Global ETD Search

151	The Dynamic Behavior of Macrophages in Wound Healing Boateng, Michael Kwaku 17 June 2014 (has links) No description available. Applied Mathematics Biology Wound Healing, Macrophages,Inflammation
152	Bio-Functionalized Clay Nanoparticles for Wound Healing Applications Vaiana, Christopher Anthony 11 July 2011 (has links) No description available. Biochemistry wound healing layered silicates EGF Montmorillonite
153	Mechanotransduction in Endothelial Cells:Cell Growth, Angiogenesis and Wound Healing Liu, Jie 03 August 2010 (has links) No description available. Cellular Biology endothelial cell angiogenesis, wound healing
154	The Effects of Topical Nalbuphine on Canine Corneal Fibroblasts In Vitro Spatola, Ronald Anthony 20 October 2011 (has links) No description available. Ophthalmology nalbuphine corneal fibroblast corneal wound healing
155	GRADIENT POROUS FIBROUS SCAFFOLDS AS A PARADIGM FOR IMMUNOMODULATORY WOUND DRESSINGS Timnak, Azadeh January 2017 (has links) Engineering therapeutic approaches to wound healing can be divided into two major categories of fibrous and non-fibrous approaches. There has been significant progress in designing artificial skin products to replace autografting. For patients with non-healing/hard-to-heal wounds, there is an unmet clinical need for inexpensive skin substitutes to be transplanted. In skin regeneration area of research, electrospinning is a very commonly used method of production of grafts for wound healing applications, owing its popularity to the fibrous nature of the resultant product, which mimics the extracellular matrix of the native skin. Despite the high degree of porosity in conventional electrospun scaffolds, the small pore size effectively limits the penetration of cells into the scaffold. Transplantation of such scaffolds with poor cell infiltration abilities may lead to a range of negative consequences, from prolongation of the first/destructive phase of inflammation to rejection of the scaffolds. Several experimental approaches have been developed to generate interfibrillar space in the electrospun scaffolds, including but not limited to modifications of the electrospinning set-up and inclusion of sacrificial components. It has been reported that scaffolds with larger pore diameters in the range of ~ 40-100 μm can modulate, moderate and reduce acute inflammatory responses of the body, by influencing macrophages biological behavior, and direct the course of the wound healing process to the tissue remodeling phase. Macrophages are the major cell component of innate immune system and play critical roles in clearance of pathogens, resolution of inflammation and wound healing following an injury. Macrophages are characterized by their diversity and plasticity. In response to environmental stimuli, they acquire different functional phenotypes of pro-inflammatory (M1) or anti-inflammatory (M2). In this thesis, we developed a novel unique gradient porous structure from a plant-based “green” soy protein isolate (SPI) with improved pore size for macrophages to infiltrate. We further showed the ability of the scaffold to modulate phenotype switch in macrophages in vitro and in vivo. The proposed scaffold, moreover, appeared to support transition of the inflammation process from the destructive to the constructive phase in vivo. Based on the promising results of this thesis, we propose our newly developed scaffold has the ability to be used as a new therapeutic modality for treatment of non-healing chronic wounds. / Bioengineering Bioengineering Fibrous Scaffolds Immunomodulatory Macrophages Wound Healing
