Global ETD Search

681	Impact of Collateral Enlargement on Smooth Muscle Phenotype Bynum, Alexander Jerome 01 December 2011 (has links) (PDF) Peripheral Artery Disease is a very serious disease characterized by an arterial occlusion due to atherosclerotic plaques. In response to an arterial occlusion, arteriogenesis occurs, causing smooth muscle cells to transition from a contractile to synthetic state. Also following an arterial occlusion, functional impairment was seen in the collateral circuit. An immunofluorescence protocol was developed in order to assess the impact of collateral enlargement (arteriogenesis) on smooth muscle phenotype at various time points. Smooth muscle α-actin was used to mark all smooth muscle cells, Ki-67 was used to label proliferating smooth muscle cells, and a fluorescent nuclear stain was used to quantify the number of cells present. Samples of the profunda femoris and gracilis were dissected from each mouse hind limb (one ligated, one sham) at three different time points: 3 days, 7 days, and 14 days after a femoral artery ligation surgery. Smooth muscle cell phenotype and luminal cross-sectional area were assessed in the profunda femoris and the midzone of the gracilis collaterals. Smooth muscle cells were proliferating at 3 and 7 days following the occlusion in the gracilis collaterals and significant collateral vessel growth was observed over the two week period. No proliferation was observed in the profunda femoris and although there was an increasing trend in vessel size over the two week period, the averages were not significantly different. The phenotypic transition of the smooth muscle cells was not the cause of vascular impairment in the collateral circuit. This shows that further research is needed to characterize impairment in the collateral circuit. Vascular Smooth Muscle Cells Arteriogenesis Immunofluorescence Mouse Collateral Circuit Peripheral Artery Disease Cell Biology Cellular and Molecular Physiology Pathogenic Microbiology Structural Biology
682	Analysis of Biofilm Remediation Capacity for Octenyl Succinic Anhydride (OSA), a Bioactive Food Starch Modifier Compound Borglin, Matthew R 01 June 2020 (has links) (PDF) Matthew R. Borglin This thesis demonstrates efficacy of Octenyl Succinic Anhydride (OSA), as a biofilm sanitizer. Biofilms allow bacteria to adhere to solid surfaces with the use of excreted polymeric compounds. For example, surfaces found in food production or processing facilities such as the interior of a raw milk holding tank, are some of the most susceptible to biofilm contamination. When present, biofilms can cause a variety of negative effects, which include; reduction of product shelf life, corrosion, and outbreaks of foodborne illnesses. The close association of biofilms with the majority of foodborne illness cases led the US Environmental Protection Agency (EPA) to create a new category of sanitizer specifically designed for treatment of mature biofilms. The efficacy of sanitizers in this new regulatory category is determined by the EPA protocols MB-19 and MB-20. The EPA’s protocols outline methods for cultivating, treating, and measuring effects on Pseudomonas aeruginosa biofilms in a continuous flow stir bar bioreactor. Biofilm modification by OSA was verified by the presence of octenyl esters on OSA treated biofilms with single point Raman spectrophotometry. OSA modified biofilm’s antimicrobial properties were first investigated with crystal violet staining in 96-well microtiter plates with inconclusive results. However, effective antimicrobial properties where apparent when using the CDC Biofilm Reactor. OSA treatments consistently returned a 6-log CFU/coupon reduction in biomass compared to controls. Inhibition of planktonic and/or biofilm regrowth was demonstrated using the 96-well plate methodology. This thesis demonstrated the effectiveness of OSA chemical esterification reaction as a biofilm treatment. In doing so, this work suggests a new approach for biofilm remediation by chemically modifying the structural components of biofilm. Biofilm Remediation EPS modification OSA esterefication Biochemistry Biophysics Biotechnology Laboratory and Basic Science Research Molecular Biology Other Physical Sciences and Mathematics Pathogenic Microbiology Structural Biology
