Global ETD Search

11	Developmental and functional characterization of cystatin and chitinase of Acanthocheilonema viteae Pillai, Smitha 23 May 2007 (has links) Die Infektion mit Filarien (Nematoden) ruft massive Schädigungen beim Menschen hervor. Strategien zur Bekämpfung dieser Parasitose basieren auf einer Massenbehandlung mit Ivermectin und Derivaten. Allerdings ist die Behandlung der Patienten zeitaufwändig und teuer. In diesem Zusammenhang stellt Aufklärung molekularer Mechanismen, die die parasitische Lebensform dieser Würmer ermöglichen, einen neuen Ansatzpunkt für die Entwicklung von Therapeutika und Präventivmaßnahmen dar. Die Moleküle Cystatin und Chitinase wurden, auf Grund ihrer immunodulatorischen und katalytischen Eigenschaften, bei der Nager-Filarie Acanthocheilonema viteae als essentielle Proteine identifiziert. Ziel der vorliegenden Arbeit war daher die detaillierte, funktionale Charakterisierung dieser beiden Proteine. Um das räumliche Expressionsmuster und damit potentielle Funktionen des Sekretionsprotein Cystatins zu ermitteln, wurde der frei lebende Nematode Caenorhabditis elegans als heterologes Expressionssystem genutzt. Unter dem Einfluss des Cystatin-Promoters konnte GFP in pharyngealen und rektalen Zellen von C. elegans exprimiert werden. Möglicherweise ist das Cystatin damit bei A. viteae in den Häutungsprozess involviert, da bei C. elegans derartige Enzyme in den pharyngealen Zellen gespeichert werden. Des Weiteren wurde der Häutungsprozess der infektiösen L3 zum Stadium der L4 durch Ausschalten des Gens mittels RNAi um drei Tage verzögert. Allerdings war der Effekt transient und die Verzögerung des Häutungsprozesses beeinflusste weder die Viabilität noch die Infektiösität der Larven. Die Analyse der Regulation von Cystatin während der Entwicklung des Parasiten mittels der Real-Time PCR zeigte, dass das Gen im Stadium der Mikrofilarien, die der Immunantwort des Wirtes voll exponiert sind, maximal exprimiert wird. Für die Chitinase von A. viteae konnte eine essentielle Rolle im Häutungsprozess nachgewiesen werden. Das Ausschalten des Gens führte zu einer Hemmung der Häutung bei 90 % der L3 und damit zu ihrem Tod. Die maximale Expression im L3 Stadium des Parasiten ist ein weiterer Hinweis darauf, dass dieses Protein in den Häutungsprozess involviert ist. Mittels RNAi bei adulten Parasiten konnte die katalytische Rolle der Chitinase beim Abbau des Chitins im Ei bestätigt werden, da hier nur ungeschlüpfte Mikrofilarien ausgeschieden wurden. Die Ergebnisse dieser Arbeit liefern weitere Hinweise darauf, dass sowohl das Cystatin als auch die Chitinase von A. viteae auf Grund ihrer essentiellen endogenen Funtionen attraktive Zielmoleküle in der Bekämpfung von Filariosen darstellen. / Nematodes which cause filariasis have detrimental effect on humans. Strategies to eliminate this disease are based on mass treatment with drugs like ivermectin. However, they have several drawbacks such as long duration required for treatment and tenuous financial supports. Understanding the molecular mechanisms of genes required for parasitism will help to develop novel therapeutic and preventive strategies. The aim of this study was a detailed functional characterization of cystatin and chitinase of Acanthocheilonema viteae, a rodent filarial nematode. To this end, C. elegans was used as a heterologous system to determine the spatial expression pattern of A. viteae cystatin and chitinase and thereby their possible functions. The promoter of cystatin drove the expression of reporter, GFP, to the pharyngeal and rectal gland cells of transgenic C. elegans lines, this being compatible with the fact that cystatin is secreted in the parasites. This also suggests that cystatin in A. viteae is probably required for moulting since generally in C. elegans the enzymes required for moulting are stored in the pharyngeal gland cells. Moreover, knockdown of cystatin by RNAi delayed moulting of the infective L3 to the L4. However, the RNAi effect was transient and the delay in moulting did not affect the viability and infectivity of the larvae. Analyses of the developmental regulation of cystatin by real-time PCR showed that it is maximally expressed in the blood microfilarial stage, which are exposed to the full force of host immune responses. This is compatible to the fact that A. viteae cystatin immunomodulates the host immune responses. This study also determined that chitinase of A. viteae plays an essential role in the moulting of the L3 larvae since knockdown of chitinase inhibited moulting in 90% of the L3 larvae thereby killing them. Moreover, maximum expression of chitinase was observed by real-time PCR in the L3 stage supplementing that it is involved in moulting. RNAi of chitinase in adults led to the release of unhatched microfilariae confirming the essential catalytic role of chitinase in the degradation of the chitin egg shells. This study substantiates that cystatin and chitinase of A. viteae are attractive intervention targets due to their essential endogenous functions in the parasite. RNAi Acanthocheilonema viteae Cystatin Chitinase Caenorhabditis elegans RNAi Acanthocheilonema viteae Cystatin Chitinase Caenorhabditis elegans 570 Biowissenschaften, Biologie 32 Biologie WP 7080 XD 9604 YD 9804 ddc:570
