NeuroscienceSection Editor: Andreas KleinschmidtPerception Systems

Vincent ClarkMapping and Stimulation

Hartwig SiebnerSensorimotor function and plasticity

Methods & ModellingSection Editor: Michael BreakspearComputational Neuroscience

Thomas EicheleEEG/MEG Modelling & StatisticsThomas LiuPhysics and MethodsSteve SmithFunctional, Structural andDiffusion Analysis MethodsKlaas Enno StephanBayesian models

Cognitive NeuroscienceSection Editor: Cindy LustigExecutive Function

Section Editor: Sonja KotzCognition, Communication and Language

Emrah DuzelMemory Systems and Plasticity

Michael CheeSleep Deprivation/Sleep, Attention, Cognitive Aging & Decision MakingThomas F. MüntefMRI and electrophysiology on executive function, reward, language, action monitoring; deep brain stimulation and depth recordings

Social NeurocscienceSection Editor: Aina PuceSocial and Affective Neuroscience

Joan ChiaoSocial and Affective Neuroscience

Editorial Board

Cover Image. Spatial registration of multichannel functional near-infrared spectroscopy (fNIRS) data. In fNIRS measurements, probes consisting of illuminators (red circles) and detectors (green circles) are placed on the scalp to measure cortical hemodynamics of the underlying brain, yielding functional activation data as an increase of oxygenated hemoglobin signal or decrease of deoxygenated hemoglobin signal. The virtual registration method is used to visualize fNIRS activation data in a situation where a magnetic resonance image of the subject is not available, provided that the probes are placed in a reproducible manner in reference to the international 10/20 (top left, yellow dots) or 10/10 (top right, blue dots) systems (see main text by Tsuzuki and Dan, pp. 92-103). The virtual registration method applies a resampling simulation based on a reference MRI database. This method comprises of virtual probe placement on reference heads, projection to the cortical surface of reference brains in MRI datasets and subsequent normalization to the standard brain template, and yields an estimation of fNIRS channel locations in the Montreal Neurological Institute (MNI) coordinate system (bottom row), which further enables reference to various resources created for other imaging modalities. For example, channel-wise activation data may be plotted on the Brodmann atlas based on Talairach Daemon (bottom left: Kochunov et al., 2000. Hum Brain Mapp 10, 120-131), or topographic activation images may be presented on the macroanatomical atlas based on LPBA40 (bottom right: Shattuck et al., 2008. NeuroImage 39, 1064-1080).

Founding Editor: Arthur W. TogaEditors Emeriti: Richard S.J. Frackowiak, John C. Mazziotta, Karl J. Friston and Paul C. Fletcher