ライフサイエンスコーパス: video imaging

1 nted and the shell-hash cover estimated from video imaging.

2 ntaneously beating myocytes were captured by video imaging.

3 metry with a carbon fibre microelectrode and video imaging.

4 ns and its dynamics can be captured fully by video imaging.

5 nity Ca(2+)-sensitive fluorescent probes and video imaging.

6 ythropoietin (Epo) was measured with digital video imaging.

7 in intracellular calcium concentration using video imaging.

8 E clone 3, using fura-2 microfluorimetry and video imaging.

9 were measured with fura-2 based microscopic video imaging.

10 ntration ([Ca(i)]) was measured with digital video imaging.

11 y patch-clamp electrophysiology and Fura-2AM video imaging.

12 by confocal photothermal, fluorescence, and video imaging.

13 secretion rate in CF specimens, measured by video imaging (4.5+/-0.5 nL/min/gland, n=6), was 2.7-fol

14 The image is then analyzed by the associated video imaging analysis software.

15 Both quantitative video imaging and a new photometric method were utilized

16 Using time-lapse video imaging and mice infection, we observed a major de

17 Time-lapse video imaging and morphological analyses revealed that a

18 tions, security, night-vision, biomedical or video-imaging and gas sensing, detection technologies pr

19 phalography (aEEG) including raw tracing and video imaging, and bedside clinicians received assistanc

20 scent protein from pTracer-CMV using digital video imaging, and successful transfection of TRPC was c

21 Video imaging ( approximately 7500 pixels per frame; 240

22 Simultaneous video imaging (approximately 32x32 mm2) of Di-4-ANEPPS f

23 cemaker activity was recorded via high-speed video imaging at 36.5 degrees C +/- 0.5 degrees C.

24 n of the surgical field with high-resolution video imaging cameras such as the closed-coupled device

25 Hemoglobin video imaging can be incorporated into a routine clinic

26 Time-lapse video imaging compiled from the optical screening images

27 lar microelectrode recordings and high-speed video-imaging during nerve stimulation was used to revea

28 We used a combination of high-resolution video imaging, ECG recordings, and spectral analysis to

29 Hemoglobin video imaging enables the direct observation of aqueous

30 Advancements in video imaging, endoscope technology, and instrumentation

31 alysis of optical signals was carried out in video imaging experiments using a potentiometric dye in

32 e been limited to analysis of one embryo per video/imaging field.

33 paper, we have used electron microscopy and video imaging fluorescence microscopy to investigate the

34 nts of cone photopigment regeneration with a video imaging fundus reflectometer to determine whether

35 High-speed video imaging has revealed that each current pulse corre

36 We used hemoglobin video imaging (HVI) to develop a technique to image and

37 strin-releasing peptide were monitored using video imaging in a perfusion chamber.

38 it hearts were studied using high-resolution video imaging in conjunction with ECG recordings and spe

39 previously been implicated in cell adhesion, video imaging in vivo demonstrated that deletion of the

40 meter = 200 mum) fluorescence microscopy and video imaging inside the rodent brain at a depth of 2 mm

41 Cell volume was measured using a video-imaging method.

42 diffusivity of T. pyriformis, determined by video imaging microscopy, was found to exceed molecular

43 mate model was examined by computer-assisted video imaging microscopy.

44 Video imaging monitored fecal pellet evacuation from iso

45 ar posttransplant for suspected ACR had pCLE video imaging obtained immediately prior to tissue sampl

46 PACAP effects on ECL cells were analyzed by video imaging of [Ca(2+)](i) and histamine release; its

47 ron) were studied using digital fluorescence video imaging of arterial diameter and wall [Ca2+], comb

48 died using simultaneous digital fluorescence video imaging of arterial diameter and wall [Ca2+], comb

49 Here we report the time-lapse video imaging of border cell migration, allowing us to t

50 oosmotic flow in plastic microchannels using video imaging of caged fluorescent dye after it has been

51 Video imaging of colonic wall movements or the selective

52 Live video imaging of Drosophila cardiac tubes revealed that

53 e-sensitive dye was used for high resolution video imaging of electrical waves on the epicardial and

54 Real-time video imaging of fluid droplets secreted from individual

55 optical system is described for simultaneous video imaging of fluorescein tear film breakup and the T

56 (i) was also evaluated by the use of digital video imaging of fura-2 loaded individual T cells.

