Publications by authors named "Shailey Gale Twamley"

Citrate-coated iron oxide nanoparticles, specifically Synomag®-COOH (SynC), are promising tracers in magnetic particle imaging (MPI) due to their high magnetic moments and rapid cellular uptake. The mechanisms driving efficient SynC uptake remain unclear. Previous observations suggest a role of the extracellular glycocalyx during nanoparticle uptake.

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Purpose: To study whether the absence of laminar shear stress (LSS) enables the uptake of very small superparamagnetic iron oxide nanoparticles (VSOP) in endothelial cells by altering the composition, size, and barrier function of the endothelial surface layer (ESL).

Methods And Results: A quantitative particle exclusion assay with living human umbilical endothelial cells using spinning disc confocal microscopy revealed that the dimension of the ESL was reduced in cells cultivated in the absence of LSS. By combining gene expression analysis, flow cytometry, high pressure freezing/freeze substitution immuno-transmission electron microscopy, and confocal laser scanning microscopy, we investigated changes in ESL composition.

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The glycocalyx (GCX), a pericellular carbohydrate rich hydrogel, forms a selective barrier that shields the cellular membrane, provides mechanical support, and regulates the transport and diffusion of molecules. The GCX is a fragile structure, making it difficult to study by transmission electron microscopy (TEM) and confocal laser scanning microscopy (CLSM). Sample preparation by conventional chemical fixation destroys the GCX, giving a false impression of its organization.

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Synopsis of recent research by authors named "Shailey Gale Twamley"

  • - Shailey Gale Twamley's research primarily focuses on the cellular interactions and uptake mechanisms of iron oxide nanoparticles, particularly in the context of magnetic imaging and endothelial cell behavior under varying mechanical conditions.
  • - In her 2024 study, she demonstrated that citrate-coated iron oxide nanoparticles can be efficiently taken up by cells regardless of the presence of glycosaminoglycans, challenging previous assumptions about their role in nanoparticle uptake.
  • - Additionally, her findings on the impact of laminar shear stress on endothelial cells revealed that the absence of such stress enhances the uptake of very small superparamagnetic iron oxide nanoparticles by modifying the endothelial surface layer, contributing to a better understanding of nanoparticle behavior in biological systems.

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