Fig. 3 In vivo monitoring of vitamin E distribution on mouse skin.

Slides:

Advertisements

Similar presentations

False-color Raman images of spleen tissue sections from control and LPS-treated animals obtained by k-means cluster analysis. False-color Raman images.

Advertisements

Fig. 5 In vivo MIP imaging of lipid and protein in C. elegans.

Fig. 1 Upward emission functions used to compute the maps.

Fig. 4 3D reconfiguration of liquid metals for electronics.

Fig. 5 MicroLED array with 3D liquid metal interconnects.

Fig. 1 Characterization of the device structure.

Fig. 5 ATR-FTIR spectra supporting the assignment of band B to an oxo structure. ATR-FTIR spectra supporting the assignment of band B to an oxo structure.

Fig. 3 The electrical contact of direct-printed and reconfigured liquid metals. The electrical contact of direct-printed and reconfigured liquid metals.

Fig. 2 Boronic acid–rich dendrimer in cytosolic delivery.

Fig. 3 Oil, gas, and FP water variations with time.

Fig. 1 NP-free Ch-CNC droplets.

Fig. 3 Piezoresistive e-skin with interlocked microdome arrays for simultaneous detection of static pressure and temperature. Piezoresistive e-skin with.

Fig. 2 Fluence-dependent emission characteristics of CH3NH3PbI3 recorded at 15 and 300 K. Fluence-dependent emission characteristics of CH3NH3PbI3 recorded.

Fig. 1 Cryo-EM structure of yeast Elp123 showing its active site.

Fig. 1 Device structure, typical output performance, and cytocompatibility of BD-TENG. Device structure, typical output performance, and cytocompatibility.

Fig. 4 In vivo wound healing with application of AAD.

Fig. 1 Bioinspired design of AAD for promoting wound contraction.

Fig. 4 The results of HRTEM and high-angle annular dark-field scanning TEM investigations. The results of HRTEM and high-angle annular dark-field scanning.

Fig. 6 External drivers and model response.

Fig. 3 Extension of our proposed programmable synthesis to the selective synthesis of a wide variety of liposome/metal hybrids. Extension of our proposed.

Fig. 2 Broadband IR s-SNOM of large crystallites.

Fig. 2 Images of complex structures formed via sequential folding.

Fig. 1 Impacts of intensified acidification on stream pH and calcium concentration. Impacts of intensified acidification on stream pH and calcium concentration.

Fig. 5 Recruitment of a downstream polarity complex triggered by the MT arrival. Recruitment of a downstream polarity complex triggered by the MT arrival.

Fig. 2 Plasma diagnostics with DEM analysis.

Fig. 6 WPS imaging of different chemical components in living cells.

Fig. 3 Hydrostatic pressure induces intracellular calcium increase via TRPM7 activation. Hydrostatic pressure induces intracellular calcium increase via.

Fig. 4 Flexible OLED display driven by MoS2 backplane circuitry.

Fig. 4 Experimental outputs.

Fig. 4 Structural design of an F-TENG.

Fig. 4 Praying Prophet by Lorenzo Monaco: Mapping lake pigments and associated substrate. Praying Prophet by Lorenzo Monaco: Mapping lake pigments and.

Fig. 2 Micro-Raman spectroscopy and mapping of an amygdaloidal silica micrograin in the breccia matrix. Micro-Raman spectroscopy and mapping of an amygdaloidal.

Fig. 2 Raman characterization of CVD-grown graphene.

Fig. 1 In vitro calibration plots and pH maps using iopamidol in human blood serum. In vitro calibration plots and pH maps using iopamidol in human blood.

Fig. 4 In vivo FF results for MMA mice.

Fig. 3 Production of protein and Fe(II) at the end of growth correlated with increasing concentrations of ferrihydrite in the media that contained 0.2.

Fig. 1 Deficient CD73 and CD39 expressions and extracellular adenosine concentration in BM of OVX animals. Deficient CD73 and CD39 expressions and extracellular.

by Ryan M. Williams, Christopher Lee, Thomas V. Galassi, Jackson D

Fig. 3 Praying Prophet by Lorenzo Monaco: Mapping binders.

