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The Global ETD Search service is a free service for researchers
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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.
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Showing 11 to 20 of 35 (0.01 seconds)| 11 |
Změny mikrobiálního osídlení trávicího traktu u pacientů po alogenní transplantaci hematopoetických buněk / Changes in microbial colonization of gastrointestinal tract in patients after allogeneic hematopoietic stem cell transplantationMichková, Petra January 2021 (has links)
Introduction: Physiological microflora is characterised by wide diversity. The microbial community is mostly composed of bacteria, but also includes fungi, archaea and viruses. Anaerobic commensal bacteria (Firmicutes and Bacteroidetes) dominate 90% of the colon. The composition and products of the gut microbiota have a significant effect on an individual's immune system, and their interactions may ultimately promote immune tolerance or inflammatory immune response. Blood cell transplantation (HSCT) and its associated standard procedures of conditioning, antibiotic exposure and dietary prophylaxis represent modification and disruption of the gut microbiota leading to the development of some serious post-transplant complications affecting the OS (overall survival) and TRM (treatment related mortality) of patients. Objectives: The aim of this work was to investigate the representation of individual bacterial strains in patients undergoing allogeneic HSCT, as well as the effect of transplantation on the composition and diversity of their gut microbiota. Methods: Stool samples were obtained from 52 patients who underwent an allogeneic hematopoietic cell transplant at the Institute of Hematology and Blood Transfusion in Prague. A cut-off date for the first sample was set for the start of...
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Risk Stratification, Measurable Residual Disease, and Outcomes of AML Patients with a Trisomy 8 Undergoing Allogeneic Hematopoietic Stem Cell TransplantationBackhaus, Donata, Jentzsch, Madlen, Bischof, Lara, Brauer, Dominic, Wilhelm, Christina, Schulz, Julia, Franke, Georg-Nikolaus, Pönisch, Wolfram, Vucinic, Vladan, Platzbecker, Uwe, Schwind, Sebastian 26 April 2023 (has links)
Background: For most patients with acute myeloid leukemia (AML) harboring a trisomy 8 an allogeneic hematopoietic stem cell transplantation (HSCT) is a suitable and recommended consolidation therapy. However, comparative outcome analyses between patients with and without trisomy 8 undergoing allogeneic HSCT have not been performed so far. Methods: We retrospectively analyzed clinical features, outcomes, and measurable residual disease (MRD) of 659 AML (12%, n = 81, with a trisomy 8) patients subjected to allogeneic HSCT as a consolidation therapy. Results: The presence of a trisomy 8 associated with a trend for higher age at diagnosis, AML of secondary origin, lower white blood cell counts at diagnosis, worse ELN2017 genetic risk, wild-type NPM1, and mutated IDH1/2 and JAK2. Outcomes after allogeneic HSCT in the entire cohort did not differ between patients with a sole trisomy 8, trisomy 8 with additional cytogenetic aberrations or without a trisomy 8. A trisomy 8 did not affect outcomes within the three ELN2017 risk groups. In accordance with findings in unselected patient cohorts, persistent MRD at allogeneic HSCT in patients with a trisomy 8 identified individuals with a higher risk of relapse following allogeneic HSCT. Conclusions: Outcomes of trisomy 8 patients after allogeneic HSCT did not compare unfavorably to that of other AML patients following allogeneic HSCT. Rather than the presence or absence of a trisomy 8, additional genetic aberrations and MRD at HSCT define outcome differences and aid in informed treatment decisions.
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A Retrospective Chart Review: Caloric Adequacy within Adult Hematopoietic Stem Cell TransplantationHackenmueller, Stacy Sharon 27 June 2012 (has links)
No description available.
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Implementation of hazard analysis and critical control point (HACCP) system in a food service unit serving immuno-suppressed patient diets / E.E. VermeulenVermeulen, Emma Emmerenza January 2006 (has links)
Main aim: To supply recommendations to implement a Hazard Analysis of
Critical Control Points (HACCP) system in a hospital food service unit serving
low bacterial diets in order to prevent or decrease the infection rates in
Hematopoietic Stem Cell Transplant (HSCT) patients.
