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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
131

Regulating stem cell fate within microenvironmental niches

Buglass, Surahanil Katrin January 2014 (has links)
Improving the repopulation potential of human umbilical cord blood (UCB) haemopoietic stem cells (HSCs) remains a paramount goal in HSC transplantation (HSCT) therapy. This implies enhancing the homing and engraftment potential of UCB-CD34+CD133+ cells to the bone marrow (BM). Although an array of molecules continues to be identified as ‘key’ homing molecules, the molecular mechanisms controlling HSC homing are still not fully understood. The regulatory implications of hypoxia in the BM, with the concomitant stabilisation of hypoxia inducible transcription factor-1α (HIF-1α), are becoming more apparent, yet at the commencement of this thesis no study had explored whether hypoxia induced signalling can be adopted to regulate the homing and engraftment of transplanted HSCs. The aim of this DPhil project was thus to investigate whether hypoxic conditions as detected in the BM influence the adhesion of UBC-CD133+ cells to osteoblasts, BM stromal cells and BM endothelial cells-60 (BMEC-60), as well as their transmigration towards chemokine SDF-1α across BMEC-60. Increasing the exposure of UCB-CD133+ cells to 1.5% O2 doubled the percentage of transmigrating cells (p<0.05), and while hypoxia stimulated UCB-CD133+ cells preferentially adhered to IL-1β stimulated BMEC-60, their adhesion to non-stimulated (BMEC-60) was significantly improved (p<0.001). To help unravel the underlying molecular mechanisms, we attempted to examine the potential involvement of hypoxia regulated scaffolding protein HEF-1/NEDD9/Cas-L (HEF-1) in the increased percentage of migrating UCB-CD133+ cells after hypoxia pre-conditioning. The role of HEF-1 in HSCs is unexplored, and its multifunctional contribution in a variety of processes including cell migration, attachment and invasion make HEF-1 a prime candidate as a contributing homing molecule. After identifying a suitable short-hairpin RNA (shRNA) sequence to knockdown HEF-1, generating lentiviral (LV)-particles in house and optimising transduction protocols, HEF-1 knockdown was achieved in haemopoietic model cell lines KG-1 and KG-1A (KG-1/KG-1A–HEF1). Significantly decreased KG-1A–HEF1 cell adhesion to non-stimulated BMEC-60 was detected. Together, these studies provide a promising platform to further explore the role of HEF-1 in hypoxia induced UCB-CD133+ cell transmigration towards the key homing molecule SDF-1α.
132

Establishment and maintenance of the DNA methylation pattern in the human alpha-globin cluster

Gaentzsch, Ricarda E. G. January 2013 (has links)
DNA methylation is an epigenetic modification that plays an important role in development and differentiation. The patterns of DNA methylation are largely established in early embryogenesis and maintained during development. Abnormal DNA methylation patterns have been associated with many human diseases, including cancer. Despite its importance, little is currently known about the mechanisms that determine DNA methylation patterns throughout the genome. To shed light on the molecular mechanisms that regulate DNA methylation, this study investigates whether DNA methylation patterns are established and maintained normally when human DNA is placed into a heterologous murine environment as opposed to its natural, endogenous chromosomal environment. Here, a previously generated transgenic mouse model, containing 117 kb of human DNA bearing the human &alpha;-globin cluster and all of its known regulatory elements, was analysed. The pattern of DNA methylation of the endogenous human &alpha;-globin cluster was compared with that of the transgenic cluster in the background of mouse embryonic stem cells (ESCs) and tissues. It was found that, although the normal human DNA methylation pattern was largely established and maintained in a mouse background, the region immediately around the human &alpha;-globin genes themselves is generally less methylated in mouse compared to human ESCs. It was found that regions adjacent and up to 2kb from the CpG islands (CGIs), so-called CGI shores, were unusually hypomethylated: this seems to be the result of an extension of CGIs in humanised mouse (hm) ESCs compared to human (h) ESCs. Furthermore, this hypomethylation appeared to increase during development in both erythroid and non-erythoid cells. To identify any cis-regulatory sequences responsible for the hypomethylated state of human CGI shores in the mouse, 2-4 kb human test sequences containing the CGI associated with the human &alpha;-globin 2 (α2) gene and its adjacent hypomethylated shore were re-integrated into the mouse &alpha;-globin locus via recombination-mediated cassette exchange (RMCE). Human CGI shores became hypomethylated in the context of the re-integrated test sequences, indicating that the appearance of hypomethylation is determined by the underlying human DNA sequence in the test fragments. In summary, the data presented here reveal that human CGIs become extended when placed in a mouse background leading to hypomethylation of human CGI shores in the mouse compared to the pattern of methylation at the normal endogenous human locus. These findings suggest that species-specific factors determine DNA methylation near CGIs. The transgenic mouse model provides an excellent system to dissect out species-specific regulation of CGI shore methylation. Furthermore, this study lays the foundation for future experiments addressing the role of DNA methylation in regulating human gene expression in the murine context, and examining the validity of transgenic mouse models for the study of human gene regulation.
133