12	Cystatin C – ein potentieller früher Marker zur Erkennung der Nephrotoxizität bei Cisplatin-haltiger Chemotherapie / Cystatin C – an early marker for cisplatin-associated nephrotoxicity in patients before and during chemotherapy Behrens, Gerrit 02 October 2012 (has links) No description available. 610 Medizin, Gesundheit Nephrologie (PPN619875828) Medicine Cystatin C Cisplatin Chemotherapie Nephrotoxizität Kreatinin Glomeruläre Filtrationsrate Cystatin C cisplatin chemotherapy nephrotoxicity creatinine glomerular filtration rate 44.61 Innere Medizin
13	Construção e aplicação de um imunossensor para detecção do marcador de insuficiência renal aguda: a cistatina C / Construction and application of an immunosensor for the detection of the acute kidney injury marker: cystatin C Santos, Juliana Feliciano dos 11 November 2016 (has links) Os rins desempenham um papel fundamental no sistema urinário e sua principal função é a filtração do sangue. Uma das causas que podem comprometer o funcionamento dos rins é a Insuficiência Renal Aguda (IRA) que é definida como a diminuição da taxa de filtração glomerular (TFG) de forma rápida e inesperada, causando a perda da função renal. Essa doença apresenta um número significativo de internações e também óbitos. O marcador padrão usado nos exames laboratoriais é a creatinina sérica, no entanto, a concentração da creatinina sérica pode variar dependendo de vários fatores, como idade, sexo, nutrição, entre outros. Além disso, sua concentração não varia consideravelmente nas primeiras indicações da lesão renal. Dessa forma, o diagnóstico é tardio e a função renal já pode estar comprometida. A proteína cistatina C (CST3) vem sendo indicada como um novo marcador para a doença, mostrando superioridade especialmente para detectar pequenas variações da TFG. A concentração da cistatina C não varia significativamente com a idade, sexo e massa muscular. Assim, foi desenvolvido um imunossensor para detectar a cistatina C, usando a configuração de transistor de efeito de campo de porta estendida e separada (SEGFET). Os eletrodos foram caracterizados por várias técnicas como MEV, microscopia de força atômica, técnicas eletroquímicas e também foi analisada a sensibilidade do ouro. As etapas de construção do imunossensor, e a interação do anticorpo com concentrações crescentes da proteína foram verificadas através de técnicas eletroquímicas, na faixa de concentração de 3 a 100 ng.mL-1. Nas medidas no SEGFET observou-se uma mudança significativa da corrente após a adição da cistatina C e para as substâncias interferentes não. O imunossensor apresentou alta sensibilidade detectando concentrações bem baixas da proteína alvo. A curva analítica ΔIDS% x [CST3] obteve-se L.D. = 0,75 ng.mL-1, L.Q. = 2,27 ng.mL-1 e r = 0,98122. A curva analítica ΔVGS% x [CST3] obteve-se L.D. = 0,28 ng.mL-1, L.Q. = 0,87 ng.mL-1 e r = 0,99846. Embora tenha algumas limitações o imunossensor é inovador e apresenta muitas vantagens podendo ser aplicado futuramente para o diagnóstico da doença. / The kidneys play a key role in the urinary system and its main function is the filtration of blood. One of the causes that can compromise the functioning of the kidneys is the Acute Kidney Injury (AKI), which is defined as the quickly and unexpected decrease in Glomerular Filtration Rate (GFR), causing the loss of kidney function. This disease presents a significant number of hospitalizations and also deaths. The standard marker used in laboratory tests is serum creatinine, however, serum creatinine concentration may vary depending on a number of factors, such as age, sex, nutrition, and so on. In addition, its concentration does not vary considerably in the first indications of renal injury. Thus, the diagnosis is delayed and renal function may already be compromised. The cystatin C protein (CST3) has been indicated as a new marker for the disease, showing superiority especially for detecting small variations in GFR. The concentration of cystatin C does not vary significantly with age, sex and muscle mass. Thus, an immunosensor was developed to detect cystatin C using the extended and a separate gate field effect transistor (SEGFET) configuration. The electrodes were characterized by several techniques such as SEM, atomic force microscopy, electrochemical techniques and also the sensitivity of gold was analyzed. The construction of the immunosensor, and the interaction of the antibody with increasing concentrations of the protein were verified by electrochemical techniques, in the concentration range of 3 to 100 ng.mL-1. In the measurements in the SEGFET a significant change of the current was observed after the addition of cystatin C and for the interfering substances there was no difference. The immunosensor showed high sensitivity detecting very low concentrations of the target protein. The analytical curve ΔIDS% x [CST3] was obtained L.D. = 0,75 ng.mL-1, L.Q. = 2,27 ng.mL-1 and r = 0,98122. The analytical curve ΔVGS% x [CST3] was obtained L.D. = 0,28 ng.mL-1, L.Q. = 0,87 ng.mL-1 and r = 0,99846. Although it has some limitations the immunosensor is innovative and presents many advantages and can be applied in the future to diagnose the disease. Acute kidney injury Cistatina C Cystatin C Diagnóstico precoce Early diagnosis Immunosensor Imunossensor Insuficiência renal aguda
