Global ETD Search

21	Antimicrobial Roles for iNKT Cells and GM-CSF in Mycobacterium Tuberculosis Infection Rothchild, Alissa Chen 04 June 2016 (has links) Despite effective antibiotics, Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis, still infects nearly one-third of the world's population. While key immune factors including CD4+ T cells and IFNg production have been identified, there are still many antimicrobial mechanisms yet to be explored. Here we characterized the role of invariant natural killer T (iNKT) cells and GM-CSF during Mtb infection. GM-CSF immunology iNKT cells Mtb Tuberculosis
22	A Volume of Fluid (VoF) based all-mach HLLC Solver for Multi-Phase Compressible Flow with Surface-Tension Oomar, Muhammad Yusufali 15 September 2021 (has links) This work presents an all-Mach method for two-phase inviscid flow in the presence of surface tension. A modified version of the Hartens, Lax, Leer and Contact (HLLC) approximate Riemann solver based on Garrick et al. [1] is developed and combined with the popular Volume of Fluid (VoF) method: Compressive Interface Capturing Scheme for Arbitrary Meshes (CICSAM). This novel combination yields a scheme with both HLLC shock capturing as well as accurate liquid-gas interface tracking characteristics. To ensure compatibility with VoF, the Monotone Upstream-centred Scheme for Conservation Laws (MUSCL) [2] is applied to non-conservative (primitive) variables, which yields both robustness and accuracy. Liquid-gas interface curvature is computed via both height functions [3, 4] and the convolution method [5]. This is in the interest of applicability to both cartesian and arbitrary meshes. The author emphasizes the use of VoF in the interest of surface tension modelling accuracy. The method is validated using a range of test-cases available in literature. The results show flow features that are in agreement with experimental and benchmark data. In particular, the use of the HLLC-VoF combination leads to a sharp volume fraction and energy field with improved accuracy (up to secondorder). VoF Compressible Surface Tension CSF Height Functions
23	Severe Bactrim-Induced Neutropenia With Reversal of CD4<sup>+</sup>/CD8<sup>+</sup> Lymphocyte Ratio: Response to Recombinant Human Granulocyte-Colony Stimulating Factor (R-metHUG-CSF) Krishnan, K., Krishnaswamy, G. 18 July 1998 (has links) A patient presented with severe bactrim-induced neutropenia with a reversed CD4+/CD8+ lymphocyte ratio. R-metHUG-CSF at 300 μg daily produced a dramatic neutrophil response and the therapy was discontinued after 2 weeks. bactrim neutropenia R-metHUG-CSF Internal Medicine
24	TRPV4 in the Choroid Plexus Epithelium: Pathway Analysis and Implications for Cerebrospinal Fluid Production Preston, Daniel 12 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Hydrocephalus is a disease characterized by an increase in cerebrospinal fluid (CSF) in the ventricles of the brain. This manifests as a result of either overproduction or underabsorption of CSF leading to increases in pressure, swelling and loss of brain matter. Current treatments for this disease include surgical interventions via the introduction of shunts or endoscopic third ventriculostomy, both of which aim to redirect flow of CSF in to another cavity for absorption. Limited pharmacotherapies are available in the treatment of hydrocephalus, and there exists a clinical need for drug therapies, which can ameliorate the pathophysiology associated with hydrocephalus and ventriculomegaly. CSF is produced primarily by the choroid plexus (CP), found in the ventricles of the brain. Composed of a high resistance epithelium surrounding a capillary network, the CP epithelium acts as a barrier, regulating ion transport between the CSF and blood. Transient Receptor Potential Vanilloid-4 (TRPV4) is a nonselective Ca2+-permeable cation channel expressed in the CP which is being investigated for its role in CSF production. To study hydrocephalus, we utilize two model systems; the TMEM67-/- Wpk rat, and the PCP-R cell line. The Wpk rat model is used to study the effects of drug intervention on the development and progression of hydrocephalus. The PCP-R cell line is utilized for studies which aim to understand the mechanisms by which CSF is produced. Using Ussing chamber electrophysiology, we are able to study the role of specific channels, transporters and modulators in driving epithelial ion flux across the CP. This research aims to establish a role for TRPV4 in production and regulation of CSF, and to interrogate a mechanism by which this ion transport occurs. The chapters that follow describe components of the pathway by which TRPV4 is activated and ion flux is stimulated. Hydrocephalus Choroid Plexus CSF Cerebrospinal Fluid TRPV4
25	Engineering human bone marrow stromal cells Weber, Matthew Charles January 1991 (has links) No description available. stromal cells KM-102 CSF bone marrow
26	The application of elemental tags for biological analyte identification Easter, Renee N. 23 September 2011 (has links) No description available. Chemistry Metallomics Elemental Analysis HILIC CSF