The activities of various antimalarial drugs on Plasmodium falciparum isolates in Kilifi Kenya and studies on mechanisms of resistance

Mwai, Leah Wanjiru January 2011 (has links)
Drug resistance is a significant challenge in the fight against malaria. Importantly, reduced efficacy has been reported against artemether (ATM)/Lumefantrine (LM) (LM-ATM), amodiaquine (AQ)/artesunate (AS) (AQ-AS), two important combination treatment regimens in Africa, and against piperaquine (PQ), a drug which has been evaluated as a potential alternative in Africa, in combination with dihydroarteminisin (DHA). Chloroquine (CQ) resistance in P.falciparum is associated with two main transporters PfCRT and PfMDR1. I investigated the mechanisms of resistance to PQ, LM and AQ, with the overall goal of identifying molecular markers that can be used to track resistance. I used CQ as a reference. The key antimalarial drugs were highly active against clinical isolates from Kilifi, Kenya with median inhibitory concentrations (IC<sub>50</sub>s) of <5nM for DHA and <55 nM for CQ, AQ, PQ, LM and DEAQ (desethylamodiaquine, the active metabolite of AQ). pfcrt-76 and pfmdr1-86 mutations were associated with AQ, DEAQ and LM but not DHA or PQ activity. Interestingly, > 20% of analysed isolates had decreased susceptibility to LM (IC<sub>50</sub> >100nM); these isolates were the most susceptible to CQ and carried wild type genotypes at pfcrt-76 and pfmdr1-86. I observed that CQ resistance had been declining in Kilifi since 1993 (prior to CQ withdrawal) to 2006 (7 years after its withdrawal), similar to observations in Malawi. My results support the hypothesis that susceptibility to antimalarial drugs returns when drug pressure is removed, and suggest that the use of LM-ATM may hasten the return of CQ susceptibility. Continued monitoring of drug susceptibility is crucial. pfcrt-76 and pfmdr1-86 may be useful molecular markers of LM-ATM efficacy in Kilifi and other African sites. Using a microarray approach, I identified additional genes (including various transporters) that may contribute to LM resistance. I recommend further studies to clarify the exact roles of the identified genes.
134

Application de la spectrométrie de masse MALDI-TOF en microbiologie clinique

Seng, Piseth 09 July 2013 (has links)
L'objectif de cette thèse est d'appliquer la méthode d'identification bactérienne par spectrométrie de masse MALDI-TOF pour une utilisation en routine dans un laboratoire de microbiologie clinique. Dans un 1er temps et de manière prospective, nous avons évalué la performance et le coût-efficacité de l'identification bactérienne de routine par MALDI-TOF par rapport aux techniques conventionnelles d'identification phénotypique. Durant la période des 16 semaines d'étude, nous avons comparé la performance de la technique par MALDI-TOF aux techniques conventionnelles d'identification phénotypique comprenant la coloration de Gram, la galerie API ANA et le Vitek 2. En cas de résultats discordants entre ces deux techniques, l'identification était réalisée par biologie moléculaire. Nous avons montré que le MALDI-TOF est un moyen efficace et rentable pour l'identification des bactéries de routine. Le MALDI-TOF peut être utilisée en 1ère intention dans l'identification bactérienne avant l'ensemble de techniques phénotypiques. Dans un 2ème temps, nous avons évalué rétrospectivement la performance et le coût-efficacité de l'utilisation exclusive de MALDI-TOF en diagnostic bactériologique de routine en comparaison avec les techniques conventionnelles. En analysant les données des 11 dernières années, nous avons montré que le MALDI-TOF est efficace et tout à fait adaptée pour l'identification d'espèce bactérienne en routine. Nous avons également prouvé que MALDI-TOF est un outil puissant pour identifier les espèces bactériennes rarement impliquées dans les infections humaines. Cette technique pourrait être une alternative aux méthodes moléculaires dans le laboratoire clinique. / The objective of this thesis is to apply the method of bacterial identification by MALDI-TOF MS in daily practice in a routine clinical microbiological laboratory. Firstly, we prospectively evaluated the performance and the cost-effective of bacterial identification by MALDI-TOF in comparison with conventional phenotypic identification methods. During a 16-week study, we compared the performance of MALDI-TOF with conventional techniques of identification including Gram staining, API ANA identification strip and automated identification using the Vitek 2. The unmatched identifications between MALDI-TOF and conventional methods were resolved by molecular identification. In this study, we showed that MALDI-TOF was an effective tool and less expensive for the rapid identification of bacterial species in clinical microbiology laboratory. MALDI-TOF can be used in first intention for identification before Gram staining or other phenotypic identification techniques based on physicochemical properties of bacteria. Secondly, we retrospectively evaluated the performance and the cost-effectiveness of the exclusive use of MALDI-TOF in bacteriological diagnosis in comparison with conventional phenotypic identification. 11-year retrospective analysis of data showed that MALDI-TOF was efficient and completely adapted for the routine identification of bacterial species. We also showed that MALDI-TOF had capacity to identify bacterial species that were rarely involved in human diseases. This technique could be an alternative to molecular methods in the clinical laboratory.
135