Objectives: Firstly, to investigate the current food safety and hygiene
status in a hospital food service unit, serving low bacterial diets, by means of
a questionnaire and bacterial swabs taken from the food service unit.
Secondly, to utilize the gathered information in a structured action plan to
implement HACCP standards successfully in the appointed food service unit.
The implementation of HACCP will not be done by the author.
Design: The primary research was done in a food service unit of a 350
bed private hospital. One unsuspected audit with a pre-designed audit form
was done. The audit consisted out of ten categories. A percentage was
allocated to each category. Four swabs, as well as four food samples, were
taken during the audit. The swabs and samples were tested to assess the
microbiological safety of the foods prepared in the appointed hospital food
service unit. The results of the audit, swabs and food samples were used to
evaluate the current Food and Safety System of the hospital food service unit
according to internationally approved HACCP standards.
Setting: The study was conducted in the metropolitan area of Gauteng,
South Africa.
Results: None of the ten areas audited was of an acceptable standard
and an average of 37% was scored. Category 5, the service and distribution
area, scored the highest (69%) and category 10, the quality procedures and
records division, scored the lowest (6%). According to United States Food
and Drug Administration Baseline Report five forbidden policies could lead to
increased risk of food borne illnesses. All five forbidden policies were
detected in the food service unit during the audit. The microbiological tests
showed relatively high microbial counts.
Conclusion: The results of the study confirmed that instead of focusing
mainly on the selection of food items allowed, and the cooking methods used
in HSCT diets, the type of food service, together with the food and safety
protocol that the food service follows, could play an important role in providing
food that is safe for HSCT patient use. / Thesis (M.Sc. (Dietetics))--North-West University, Potchefstroom Campus, 2007.
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Molecular Analysis of Oligoclonal T cells Associated with Graft-Versus-Host Disease Following Allogeneic Stem-cell TransplantationAvent, Kassi 24 April 2012 (has links)
The goal of hematopoietic stem cell transplantation (HSCT) is to induce graft-versus-tumor effect (GVT), which is the recognition of and response against tumor- associated antigens (TAAs) by donor immune cells to clear the recipient of residual tumor. A complication of HSCT as a treatment for hematologic malignancies is graft-versus-host disease (GVHD), which is the recognition and reactivity of donor immune cells against healthy tissues. As of now, the differentiation between GVHD and GVT effects has been a hindrance to the development of effective therapies against GVHD. Certain T cell clones may induce both GVHD and GVT effects, making targeted therapy of GVHD difficult. This project was aimed to uncover differences at a molecular level of the T cell recognition site that exist between patients with GVHD and those with GVHD-free survival following allogeneic HSCT. We found that there are inherent differences in the T cell receptor at a molecular level between patients experiencing GVHD and those that are GVHD-free, suggesting the ability of T cells to distinguish tumor cells from self cells. In addition, the intention was to reveal differences in proportions of engrafted donor T cells and stem cells and the effects of these proportions on the severity, outcome, and prognosis of GVHD. We additionally found that a lower proportion of stem cells to T cells was associated with the trend of GVHD, while a higher frequency of T cells engrafted into host may indicate resistance to treatment and a poor prognosis. These data suggest that allogeneic HSCT may be improved by optimizing the proportion of T cells to stem cells in the transplant as well as developing targeted therapy against GVHD-associated T cell clones while rescuing GVT-associated T cell clones.
