1 s, which is measured macroscopically by fast
voltage-sensitive dye imaging.
2 lus are encoded in population activity using
voltage-sensitive dye imaging.
3 asured changes in net circuit activity using
voltage-sensitive dye imaging.
4 aves in rat neocortical slices visualized by
voltage-sensitive dye imaging.
5 studied in brainstem slices using high-speed
voltage-sensitive dye imaging.
6 Using simultaneous
voltage-sensitive dye imaging and patch-clamp recordings
7 In the present study, fast multi-site
voltage-sensitive dye imaging combined with somatic reco
8 Functional
voltage-sensitive dye imaging confirmed GABA circuit fun
9 no gamma-band subthreshold oscillation, and
voltage-sensitive dye imaging demonstrated an absence of
10 Voltage-sensitive dye imaging experiments in primary vis
11 m radiatum (SR, which contains the SC) using
voltage-sensitive dye imaging,
field excitatory postsyna
12 We used
voltage-sensitive dye imaging from V1 of behaving monkey
13 ctivity by in vivo recordings and day-by-day
voltage-sensitive dye imaging in an acute brain slice pr
14 analysis of cortical activity measured using
voltage-sensitive dye imaging in anesthetized animals wa
15 Using in vivo
voltage-sensitive dye imaging in anesthetized guinea pig
16 Using
voltage-sensitive dye imaging in awake, fixating monkeys
17 Using
voltage-sensitive dye imaging in behaving monkeys, we me
18 y of a large neuronal population in V1 using
voltage-sensitive dye imaging in behaving monkeys.
19 We measured V1 population responses with
voltage-sensitive dye imaging in fixating monkeys that w
20 improvements in the signal-to-noise ratio of
voltage-sensitive dye imaging in mouse brain slices, we
21 alled "correspondence problem." Here, we use
voltage-sensitive dye imaging in primary visual cortex (
22 Voltage-sensitive dye imaging in rat visual cortex shows
23 Voltage-sensitive dye imaging in sagittal slices confirm
24 on in rats, using patch-clamp recordings and
voltage-sensitive dye imaging in slices.
25 Using
voltage-sensitive dye imaging in vivo, we determined the
26 We used
voltage-sensitive-dye imaging in fixating macaque monkey
27 ous and evoked up-states were measured using
voltage-sensitive dye imaging,
intracellular recordings,
28 Voltage-sensitive dye imaging methods showed that epilep
29 Here, we have used
voltage-sensitive dye imaging methods to locate the neur
30 Based on
voltage-sensitive dye imaging,
multipatch single-cell re
31 Voltage-sensitive dye imaging of mouse thalamocortical s
32 Here, we used
voltage-sensitive dye imaging of primary somatosensory c
33 Voltage-sensitive dye imaging revealed that the oscillat
34 of activity in DCK neurons obtained by using
voltage-sensitive dye imaging showed that activity is no
35 By using a recent improvement in
voltage-sensitive dye imaging technique that provided ex
36 Here we show using in vivo
voltage-sensitive dye imaging,
that whisker trimming lea
37 As revealed by
voltage-sensitive dye imaging,
there is an intriguing si
38 we used high temporal and spatial resolution
voltage-sensitive dye imaging to assess the characterist
39 Here, we applied
voltage-sensitive dye imaging to brain slices from anima
40 We used
voltage-sensitive dye imaging to evaluate whisker sensor
41 In this report we use
voltage-sensitive dye imaging to examine the spatiotempo
42 Using
voltage-sensitive dye imaging to interrogate the evoked
43 Here we used
voltage-sensitive dye imaging to measure directly popula
44 We used quantitative
voltage-sensitive dye imaging to probe hippocampal dynam
45 Gs are dedicated or multifunctional, we used
voltage-sensitive dye imaging to record from approximate
46 We previously used
voltage-sensitive dye imaging to record from DE-3 and mo
47 We used
voltage-sensitive dye imaging to visualize neuronal acti
48 We used
Voltage Sensitive Dye Imaging,
to investigate at high sp
49 1 contributes to similarity masking, we used
voltage sensitive dye imaging (
VSDI) to measure V1 popul
50 sessed hippocampal excitability via in vitro
voltage-sensitive dye imaging (
VSDI) across the period o
51 We combined computational modeling,
voltage-sensitive dye imaging (
VSDI) in behaving monkeys
52 between these partial agonists, we utilized
voltage-sensitive dye imaging (
VSDi) in ventral hippocam
53 We used
voltage-sensitive dye imaging (
VSDI) to measure and char
54 We used widefield
voltage-sensitive dye imaging (
VSDI) to measure neural p
55 Here we used
voltage-sensitive dye imaging (
VSDI) to measure V1 popul
56 We performed
voltage-sensitive dye imaging (
VSDi) with GRIN rod lens
57 Combining
voltage-sensitive dye imaging (
VSDI) with simultaneous e
58 oiting the high spatiotemporal resolution of
voltage-sensitive dye imaging,
we captured population re
59 oral analysis, intracellular recordings, and
voltage-sensitive dye imaging,
we compared the effects o
60 Using
voltage-sensitive dye imaging,
we found that short-term
61 Using
voltage-sensitive dye imaging,
we found that spiral wave
62 Using
voltage-sensitive dye imaging,
we investigated the neura
63 We combined
voltage-sensitive dye imaging with extracellular multiel
64 Using whole-cell somatic recording and
voltage-sensitive dye imaging with simultaneous dendriti