156	Natural Stressors, Posttraumatic Stress Disorder, and Wound Healing, in a Murine Model Parker, Jason Lloyd 11 June 2010 (has links) This study investigated the use of "naturalistic stressors" such as physical restraint and animal pheromones on the etiology of Posttraumatic Stress Disorder in a murine model. Pilot data suggest that stress effects may lead to an increase in the amount of time needed for cutaneous wounds to heal. Pilot data to support the creation of this model are presented suggesting that a delayed stress response may inhibit healing rates. In the present study an animal model of PTSD was used to investigate the effect of stress on the immune system. Yehuda and Antelman's (1993) nonhuman animal model of Posttraumatic Stress Disorder was tested with respect to the animals' immune response to cutaneous wounding. Additionally, effects of stress on exploratory behavior and activity were examined. The findings support the hypothesis that restraint and pheremonal stress and housing arrangements influence the ability of mice to heal a 1.5 mm punch biopsy, and exploratory behavior. The findings also support a profile for the Post-Traumatic Mouse. / Ph. D. Wound Healing Awesomeness Animal Models Posttraumatic Stress
157	Dynamic Programming of Innate Immunity in Health and Disease Yuan, Ruoxi 02 November 2016 (has links) Whether innate immune cells may be adapted into potential memory states has becoming an important question in the field of immunity. Although previous conceptual paradigm failed to acknowledge this important question, emerging clinical and basic observations have started to shed intriguing clues to shake the previous dogma regarding innate immunity of being "simple", "raw", "first-line defense with no memory". We have aimed to further address this fundamental issue in this dissertation work, under the close guidance of Dr. Liwu Li. We have chosen to use the model system of Toll-Like-Receptor (TLR) signaling networks within primary monocytes. TLRs play fundamental roles in sensing pathogen-associated molecular patterns (PAMPs) and modulation of innate immunity. Lipopolysaccharide (LPS), an endotoxin found on the cell membrane of gram-negative bacteria, is the ligand of TLR4 and induces a range of inflammatory as well as anti-inflammatory responses. Higher dosages of LPS were known to cause robust yet transient expression of pro-inflammatory mediators. On the other hand, the effects of super-low dose LPS, commonly manifested in humans with adverse health conditions, have been largely ignored in the basic research field. Super-low dose LPS may skew host immune environment into a mild non-resolving pro-inflammatory state, which is a risk factor for inflammatory diseases such as atherosclerosis, compromised wound healing, and elevated risks for sepsis. Our central hypothesize is that monocytes may be adapted by super-low dose LPS into a non-resolving low-grade inflammatory state conducive for the pathogenesis of inflammatory diseases. We have employed both in vitro cell culture system as well as in vivo disease models to test this hypothesis. For the in vitro system, we have cultured primary murine monocytes with increasing signal strength of LPS. Monocyte phenotypes such as the expression of key inflammatory mediators including cytokines, chemokines, and cellular surface markers were studied. Potential molecular and cellular mechanisms were examined. We revealed a novel low-grade inflammatory monocyte phenotype termed ML adapted by super-low dose LPS, mediated through IRF5. For the in vivo system, we have employed both acute and chronic models of inflammation. For the chronic model, we have tested the effects of super-low dose LPS on monocyte polarization in vivo, as well as its contribution to the pathogenesis of atherosclerosis. Furthermore, we have tested the effects of programmed monocytes on wound healing. For the acute model, we have tested the effects of pre-conditioning with super-low dose LPS on the subsequence risks of sepsis elicited by cecal ligation and puncture. We have demonstrated aggravated atherosclerosis, compromised wound healing, and increased sepsis mortality in mice pre-conditioned with super-low dose LPS. Taken together, our findings reveal that monocytes can be differentially programmed into distinct states, depending on the signal strength of LPS. The differential programming and adaptation of monocytes can occur both in vitro and in vivo, and may bear profound pathological consequences. / Ph. D. lipopolysaccharide inflammation monocytes atherosclerosis sepsis wound healing.