683	Aeromonas hydrophila In Amphibians: Harmless Bystander or Opportunistic Pathogen Rivas, Zachary P 01 January 2016 (has links) For several decades amphibian populations have been declining. Historically, the bacterium A. hydrophila (Ah) was hypothesized to be the causal factor in amphibian disease and population declines. However, with the discovery of a chytrid fungus, Batrachochytrium dendrobatidis (Bd) in 1998, which was identified on the skin of amphibians during documented mortality events, Ah research became of minor interest as focus shifted to Bd. Recent studies into the immunocompromising abilities of Bd, however, have opened new questions about its relationship with Ah and their combined effects on a host. In this study, I explore the relationship between infection with these two pathogens, Bd and Ah, in two amphibian species from distinct regions of the United States. I developed a novel qPCR assay to measure the microbial load of Ah on the skin of two anuran species, Lithobates yavapaiensis (N=232) and Pseudacris ornata (N=169), which have confirmed Bd infections. I use a logistic regression model to identify whether significant relationships exist between these two pathogens, disease, and death. I find that even amongst the most severely infected frogs, Ah is not detectable on the skin and only appears post-mortem. I therefore conclude that Ah is an opportunistic bacterial pathogen, scavenging on anurans only after mortality events. This research is the first known study to quantitatively assess Ah in amphibians in conjunction with Bd. While there is no causal relationship between these pathogens, future work will examine potential Ah infections in other organs to more fully understand the relationship between Bd and Ah. co-infection bacteria fungus amphibians qPCR Animal Sciences Bacterial Infections and Mycoses Bacteriology Immunity Immunology of Infectious Disease Life Sciences Other Microbiology Pathogenic Microbiology
684	Pseudomonas aeruginosa Major Pseudopilin XcpT is Incorporated into The Type IV Pilus Under Native Conditions Rana, Navpreet K. 10 1900 (has links) <p>Retractable surface appendages Type IV pili (T4P) are one of the major virulence determinants in the opportunistic pathogen <em>Pseudomonas aeruginosa </em>(Pa), that is the leading cause of mortality in CF patients. T4P are heteropolymers composed of the major-pilin subunit PilA and the less-abundant minor pilins (MPs), FimU/PilV/W/X/E. Pilins share high sequence and structural similarity with pseudopilins (XcpT/U/V/W/X), that are proposed to form a periplasmic-structure in the evolutionarily related Type II secretion system (T2SS). Similar to T4P system, the T2SS is a multi-subunit complex that spans the inner (IM) and the outer (OM) membranes. It involves a two-step process facilitating the secretion of toxins into the extracellular milieu from the periplasm.</p> <p>Using immunogold TEM analysis and Western blot we identified, under native conditions, the major pseudopilin of T2SS XcpT, is incorporated into the T4P appendage, thus appearing on the surface. This is in contrast to previous studies reporting, the otherwise periplasmic structure, the pseudopilus appears on the surface only upon over-expression of XcpT. Further, we identified this incorporation is strictly dependent on PilA expression, such that levels of surface-XcpT co-varied with the levels of surface-PilA. However, XcpT incorporation into the T4P fiber did not affect T4P-mediated twitching motility or T2SS-mediated elastase secretion. Based on these observations we proposed two explanations. Firstly, given the similarity between XcpT and type IV pilins, it is possible the pseudopilin is recognized by the T4P machinery and therefore is incorporated into the pilus. Secondly, since XcpT incorporation does not affect T4P-mediated motility, it may affect other properties of T4P, such adherence during biofilm formation, previously associated with surface-exposed pseudopilus. In addition, we also identified enhanced expression of <em>fimU</em> and <em>pilX</em> MPs drastically increased elastase secretion, through a yet to be discovered mechanism. Regardless, our results present an alternative role of both minor pilins and XcpT in their non-native systems suggesting there is more overlap between the T4P and T2S systems than previously appreciated. Further exploration of this overlap will aid in the study of the two systems in Pa, as well as in other pathogens.</p> / Master of Science (MSc) Pseudomonas aeruginosa Type IV pili Type II secretion Pseudopilin Bacterial Infections and Mycoses Bacteriology Biochemistry Molecular Biology Pathogenic Microbiology Respiratory Tract Diseases Bacterial Infections and Mycoses
