1 reactivity using laser Doppler fluxmetry and
in vivo microscopy.
2 n in the mouse neocortex imaged via 2-photon
in vivo microscopy.
3 n the nuclei of living cells with the use of
in vivo microscopy.
4 ine ARDS model by direct visualization using
in vivo microscopy.
5 on days 0 and 7 after embolization by using
in vivo microscopy.
6 aste buds) in mice over time with two-photon
in vivo microscopy.
7 Employing multi-channel
in vivo microscopy,
analyses in microfluidic devices, an
8 rity and sinusoidal perfusion as assessed by
in vivo microscopy and electron microscopy, and prevente
9 By using
in vivo microscopy and in situ molecular analysis of the
10 Using
in vivo microscopy and transgenic vascular reporters, we
11 Here, we used an
in vivo microscopy approach to dissect different contrib
12 Here, we used an
in vivo microscopy assay based on Lac Repressor/operator
13 In vivo microscopy based on vibrational spectroscopic co
14 nt probes, have become the gold standard for
in vivo microscopy because of their genetic encodability
15 an age range of 7 decades, were studied with
in vivo microscopy by optical coherence tomography.
16 In vivo microscopy confirmed a role for intrinsic Cat-S/
17 In vivo microscopy corroborated proliferation of adoptiv
18 In vivo microscopy has recently revealed the dynamic nat
19 ly and then analyzing tissue responses using
in vivo microscopy,
immunohistochemistry, and corrosion
20 e/volume curve by direct visualization using
in vivo microscopy in a surfactant deactivation model of
21 This was ascertained by
in vivo microscopy in adult mice.
22 Here, we address these questions using
in vivo microscopy in zebrafish spinal cord and identify
23 We developed high-resolution
in vivo microscopy methods to visualize mitosis in a mur
24 and leukocyte adhesion were monitored using
in vivo microscopy (
n = 6 in each group).
25 10-minute delay) permitted near-simultaneous
in vivo microscopy of 2-NBDG and TMRE at the same tissue
26 Through a thoracotomy incision,
in vivo microscopy of subpleural alveoli was performed a
27 In vivo microscopy of the fovea showed that, even at the
28 fluorophore into the cdkn1a (p21) locus and
in vivo microscopy of the resulting line.
29 Using
in vivo microscopy of the retina we investigated the sur
30 Our findings show that
in vivo microscopy offers a useful tool to visualize mit
31 In vivo microscopy on the inflamed mouse cremaster muscl
32 Using
in vivo microscopy on the mouse cremaster muscle, intrav
33 In vivo microscopy showed disruption of sinusoidal blood
34 Multiphoton laser scanning
in vivo microscopy showed that the density of the inters
35 e approximately 5-20 times longer than prior
in vivo microscopy studies of hand-dissected flies.
36 te the adaptation and integration with other
in vivo microscopy systems, we made optical design, acqu
37 Thus, we developed a novel
in vivo microscopy technique to simultaneously measure V
38 pe and genetically altered mice by real-time
in vivo microscopy to analyze this complex physiologic p
39 l murine model of liver lymphangiography and
in vivo microscopy to delineate the lymphatic drainage p
40 Here we report the use of multiphoton
in vivo microscopy to determine migration patterns of GC
41 Using
in vivo microscopy to image jejunal mucosa of GFP gammad
42 Here, we use high-resolution
in vivo microscopy to quantify photoreceptor layer thick
43 Using
in vivo microscopy to visualize the epididymis, a model
44 In vivo microscopy was applied to monitor the impact of
45 Using A. nidulans
in vivo microscopy,
we show that HypA(Trs120) colocalize
46 Using dynamic two-photon
in vivo microscopy,
we show that these activated T cells
47 rons [n/mm2] in an area corresponding to the
in vivo microscopy were dose-dependently preserved 7 day
48 For all groups, a thoracotomy and
in vivo microscopy were performed.
49 low (laser Doppler), and alveolar mechanics (
in vivo microscopy)
were measured in both groups.
50 The combination of
in vivo microscopy with genetically encoded indicators h