57 Using digital video imaging of Fura2-AM loaded porcine airway smooth m

58 pendent morphological synaptic plasticity by video imaging of GFP-actin at individual synapses.

59 esolution confocal microscopy and two-photon video imaging of individual haematopoietic cells in the

60 imaging agents, we performed high-frame-rate video imaging of mice during intravenous injection of SW

61 High-resolution video imaging of near-defibrillation-threshold atrial sh

62 individual glands was measured by real-time video imaging of sweat droplet formation under oil.

63 ultaneous electrophysiological recording and video imaging of the cell-attached patch membrane reveal

64 lonic elongation might affect the CMMC using video imaging of the colon, tension and electrophysiolog

65 Our experiments involve high-speed video imaging of the granular stream in the co-moving fr

66 We demonstrate the microscope by video imaging of tubulin and kinesin dynamics in living

67 ring of NE with a diamond microelectrode and video imaging of vascular tone allow real time local mea

68 distal colon using mechanical recordings and video imaging of wall movements.

69 Real-time in vivo video imaging of whole mouse body and tumor vessels was

70 Determination of the curvature of patches by video imaging permitted measurements of the channel acti

71 Simultaneous intracellular recordings with video imaging revealed that the global rise in intracell

72 Video imaging revealed that transit of fecal pellets was

73 intracellular microelectrode recordings with video-imaging revealed that the rise in Ca(2+) was tempo

74 Video imaging showed apparent boundaries to migration be

75 lters were quantified by photomicroscopy and video imaging software.

76 ne-based imaging technique called smartphone video imaging (SVI) to capture short videos of samples t

77 nduced in such an area, we used a high-speed video imaging system and a voltage-sensitive dye to quan

78 form comprises a high-resolution closed-loop video imaging system, coupled with a deep learning netwo

79 s quantified by means of a computer-assisted video imaging system.

80 ized arteries from rat were measured using a video-imaging system and conventional microelectrodes, r

81 A dual-camera video-imaging system was used for simultaneous optical r

82 sed this behavior using suction-cup-attached video-imaging tags (CRITTERCAMs) on individual whales.

83 Cell volume regulation was measured using a video-imaging technique.

84 e isolated rat pancreatic beta-cells using a video-imaging technique.

85 We used fluorescent video imaging techniques to study the origin and propaga

86 Fast, multiple-site optical recording and video imaging techniques were combined to visualize the

87 g voltage-sensitive dyes in combination with video-imaging techniques.

88 We used video imaging technology to study the sequence of activa

89 nderlying mechanism, we used high-resolution video imaging to analyze the fate of macropinosomes form

90 lls from the bullfrog saccule and high-speed video imaging to characterize this sliding adhesion.

91 We use a potentiometric dye and video imaging to record the dynamics of transmembrane po

92 We used video imaging to study the sequence of activation on the

93 We have used video imaging to study the sequence of activation on the

94 Whole cell fluorescent video imaging using rhodamine 123 (R123) was used to mon

95 Video imaging was used to determine the effects of colon

96 oietin modulation of calcium influx, digital video imaging was used to measure calcium influx through

97 In 6 isolated pig hearts, dual-camera video imaging was used to record optically from approxim

98 Using quantitative immunofluorescence and video imaging, we provide the first in vitro reconstitut

99 We used high-resolution video imaging with a fluorescent dye, ECG, frequency and

100 concentration ([Ca2+]i) was determined using video imaging with Fura-2 in a 37 degreesC superfusion c