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Mécanismes d'action des cellules stromales mésenchymateuses dans le traitement de la réaction du greffon contre l'hôteLemieux, William 12 1900 (has links)
La maladie du greffon contre l’hôte (GvHD) est un effet secondaire sérieux de la transplantation de cellules souches hématopoïétiques (HSCT). Cette maladie entraine une haute mortalité et ses symptômes sont dévastateurs. Les traitements actuels de la GvHD comportent plusieurs produits, tels les corticostéroïdes, mais ces derniers sont immunosuppresseurs et leurs effets secondaires sont aussi très dommageables pour les patients et leur guérison. Les cellules stromales mésenchymateuses (MSC) représentent une alternative ou une addition potentielle de traitement pour la GvHD et ces cellules ne semblent pas posséder les effets secondaires des traitements classiques. Un nombre important d’études cliniques faisant l’objet des MSC ont été enregistrées. Malgré cet engouement, le mécanisme de leur immunomodulation reste encore à élucider. Notre objectif est donc de mieux définir ce mécanisme. Nous avons utilisé un modèle simplifié pour simuler la GvHD in vitro. Ce modèle se base sur la stimulation de lymphocytes CD4+ par des cellules dendritiques allogéniques. La mesure de la prolifération de ces cellules stimulées sert d’indicateur de leur réactivité. Selon les résultats obtenus par la technologie CRISPR de génie génétique, les MSC exerceraient leur immunosuppression sur les cellules T CD4+ principalement par la sécrétion de l’enzyme IDO1. Les MSC seraient également capables d’induire certaines cellules CD4+ en cellules régulatrices, un processus indépendant de la sécrétion d’IDO1. Toutefois, ces cellules ne semblent pas correspondre aux cellules Treg conventionnelles. / Graft versus host disease (GvHD) is a very serious side effect of hematopoietic stem cell transplantation (HSCT). This disease results in high mortality and devastating symptoms. Treatments for GvHD include a lot of pharmaceuticals, including corticosteroids, but these are immunosuppressive and their adverse effects cause a lot of damage to the patient and hinder the healing process. Mesenchymal stromal cells (MSC) represent a potential alternative or addition to the GvHD treatment regimen. These cells do not seem to carry the secondary effects associated with classical treatments. A number of studies have been registered concerning MSC. In spite of the spike of interest, the mechanism of immunomodulation deployed by MSC remains to be elucidated. Our objective is to better characterise this mechanism. We have used a simple in vitro model to simulate GvHD. This model is based on the stimulation of CD4+ T cells by allogenic dendritic cells. The measure of the proliferation of the stimulated lymphocytes serves as an indicator of the reactivity. According to the results obtained by CRISPR genetic engineering, MSC exert this immunomodulatory effect on T cells mainly by the secretion of IDO1 enzyme. These MSC are also able to induce T cells to become inhibitory, a process independent of the secretion of IDO1. However, these inhibitory T cells would not correspond to conventional Treg cells.
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Modelo de personalização de dose de bussulfano intravenoso baseado no genótipo de GSTA1 durante regime de condicionamento do transplante de células-tronco hematopoiéticas em criançasNava, Tiago Rodrigues January 2017 (has links)