685	THE VIRULENCE CHAPERONE NETWORK ASSOCIATED WITH THE SPI-2 ENCODED TYPE THREE SECRETION SYSTEM OF SALMONELLA ENTERICA Cooper, Colin 04 1900 (has links) <p>Bacteria employ virulence mechanisms to promote fitness that are generally detrimental to a host organism. The Gram-negative pathogen <em>Salmonella enterica </em>utilizes type three secretion systems (T3SS) to inject proteins termed effectors into the host cell cytoplasm where normal cellular function is modified. The coordinated T3SS assembly, and delivery of effectors to the cytoplasmic face of the T3SS is aided by virulence chaperones. The interaction of effector-chaperone complex with the T3SS occurs via an ATPase protein, where the complex is dissociated and the effector is unfolded, presumably for passage through the T3SS. The virulence chaperone network associated with the <em>Salmonella </em>pathogenicity island two (SPI-2) encoded T3SS has not been fully characterized. Additionally, the T3SS ATPase protein encoded within SPI-2, SsaN, has yet to be examined for functional motifs or a precise role in effector secretion. The contents of this thesis describe the characterization of two novel virulence chaperones, SrcA and SscA, and the T3SS ATPase SsaN. SrcA is a virulence chaperone for the effector substrates SseL and PipB2, and adopts the characteristic horseshoe-like structure common amongst effector chaperones. SscA is a chaperone for the translocon component SseC of the T3SS structure, and both proteins impact the regulation of SPI-2 promoters. The structure of SsaN resembles other T3SS ATPases, although different conformations exist between the structures, potentially highlighting regions with T3SS function. Additionally, an N-terminal domain was found to be dispensable for membrane localization, and residues within the predicted hexamer model impact effector secretion. These results identify novel virulence chaperones essential for T3SS function, and characterize the T3SS ATPase protein encoded within SPI-2. These findings greatly expand our knowledge of the virulence mechanisms utilized by <em>S. enterica</em>.</p> / Doctor of Philosophy (PhD) Salmonella enterica virulence chaperone T3SS pathogen effector SPI-2 Bacteriology Biochemistry Molecular Biology Pathogenic Microbiology Structural Biology Bacteriology
686	Pesquisa e caracterização de amostras de ExPEC (\"Extraintestinal Pathogenic Escherichia coli \") isoladas de infecções do trato urinário (ITU) de cães e gatos. / Characterization of ExPEC (\"Extraintestinal Pathogenic Escherichia coli\") isolated from dogs and cats with uinary tract infections (UTI). Osugui, Lika 10 December 2008 (has links) As ITU são as mais freqüentes infecções ocasionadas por ExPEC. Entre os fatores de virulência (FV) encontram-se nestas cepas adesinas, invasinas, toxinas, sideróforos, e evasinas, localizados em plasmídios ou ilhas de patogenecidade. O objetivo deste estudo foi caracterizar 45 cepas de E. coli isoladas de 33 cães e 7 gatos com ITU, quanto aos sorotipos, FV e grupos filogenéticos. Dos sorogrupos relacionados às ITU foram encontrados O6 (20%), O2 (16%), O25 (4%), O4 e O11 (4% cada um). Entre os genes pesquisados, foram encontrados fimH (100%), pap (47%), sfa (33%) e iha (4%); ibeA (29%); cnf1 (31%), hlyA (27%); fyuA (80%), iucD (22%); traT (51%); cvaC (20%) e malX (67%). Os isolados felinos foram agrupados em B2 (89%) e D (11%), enquanto os caninos em A (5,5%), B1 (19,5%), B2 (55,5%) e D (19,5%). Estes resultados sugerem que as ExPEC isoladas de cães e gatos apresentam potencial patogênico para ocasionar doenças mais graves que as ITU, assim como ocorre em humanos. Além disso, a similitude com as amostras humanas reforça a hipótese acerca de seu potencial zoonótico. / The ability of ExPEC to cause extraintestinal infections in humans, dogs, and cats is associated with the expression of a variety of virulence factors (VF). The aim of this study was to evaluate the frequency of VF related to ExPEC, serotypes, and phylogenetic groups in 45 strains isolated from 33 dogs and 7 cats with UTI. These strains presented serogroups related with extraintestinal infections, e.g. O6 (20%), O2 (16%), O25 (4%), O4 e O11 (each one) and the following genes: fimH (100%), pap (47%), sfa (33%) e iha (4%); ibeA (29%); cnf1 (31%), hlyA (27%); fyuA (80%), iucD (22%); traT (51%); cvaC (20%) e malX (67%), cvaC (20%), and malX (67%). All feline strains were concentrated in B2 (89%) and D (11%) phylogenetic groups, whereas the canine ones were distributed in the four groups, A (5,5%), B1 (19,5%), B2 (55,5%) and D (19,5%). These findings suggesting that ExPEC isolated from dog and cat contain virulence markers to cause diseases, more severe than UTI, likewise in humans. Besides, these the close similarity between human and animal ExPEC supports the hypotesis of zoonotic potencial of them. E. coli phylogenetic groups Cães e gatos Dogs and cats Fatores de virulência Infecções do trato urinário (ITU) UPEC (Uropathogenic Escherichia coli) Urinary tract infections Virulence factors
