1 With 4 mM K(+)(i), maximal activation
was recorded with 100 mM Na(+)(i) (open probability, P(o
2 cells and beads suspended in an optical trap
were recorded with 30-ms time resolution.
3 Epicardial VF activation patterns
were recorded with 504 electrodes.
4 ts first evidence that reliable EEG data can
be recorded with a new cEEGrid electrode array, which co
5 peak brightness, which allows each image to
be recorded with a single exposure and reduces the time
6 Fairly rapid changes with time can
be recorded with a time resolution of approximately 1 s.
7 me constant of approximately 12 microsec has
been recorded with a high-speed patch-clamp setup.
8 The cardiac pulsatility
was recorded with a cardiac signal monitor.
9 Bone-to-implant contact
was recorded with a computerized microscopic digitizer.
10 t and 1 mm peripheral to the implant surface
was recorded with a computerized microscopic digitizer.
11 ctioned and mounted, and bone formation rate
was recorded with a computerized microscopic digitizer.
12 scence arising from the IgE-coated membranes
was recorded with a cooled CCD camera.
13 Oxygen distribution
was recorded with a fiberoptic probe in patients undergo
14 Data
was recorded with a glass pipette electrode.
15 IOP
was recorded with a handheld tonometer 1 hour, 4 hours,
16 t just above their thresholds and blood flow
was recorded with a laser-Doppler flow meter from the pu
17 The pattern electroretinogram (PERG)
was recorded with a sterile silver thread (DLT) electrod
18 The position of each eye
was recorded with a video eye tracker under infrared ill
19 Neuromagnetic activity
was recorded with a whole-head 275-channel magnetoenceph
20 Optical signals
were recorded with a 100-element photodiode array at hig
21 Steady-state magnetic fields
were recorded with a 148 sensor whole-head magnetometer
22 rceptual dominance in humans, seven subjects
were recorded with a 148-channel magnetoencephalography
23 The VEPs
were recorded with a 15' and 60' reversing checkerboard
24 esponses were distinguished; their responses
were recorded with a 16-channel microelectrode array.
25 Epicardial potentials
were recorded with a 224-electrode sock from an open-che
26 Epicardial potentials
were recorded with a 224-electrode sock from an open-che
27 Epicardial potentials
were recorded with a 490-electrode sock from an open-che
28 A total of 2593 acute kidney injury alerts
were recorded with a balanced distribution over all stud
29 tance of dyed spherulites in polarized light
were recorded with a CCD camera and simulated under the
30 Luminescent signals generated from each well
were recorded with a charge-coupled device (CCD) camera.
31 bone 1 mm peripheral to the implant surface
were recorded with a computerized microscopic digitizer.
32 passive acoustic emissions and B-mode images
were recorded with a diagnostic ultrasound machine durin
33 he evoked signals in the near infrared (NIR)
were recorded with a digital camera to image the changes
34 changes in the NIR reflectance of the retina
were recorded with a digital camera.
35 Applied forces
were recorded with a digital tension meter before and du
36 0 degrees to 90 degrees of flexion as images
were recorded with a dual fluoroscopic system.
37 toon movie alternating from distance to near
were recorded with a dynamic infrared photorefractor.
38 Step responses
were recorded with a dynamic optometer in nine 22- to 30
39 rCBF data
were recorded with a flow-sensitive alternating inversio
40 ECoG signals
were recorded with a high-density 32-electrode grid over
41 and intraluminal colon pressure measurements
were recorded with a high-speed electronic strip chart a
42 Tilt-series
were recorded with a limited tilt-range of 80 degrees th
43 Spikes and LFPs
were recorded with a multielectrode array from the middl
44 peak rate, mean rate, volume, and duration)
were recorded with a pneomatotachograph-coupled spiromet
45 Consonant-vowel nonsense syllables
were recorded with a probe tube microphone system in 10
46 SEEG data
were recorded with a sampling rate of 25kHz, and a 30-mi
47 ate visual transmission, cortical potentials
were recorded with a scalp electrode.