Avaliação de novos métodos para a cultura de anaeróbios / Evaluation of new methods for anaerobic bacterial culturing

Tsukimoto, Eliane Rodrigues 25 June 2018 (has links)
INTRODUÇÃO: As infecções por bactérias anaeróbias são geralmente de origem endógena, polimicrobianas e mistas. Devido a sua natureza fastidiosa, essas bactérias necessitam de uma prévia incubação em meios líquidos enriquecidos, como o caldo Thioglicolato (CT) para serem recuperadas, o isolamento desses microrganismos é trabalhoso e o tempo de resposta - TAT (turn around time) estendido desse exame pode estar associado a falhas terapêuticas e ao aumento da resistência bacteriana. A cultura de anaeróbios (CANA) ainda é um desafio para os laboratórios clínicos de rotina e novas estratégias para diminuir o TAT são fundamentais para que esse exame forneça um impacto clínico significativo. OBJETIVO: Otimizar o processo de triagem da CANA pela modificação do CT; comparar a identificação dos anaeróbios pelas metodologias fenotípicas ANC (Vitek 2- bioMérieux, France) e MALDI-TOF (Vitek MS - bioMérieux, France) e verificar o impacto econômico das ações propostas MÉTODOS: O caldo de triagem CT foi modificado eluindo individualmente discos comerciais de antibióticos (em concentrações fixas) selecionados por apresentarem baixa ou nenhuma ação contra microrganismos anaeróbios e com um bom espectro de ação para os principais aeróbios associados em culturas mistas e foram escolhidos aqueles que após uma bateria de testes frente a 15 cepas dos principais anaeróbios envolvidos em infecções humanas mantiveram a viabilidade inicial. O caldo Thioglicolato modificado (CTM) foi composto pela adição dos antibióticos que apresentaram a melhor \"performance\" acima descrita. A sensibilidade e especificidade do CTM foram avaliadas paralelamente com CT na rotina de CANA do HCFMUSP. Para a avaliar a identificação fenotípica, 421 anaeróbios isolados no período de seis meses foram submetidos a identificação pelo ANC (Vitek 2) e MALDI-TOF (Vitek MS). Os resultados discordantes ou com baixa discriminação da espécie foram avaliados pelo sequenciamento 16S rRNA. O impacto econômico da introdução do CTM bem como os custos diretos da identificação pelo MALDI-TOF foram avaliados. RESULTADOS: O CTM foi composto por amicacina, gentamicina e aztreonam. Das 159 amostras clínicas triadas pelo CT e CTM, 11 (7%) foram positivas para CANA com as mesmas espécies isoladas em ambos os meios. Utilizando o CTM, foi obtida uma redução dos falsos positivos de 97 (61%) para 69 (43%) quando comparado ao CT (p < 0,05). O TAT do resultado negativo da CANA com o CTM foi reduzido de 14 para sete dias em 28 (18%) amostras; o CTM permitiu a liberação do resultado positivo da CANA 48 horas à frente do CT. A sensibilidade do CTM foi igual ao CT, porém a especificidade foi superior em 19%. Das 421 cepas avaliadas, 35 foram identificadas somente pelo MALDI-TOF (Vitek MS) sendo que uma (Clostridium innocum) foi identificada somente pelo sequenciamento 16S rRNA. Das 386 avaliadas por ambas as metodologias, houve uma concordância de 97% e os resultados das 13 (3%) cepas submetidas ao sequenciamento foram concordantes em 92% com o MALDI-TOF (Vitek MS) que promoveu a redução do TAT do resultado positivo em cinco dias. A implementação do CTM possibilitou uma redução de custos nessa amostragem, de R$ 2.240,00 e a identificação pelo MALDI-TOF proporcionou uma economia de R$ 7.786,00. Considerando os valores econômicos encontrados nesse estudo e projetando-os nas estatísticas de CANA do HCFMUSP em 2017, o CTM poderia proporcionar uma economia de R$ 132.560,00 /ano e o MALDI-TOF uma redução nos gastos de R$ 13.579,00/ ano CONCLUSÕES: A padronização e implementação do CTM permitiu uma um aumento significativo de especificidade da cultura anaeróbia