687	Pesquisa e caracterização de amostras de ExPEC (\"Extraintestinal Pathogenic Escherichia coli \") isoladas de infecções do trato urinário (ITU) de cães e gatos. / Characterization of ExPEC (\"Extraintestinal Pathogenic Escherichia coli\") isolated from dogs and cats with uinary tract infections (UTI). Lika Osugui 10 December 2008 (has links) As ITU são as mais freqüentes infecções ocasionadas por ExPEC. Entre os fatores de virulência (FV) encontram-se nestas cepas adesinas, invasinas, toxinas, sideróforos, e evasinas, localizados em plasmídios ou ilhas de patogenecidade. O objetivo deste estudo foi caracterizar 45 cepas de E. coli isoladas de 33 cães e 7 gatos com ITU, quanto aos sorotipos, FV e grupos filogenéticos. Dos sorogrupos relacionados às ITU foram encontrados O6 (20%), O2 (16%), O25 (4%), O4 e O11 (4% cada um). Entre os genes pesquisados, foram encontrados fimH (100%), pap (47%), sfa (33%) e iha (4%); ibeA (29%); cnf1 (31%), hlyA (27%); fyuA (80%), iucD (22%); traT (51%); cvaC (20%) e malX (67%). Os isolados felinos foram agrupados em B2 (89%) e D (11%), enquanto os caninos em A (5,5%), B1 (19,5%), B2 (55,5%) e D (19,5%). Estes resultados sugerem que as ExPEC isoladas de cães e gatos apresentam potencial patogênico para ocasionar doenças mais graves que as ITU, assim como ocorre em humanos. Além disso, a similitude com as amostras humanas reforça a hipótese acerca de seu potencial zoonótico. / The ability of ExPEC to cause extraintestinal infections in humans, dogs, and cats is associated with the expression of a variety of virulence factors (VF). The aim of this study was to evaluate the frequency of VF related to ExPEC, serotypes, and phylogenetic groups in 45 strains isolated from 33 dogs and 7 cats with UTI. These strains presented serogroups related with extraintestinal infections, e.g. O6 (20%), O2 (16%), O25 (4%), O4 e O11 (each one) and the following genes: fimH (100%), pap (47%), sfa (33%) e iha (4%); ibeA (29%); cnf1 (31%), hlyA (27%); fyuA (80%), iucD (22%); traT (51%); cvaC (20%) e malX (67%), cvaC (20%), and malX (67%). All feline strains were concentrated in B2 (89%) and D (11%) phylogenetic groups, whereas the canine ones were distributed in the four groups, A (5,5%), B1 (19,5%), B2 (55,5%) and D (19,5%). These findings suggesting that ExPEC isolated from dog and cat contain virulence markers to cause diseases, more severe than UTI, likewise in humans. Besides, these the close similarity between human and animal ExPEC supports the hypotesis of zoonotic potencial of them. Cães e gatos Fatores de virulência Infecções do trato urinário (ITU) E. coli phylogenetic groups Dogs and cats UPEC (Uropathogenic Escherichia coli) Urinary tract infections Virulence factors
688	Mechanistic And Functional Insights Into Mycobacterium Bovis BCG Triggered TLR2 Signaling : Implications For Immune Evasion Strategies Ghorpade, Devram Sampat 07 1900 (has links) (PDF) Mycobacteria are multifaceted pathogens capable of causing both acute disease as well as an asymptomatic latent infection. Host immune responses during mycobacterial infection involve potent cell effector functions including that of CD4+, CD8+ and γδT cells, macrophages and dendritic cells (DCs). Further, the critical regulators of protective immunity to mycobacterial infection include IFN-γ, IL-12, IL-23, TNF-α, lymphotoxins, CD40, nitric oxide and reactive oxygen species. However, the success of mycobacterial infection often relies in its ability to evade immune surveillance mechanisms mediated by sentinels of host immunity by modulating host signal transduction pathways and expression of immunoregulatory molecules. Therefore, the key to control mycobacterial growth and limit pathogenesis lies in the understanding the interactions between Mycobacterium and primary responders like macrophages and DCs. In this scenario, the role of pattern recognition receptors (PPRs) in orchestrating host immune responses assumes central importance. The cell surface receptors play crucial role in influencing overall immune responses. Of the PRRs, the Toll-like receptors (TLRs) form key immune surveillance mechanisms in recognition as well as control of mycobacterial infection. Among them, TLR2 is the primary interacting receptor on antigen presenting cells that recognize the invading mycobacteria. Mycobacterial cell wall constituents such as LAM, LM, PIM and 19-kDa protein have