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Articles 1 - 5 of 5
Full-Text Articles in Biomedical Engineering and Bioengineering
Stimulation Paradigms And Transduction Patterns For Optogenetic Intervention Of Astrocytes, Lakshmini Balachandar
Stimulation Paradigms And Transduction Patterns For Optogenetic Intervention Of Astrocytes, Lakshmini Balachandar
FIU Electronic Theses and Dissertations
Gliosis observed in several neurological disorders is associated with neuroinflammation and enhanced astrocytic Ca2+ levels. The inherent multicellular nature of this neuroinflammation poses challenges in deciphering the exact role of astrocytic Ca2+ signaling and whether it leads to the generation and/or exacerbation of neuroinflammation. These challenges are aggravated by the dearth of systematic characterization of a regulated method for eliciting astrocytic Ca2+ increases.
The primary goal of this dissertation is to address the lack of a characterized method by studying optogenetics for eliciting astrocytic Ca2+ increases. As part of this analysis, we aim to identify light stimulation paradigms resulting in …
3d Architectural Analysis Of Neurons, Astrocytes, Vasculature & Nuclei In The Motor And Somatosensory Murine Cortical Columns, Jared Leichner
3d Architectural Analysis Of Neurons, Astrocytes, Vasculature & Nuclei In The Motor And Somatosensory Murine Cortical Columns, Jared Leichner
FIU Electronic Theses and Dissertations
Characterization of the complex cortical structure of the brain at a cellular level is a fundamental goal of neuroscience which can provide a better understanding of both normal function as well as disease state progression. Many challenges exist however when carrying out this form of analysis. Immunofluorescent staining is a key technique for revealing 3-dimensional structure, but subsequent fluorescence microscopy is limited by the quantity of simultaneous targets that can be labeled and intrinsic lateral and isotropic axial point-spread function (PSF) blurring during the imaging process in a spectral and depth-dependent manner. Even after successful staining, imaging and optical deconvolution, …
Brain Tumor In A Dish: Glioma/Astrocyte Co-Cultures As A Model For In Vitro Studies, Erin Eickman, Christina Wilson, Srivatsan Kidambi
Brain Tumor In A Dish: Glioma/Astrocyte Co-Cultures As A Model For In Vitro Studies, Erin Eickman, Christina Wilson, Srivatsan Kidambi
UCARE Research Products
This study seeks to engineer an in vitro co-culture model to elucidate the role of glioma-astrocyte interactions on molecular changes in the tumor microenvironment. The use of patterned co-cultures created with polyelectrolyte multilayers and micromolding in capillaries will allow tthe investigation of cell-cell communication. This study will lead to better understanding of the role of healthy cells in cancer progression and potential treatment options.
Differential Regulation Of The Hippocampal Taurine Transporter Protein In Rat Brain: Mechanisms Contributing To Neuronal Volume Regulation, Amanda Noelle Freeman
Differential Regulation Of The Hippocampal Taurine Transporter Protein In Rat Brain: Mechanisms Contributing To Neuronal Volume Regulation, Amanda Noelle Freeman
Browse all Theses and Dissertations
Background. In osmotic edema, net efflux of taurine from neurons and accumulation by astrocytes contributes to neuronal volume regulation and astrocytic swelling. Taurine is accumulated in both cell types by a sodium- and chloride-dependent 72-75 kDa protein transporter, TauT. TauT functional activity decreases in osmotically swollen neurons but is unaltered in swollen astrocytes, in vitro. This swelling-induced downregulation of neuronal TauT activity is blocked with the tyrosine kinase (TK) inhibitor, genistein. In contrast, PKC activation has no effect on neuronal TauT, but inhibits astrocytic TauT. Thus, we hypothesize that during osmotic swelling, neuronal TauT activity is regulated by a TK …
Three-Dimensional Hydrogel Cell Culture Systems For Modeling Neural Tissue, John P. Frampton
Three-Dimensional Hydrogel Cell Culture Systems For Modeling Neural Tissue, John P. Frampton
Legacy Theses & Dissertations (2009 - 2024)
Two-dimensional (2-D) neural cell culture systems have served as physiological models for understanding the cellular and molecular events that underlie responses to physical and chemical stimuli, control sensory and motor function, and lead to the development of neurological diseases. However, the development of three-dimensional (3-D) cell culture systems will be essential for the advancement of experimental research in a variety of fields including tissue engineering, chemical transport and delivery, cell growth, and cell-cell communication. In 3-D cell culture, cells are provided with an environment similar to tissue, in which they are surrounded on all sides by other cells, structural molecules …