27	ANDROGENS SUPPRESS OSTEOCLAST FORMATION INDUCED BY RANK LIGAND AND M-CSF Huber, Dustin Michael 11 October 2001 (has links) No description available. ANDROGENS OSTEOCLAST RANK M-CSF PROLIFERATION
28	Mutational analysis of the proto-oncogenes c-fms and c-kit Baker, David Alan January 1995 (has links) No description available. 572
29	Le rôle immunomodulateur dans la réponse allo-immune de cellules hématopoïétiques mobilisées par du G-CSF / G-CSF Mobilizes Hematopoietic Cells that Inhibit Allo-Immune Response Aveni-Piney, Maud D' 24 April 2015 (has links) L’allogreffe de cellules souches hématopoïétiques (CSH) reste à l’heure actuelle la seule thérapie curative de nombreuses hémopathies malignes. Les lymphocytes T (LT) du donneur constituent une immunothérapie contre les cellules de la leucémie (ou lymphome) appelé effet « GVL » pour « Graft versus Leukemia ». Malheureusement cet effet est intimement lié à la maladie du greffon contre l’hôte appelée « GVH » pour « Graft versus Host » (destruction des cellules saines du receveur par les LT du donneur). L’allogreffe de CSH est de plus en plus souvent réalisées avec des greffons mobilisés par du G-CSF. Quelques publications identifient des cellules immunosuppressives avec un phénotype peu précis CD11b+ Gr1+ induites par le G-CSF pouvant regrouper plusieurs sous-types cellulaires et sans trouver de contre-partie humaine ou avec un mécanisme d’action peu clair. Nous avons démontré que le G-CSF mobilise chez l’homme, dans la fraction CD34+ du greffon, une population monocytaire. Lorsqu’elle représente plus de 12% des CD34+, les receveurs ont une incidence moindre de la GVH aiguë. Cette même population est phénotypiquement et fonctionnellement conservée chez la souris. En réponse à l’IFN-γ relargué par les LT allogéniques, elle produit de l’Oxyde Nitrique capable d’induire l’apoptose de ces LT in vitro. In vivo, nous avons pu décortiquer (chez la souris uniquement) les mécanismes de régulation de la GVH aiguë. Les LT apoptotiques phagocytés par les macrophages capables alors de devenir tolérogènes en produisant du TGF-β et ainsi d’induire des LT régulateurs. Dans le modèle murin d’allogreffe de CSH, le transfert adoptif de cette population purifiée protège le receveur de la GVH aiguë. Nous pensons que si cette population peut être cultivée et expandue ex vivo, elle pourrait être une thérapie cellulaire préventive contre la GVH. / Allogeneic Hematopoietic Stem Cell Transplantation (Allo-HSCT) is the most effective immunotherapy for acute leukemia, due to the development of graft-versus-leukemia (GVL) effect mediated by alloreactive donor T cells. However, donor T cells specific for recipient alloantigens are also responsible for graft-versus-host disease (GVHD), a life-threatening complication that frequently occurs after allo-HSCT. The administration of Granulocyte colony stimulating factor (G-CSF) is routinely performed to collect Peripheral Blood Stem Cells (PBSC) from healthy donors for allo-HSCT. Few studies identified that G-CSF can induce myeloid suppressive cells in mice (CD11b+ Gr1+) with no human counterpart. We demonstrated in our study that G-CSF can induce a new population named CD34+Monocyte. The cumulative incidence of acute grade II to IV GVHD following allo-HSCT was lower in patients receiving grafts containing CD34+ monocyte frequencies above 12% of the CD34+ population. In mice, we demonstrated that G-CSF mobilized a highly conserved CD34+ monocyte population. CD34+Monocytes require T cell-mediated IFN-γ to produce Nitric Oxide that inhibits T cell activation and proliferation. In vivo, we report that CD34+ monocyte-derived NO regulates the alloreactive response by inducing T cell apoptosis and subsequently, the induction of regulatory T cells. In fact, uptake of apoptotic T cells by macrophages triggers them to produce high levels of TGF-β that drives the expansion of Tregs and induces immune tolerance. Such tolerogenic monocytes could represent a good candidate for the development of novel immunoregulatory and therapeutic cellular therapies. G-CSF CD34+Monocytes Immunorégulation GVH G-CSF CD34+Monocytes Immunomodulation GVHD
30	The Role of Colony-stimulating Factor 1 and its Receptor on Acute Myeloid Leukemia Fateen, Mohammed 25 July 2012 (has links) Colony-stimulating factor 1 receptor (CSF1R, Fms) is an integral transmembrane glycoprotein with tyrosine specific protein kinase activity that it is found on the mononuclear phagocytes to promote their survival, proliferation and differentiation. Colony-stimulating factor 1 (CSF-1), also known as M-CSF, is a protein ligand that acts on the CSF1R. There is a variable association of Fms with the stem cell marker CD34 on acute myeloid leukemia (AML) cells and this suggests different structures of the AML hierarchy in different patients. Mouse stromal cells (MS-5) were transduced with a plasmid containing human CSF-1 because mouse CSF-1 is inactive on human CSF1R. Results show that AML cells cultured with CSF-1-expressing stroma had a much better growth and survival than the control stroma, suggesting that CSF-1 might be a stimulating factor for the growth of leukemic stem cells. Leukemia AML Cancer stem cells Leukemia stem cells CSF-1 M-CSF 0307 0992

Search results