1 imately 18 seconds, while CS, wavefront aberrations, and RI
images were collected.
2 Small-animal PET
images were collected 2 h after mice were injected in the tai
3 Anterior and posterior planar
images were collected at 15 min, 1.5 h, 4 h, and 8 h.
4 High-resolution MR
images were collected at a range of time points at 11.7T and
5 Photoelectron microscopy
images were collected at specific wavelengths of UV light bet
6 PET
images were collected at times ranging from 0 to 36 h after i
7 Simultaneously, color
images were collected at video rates (30 frame/s).
8 Images were collected beginning at 30, 50, 80, 120, 180, 240,
9 More than 20,000
images were collected,
classified, and used for the calculati
10 Images were collected during baseline states and three presso
11 Functional magnetic resonance
images were collected during reactivation and recognition tes
12 Functional
images were collected every 30 seconds by using a gradient ec
13 Diffusion tensor
images were collected for a subset of 63 young adults with no
14 Standard and background
images were collected for calibration.
15 High-resolution T1, proton density, and T2-weighted brain
images were collected from 12 patients and 28 age- and gender
16 Resting state functional magnetic resonance imaging
images were collected from 24 MDD patients and 29 healthy con
17 StratusOCT (Carl Zeiss Meditec, Inc., Dublin, CA)
images were collected from 53 patients receiving their initia
18 Consecutive ultra-widefield FA
images were collected from 82 uveitis patients (82 eyes) in a
19 Clinical records and
images were collected from participants as standard protocol.
20 Consecutive ultra-widefield fluorescein angiography
images were collected from patients with diabetes over a 12-m
21 Functional brain
images were collected from the frontal and parietal lobes of
22 In addition, mass spectral profiles and
images were collected from wild type and a mutant strain, whi
23 Magnetic resonance
images were collected in a sample of 45 primates including 8
24 Thirty 1-min images followed by ten 3-min
images were collected in dynamic mode; a 20% photopeak window
25 Structural T1-weighted magnetic resonance
images were collected,
in a continuous sample of 143 severely
26 Images were collected of the E. coli RS2-GFP transport throug
27 (90)Y PET
images were collected on a PET/CT scanner and iteratively rec
28 s determined at two different time points, and gamma camera
images were collected on two animals.
29 Images were collected over a 10-minute period approximately e
30 Laser Doppler
images were collected simultaneously in both hindpaws in anes
31 Besides, in vitro rat aorta
images were collected successfully at dynamic foci in which t
32 Low- and high-magnification
images were collected systematically and masked before analys
33 Low (200X) and high (10,000X) magnification
images were collected systematically and were masked before a
34 Sequential
images were collected through the full thickness of the corne
35 Serial blood samples and tumor
images were collected throughout the study.
36 Scintigraphic
images were collected to determine targeting of tumor lesions
37 Mass spectrometry
images were collected to obtain a macromolecular profile of t
38 Serial blood samples, 24-hr urine collections and nuclear
images were collected until 7 days postinfusion.
39 Serial blood samples, 24-hr urine collections and nuclear
images were collected up to 7 days postinfusion.
40 High-resolution TPEFM
images were collected up to a depth of 150 microm from the su
41 Functional magnetic resonance
images were collected using a 3 Tesla GE scanner and a spiral
42 Functional magnetic resonance
images were collected while participants viewed (i) short fil
43 In control rats, high-resolution
images were collected with or without systemic injection of M