been shown to activate TLR2 signaling leading to proinflammatory responses. Recent reports have suggested that PE_PGRS antigens of M. tuberculosis interact with TLR2. For example, RV0754, Rv0978c, RV1917c have been implicated in modulation of human DCs. The 19-kDa lipoprotein, LpqH (Rv3763) and LprG (Rv1411c) utilize TLR2 signaling to inhibit macrophage responsiveness to IFN-γ triggered MHC class II expression and mycobacterial antigen presentation. Interestingly, recognition and amplification of pathogenic-specific signaling events play important roles in not only discriminating the invading microbes, but also in regulating explicit immune responses. In this context, integration of key signaling centers, which modulate host immunity to pathogenic mycobacterial infections, remains unexplored. In accordance to above observations, signal transduction pathways downstream to TLRs play a critical role in modulation of battery of host cells genes in terms of expression and production of immune modulatory cytokines and chemokines, recruitment of cellular machineries to site of infections etc. This suggests the decisive role for TLRs in modulation of host cell fate decisions. However, during the ensuing immunity to invading pathogens, beside TLR signaling pathways, various other signaling molecules are thought to execute specific functions in divergent cellular contexts. Recent studies from our laboratory have clearly demarcated a novel cross talk of TLR2-NOTCH1 and TLR2-Wnt signaling pathways during mycobacterial infections. The current study primary focuses on the broad range of cross talk of TLR2 and Sonic hedgehog (SHH) signaling pathways and its functional significance. The present investigation demonstrates that M. bovis BCG, a vaccine strain, triggers a robust activation of SHH signaling in macrophages compared to infection with diverse Gram-positive or Gram-negative microbes. This observation was further evidenced by the heightened SHH signaling signatures during in vivo scenario in cells /tissues from pulmonary tuberculosis (TB) individuals as well as tuberculous meningitis (TBM) patients. Furthermore, we show that the sustained TNF-α secretion by macrophages upon infection with M. bovis BCG is a critical necessity for SHH activation. Significantly, perturbation studies implicate a vital role for M. bovis BCG stimulated TLR2/PI3K/PKC/MAPK/NF-κB axis to induce TNF-α, that contributes to enhance SHH signaling. The TNF-α driven SHH signaling downregulates M. bovis BCG induced TLR2 signaling events leading to modulation of battery of genes that regulate various functions of macrophages genes like Vegf-a, Socs-3, Cox-2, Mmp-9 and M1/M2 genes. Importantly, utilizing whole-genome microRNA (miRNA) profiling, roles for specific miRNAs were identified as the molecular regulators that bring about the negative-feedback loop comprising TLR2-SHH signaling events. Thus, the current study illustrates how SHH signaling tightly regulates the kinetics and strengths of M. bovis BCG specific TLR2 responses, emphasizing a novel role for SHH signaling in host immune responses to mycobacterial infections. As described, variety of host factors contributes for ensuing effective host defenses and modulation of host cell fate decisions. Interestingly, avirulent pathogenic mycobacteria, including the vaccine strain M. bovis BCG, unlike virulent M. tuberculosis, cause extensive apoptosis of infected macrophages, which suggests a significant contribution of the apoptosis process to the initiation and subsequent amplification of innate as well as adaptive immune responses. Among various cues that could lead to apoptosis of host cells, the initiation of the apoptotic machinery by posttranscriptional mechanisms assumes significant importance. Among posttranscriptional control mechanisms, miRNAs are suggested to regulate several biological processes including immune responses. Various effectors of host immunity are known to be regulated by several miRNAs, and a prominent one among them, miRNA-155 (miR-155), often exhibits crucial roles during innate or adaptive immune responses. In this perspective, we identified a novel role of miR-155 during M. bovis BCG induced apoptosis of macrophages. The genetic and signaling perturbations data suggested that miR-155 regulates PKA signaling by directly targeting a negative regulator of PKA, protein kinase inhibitor alpha (PKI-α). Enhanced activation of PKA signaling resulted in induced expression of the apoptotic genes as well as Caspase-3 cleavage and Cytochrome c translocation. Thus, augmented PKA signaling by M. bovis BCG-driven miR-155 