48 ikes with charges ranging from 0.1 to 1.5 pC
were recorded with a signal-to-noise ratio comparable to
49 Observer responses
were recorded with a six-point rating scale, and receive
50 the assembly dynamics of plus and minus ends
were recorded with a spinning-disk confocal fluorescence
51 Sociodemographic data
were recorded with a standardized questionnaire.
52 Symptoms
were recorded with a structured questionnaire (RDQ) and
53 Eye movements
were recorded with a Tobii TX300 (Tobii Technology, Stoc
54 Somatic action potentials
were recorded with a whole-cell pipette, and the corresp
55 A total of 6,934 daily BNP values
were recorded, with a median of 46 measures per patient
56 0.2 min(-1), duration 14.5 +/- 7.0 s, n= 18)
were recorded, with a similar reversal potential.
57 Nine patients' tremors
were recorded with accelerometry.
58 d Data System features of all other findings
were recorded, with addition of the descriptor MB simila
59 ansient improvements, no sustainable benefit
was recorded with airway bypass in patients with severe
60 ses in concentrations of liver transaminases
are recorded with all statins, but are not clearly assoc
61 trum of the laser-generated breakdown plasma
was recorded with an echelle spectrometer coupled to a g
62 s arising from receptive fields in the lungs
were recorded with an extracellular electrode positioned
63 Right eye movements
were recorded with an EyeLink 1000 infrared camera syste
64 of 31 patients with moderate to advanced PD
were recorded with an infrared system 1 month before and
65 rates, and global assessments of performance
were recorded with an interrater reliability between rev
66 Single-scan spectra of peptides
were recorded with an ionization time as short as 1 micr
67 Navigator-gated spectra
were recorded with and without water suppression to dete
68 ed exclusively with 'Other CHD' codes, 17.1%
were recorded with angina within 5 years, 5.6% with myoc
69 d ER never reached the highest values, which
were recorded with antibiotic treatments.
70 y one-third of surveyed plants and pathogens
were recorded with at least one biogeographically novel
71 Subjective facility
was recorded with automated flippers and objective measu
72 d RV electrograms and stimulation thresholds
were recorded with both a standard ablation catheter and
73 Asymptomatic electrocardiogram changes
were recorded with both dolasetron and ondansetron.
74 assay and changes in blood vessel formation
were recorded with both manual and digital techniques.
75 ss was measured, and two longitudinal images
were recorded with both modalities.
76 ging techniques now allow neural activity to
be recorded with cellular resolution in awake and behavi
77 pilepsy (MTLE), but recently pHFOs have also
been recorded with clinical depth and grid electrodes in
78 proportion of coronary heart disease events
are recorded with codes that do not distinguish between
79 Toxicity
was recorded with Common Terminology Criteria for Advers
80 0 mmol/L K+), two voltage-dependent channels
were recorded with conductances of 34 +/- 4 and 56 +/- 6
81 -3 fluorescence associated with Ca2+ release
was recorded with confocal microscopy in single muscle f
82 -3 fluorescence associated with Ca2+ release
was recorded with confocal microscopy in single muscle f
83 The three-dimensional images
were recorded with confocal and light sheet-based fluore
84 ctroencephalographic and behavioral seizures
were recorded with continuous radio-telemetry and video.
85 IPSPs in individual layer V pyramidal cells
were recorded with CsCl electrodes.
86 Anginal episodes and nitroglycerin use
were recorded with daily entry into a novel electronic d
87 Photopic mfERGs
were recorded with Dawson-Trick-Litzkow (DTL) fiber elec
88 Therefore, the open probability curves
were recorded with descending series of pressures.
89 viations from these overall trends, however,
were recorded with different co-varying variables.
90 Cytosolic and mitochondrial Ca2+ transients
were recorded with digital photometry and confocal micro
91 ERGs
were recorded with DTL electrodes from 62 normal subject
92 No dose-limiting toxicity
was recorded with durvalumab plus olaparib.
93 nts of 5 to 10 cm H2O from 50 to 0 mm Hg and
was recorded with each of these instruments: the hand-he
94 e mid-jejunum of urethane-anaesthetized rats
was recorded with extracellular microelectrodes.