com redução do TAT e dos custos. A utilização do MALDI-TOF diminuiu o TAT das identificações aliado a uma melhor performance de forma custo efetiva / INTRODUCTION: Anaerobic bacterial infections are usually of endogenous origin, polymicrobial and mixed. Because of their fastidious nature, these bacteria require prior incubation in enriched liquid media, such as Thioglycolate broth (TB) to be recovered, the isolation of these microorganisms is laborious, and the TAT (turn around time) extended time of this examination may be associated with therapeutic failures and increased bacterial resistance. Anaerobic culture (AC) is still a challenge for routine clinical laboratories, and new strategies for lowering TAT are critical to provide a significant clinical impact. OBJECTIVE: To optimize the AC screening process by modifying the TB; Compare anaerobical identification between (Vitek 2- bioMérieux, France) and MALDI-TOF (Vitek MS - bioMérieux, France) and to verify the economic impact of the proposed actions. METHODS: TB broth was modified by eluting individually antibiotic commercial discs (at fixed concentrations) selected for low or no action against anaerobic microorganisms and with a good action spectrum for the main associated aerobes in mixed cultures. Those who maintained the initial viability after a battery of tests against 15 strains of the major anaerobes involved in human infections were selected. Modified Thioglycolate Broth (MTB) was composed of the antibiotics that presented the best performance described above. The sensitivity and specificity of MTB were evaluated in parallel with TB in the HCFMUSP AC routine. To evaluate the phenotypic identification, 421 anaerobes isolated in the six-month period were submitted to identification by ANC (Vitek 2) and MALDI-TOF (Vitek MS). Discordant results or those with low discrimination of the species were submitted to 16S rRNA sequencing. The economic impact of the introduction of MTB as well as the direct costs of MALDI-TOF identification were assessed. RESULTS: MTB was composed of amikacin, gentamicin and aztreonam. Of the 159 clinical samples screened by TB and MTB, 11 (7%) were positive for AC with the same species isolated in both media. Using MTB, a reduction of false positives was obtained from 97 (61%) to 69 (43%) when compared to TB (p < 0.05). The TAT of the negative result of the AC with the MTB was reduced from 14 to 7 days in 28 (18%) samples; the MTB allowed the release of the AC positive result 48 hours ahead of the TB. The sensitivity of MTB was equal to TB, but the specificity was higher in 19%. Of the 421 strains evaluated, 35 were identified only by MALDI-TOF (Vitek MS) and one (Clostridium innocum) was identified only by 16S rRNA sequencing. Of the 386 evaluated by both methodologies, there was a concordance of 97% and the results of the 13 (3%) strains submitted to the sequencing were concordant in 92% with the MALDI-TOF (Vitek MS) that promoted TAT of the positive result reduction in five days. The implementation of the MTB made possible a reduction of costs in this sampling, of US $ 677,00 and the identification by MALDI-TOF provided a saving of US $ 2354,00. Considering the economic values found in this study and projecting them in the HCFMUSP AC statistics in 2017, the MTB could provide savings of US $40,070.00 / year and MALDI-TOF a reduction in expenses of US $ 4,100.00 / year. CONCLUSIONS: Standardization and implementation of MTB allowed a significant increase of anaerobic culture specificity with TAT and costs reduction. The use of MALDI-TOF reduced the TAT of the identifications and also resulted in a better performance in a cost effective way
136

Avaliação de novos métodos para a cultura de anaeróbios / Evaluation of new methods for anaerobic bacterial culturing

