Global ETD Search

1	Olfactory system development : effects of reversible early deprivation / Cummings, Diana Mae. January 1997 (has links) Thesis (Ph. D.)--University of Virginia, 1997. / Includes bibliographical references (106-124). Also available online through Digital Dissertations. Olfactory Pathways Oppossums
2	Optimization of functional MRI methods for olfactory interventional studies at 3T Ahluwalia, Vishwadeep, January 1900 (has links) Thesis (Ph.D.)--Virginia Commonwealth University, 2009. / Prepared for: Dept. of Radiology. Title from title-page of electronic thesis. Bibliography: leaves 117-124.
3	Clinical, immunological and olfactory aspects of sinusitis and nasal polyposis : with special reference to patients with cystic fibrosis / Henriksson, Gert, January 2004 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.
4	The role of BDNF in the survival and morphological development of adult-born olfactory neurons Unknown Date (has links) Olfactory Granule cells (GCs) are a population of inhibitory interneurons responsible for maintaining normal olfactory bulb (OB) function and circuitry. Through dendrodendritic synapses with the OBs projection neurons, the GCs regulate information sent to the olfactory cortices. Throughout adulthood, GCs continue to integrate into the OB and contribute to olfactory circuitry. However, only ~50% will integrate and survive longterm. Factors aiding in the survival and morphological development of these neurons are still being explored. The neurotrophin brain-derived neurotrophic factor (BDNF) aids in the survival and dendritic spine maturation/maintenance in several populations of CNS neurons. Investigators show that increasing BDNF in the adult-rodent SVZ stimulates proliferation and increases numbers of new OB GCs. However, attempts to replicate these experiments failed to find that BDNF affects proliferation or survival of adult-born granule cells (abGCs). BDNFs regulation of dendritic spines in the CNS is well characterized. In the OB, absence of BDNF’s receptor on abGCs hinders normal spine development and demonstrates a role for BDNF /TrkB signaling in abGCs development. In this study, we use transgenic mice over-expressing endogenous BDNF in the OB (TgBDNF) to determine how sustained increased in BDNF affect the morphology of olfactory GCs and the survival and development of abGCs. Using protein assays, we discovered that TgBDNF mice have higher BDNF protein levels in their OB. We employed a Golgi-cox staining technique to show that increased BDNF expression leads to an increase in dendritic spines, mainly the mature, headed-type spine on OB GCs. With cell birth-dating using 5-bromo-2’- deoxyuridine (BrdU), immunofluorescent cell markers, TUNEL staining and confocal microscopy, we demonstrate that over-expression of BDNF in the OB does not increase survival of abGCs or reduce cell death in the GC population. Using virally labeled abGCs, we concluded that abGCs in TgBDNF mice had similar integration patterns compared to wild-type (WT) mice, but maintained increases in apical headed-type spine density from 12 to 60 days PI. The evidence combined demonstrates that although increased BDNF does not promote cell survival, BDNF modifies GC morphology and abGC development through its regulation of dendritic spine development, maturation and maintenance in vivo. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection Brain-Derived Neurotrophic Factor Olfactory Bulb Olfactory Pathways Neurons
5	A searchlight for meaning in the olfactory bulb / Doucette, Wilder Thorne. January 2008 (has links) Thesis (Ph.D. in Neuroscience) -- University of Colorado Denver, 2008. / Typescript. Includes bibliographical references (leaves 140-153). Free to UCD Anschutz Medical Campus. Online version available via ProQuest Digital Dissertations;
6	Cellular and Synaptic Organization of the Human Olfactory Bulb Maresh, Alison 04 March 2008 (has links) The distribution of cell types and synapses is well characterized in the rodent olfactory bulb (OB), and from that plausible models of odor processing have been constructed. Individual olfactory sensory neurons (OSNs) express only 1 of ~1000 odorant receptors (ORs) and send their axons to specific synaptic targets in the OB glomerular neuropil. Each glomerulus is innervated exclusively by OSN axons expressing the same OR. The distribution of these glomeruli is conserved across animals, as is the numerical relationship between number of expressed ORs and number of glomeruli in the OB. Our objective is to extend such results to the level of the human OB to determine how its cellular and synaptic organization, and more specifically how the number and distribution of its glomeruli, compare to what has been elucidated in mice. As there are ~2,000 glomeruli for ~1,000 ORs in mice, we predicted ~700 glomeruli in humans based on the ~350 intact OR genes identified in the human through genomic studies. Using immunohistochemistry, the organization of cells and synapses in human OBs was evaluated and quantified. While the laminar structure of the