O bussulfano (Bu) é um agente alquilante usado no condicionamento que precede o transplante de células-tronco hematopoiéticas (TCTH) em crianças. Sua farmacocinética (FC) apresenta uma grande variabilidade interindivíduo, que pode ser parcialmente explicada pelas variantes genéticas de GSTA1, gene da enzima glutationa S-transferase α1, crucial para o metabolismo do Bu. Vários métodos de predição da FC do Bu são usados para calcular sua dose, essencialmente com base na idade e peso do paciente. Até o momento, apenas um modelo adulto incorporou as variantes de GSTA1 no cálculo da sua dose do Bu. No presente trabalho, avaliou-se, inicialmente, o desempenho de métodos atualmente disponíveis em pediatria, em função das variantes genéticas de GSTA1. Foram avaliados os parâmetros de FC da primeira dose de 101 crianças e adolescentes submetidos a TCTH alogênico no CHU Sainte-Justine, Montreal, Canadá, após regime de condicionamento que incluía Bu intravenoso (BuCR, do inglês busulfan-containing regimen). Os haplótipos GSTA1 foram interpretados em pares (diplótipos) e depois classificados em três grupos com base nos seus diferentes potenciais de expressão enzimática. As AUCs (area under the curve) medidas e as AUCs calculadas a partir de doses de Bu preditas por 11 modelos diferentes foram classificadas de acordo com a sua capacidade para atingir a AUC-alvo (900 a 1.500 μM.min). Também foram calculados os erros de previsão do clearance do Bu. Após a primeira dose, as AUCs medidas atingiram a AUC-alvo em 38,7%. Os diplótipos de GSTA1 relacionados ao metabolismo lento (G3) e regimes contendo fludarabina (FluCR, do inglês fludarabine-containing regimen) foram os únicos fatores associados à AUC no alvo (OR 4,7, IC 95%, 1,1 - 19,8, p = 0,04 e OR 9,9, IC 95%, 1,6 - 61,7, p = 0,01, respectivamente). Utilizando os outros métodos para o cálculo da dose, a percentagem de AUC no alvo variou de 16% a 74%. G3 e FluCR foram, em alguns modelos, associados à AUC no alvo ou na faixa tóxica, enquanto que os metabolizadores rápidos (G1) foram por vezes associados a AUCs subterapêuticas. Essas associações foram confirmadas na análise de predição do clearance, em que os diplótipos da GSTA1 e o regime de condicionamento influenciaram significativamente a maioria dos erros de previsão dos métodos testados. Uma vez que GSTA1 mostrou influenciar significativamente os algoritmos disponíveis, pretendeu-se desenvolver um modelo de FC de população que incluísse variantes genéticas de GSTA1 como um fator no cálculo de dose do Bu. Para tanto, foram analisados os dados de concentração-tempo de 112 crianças e adolescentes que receberam um BuCR mieloablativo antes de 115 TCTH (autólogos e alogênicos), realizados também no CHU Sainte-Justine. Para a construção do modelo de FC de população, utilizou-se uma análise mista não linear. Sexo, doença de base (maligna vs. não maligna), idade pós-menstrual (PMA) ou idade cronológica, regime de condicionamento e diplótipos de GSTA1 foram avaliados como fatores potenciais. Um modelo de um compartimento com eliminação de primeira ordem foi o que melhor descreveu os dados disponíveis. Um fator de maturação do metabolismo de Bu (Fmat) e o peso elevado a exponencial alométrico teórico foram incluídos no modelo de base. A análise dos fatores revelou PMA (ΔOFV = -26,7, p = 2,3x10-7) e grupos de diplótipos de GSTA1 (ΔOFV = -11,7, p = 0,003) como fatores significativamente associados, respectivamente, ao volume e ao CL do Bu. Os CL dos metabolizadores rápidos (G1) foram preditos como sendo 7% mais elevados que os definidos como metabolizadores normais (G2), enquanto que os metabolizadores lentos (G3) foram descritos com CL 12% menor que os G2. Em conclusão, após se evidenciar que os métodos disponíveis para o cálculo de dose do Bu não são adequados para todos os grupos de diplótipos de GSTA1, propôs-se o primeiro algoritmo de cálculo de dose de Bu em pediatria baseado em farmacogenética. Seu uso pode contribuir para uma melhor previsibilidade da FC do Bu e, desta forma, melhor predizer a exposição de crianças e adolescentes à droga, de acordo com a capacidade metabólica de cada indivíduo. / Busulfan (Bu) is an alkylating agent used in the conditioning before hematopoietic stem cells transplantation (HSCT) in children. Its pharmacokinetics (PK) presents a great inter-individual variability, which can be partially explained by GSTA1 genetic variants, gene coding for the enzyme glutathione s-tranferase α1, crucial for Bu metabolism. Several methods of predicting PK are available and are used to calculate the Bu dose, based essentially on patients’ age and anthropometric characteristics. So far, a single adult model successfully