Eliane Rodrigues Tsukimoto 25 June 2018 (has links)
INTRODUÇÃO: As infecções por bactérias anaeróbias são geralmente de origem endógena, polimicrobianas e mistas. Devido a sua natureza fastidiosa, essas bactérias necessitam de uma prévia incubação em meios líquidos enriquecidos, como o caldo Thioglicolato (CT) para serem recuperadas, o isolamento desses microrganismos é trabalhoso e o tempo de resposta - TAT (turn around time) estendido desse exame pode estar associado a falhas terapêuticas e ao aumento da resistência bacteriana. A cultura de anaeróbios (CANA) ainda é um desafio para os laboratórios clínicos de rotina e novas estratégias para diminuir o TAT são fundamentais para que esse exame forneça um impacto clínico significativo. OBJETIVO: Otimizar o processo de triagem da CANA pela modificação do CT; comparar a identificação dos anaeróbios pelas metodologias fenotípicas ANC (Vitek 2- bioMérieux, France) e MALDI-TOF (Vitek MS - bioMérieux, France) e verificar o impacto econômico das ações propostas MÉTODOS: O caldo de triagem CT foi modificado eluindo individualmente discos comerciais de antibióticos (em concentrações fixas) selecionados por apresentarem baixa ou nenhuma ação contra microrganismos anaeróbios e com um bom espectro de ação para os principais aeróbios associados em culturas mistas e foram escolhidos aqueles que após uma bateria de testes frente a 15 cepas dos principais anaeróbios envolvidos em infecções humanas mantiveram a viabilidade inicial. O caldo Thioglicolato modificado (CTM) foi composto pela adição dos antibióticos que apresentaram a melhor \"performance\" acima descrita. A sensibilidade e especificidade do CTM foram avaliadas paralelamente com CT na rotina de CANA do HCFMUSP. Para a avaliar a identificação fenotípica, 421 anaeróbios isolados no período de seis meses foram submetidos a identificação pelo ANC (Vitek 2) e MALDI-TOF (Vitek MS). Os resultados discordantes ou com baixa discriminação da espécie foram avaliados pelo sequenciamento 16S rRNA. O impacto econômico da introdução do CTM bem como os custos diretos da identificação pelo MALDI-TOF foram avaliados. RESULTADOS: O CTM foi composto por amicacina, gentamicina e aztreonam. Das 159 amostras clínicas triadas pelo CT e CTM, 11 (7%) foram positivas para CANA com as mesmas espécies isoladas em ambos os meios. Utilizando o CTM, foi obtida uma redução dos falsos positivos de 97 (61%) para 69 (43%) quando comparado ao CT (p < 0,05). O TAT do resultado negativo da CANA com o CTM foi reduzido de 14 para sete dias em 28 (18%) amostras; o CTM permitiu a liberação do resultado positivo da CANA 48 horas à frente do CT. A sensibilidade do CTM foi igual ao CT, porém a especificidade foi superior em 19%. Das 421 cepas avaliadas, 35 foram identificadas somente pelo MALDI-TOF (Vitek MS) sendo que uma (Clostridium innocum) foi identificada somente pelo sequenciamento 16S rRNA. Das 386 avaliadas por ambas as metodologias, houve uma concordância de 97% e os resultados das 13 (3%) cepas submetidas ao sequenciamento foram concordantes em 92% com o MALDI-TOF (Vitek MS) que promoveu a redução do TAT do resultado positivo em cinco dias. A implementação do CTM possibilitou uma redução de custos nessa amostragem, de R$ 2.240,00 e a identificação pelo MALDI-TOF proporcionou uma economia de R$ 7.786,00. Considerando os valores econômicos encontrados nesse estudo e projetando-os nas estatísticas de CANA do HCFMUSP em 2017, o CTM poderia proporcionar uma economia de R$ 132.560,00 /ano e o MALDI-TOF uma redução nos gastos de R$ 13.579,00/ ano CONCLUSÕES: A padronização e implementação do CTM permitiu uma um aumento significativo de especificidade da cultura anaeróbia com