Fig. 2 NH3, NOx, SO2, and NMVOC emission changes triggered by the JJJ clean air policy. NH3, NOx, SO2, and NMVOC emission changes triggered by the JJJ.

Fig. 4 Projected [CO2]-induced deficits in protein and minerals (Fe and Zn) and cumulative changes in vitamin B and cumulative changes in vitamin E derived.

Fig. 2 Simulations of RBC sickling with a mechanistic model.

Fig. 2 Sampling. Sampling. (A) Extant stratigraphic section. Zenithal (B) and frontal (C) views of the flowstone capping the excavated deposit. The rectangle.

Fig. 2 Optimization of the sweat control and characterization of individual sensors. Optimization of the sweat control and characterization of individual.

Fig. 2 Comparison of 1L, 2L, and 3L single crystals.

Fig. 3 Raman spectra for the composite materials of the TS.

Fig. 1 Fractional coverage of the mapping method used in this study.

Fig. 1 Location of the Jirzankal Cemetery.

Fig. 2 The influence of TPP on the flammability of the electrolyte and the electrochemical performance of the graphite anode. The influence of TPP on the.

Fig. 4 CO2 emission changes triggered by the JJJ clean air policy.

Fig. 5 Soft, smart contact lens for detecting glucose.

Fig. 3 Micro-Raman analyses of another amygdaloidal silica micrograin in the breccia matrix. Micro-Raman analyses of another amygdaloidal silica micrograin.

Fig. 2 Temperature-sensing properties of the flexible rGO/PVDF nanocomposite film. Temperature-sensing properties of the flexible rGO/PVDF nanocomposite.

Fig. 1 Global primate species richness, distributions, and the percentage of species threatened and with declining populations. Global primate species.

Fig. 2 XRD, SEM-EDX, and three-dimensional optical characterization.

Fig. 4 Spatial mapping of the distribution and intensity of industrial fishing catch. Spatial mapping of the distribution and intensity of industrial fishing.

Fig. 4 Single-particle contact angle measurements.

Fig. 5 Distributions of cell nuclear area values and internuclear distances in the breast tumor specimens (Figs. 3 and 4), where bin interval = 8 and n.

Fig. 3 Supraballs and films assembled from binary 219/217nm SPs/SMPs.

Fig. 2 Supraballs and films from binary SPs.

Fig. 5 The complex of antibody and dye can afford to target imaging in the NIR-II window. The complex of antibody and dye can afford to target imaging.

Fig. 10 Map of light pollution’s visual impact on the night sky.

Fig. 1 Overview of amber clast with synchrotron x-ray μCT image of articulated snake skeleton (DIP-S-0907). Overview of amber clast with synchrotron x-ray.

Fig. 4 Characterization and SERS spectra of tetrameric metamolecules.

Fig. 2 Spatial distribution of five city groups.

Fig. 4 In situ mapping of human patient breast cancer and stroma.

Fig. 1 Doping schematics and optical properties.

Fig. 5 Electrical stimulation of nerve cells powered by BD-TENG.

Fig. 5 Effects of in vivo blockade of TLR9 on adipose tissue inflammation and insulin resistance in WT mice. Effects of in vivo blockade of TLR9 on adipose.

Fig. 2 Imaging blood vessel before and after closure.

Presentation transcript:

Fig. 3 In vivo monitoring of vitamin E distribution on mouse skin. In vivo monitoring of vitamin E distribution on mouse skin. (A) Experiment configuration. The nude mouse was anesthetized with isoflurane. (B)Spontaneous Raman spectra of vitamin E, olive oil (rich in CH2), and bovine serum albumin (rich in CH3). (C) MCR output spectra of three components assigned to lipid, protein, and vitamin E. (D) MCR concentration maps of lipid (in yellow) and protein (in green) before and after the treatment. (E) SRG images at 2911 cm−1. The pixel dwell time was 60 μs. Scale bar, 100 μm. Chien-Sheng Liao et al. Sci Adv 2015;1:e1500738 Copyright © 2015, The Authors