incorporated this factor into the Bu dose calculation. In the present work, we initially evaluate the performance of the currently available guidelines across the different GSTA1 genetic variants. The PK parameters from the Bu first doses from 101 children and adolescents who have undergone allogenic SCT at the CHU Sainte-Justine, Montreal, Canada following a IV Bu-containing conditioning regimen (BuCR). GSTA1 haplotypes were interpreted in pairs (diplotypes) and then classified in 3 groups based on different potentials of enzyme expression. Measured AUCs and AUCs calculated from Bu doses predicted by 11 different models were classified according to their ability to achieve the AUC target (900 and 1500μM.min). Clearance prediction errors were also calculated. After the first dose, measured AUCs achieved the target in 38.7%. GSTA1 diplotypes groups related to poor Bu metabolism (G3) and fludarabine-containing regimens (FluCR) were the only factors associated with AUC within target (OR 4.7, 95% CI, 1.1 - 19.8, p=0.04 and OR 9.9, 95% CI, 1.6 - 61.7, p=0.01, respectively). Using other methods for dose calculation, percentage of AUCs within target varied from 16% to 74%. G3 and FluCR were, in some models, associated to AUC within the target and in the toxic range, whereas rapid-metabolizers (G1) were correlated with sub therapeutic AUCs. These associations were confirmed in clearance-prediction analysis, where GSTA1 diplotypes groups and conditioning regimen consistently influenced methods’ most prediction errors. Once GSTA1 status was demonstrated to influence significantly the available Bu dosing algorithms, we aimed to develop a population PK (PPK) model which included GSTA1 genetic variants as a covariate. For that, concentration-time data from 112 children and adolescents receiving IV Bu as a component of the conditioning regimen for 115 stem cell transplantations (autologous and allogenic) performed at CHU Sainte-Justine were analyzed. Non-linear mixed effects analysis was used to build a PPK model. Sex, baseline disease (malignant vs. non-malignant), post-menstrual age (PMA) or chronological age, conditioning regimen and GSTA1 diplotypes groups were evaluated as potential covariates. A one-compartment model with first-order elimination best described the data. A factor of Bu metabolism maturation (Fmat) and theoretical allometric scaling of weight were included in the base model. Covariate analysis revealed PMA (ΔOFV=-26.7, p=2.3x10-7) and GSTA1 diplotypes groups (ΔOFV=-11.7, p=0.003), as significant factors on volume and clearance (CL), respectively. CL of rapid metabolizers (G1) were predicted as being 7% higher and that of poor ones (G3) 12% lower than CL of those defined as normal metabolizers (G2). In conclusion, after evidencing that available Bu dosing methods are not suitable for all GSTA1 diplotypes groups, we have proposed the first pharmacogenomics-based dosing algorithm for Bu to be used in a pediatrics. Its use may contribute considerably to better predict Bu exposure in children and adolescents tailoring the dose according to individual metabolic capacity.
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Implementation of hazard analysis and critical control point (HACCP) system in a food service unit serving immuno-suppressed patient diets / E.E. VermeulenVermeulen, Emma Emmerenza January 2006 (has links)
Main aim: To supply recommendations to implement a Hazard Analysis of
Critical Control Points (HACCP) system in a hospital food service unit serving
low bacterial diets in order to prevent or decrease the infection rates in
Hematopoietic Stem Cell Transplant (HSCT) patients.
Objectives: Firstly, to investigate the current food safety and hygiene
status in a hospital food service unit, serving low bacterial diets, by means of
a questionnaire and bacterial swabs taken from the food service unit.
Secondly, to utilize the gathered information in a structured action plan to
implement HACCP standards successfully in the appointed food service unit.
The implementation of HACCP will not be done by the author.