redução do TAT e dos custos. A utilização do MALDI-TOF diminuiu o TAT das identificações aliado a uma melhor performance de forma custo efetiva / INTRODUCTION: Anaerobic bacterial infections are usually of endogenous origin, polymicrobial and mixed. Because of their fastidious nature, these bacteria require prior incubation in enriched liquid media, such as Thioglycolate broth (TB) to be recovered, the isolation of these microorganisms is laborious, and the TAT (turn around time) extended time of this examination may be associated with therapeutic failures and increased bacterial resistance. Anaerobic culture (AC) is still a challenge for routine clinical laboratories, and new strategies for lowering TAT are critical to provide a significant clinical impact. OBJECTIVE: To optimize the AC screening process by modifying the TB; Compare anaerobical identification between (Vitek 2- bioMérieux, France) and MALDI-TOF (Vitek MS - bioMérieux, France) and to verify the economic impact of the proposed actions. METHODS: TB broth was modified by eluting individually antibiotic commercial discs (at fixed concentrations) selected for low or no action against anaerobic microorganisms and with a good action spectrum for the main associated aerobes in mixed cultures. Those who maintained the initial viability after a battery of tests against 15 strains of the major anaerobes involved in human infections were selected. Modified Thioglycolate Broth (MTB) was composed of the antibiotics that presented the best performance described above. The sensitivity and specificity of MTB were evaluated in parallel with TB in the HCFMUSP AC routine. To evaluate the phenotypic identification, 421 anaerobes isolated in the six-month period were submitted to identification by ANC (Vitek 2) and MALDI-TOF (Vitek MS). Discordant results or those with low discrimination of the species were submitted to 16S rRNA sequencing. The economic impact of the introduction of MTB as well as the direct costs of MALDI-TOF identification were assessed. RESULTS: MTB was composed of amikacin, gentamicin and aztreonam. Of the 159 clinical samples screened by TB and MTB, 11 (7%) were positive for AC with the same species isolated in both media. Using MTB, a reduction of false positives was obtained from 97 (61%) to 69 (43%) when compared to TB (p < 0.05). The TAT of the negative result of the AC with the MTB was reduced from 14 to 7 days in 28 (18%) samples; the MTB allowed the release of the AC positive result 48 hours ahead of the TB. The sensitivity of MTB was equal to TB, but the specificity was higher in 19%. Of the 421 strains evaluated, 35 were identified only by MALDI-TOF (Vitek MS) and one (Clostridium innocum) was identified only by 16S rRNA sequencing. Of the 386 evaluated by both methodologies, there was a concordance of 97% and the results of the 13 (3%) strains submitted to the sequencing were concordant in 92% with the MALDI-TOF (Vitek MS) that promoted TAT of the positive result reduction in five days. The implementation of the MTB made possible a reduction of costs in this sampling, of US $ 677,00 and the identification by MALDI-TOF provided a saving of US $ 2354,00. Considering the economic values found in this study and projecting them in the HCFMUSP AC statistics in 2017, the MTB could provide savings of US $40,070.00 / year and MALDI-TOF a reduction in expenses of US $ 4,100.00 / year. CONCLUSIONS: Standardization and implementation of MTB allowed a significant increase of anaerobic culture specificity with TAT and costs reduction. The use of MALDI-TOF reduced the TAT of the identifications and also resulted in a better performance in a cost effective way
137