dictates cell fate decisions of infected macrophages, emphasizing a novel role for miR-155 in host immunity to mycobacterial infections. In perspective of these studies, important directives are often comprised of sequential and coordinated activation of TLR and NLR-driven signal transduction pathways, thus exhibiting foremost influence in determining the overall strength of the innate immune responses. As described, TLR2 exhibits dominant role in sensing various agonists including pathogen-associated molecular patterns (PAMPs) of microbes at the cell surface and generally considered as major effectuator of proinflammatory responses. Interestingly, NLRs like NOD1 or NOD2 often act in contrary, thus regulating anti-inflammatory responses as well as polarization of T cells towards skewed Th2 phenotype. This presents an interesting conundrum to functionality of DCs or macrophages in terms of effector functions during rapidly evolving immunological processes including effects originating from immunosuppressive effectors such as CTLA-4 or TGF-. DCs like macrophages are important sentinels of innate immunity, possesses array of PRRs that include TLRs and NOD-like receptors (NLRs). Signaling events associated with innate sensors like TLRs and NLRs often act as regulatory circuits that modulate the overall functions of DCs in terms of maturation process, cytokine or chemokine production, receptor expression, migration to secondary lymphoid organs for antigen presentation for effectuating Th polarization. TLR2, while acting as sensors for extracellular cues or endocytic network, drives signaling events in response to recognition of PAMPs including mycobacterial antigens like ESAT-6, PE_PGRS antigens, while NOD1 and NOD2 operate as cytosolic sensors initiating signaling pathways upon recognition of diaminopimelic acid (DAP) and muramyl dipeptide (MDP), components of bacterial peptidoglycan. Thus, TLRs or NOD receptors could trigger similar or contrasting immune responses by cooperative or non-cooperative sensing, consequently exhibiting immense complexity during combinatorial triggering of host DCs-PRR repertoire. In view of these observations, our current investigation comprehensively demonstrated that maturation process of human DCs were cooperatively regulated by signaling cascades initiated by engagements of TLR2, NOD1 and NOD2 receptors. Importantly, combined triggering of TLR2 and NOD receptors abolished the TGF-β or CTLA-4-mediated impairment of human DCs maturation, which required critical participation of NOTCH1-PI3K signaling cohorts. Thus, our data delineated the novel insights in modulation of macrophages and DCs effector functions by mycobacterial TLR2 or NOD agonists and broaden our understanding on the signal dynamics and integration of multiple signals from PRRs during mycobacterial infections. Altogether, our findings establish the understanding of conceptual frame work in fine tuning of TLR2 responses by SHH signaling as well as potential co-operativity among TLRs and NODs to modulate NOTCH1 dependent DCs maturation. Importantly, our study provides mechanistic and functional insights into various molecular regulators of macrophage cell fate decisions like miR-31. miR-150 and miR-155, which can fuel the search for attractive and effective drug targets and novel therapeutics to combat diseases of the hour like tuberculosis. Mycobacterial Infections Mycobacterium Bovis BCG Infections Toll-Like Receptors (TLR2) Pathogenic Mycobacterial Infections Pathogenic Mycobacteria - Host Immunity Mycobacterial Pathogenesis TLR2 Signaling Mycobacterium Bovis BCG TLR2 Signaling Pattern Recognition Receptors Sonic Hedgehog (SHH) Signaling M. bovis BCG MicroRNA-155 TLR2 Receptors Bacteriology
689	Microbial hazards associated with food preparation in Central South African HIV/Aids hospices Nkhebenyane, Jane Sebolelo January 2010 (has links) Thesis (M. Tech.) -- Central University of Technology, Free State, 2010 / South Africa currently faces one of the highest HIV prevalence rates in the world. As this prevalence rises, the strain placed on its hospitals is likely to increase due to the shortage of beds. The devastating effects of HIV/AIDS initiated the establishment of a hospice which is a non-governmental organisation whose goal is the provision of care for terminally ill patients, either in their homes, in hospitals or in a hospice’s own in-patients wards. Part of the hospice’s mission is to offer palliative care without charge to anyone who requires it. The basic elements of hospice care include pain and symptom management, provision of support to the bereaving