OB is broadly conserved between species, in the human OB the laminar organization as well as additional structural features suggest a less rigorously organized OB than in rodents, perhaps suggesting that odor processing in the human OB may be less efficient than in mice. Of particular note, the total number of glomeruli in the human OB differs significantly from predicted and demonstrates a high degree of variability amongst specimens, thus far ranging from approximately 3000 - 9000/OB. These results indicate that the principles of OR-homotypic axon convergence developed from mouse studies may not be readily applicable to the human, and that central processing of odor signals in the human may differ from those characterized in the mouse. olfactory bulb olfactory pathways smell odors mice otorhinolaryngology human receptors odorant
7	Neural Diversity in the Drosophila Olfactory Circuitry: A Dissertation Lai, Sen-Lin 31 July 2007 (has links) Different neurons and glial cells in the Drosophila olfactory circuitry have distinct functions in olfaction. The mechanisms to generate most of diverse neurons and glial cells in the olfactory circuitry remain unclear due to the incomprehensive study of cell lineages. To facilitate the analyses of cell lineages and neural diversity, two independent binary transcription systems were introduced into Drosophila to drive two different transgenes in different cells. A technique called ‘dual-expression-control MARCM’ (mosaic analysis with a repressible cell marker) was created by incorporating a GAL80-suppresible transcription factor LexA::GAD (GAL4 activation domain) into the MARCM. This technique allows the induction of UAS- and lexAop- transgenes in different patterns among the GAL80-minus cells. Dual-expression-control MARCM with a ubiquitous driver tubP-LexA::GAD and various subtype-specific GAL4s which express in antennal lobe neurons (ALNs) allowed us to characterize diverse ALNs and their lineage relationships. Genetic studies showed that ALN cell fates are determined by spatial identities rooted in their precursor cells and temporal identities based on their birth timings within the lineage, and then finalized through cell-cell interactions mediated by Notch signaling. Glial cell lineage analyses by MARCM and dual-expression-control MARCM show that diverse post-embryonic born glial cells are lineage specified and independent of neuronal lineage. Specified glial lineages expand their glial population by symmetrical division and do not further diversify glial cells. Construction of a GAL4-insensitive transcription factor LexA::VP16 (VP16 acidic activation domain) allows the independent induction of lexAop transgenes in the entire mushroom body (MB) and labeling of individual MB neurons by MARCM in the same organism. A computer algorithm is developed to perform morphometric analysis to assist the study of MB neuron diversity. Olfactory Pathways Neurons Neuroglia Mushroom Bodies Drosophila Cell Lineage Animal Experimentation and Research Cells Nervous System
8	Anatomical mapping of dopamine receptor supersensitivity in the rat extended striatum Kaur, Navneet, 1979- January 2008 (has links) The extended striatum is a large, dopamine-innervated forebrain structure comprising the caudate-putamen, nucleus accumbens and olfactory tubercle (OT). The OT remains largely unexplored, despite its potentially important role in behaviour and dopamine (DA)-mediated reward. One method of studying function is examining "supersensitive" behavioural responses to DA agonists in animals after striatal DA loss. We examined whether D1 or D2 receptor supersensitivity occurs in the OT and neighbouring islands of Calleja (ICj), after unilateral 6-hydroxydopamine lesions of the medial forebrain bundle and medial OT (mOT). We also asked if the resulting DA receptor supersensitivity is anatomically heterogeneous. Our results showed D1-like receptor supersensitivity occurring in the OT with several DA agonists, and heterogeneously across the extended striatum. There is evidence of D2-like receptor supersensitivity in the ICj. Our focal mOT lesion failed to show DA receptor supersensitivity. Finally, there is little evidence for D2 supersensitivity as measured by [ 35S]GTPgammaS binding. Receptors, Dopamine -- metabolism. Corpus Striatum -- metabolism. Olfactory Pathways -- metabolism. Islands of Calleja -- metabolism. Dopamine Agonists -- pharmacology. Quinpirole -- pharmacology. Rats.
9	Anatomical mapping of dopamine receptor supersensitivity in the rat extended striatum Kaur, Navneet, 1979- January 2008 (has links) No description available. Rats. Olfactory Pathways -- metabolism. Corpus Striatum -- metabolism. Receptors, Dopamine -- metabolism. Quinpirole -- pharmacology. Dopamine Agonists -- pharmacology. Islands of Calleja -- metabolism.
10	Specification of the lens and olfactory placodes and dorsoventral patterning of the telencephalon / Sjödal, My, January 2007 (has links) Diss. (sammanfattning) Umeå : Univ., 2007. / Härtill 3 uppsatser.

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