A nursing science perspective on the role of the unit sister in teaching student nurses in Kwazulu hospitals

Mhlongo, Claret Siduduzekile 12 1900 (has links)
This study deals with the role of the unit sister in teaching student nurses in KwaZulu hospitals. The aim of the study was to identify the extent of her involvement in managing the unit to ensure clinical teaching and her involvement in the clinical teaching process. The role theory and the clinical teaching process formed the conceptual framework. Data was collected from sisters in charge of units by means of a questionnaire. The results of the study indicated that:- unit sisters regard good management of the unit as essential for effective clinical teaching. unit sisters regard clinical teaching as one of their important roles and functions as they said they were involved in all activities of the clinical teaching process however the responses were confined to what the unit sisters said they do which might not be what they actually do / Health Studies / M.A. (Nursing Science)
138

Utvärdering av analys av pankreas-specifikt lipas hos hund och katt med Vcheck V200 : en prospektiv komparativ studie / Evaluation of analysis of pancreas-specific Lipase in dogs and cats with Vcheck V200 : a prospective comparative study

Carlsson, Felicia January 2021 (has links)
Pankreatit anses vara en vanligt förekommande sjukdom hos hundar och katter och kan diagnostiseras genom mätningar av koncentrationen Canine Pancreas-specific Lipase (cPL) respektive Feline Pancreas-specific Lipase (fPL) i serum. Utifrån dessa koncentrationer graderas patienten enligt normalvärde, gråzon eller indikation på pankreatit. Golden standardmetoden för att analysera cPL/fPL är Spec cPL respektive Spec fPL. Nya metoder har utvecklats för kvantitativ mätning av pankreas-specifik lipas såsom Vcheck V200, ett instrument, som analyserar cPL/fPL med en fluorescerande immunoassay. Syftet med studien var att utvärdera analys av cPL/fPL på Vcheck V200 samt jämföra resultatet från detta instrument med värdena från ett referenslaboratorium i Tyskland för att se om det fanns en signifikant skillnad mellan metoderna. Koncentrationen cPL i hundserum (n=37) och koncentrationen fPL i kattserum (n=29) analyserades på Vcheck V200. Dessa prover skickades även till referenslaboratoriet där analysen Spec cPL respektive Spec fPL utfördes. Spridningen var stor kring bias i Bland-Altman diagram för både cPL och fPL och jämförelsen mellan metoderna för de specifika koncentrationerna av cPL/fPL bedömdes vara statistiskt signifikant (p&lt;0,05). 27% av hundproverna graderas olika enligt de båda metoderna och skillnaden var signifikant (p&lt;0,05). 24% av kattproverna graderades olika men skillnaden var inte signifikant (p=0,257). Studien tyder på att jämförelsen mellan de båda metoderna var signifikant förutom vid graderingen av kattproverna. Beaktande detta och det faktum att kvalitetssäkringen brister vid analys av fPL på grund av avsaknad av kontroller kan i dagsläget inte cPL/fPL på Vcheck V200 ersätta den nuvarande golden standardmetoden, trots att ingen signifikant skillnad sågs vid gradering av kattprover. / Pancreatitis is a common disease in canine and felines and can be diagnosed by measuring the concentration of Canine Pancreas-specific Lipase (cPL) or Feline Pancreas-specific Lipase (fPL) in serum. Based on the concentration of cPL/fPL, the patient is then classified in different diagnostic categories (normal value, gray zone or indication of pancreatitis). Spec cPL and Spec fPL is currently the golden standard method for analysis of cPL and fPL. New methods have been developed for the quantitative measurement of pancreatic lipases. Vcheck V200, being one example, utilizing a fluorescent immunoassay for quantification of the lipase. The aim of this study was to evaluate the cPL and fPL analysis on the Vcheck V200 and to examine if there was a significant difference (p≤0,05) when comparing the result from Vcheck V200 with the results from a reference laboratory. The concentration of cPL (n=37) and fPL (n=29) in serum from canine or felines were analyzed using Vcheck V200. The samples were also sent to the reference laboratory where Spec cPL and Spec cPL were performed. A Bland-Altman plot comparison between the two methods showed a large spread for both analysis of cPL and fPL. Comparison of the specific values for analysis of cPL and fPL between the two methods revealed a significant difference (p&lt;0,05). 27% of the dog samples were categorized differently according to the two methods and this difference was significant (p&lt;0,05). 24% of the cat samples were categorized differently and no significant difference were observed (p=0,257). This study indicates that the difference between the two methods was significant, besides the classification of cat samples. Considering this and the lack of quality assurance regarding analysis of fPL due to lack of controls, the cPL/fPL analysis on Vcheck V200 cannot replace the Spec cPL or Spec fPL at present.
139

Influence of Nrf2 Activators and Keap1 Inhibitors on Antioxidative Phenotypes of THP-1-Derived M1 and M2 macrophages: Therapeutic Potential for Systemic Lupus Erythematosus

