1 s of reward-motivated memory formation using
event-related FMRI.
2 f target detection dysfunction in ADHD using
event-related fMRI.
3 sentations in early visual areas using rapid
event-related fMRI.
4 l memory load for action-related words using
event-related fMRI.
5 ift diffusion models of decision-making, and
event-related fMRI acquired during a reward gain and los
6 We used an
event-related fMRI adaptation paradigm to test whether t
7 e neural correlates of crowding by combining
event-related fMRI adaptation with a change-detection pa
8 In this study, we combined
event-related fMRI and a location-based negative priming
9 ion and recollection-based source retrieval,
event-related fMRI and EEG time courses revealed a clear
10 We use
event-related fMRI and effective connectivity analysis t
11 Recent
event-related fMRI and PET studies are adding crucial da
12 We measured brain activity using
event-related fMRI as participants recalled answers to 1
13 Continuous Performance Task while undergoing
event-related fMRI at 1.5 T.
14 Second, we measured
event-related fMRI BOLD responses in human primary visua
15 en performed a cognitive control task during
event-related fMRI data acquisition.
16 Event-related fMRI data were collected while participant
17 The temporal specificity of the
event-related fMRI design also minimized possible contam
18 ith distracting stimuli using a hybrid block/
event-related fMRI design and a task that varied the pro
19 Here, we used an
event-related fMRI design to distinguish human brain are
20 Using a hybrid block/
event-related fMRI design, we characterized proactive an
21 In a rapid
event-related fMRI design, we measured cortical activity
22 worker, as well as stranger faces in a rapid
event-related FMRI design.
23 ecordings of saccadic eye movements and fast
event-related fMRI during a continuous visual detection
24 We investigated this issue using
event-related fMRI during encoding of emotional and neut
25 que as in humans, we performed a mixed block/
event-related fMRI experiment in macaques.
26 Here, using an
event-related fMRI experiment, familiar faces from four
27 Using a slow
event-related fMRI experiment, we investigated whether t
28 implications for the interpretation of rapid
event-related fMRI experiments, as well as for recently
29 ging events were essentially the same in two
event-related fMRI experiments, which compared passive a
30 maging (fMRI)--in particular single-trial or
event-related fMRI--
has now considerably advanced the po
31 We tested this hypothesis using
event-related fMRI in male and female human subjects by
32 we also address the broad impact that rapid
event-related fMRI is likely to have on functional neuro
33 Recently developed
event-related fMRI methods were used to analyze the data
34 ctivity during attention shifts using rapid,
event-related fMRI of human observers as they covertly s
35 Here, using
event-related fMRI on human participants, we contrasted
36 s in monkeys (Macaca mulatta), we adopted an
event-related fMRI paradigm that closely resembled a hum
37 The
event-related fMRI paradigm was composed of one warning
38 An
event-related fMRI paradigm was used to investigate brai
39 Using a rapid
event-related fMRI paradigm, we measured neural similari
40 sant taste were presented to subjects during
event-related fMRI scanning.
41 tes of non-verbal visual working memory with
event-related fMRI ('
Shape task').
42 examination of classification learning using
event-related FMRI showed rapid modulation of activity i
43 pplied a recently developed method to assess
event-related fMRI signal changes during free recall.
44 Event-related fMRI signals increased concomitantly in th
45 To address this question, we conducted an
event-related fMRI study in male and female human partic
46 Our current
event-related fMRI study investigated response selection
47 The present
event-related fMRI study provides evidence for an altern
48 We present a human
event-related fMRI study with a two-factorial stimulus s
49 In this
event-related fMRI study, an implicit task was used in w
50 In the present
event-related fMRI study, skin conductance and continuou
51 In this
event-related fMRI study, we employed a low effort, high
52 We report a hybrid (block and
event-related) fMRI study in 17 healthy adults, which pe
53 In an
event-related fMRI task dissociating component numerical
54 pproach to assess BOLD-signal variability in
event-related fMRI task paradigms.
55 Experiment 2 used an
event-related fMRI technique to separate signals during
56 The present study utilized
event-related fMRI to address the role of the human peri
57 We used
event-related fMRI to assess whether brain responses to
58 We employed
event-related fMRI to constrain cognitive accounts of me
59 We used
event-related fMRI to determine the underlying neural me
60 In this experiment, we used
event-related fMRI to examine practice-related activatio
61 Here we used
event-related fMRI to examine the relationship between a
62 understand its neural underpinnings, we used
event-related fMRI to examine the time course of activat
63 We used rapid
event-related fMRI to measure hemodynamic responses to i
64 ron, McClure et al. and O'Doherty et al. use
event-related fMRI to provide some of the strongest evid
65 Minimally deprived smokers underwent fast
event-related fMRI twice: once with a nicotine patch (21
66 Event-related fMRI was employed to characterize differen
67 Rapid,
event-related fMRI was used to address this question.
68 Event-related fMRI was used to compare brain activation
69 Here, fast
event-related fMRI was used to identify the brain networ
70 Using
event-related fMRI,
we addressed this question by compar
71 Using
event-related fMRI,
we assessed the neural correlates of
72 Using
event-related fMRI,
we confirmed that tools grabbed spat
73 Using
event-related fMRI,
we examined whether anticipatory neu
74 Using
event-related fMRI,
we investigated how people weigh the
75 n was confirmed by a conjunction analysis of
event-related fMRI,
which showed significantly elevated
76 Using
event-related fMRI while concurrently recording skin con
77 signal profile, subjects were scanned using
event-related fMRI while undergoing appetitive condition
78 Using
event-related fMRI,
Wittmann and colleagues report in th