Design: The primary research was done in a food service unit of a 350
bed private hospital. One unsuspected audit with a pre-designed audit form
was done. The audit consisted out of ten categories. A percentage was
allocated to each category. Four swabs, as well as four food samples, were
taken during the audit. The swabs and samples were tested to assess the
microbiological safety of the foods prepared in the appointed hospital food
service unit. The results of the audit, swabs and food samples were used to
evaluate the current Food and Safety System of the hospital food service unit
according to internationally approved HACCP standards.
Setting: The study was conducted in the metropolitan area of Gauteng,
South Africa.
Results: None of the ten areas audited was of an acceptable standard
and an average of 37% was scored. Category 5, the service and distribution
area, scored the highest (69%) and category 10, the quality procedures and
records division, scored the lowest (6%). According to United States Food
and Drug Administration Baseline Report five forbidden policies could lead to
increased risk of food borne illnesses. All five forbidden policies were
detected in the food service unit during the audit. The microbiological tests
showed relatively high microbial counts.
Conclusion: The results of the study confirmed that instead of focusing
mainly on the selection of food items allowed, and the cooking methods used
in HSCT diets, the type of food service, together with the food and safety
protocol that the food service follows, could play an important role in providing
food that is safe for HSCT patient use. / Thesis (M.Sc. (Dietetics))--North-West University, Potchefstroom Campus, 2007.
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Modelo de personalização de dose de bussulfano intravenoso baseado no genótipo de GSTA1 durante regime de condicionamento do transplante de células-tronco hematopoiéticas em criançasNava, Tiago Rodrigues January 2017 (has links)
O bussulfano (Bu) é um agente alquilante usado no condicionamento que precede o transplante de células-tronco hematopoiéticas (TCTH) em crianças. Sua farmacocinética (FC) apresenta uma grande variabilidade interindivíduo, que pode ser parcialmente explicada pelas variantes genéticas de GSTA1, gene da enzima glutationa S-transferase α1, crucial para o metabolismo do Bu. Vários métodos de predição da FC do Bu são usados para calcular sua dose, essencialmente com base na idade e peso do paciente. Até o momento, apenas um modelo adulto incorporou as variantes de GSTA1 no cálculo da sua dose do Bu. No presente trabalho, avaliou-se, inicialmente, o desempenho de métodos atualmente disponíveis em pediatria, em função das variantes genéticas de GSTA1. Foram avaliados os parâmetros de FC da primeira dose de 101 crianças e adolescentes submetidos a TCTH alogênico no CHU Sainte-Justine, Montreal, Canadá, após regime de condicionamento que incluía Bu intravenoso (BuCR, do inglês busulfan-containing regimen). Os haplótipos GSTA1 foram interpretados em pares (diplótipos) e depois classificados em três grupos com base nos seus diferentes potenciais de expressão enzimática. As AUCs (area under the curve) medidas e as AUCs calculadas a partir de doses de Bu preditas por 11 modelos diferentes foram classificadas de acordo com a sua capacidade para atingir a AUC-alvo (900 a 1.500 μM.min). Também foram calculados os erros de previsão do clearance do Bu. Após a primeira dose, as AUCs medidas atingiram a AUC-alvo em 38,7%. Os diplótipos de GSTA1 relacionados ao metabolismo lento (G3) e regimes contendo fludarabina (FluCR, do inglês fludarabine-containing regimen) foram os únicos fatores associados à AUC no alvo (OR 4,7, IC 95%, 1,1 - 19,8, p = 0,04 e OR 9,9, IC 95%, 1,6 - 61,7, p = 0,01, respectivamente). Utilizando os outros métodos para o cálculo da dose, a percentagem de AUC no alvo variou de 16% a 74%. G3 e FluCR foram, em alguns modelos, associados à AUC no alvo ou na faixa tóxica, enquanto que os metabolizadores rápidos (G1) foram por vezes associados a AUCs subterapêuticas. Essas associações foram confirmadas na análise de predição do clearance, em