158	The lactate conundrum in wound healing: Clinical and experimental findings indicate the requirement for a rapid point-of-care diagnostic Britland, Stephen T., Ross-Smith, O., Jamil, H., Smith, Annie G., Vowden, Kath, Vowden, Peter January 2012 (has links) No / The increasing prevalence of chronic wounds has significant financial implications for nations with advanced healthcare provision. Although the diseases that predispose to hard-to-heal wounds are recognized, their etiology is less well understood, partly because practitioners in wound management lack specialized diagnostic support. Prognostic indicators for healing may be inherent to wound biochemistry but remain invisible under routine clinical investigation; lactate is an example of this. In this study, lactate concentration in exudate obtained from 20 patients undergoing wound management in hospital was variable but in some cases approached or exceeded 20 mM. In vitro viability studies indicated that fibroblasts and endothelial cells tolerated low levels of lactate (1-10 mM), but cell viability was severely compromised by high lactate concentrations (=20 mM). Scratched monolayer experiments revealed that cell migration was affected earlier than viability in response to increasing lactate dose, and this was shown by immunocytochemistry to be associated with cytoskeletal disruption. A prototype enzyme-based colorimetric assay for lactate generating a color change that was rapid in the context of clinical practise, and capable of functioning within a gel vehicle, was developed with point-of-care dipstick applications in mind. A randomized single-blinded trial involving 30 volunteers and using a color chart to calibrate the assay demonstrated that lactate concentration could be reliably estimated with 5 mM precision; this suggesting that "physiological" and "pathological" lactate concentration could be distinguished. The present data suggest that a dipstick-type colorimetric assay could comprise a viable diagnostic tool for identifying patients at-risk from high-wound lactate. Wound healing Lactate Diagnostic Chronic wound management
159	Managing high viscosity exudate Vowden, Peter, Bond, E., Meulenetre, F. January 2015 (has links) No / Wound pain, odour and exudate have a major impact on patient quality of life. Understanding the management of these core components of wound healing is essential if patient outcomes are to be optimised. This paper discusses the role and types of exudate, the impact of high viscosity exudate on management and what to consider when selecting an appropriate dressing with the aim of restoring a satisfactory moist wound environment for healing. Wound pain Wound healing Exudate Dressings
160	Intracrine sex steroid synthesis and signaling in human epidermal keratinocytes and dermal fibroblasts Pomari, Elena, Valle, L.D., Pertile, P., Colombo, L., Thornton, M. Julie January 2015 (has links) No / Peripheral intracrine sex steroid synthesis from adrenal precursors dehydroepiandrosterone (DHEA) and DHEA-sulfate has evolved in humans. We sought to establish if there are differences in intracrine, paracrine, and endocrine regulation of sex steroids by primary cultures of human skin epidermal keratinocytes and dermal fibroblasts. Microarray analysis identified multifunctional genes modulated by steroids, quantitative RT-PCR (qRT-PCR) mRNA expression, enzymatic assay aromatase activity, scratch assay cell migration, immunocytochemistry α-smooth muscle actin (α-SMA), and collagen gel fibroblast contraction. All steroidogenic components were present, although only keratinocytes expressed the organic anion organic anion transporter protein (OATP) 2B1 transporter. Both expressed the G-protein-coupled estrogen receptor (GPER1). Steroids modulated multifunctional genes, up-regulating genes important in repair and aging [angiopoietin-like 4 (ANGPTL4), chemokine (C-X-C motif) ligand 1 (CXCL1), lamin B1 (LMNB1), and thioredoxin interacting protein (TXNIP)]. DHEA-sulfate (DHEA-S), DHEA, and 17β-estradiol stimulated keratinocyte and fibroblast migration at early (4 h) and late (24–48 h) time points, suggesting involvement of genomic and nongenomic signaling. Migration was blocked by aromatase and steroid sulfatase (STS) inhibitors confirming intracrine synthesis to estrogen. Testosterone had little effect, implying it is not an intermediate. Steroids stimulated fibroblast contraction but not α-SMA expression. Mechanical wounding reduced fibroblast aromatase activity but increased keratinocyte activity, amplifying the bioavailability of intracellular estrogen. Cultured fibroblasts and keratinocytes provide a biologically relevant model system to investigate the complex pathways of sex steroid intracrinology in human skin.—Pomari, E., Valle, L. D., Pertile, P., Colombo, L., and Thornton, M. J. Intracrine sex steroid synthesis and signaling in human epidermal keratinocytes and dermal fibroblasts. DHEA Testosterone Estradiol Aromatase Wound healing

Search results