95 Spontaneous field potentials
were recorded with extracellular electrodes in solutions
96 The signals
were recorded with extracellular electrodes, often in th
97 Membrane action potentials
were recorded with fine-tipped microelectrodes, and spat
98 a face processing task while brain responses
were recorded with fMRI and eye movements were monitored
99 Dates of death
were recorded with follow-up to Jan. 1, 1999.
100 lar muscle (CM) and longitudinal muscle (LM)
was recorded with force transducers.
101 atient, the location of the stimulation site
was recorded with frameless stereotaxy.
102 ersive emotional images while brain activity
was recorded with functional magnetic resonance imaging.
103 while blood oxygenation signals in the brain
were recorded with functional magnetic resonance imaging
104 mation that may last several decades and can
be recorded with geodetic methods.
105 Static eye positions
were recorded with head straight and when tilted 45 degr
106 t study, ethanol and water drinking patterns
were recorded with high temporal resolution over 6 weeks
107 Brain responses
were recorded with high-density electroencephalogram, an
108 r other techniques that the measurements can
be recorded with identical solution conditions as used f
109 A parallel increase in CD4(+) T cells
was recorded with IL-15 receptors, APOBEC3G and CC chemo
110 y aimed to investigate if such signals could
be recorded with implantable means and used to derive BP
111 al activity of single neurons of the ganglia
was recorded with intracellular microelectrodes, and ins
112 Electrical slow waves
were recorded with intracellular microelectrodes and con
113 Single motor unit activity
was recorded with intramuscular electrodes in the left f
114 Transporter-mediated anion currents
were recorded with ion and glutamate gradients favoring
115 Hz for 2 s, and the resulting changes in K+o
were recorded with K+o-sensitive microelectrodes placed
116 e of TTX, depolarising inhibitory potentials
are recorded with KCl-filled microelectrodes reflecting
117 eous blood flow from left and right hindpaws
was recorded with laser Doppler flow perfusion monitors.
118 ft) and contralateral (right) hind foot pads
were recorded with laser Doppler flow perfusion monitors
119 ood flows from left and right hind foot pads
were recorded with laser Doppler flow perfusion monitors
120 Amperometric measurements
were recorded with low-noise patch clamp amplifiers, and
121 Binocular eye and head motions
were recorded with magnetic search coils in eight humans
122 Brain activity
was recorded with magnetoencephalography, and time-locke
123 Vocal capacity
was recorded with maximum phonation time and vocal stabi
124 Single units and LFP
were recorded with microelectrodes from the hand region
125 Initially, pHFOs
were recorded with microelectrodes in the hippocampus of
126 ution and morphologies of the microorganisms
were recorded with microscopic imaging.
127 es C, the highest V(m) value (32.5 units/mg)
was recorded with Mn(2+) and in the presence of 37 mm di
128 evere (</= 2.2 mmol/L) hypoglycemic episodes
were recorded, with moderate and severe hypoglycemic epi
129 Interpretations
were recorded with modifications of the Breast Imaging a
130 Functional outcomes
were recorded with modified Rankin Scale (scored from 0
131 No abnormality
was recorded with MR imaging or US.
132 Electrical activity
was recorded with multi-electrode arrays (MEAs) of glass
133 Local field potential
was recorded with multielectrode arrays during spontaneo
134 acement stimuli in this weakly electric fish
are recorded with multiple semimicroelectrodes placed in
135 Activation
was recorded with optical mapping.
136 Calcium signals
were recorded with optical recording techniques.
137 Intraretinal oxygen (PO2) profiles
were recorded with oxygen-sensitive microelectrodes in c
138 Tuning curves
were recorded with patch electrodes from the inferior co
139 nd Day 5 (D5), two 5-minute video interviews
were recorded with patients in pyjamas or in day clothes
140 Water usage
was recorded with personal diaries and an electronic tot
141 s drop to low levels, most bleeding episodes
were recorded with platelet counts greater than 20 x 10(
142 Stratified radiocarbon samples and artifacts
were recorded with precise digital surveying tools linke
143 Frequency receptive fields (FRFs)
were recorded with pure tones.
