Publications by authors named "Stefan Volkery"

Article Synopsis
  • Intravital microscopy is a cutting-edge imaging technique that helps visualize and understand quick physiological changes during inflammation, like how white blood cells (leukocytes) move and interact with blood vessels in live organisms.
  • The study discusses the advantages of using an Airy Beam Light Sheet microscope over traditional confocal microscopy, including better image resolution, faster imaging speed, and a wider field of view, while minimizing surgical invasiveness and side effects.
  • To tackle the challenge of tissue motion during imaging, the researchers developed a relocation algorithm that corrects motion artifacts, allowing for clearer 3D time-lapse images of leukocyte movement in the cremaster muscle's microcirculation, improving the insights gained from their observations compared to previous methods.
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The nanometer spatial resolution of electron microscopy imaging remains an advantage over light microscopy, but the restricted field of view that can be inspected and the inability to visualize dynamic cellular events are definitely drawbacks of standard transmission electron microscopy (TEM). Several methods have been developed to overcome these limitations, mainly by correlating the light microscopical image to the electron microscope with correlative light and electron microscopy (CLEM) techniques. Since there is more than one method to obtain the region of interest (ROI), the workflow must be adjusted according to the research question and biological material addressed.

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Platelets preserve vascular integrity during immune complex‒mediated skin inflammation by preventing neutrophil-provoked hemorrhage. However, the single-cell dynamics of this hemostatic process have never been studied in real-time. To monitor the onset of thrombocytopenia-associated hemorrhages and analyze platelet recruitment, we developed a confocal microscopy‒based video-imaging platform for the dorsal skinfold chamber in living mice.

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In recent years, 3D cell culture has been gaining a more widespread following across many fields of biology. Tissue clearing enables optical analysis of intact 3D samples and investigation of molecular and structural mechanisms by homogenizing the refractive indices of tissues to make them nearly transparent. Here, we describe and quantify that common clearing solutions including benzyl alcohol/benzyl benzoate (BABB), PEG-associated solvent system (PEGASOS), immunolabeling-enabled imaging of solvent-cleared organs (iDISCO), clear, unobstructed brain/body imaging cocktails and computational analysis (CUBIC), and ScaleS4 alter the emission spectra of Alexa Fluor fluorophores and fluorescent dyes.

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Neutrophil extravasation requires opening of the endothelial barrier but does not necessarily cause plasma leakage. Leaks are prevented by contractile actin filaments surrounding the diapedesis pore, keeping this opening tightly closed around the transmigrating neutrophils. We have identified the receptor system that is responsible for this.

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Objective: Vascular endothelial (VE)-cadherin is of dominant importance for the formation and stability of endothelial junctions, yet induced gene inactivation enhances vascular permeability in the lung but does not cause junction rupture. This study aims at identifying the junctional adhesion molecule, which is responsible for preventing endothelial junction rupture in the pulmonary vasculature in the absence of VE-cadherin. Approach and Results: We have compared the relevance of ESAM (endothelial cell-selective adhesion molecule), JAM (junctional adhesion molecule)-A, PECAM (platelet endothelial cell adhesion molecule)-1, and VE-cadherin for vascular barrier integrity in various mouse tissues.

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Zebrafish possess the remarkable ability to regenerate a vast variety of tissues, even as adults. However, direct imaging of regenerative processes in adult zebrafish remains challenging because of the lack of suitable anesthesia protocols. Here we present a description of an intubation-based anesthesia procedure that we developed to enable us to image regenerating zebrafish fins and which can be used to continuously anesthetize adult zebrafish for up to 2 d.

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Endothelial cell-selective adhesion molecule (ESAM) is specifically expressed at endothelial tight junctions and on platelets. To test whether ESAM is involved in leukocyte extravasation, we have generated mice carrying a disrupted ESAM gene and analyzed them in three different inflammation models. We found that recruitment of lymphocytes into inflamed skin was unaffected by the gene disruption.

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