family and promoting a peaceful and dignified death. This also includes the provision of cooked foods to the patients using the kitchen facilities of the hospices for this activity. It is well known that the kitchen is particularly important in the spread of infectious disease in the domestic environment due to many activities that occur in this particular setting. Food and water safety is especially important to the persons infected with the human immunodeficiency virus (HIV) or with immunodeficiency syndrome (AIDS).It is estimated that food-borne pathogens (disease–causing agents) are responsible for 76 million illnesses, some resulting in death, in the United States alone every year. In one study of patients with AIDS, two-thirds had diarrhoeal disease and in two-thirds of these, the following enteric pathogens were identified: Salmonella, Shigella, Listeria, Yersnia, Cryptosporidium, Entamoeba histolylica and Campylobacter sp. In an epidemiological study of patients with HIV infection a close association was found between consumption of raw or partially cooked fish and antimicrobial-resistant Mycobacterium avium complex. Antibiotic resistance in food-borne pathogens has become a reality and this poses a serious threat to the medical fraternity since it diminishes the effectiveness of treatment. This study was undertaken to determine the prevalence of foodborne pathogens including bio aerosols isolated from the kitchen surfaces and food handler’s before and after cooking. The antibiotic resistance of the isolated pathogens was further determined to assess their impact on treatment. The following microbiota were isolated: Total viable counts (TVC), Coliforms, Escherichia coli, Staphylococcus aureus, Pseudomonas and presumptive Salmonella. The hospices had high counts of E.coli and S.aureus on the cutting boards for the breakfast session compared to the traditional home based kitchens. It was speculated that this could have originated from crosscontamination via the foodhandler’s hands and the food served. It is evident from the results that hospices lack a management system regarding the prevalence of E. coli as it was present on the cutting boards throughout the food preparation sessions. Gram negative organisms (coliform and P. aeruginosa) were in particular both resistant to oxacillin and this pose a great challenge in this particular setting. This can be addressed by putting emphasis on hygiene as a strategy per se for reducing antibiotic resistance. Hospice care Hospices (Terminal care) Pathogenic microorganisms - Detection Food contamination - Prevention Food handling - Safety measures
690	To Weigh or Not to Weigh? Relation to Disordered Eating Attitudes and Behaviors Amongst Female Collegiate Athletes Carrigan, Kayla 05 1900 (has links) Collegiate and elite female athletes have been identified as a subpopulation at heightened risk for disordered eating and pathogenic weight management practices. It was hypothesized that this increases risk may be related to sport specific pressures (such as team conducted weigh-ins), or the use and frequency of self-weighing. It appears that mandatory, team conducted weigh-ins are not salient to female athletes in regards to experiencing internalization, body image concerns, dietary restraint, negative affect, and bulimic symptomatology. Results, however, indicate that frequency of engagement in self-weighing may be influential in the engagement of disordered eating symptoms. Specifically, athletes who weighed themselves three or more times per week reported significantly more internalization of general societal ideals and athletic body ideals. For body image concerns, athletes who weighed three or more times per week reported being more concerned with their body size/shape than all others. With respect to dietary behaviors, athletes who weighed themselves three or more times per week reported engaging in significantly more caloric restriction than did those who weighed less frequently. For negative affect, the athletes who weighed themselves three or more times per week reported significantly higher levels of both anger and guilt. Finally for bulimic symptomatology, athletes who weighed themselves three or more times a week had significantly higher levels than those who weighed once or twice or not at all. eating disorders female collegiate athletes team weigh-ins self-weighing pathogenic weight management disordered eating college athletes women Women college athletes -- Psychology. Body weight -- Psychological aspects. Eating disorders in women.

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