que os diplótipos da GSTA1 e o regime de condicionamento influenciaram significativamente a maioria dos erros de previsão dos métodos testados. Uma vez que GSTA1 mostrou influenciar significativamente os algoritmos disponíveis, pretendeu-se desenvolver um modelo de FC de população que incluísse variantes genéticas de GSTA1 como um fator no cálculo de dose do Bu. Para tanto, foram analisados os dados de concentração-tempo de 112 crianças e adolescentes que receberam um BuCR mieloablativo antes de 115 TCTH (autólogos e alogênicos), realizados também no CHU Sainte-Justine. Para a construção do modelo de FC de população, utilizou-se uma análise mista não linear. Sexo, doença de base (maligna vs. não maligna), idade pós-menstrual (PMA) ou idade cronológica, regime de condicionamento e diplótipos de GSTA1 foram avaliados como fatores potenciais. Um modelo de um compartimento com eliminação de primeira ordem foi o que melhor descreveu os dados disponíveis. Um fator de maturação do metabolismo de Bu (Fmat) e o peso elevado a exponencial alométrico teórico foram incluídos no modelo de base. A análise dos fatores revelou PMA (ΔOFV = -26,7, p = 2,3x10-7) e grupos de diplótipos de GSTA1 (ΔOFV = -11,7, p = 0,003) como fatores significativamente associados, respectivamente, ao volume e ao CL do Bu. Os CL dos metabolizadores rápidos (G1) foram preditos como sendo 7% mais elevados que os definidos como metabolizadores normais (G2), enquanto que os metabolizadores lentos (G3) foram descritos com CL 12% menor que os G2. Em conclusão, após se evidenciar que os métodos disponíveis para o cálculo de dose do Bu não são adequados para todos os grupos de diplótipos de GSTA1, propôs-se o primeiro algoritmo de cálculo de dose de Bu em pediatria baseado em farmacogenética. Seu uso pode contribuir para uma melhor previsibilidade da FC do Bu e, desta forma, melhor predizer a exposição de crianças e adolescentes à droga, de acordo com a capacidade metabólica de cada indivíduo. / Busulfan (Bu) is an alkylating agent used in the conditioning before hematopoietic stem cells transplantation (HSCT) in children. Its pharmacokinetics (PK) presents a great inter-individual variability, which can be partially explained by GSTA1 genetic variants, gene coding for the enzyme glutathione s-tranferase α1, crucial for Bu metabolism. Several methods of predicting PK are available and are used to calculate the Bu dose, based essentially on patients’ age and anthropometric characteristics. So far, a single adult model successfully incorporated this factor into the Bu dose calculation. In the present work, we initially evaluate the performance of the currently available guidelines across the different GSTA1 genetic variants. The PK parameters from the Bu first doses from 101 children and adolescents who have undergone allogenic SCT at the CHU Sainte-Justine, Montreal, Canada following a IV Bu-containing conditioning regimen (BuCR). GSTA1 haplotypes were interpreted in pairs (diplotypes) and then classified in 3 groups based on different potentials of enzyme expression. Measured AUCs and AUCs calculated from Bu doses predicted by 11 different models were classified according to their ability to achieve the AUC target (900 and 1500μM.min). Clearance prediction errors were also calculated. After the first dose, measured AUCs achieved the target in 38.7%. GSTA1 diplotypes groups related to poor Bu metabolism (G3) and fludarabine-containing regimens (FluCR) were the only factors associated with AUC within target (OR 4.7, 95% CI, 1.1 - 19.8, p=0.04 and OR 9.9, 95% CI, 1.6 - 61.7, p=0.01, respectively). Using other methods for dose calculation, percentage of AUCs within target varied from 16% to 74%. G3 and FluCR were, in some models, associated to AUC within the target and in the toxic range, whereas rapid-metabolizers (G1) were correlated with sub therapeutic AUCs. These associations were confirmed in clearance-prediction analysis, where GSTA1 diplotypes groups and conditioning regimen consistently influenced methods’ most prediction errors. Once GSTA1 status was demonstrated to influence significantly the available Bu dosing algorithms, we aimed to