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RESEARCH PRODUCT

In vivo analysis of noise dependent activation of white blood cells and microvascular dysfunction in mice

Alex Von KriegsheimAndreas DaiberBenjamin Philipp ErnstKatie FrenisAlexander Philippe MaasSebastian StriethMarin KunticSebastian StevenSubao JiangOmar HahadHuige LiJonas EckrichYue RuanMaria Teresa Bayo JimenezAdrian GerickeGiovanny Rodriguez-blancoThomas MünzelMatthias Oelze

subject

chemistry.chemical_classificationReactive oxygen speciesPathologymedicine.medical_specialtyScienceQClinical BiochemistryIn vivo analysisVideo microscopyBlood flowMethod ArticleIn vivo fluorescence microscopy and cerebral arteriole cannulation to assess noise induced changes in activation of white blood cells and microvascular dysfunctionIn vitroCerebral arterioles cannulationMedical Laboratory TechnologyDorsal skinfold chamberchemistryIn vivoFluorescent labeling of blood cellsVideo microscopyMicroscopic imagingmedicineResearch article

description

This article contains supporting information on data collection for the research article entitled “Aircraft noise exposure drives the activation of white blood cells and induces microvascular dysfunction in mice” by Eckrich et al. We found that noise-induced stress triggered microvascular dysfunction via involvement of innate immune-derived reactive oxygen species. In this article, we present the instrumentation of mice with dorsal skinfold chambers for in vivo microscopic imaging of blood flow, interaction of leukocytes with the vascular wall (also by fluorescent labelling of blood cells) and vessel diameter. In addition, we explain the preparation of cerebral arterioles for measurement of vascular reactivity in vitro.•visualization of noise-dependent effects in dorsal skinfold chamber.•in vivo microscopy of noise-dependent activation of white blood cells.•analysis of noise-dependent microvascular dysfunction in dorsal skinfold chamber and cannulated cerebral arterioles.

yearjournalcountryeditionlanguage
2021-10-01MethodsX
https://doi.org/10.1016/j.mex.2021.101540