Svahn, Leo January 2023 (has links)
POPULAR SCIENTIFIC SUMMARY Systemic lupus erythematosus (SLE) is not your average disorder. It behaves like a mischievous troublemaker, wreaking havoc throughout the body, causing inflammation that affects multiple organs. SLE presents a puzzle that keeps health care professionals worldwide intrigued, searching for answers amidst its complex of immunologic manifestations and clinical symptoms. While we’ve made progress in understanding SLE, its specific cause remains a mystery. What we do know is that SLE triggers a fascinating interplay between genetic, hormonal, and environmental factors in susceptible individuals. Macrophages, specialized white blood cells, can be likened to moody actors on a stage wearing different masks and wielding functional props. Among them are M1 macrophages, fiery troublemakers who provoke pro-inflammatory responses, and M2 macrophages, peacemakers striving for balance by generating anti-inflammatory responses. Then there is NRF2, the vigilante, normally held by its captor, KEAP1. However, when cells stress NRF2 manages to break free from KEAP1 and spring into action, embarking on a crucial journey into the cell nucleus where DNA is stored. Once inside, NRF2 binds specific regions of the DNA, promoting genes associated with protective activities, including antioxidative responses and detoxification processes, thereby shielding cells from further harm. Now, let us envision a therapeutic strategy that utilizes this; if we can deliberately unleashNRF2 on command, triggering a powerful cascade of antioxidative responses throughout the body,such a treatment would offer tremendous promise and serve as a paradigm for patients sufferingfrom chronic inflammation. But the question remains: Is it possible? In this study, we investigated the effects of certain chemicals on macrophages in a controlledlab environment. Our goal was to explore their potential for therapeutic purposes. Excitingly, wediscovered that these chemicals can indeed influence macrophages to produce a stronger antiinflammatory and antioxidant response. These findings could be promising for developing futuretreatments, especially in patients diagnosed with conditions such as SLE. / ABSTRACT Systemic lupus erythematosus (SLE) is a multifaceted, chronic autoimmune disorder that leads to inflammation and affects various organs. A wide range of immunologic manifestations and clinical symptoms characterizes SLE. While the specific cause remains unknown, it is thought to result from a combination of genetic susceptibility and the intricate interplay between environmental and hormonal factors. A significant subset of SLE patients also experience renal manifestation, lupus nephritis (LN), characterized by distinct inflammatory responses in which macrophages play a role. Macrophages exhibit different functional characteristics depending on their environment, and generally display two contrasting phenotypes; M1, which elicits proinflammatory responses, and M2, which generates anti-inflammatory responses Homeostasis is vital, yet environmental stress is inevitable. NRF2, a transcription factor known for its involvement in oxidative stress response, plays a pivotal role. Under basal conditions, NRF2 resides in the cytoplasm and is targeted for degradation by the protein KEAP1. However, during cellular stress, the NRF2-KEAP1 complex dissociates, allowing NRF2 to translocate into the nucleus where it binds specific regulatory regions of genes that promote cytoprotective activities. The NRF2 pathway has gained attention as a potential target for therapeutic strategies in inflammatory conditions, including SLE. This study aimed to assess the effects of certain chemical NRF2 activators and a KEAP1 inhibitor on an in vitro model of M1 and M2 macrophage polarization. The objective was to investigate whether these compounds could enhance antioxidative response. To evaluate this, key genes and proteins involved in antioxidative pathways were analyzed. Gene expression was assessed using quantitative real-time PCR (qPCR), and protein presence was determined through immunohistochemistry (IHC) and enzyme-linked immunosorbent assay (ELISA). The findings of this study indicate that stimulation of macrophage subgroups with the selected compounds promotes a shift towards anti-inflammatory and antioxidative response. / <p>Rektor tilldelade Leo Svahn stipendie Österby för <em>välartade obemedlade studier</em>.</p>
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Biomarkers for Better Understanding of the Pathophysiology and Treatment of Chronic Pain : Investigations of Human Biofluids

Lind, Anne-Li January 2017 (has links)
Chronic pain affects 20 % of the global population, causes suffering, is difficult to treat, and constitutes a large economic burden for society. So far, the characterization of molecular mechanisms of chronic pain-like behaviors in animal models has not translated into effective treatments. In this thesis, consisting of five studies, pain patient biofluids were analyzed with modern proteomic methods to identify biomarker candidates that can be used to improve our understanding of the pathophysiology chronic pain and lead to more effective treatments. Paper I is a proof of concept study, where a multiplex solid phase-proximity ligation assay (SP-PLA) was applied to cerebrospinal fluid (CSF) for the first time. CSF reference protein levels and four biomarker candidates for ALS were presented. The investigated proteins were not altered by spinal cord stimulation (SCS) treatment for neuropathic pain. In Paper II, patient CSF was explored by dimethyl and label-free mass spectrometric (MS) proteomic methods. Twelve proteins, known for their roles in neuroprotection, nociceptive signaling, immune regulation, and synaptic plasticity, were identified to be associated with SCS treatment of neuropathic pain. In Paper III, proximity extension assay (PEA) was used to analyze levels of 92 proteins in serum from patients one year after painful disc herniation. Patients with residual pain had significantly higher serum levels of 41 inflammatory proteins. In Paper IV, levels of 55 proteins were analyzed by a 100-plex antibody suspension bead array (ASBA) in CSF samples from two neuropathic pain patient cohorts, one cohort of fibromyalgia patients and two control cohorts. CSF protein profiles consisting of levels of apolipoprotein C1, ectonucleotide pyrophosphatase/phosphodiesterase family member 2, angiotensinogen, prostaglandin-H2 D-isomerase, neurexin-1, superoxide dismutases 1 and 3 were found to be associated with neuropathic pain and fibromyalgia. In Paper V, higher CSF levels of five chemokines and LAPTGF-beta-1were detected in two patient cohorts with neuropathic pain compared with healthy controls. In conclusion, we demonstrate that combining MS proteomic and multiplex antibody-based methods for analysis of patient biofluid samples is a viable approach for discovery of biomarker candidates for the pathophysiology and treatment of chronic pain. Several biomarker candidates possibly reflecting systemic inflammation, lipid metabolism, and neuroinflammation in different pain conditions were identified for further investigation. / Uppsala Berzelii Technology Centre for Neurodiagnostics

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