develop a population PK (PPK) model which included GSTA1 genetic variants as a covariate. For that, concentration-time data from 112 children and adolescents receiving IV Bu as a component of the conditioning regimen for 115 stem cell transplantations (autologous and allogenic) performed at CHU Sainte-Justine were analyzed. Non-linear mixed effects analysis was used to build a PPK model. Sex, baseline disease (malignant vs. non-malignant), post-menstrual age (PMA) or chronological age, conditioning regimen and GSTA1 diplotypes groups were evaluated as potential covariates. A one-compartment model with first-order elimination best described the data. A factor of Bu metabolism maturation (Fmat) and theoretical allometric scaling of weight were included in the base model. Covariate analysis revealed PMA (ΔOFV=-26.7, p=2.3x10-7) and GSTA1 diplotypes groups (ΔOFV=-11.7, p=0.003), as significant factors on volume and clearance (CL), respectively. CL of rapid metabolizers (G1) were predicted as being 7% higher and that of poor ones (G3) 12% lower than CL of those defined as normal metabolizers (G2). In conclusion, after evidencing that available Bu dosing methods are not suitable for all GSTA1 diplotypes groups, we have proposed the first pharmacogenomics-based dosing algorithm for Bu to be used in a pediatrics. Its use may contribute considerably to better predict Bu exposure in children and adolescents tailoring the dose according to individual metabolic capacity.
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Caracterização das células natural killer (NK) circulantes no sangue periférico precocemente após o transplante de células-tronco hematopoéticas (TCTH)Gonçalves, Alice Dahmer January 2017 (has links)
O transplante de células-tronco hematopoéticas alogênico (alo-TCTH) é uma opção de tratamento para uma variedade de doenças neoplásicas e não neoplásicas, principalmente de origem hematológica sendo doença do enxerto-contra-hospedeiro (DECH) a sua principal complicação. As células Natural Killer (NK) são os primeiros linfócitos a se recuperarem após o TCTH. Além da capacidade de promover o efeito enxerto-versus-leucemia (EVL), as células NK do doador parecem capazes de promover a pega do enxerto e de prevenir o desenvolvimento da DECH. As células NK compreendem aproximadamente 10% dos linfócitos do sangue periférico e são caracterizadas fenotipicamente pela expressão do antígeno de superfície CD56 (CD, cluster of differentiation) e pela ausência de CD3 (CD56+CD3-). O subtipo de células NK CD56dim (baixa densidade do antígeno) é naturalmente mais citotóxico que o subtipo CD56bright (alta densidade do antígeno) o qual é caracterizado pela capacidade de produção de citocinas. Com base nisso, o objetivo do trabalho é avaliar a presença de células NK nos dias 7, 14, 21 e 28 após o TCTH alogênico e autólogo, caracterizando sua frequência, seu imunofenótipo e a sua capacidade de produzir fatores de crescimento hematopoético e citocinas relacionadas. / Allogeneic hematopoietic stem cell transplantation (allo-HSCT) is an option of treatment for a variety of neoplastic and non-neoplastic diseases and graft-versus-host disease (GVHD) is its main complication. Natural Killer cells (NK) are the first lymphocytes to recover after HSCT. In addition to the ability to promote graft versus leukemia effect (GVL), donor NK cells appear to be capable of promoting engraftment and preventing the development of GVHD. NK cells comprise approximately 10% of peripheral blood lymphocytes and are characterized phenotypically by the expression of the CD56 surface antigen and absence of CD3 (CD56 + CD3-). The CD56dim (low density of antigen) NK cell subtype is naturally more cytotoxic than the CD56bright (high density of antigen) subtype which is characterized by the ability to produce cytokines. Based on this, the objective of the study is to evaluate the presence of NK cells on days 7, 14, 21 and 28 after allogeneic and autologous HSCT, characterizing their frequency, their immunophenotype and their capacity to produce hematopoietic growth factors and related cytokines.
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