144 nces in the volume of the gingival recession
were recorded with reference to the initial data.
145 Clinical follow-up
was recorded with regard to invasive coronary angiograph
146 Data
were recorded with regard to pre- and postoperative neur
147 In FCI the binding progress
is recorded with respect to injection time, whereas in T
148 flavonoids contents and antioxidant activity
were recorded with restricted losses of 29%, 8%, 12%, 12
149 Vulture movements in 10 migration events
were recorded with satellite-reporting GPS sensors, and
150 Eye and head movements
were recorded with search coils in three patients with A
151 nd flow velocity and central aortic pressure
were recorded with sensor wires.
152 r sustained firing rates than have typically
been recorded with simple stimuli.
153 Fluorescence signals
were recorded with spatial resolution of 17 microm for u
154 y cortical evoked potentials (1 degrees CEP)
were recorded with stimulation of myelinated afferents o
155 Twenty- to 30-second movies
were recorded, with stimulation occurring at 5 seconds.
156 changes, in vivo electrostatic measurements
were recorded with submillisecond resolution.
157 ects of stray light, multifocal rod ERGs can
be recorded with sufficient localization to be clinicall
158 The charge and velocity of the macroion
are recorded with the first image charge detector.
159 ng these induced changes in concentration to
be recorded with the sensitivity and selectivity of FSCV
160 reduced amplitudes of all ERG components can
be recorded, with the b-wave amplitude being most signif
161 produce voltammograms where each data point
is recorded with the same electrode history and demonstr
162 n current, reflective of local 5-HT release,
was recorded with the microelectrode near the mucosal su
163 Single unit activity
was recorded with the microneurography technique from si
164 n aggression after 4 weeks' treatment, which
was recorded with the modified overt aggression scale (M
165 Iswell
was recorded with the perforated patch configuration of
166 Each procedure
was recorded with the ROVIMAS video-based motion trackin
167 Meat protein absorption
was recorded with the use of (15)N enrichment of amino a
168 Angina typicality
was recorded with the use of accepted criteria.
169 The current density (I(sc))
was recorded with the vibrating probe technique and was
170 ular GSH (up to fivefold versus the control)
was recorded, with the highest increase occurring at 0.1
171 Excitation emission matrices
were recorded with the aid of an inverted microscope and
172 ICl(LPA) and resting voltages
were recorded with the amphotericin perforated-patch tec
173 Seventy-five single-unit responses
were recorded with the best frequencies in 10-23 or 32-4
174 t plates were automatically read and results
were recorded with the BIOMIC Image Analysis System.
175 t plates were automatically read and results
were recorded with the BIOMIC Vision Image Analysis Syst
176 Higher scores
were recorded with the Blue filter compared to Yellow fi
177 Currents
were recorded with the Cl(-)-impermeable pore former gra
178 Eyelid movements
were recorded with the magnetic search coil technique an
179 Single channel currents
were recorded with the patch-clamp technique.
180 approach, and pulse pressure variations (PP)
were recorded with the patient in the semirecumbent posi
181 Under each condition, R-R intervals
were recorded with the subject in the supine and the 40
182 Microfluctuations of accommodation
were recorded with the subject viewing the target at a v
183 No adverse events
were recorded, with the exception of mild subconjunctiva
184 Eighty-six hypoglycemic events
were recorded, with the number of events decreasing from
185 Next, potential vs time transients
were recorded with these electrodes, with and without an
186 onic day 17 wt and gelsolin null (Gsn-) mice
was recorded with time-lapse video microscopy.
187 ucing a high strain rate, and their dynamics
were recorded with video fluorescence microscopy.
188 Diameter changes in response to agonists
were recorded with videomicroscopic techniques.
189 SMCs to shear stress, H2O2, or to papaverine
were recorded with videomicroscopy.
190 Changes in internal diameter
were recorded with videomicroscopy.
191 Currents
were recorded with whole-cell patch electrodes in the pr
192 GABA receptor-mediated IPSCs
were recorded with whole-cell patch-clamp techniques in