14	Amyotrophic Lateral Sclerosis – A Study in Transgenic Mice Wootz, Hanna January 2006 (has links) <p>Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease with an incidence of 1.5-2.7/100000 people/year. Today there is no cure for the disease and only symptomatic treatments are available. ALS progresses rapidly and only 50% of the patients are alive three years after the symptom debut. In ALS, the upper and lower motor neurons undergo degeneration in a process resembling apoptosis. This leads to muscle atrophy and paralysis. The causes of neuronal death are however unknown. In this thesis we have studied transgenic mice carrying human mutant superoxide dismutase, as a model for familial ALS. These mice develop ALS-like symptoms after four months of age with degeneration of the motor neurons. Our results show an involvement of endoplasmic reticulum stress, caspase-12, -9, -3 and procaspase-7 in the ALS mice spinal cord. Overexpression of the antiapoptotic protein XIAP in spinal cord neurons inhibited the activation of caspase-12 and reduced caspase-3 and calpain activity. Calpastatin, the regulator of calpain activity, was kept intact in the ALS-XIAP mice. These mice showed a 12% increase in the mean survival suggesting a beneficial effect of XIAP in ALS. The reason for the ultimate cell death of motor neurons in the ALS-XIAP mice may be due to the activation of additional cell death pathways. Thus, we observed that lysosomal proteases particularly, cathepsinB, -D, and -L were activated in the ALS mice spinal cord together with a less marked upregulation of the inhibitors, cystatinB and -C. We also found activation of astrocytes and microglial cells in the spinal cord of ALS mice indicating their involvement in the disease. The results show that both caspase-dependent and -independent pathways are activated during neuronal degeneration in the ALS spinal cord. The results obtained may help to identify novel drug targets for future treatments of ALS.</p> Neurosciences ALS Caspase Caspase-12 Cathepsin Cystatin ER stress Motor neuron Neurodegeneration Sod1 XIAP Neurovetenskap
15	Amyotrophic Lateral Sclerosis – A Study in Transgenic Mice Wootz, Hanna January 2006 (has links) Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease with an incidence of 1.5-2.7/100000 people/year. Today there is no cure for the disease and only symptomatic treatments are available. ALS progresses rapidly and only 50% of the patients are alive three years after the symptom debut. In ALS, the upper and lower motor neurons undergo degeneration in a process resembling apoptosis. This leads to muscle atrophy and paralysis. The causes of neuronal death are however unknown. In this thesis we have studied transgenic mice carrying human mutant superoxide dismutase, as a model for familial ALS. These mice develop ALS-like symptoms after four months of age with degeneration of the motor neurons. Our results show an involvement of endoplasmic reticulum stress, caspase-12, -9, -3 and procaspase-7 in the ALS mice spinal cord. Overexpression of the antiapoptotic protein XIAP in spinal cord neurons inhibited the activation of caspase-12 and reduced caspase-3 and calpain activity. Calpastatin, the regulator of calpain activity, was kept intact in the ALS-XIAP mice. These mice showed a 12% increase in the mean survival suggesting a beneficial effect of XIAP in ALS. The reason for the ultimate cell death of motor neurons in the ALS-XIAP mice may be due to the activation of additional cell death pathways. Thus, we observed that lysosomal proteases particularly, cathepsinB, -D, and -L were activated in the ALS mice spinal cord together with a less marked upregulation of the inhibitors, cystatinB and -C. We also found activation of astrocytes and microglial cells in the spinal cord of ALS mice indicating their involvement in the disease. The results show that both caspase-dependent and -independent pathways are activated during neuronal degeneration in the ALS spinal cord. The results obtained may help to identify novel drug targets for future treatments of ALS. Neurosciences ALS Caspase Caspase-12 Cathepsin Cystatin ER stress Motor neuron Neurodegeneration Sod1 XIAP Neurovetenskap
16	Measurement and validation of urinary cystatin C by particle-enhanced turbidimetric immunoassay on Architect ci8200 Hikmet Noraddin, Feria January 2011 (has links) Cystatin C, a 13 kDa low molecular weight protein is an inhibitor of cysteine proteases. Due to its low molecular weight and positive charge at physiological pH, it is freely filtered by the glomerulus and catabolized after reabsorption by proximal tubular cells with a low concentration (0.03-0.3 mg/L) in urine amongst healthy subjects. Urinary cystatin C is a potential biomarker detection of acute kidney injury (AKI) in the acute phase when patients are submitted to the intensive care unit. The aim in this report was to perform a full method validation of urinary analysis of cystatin C on a high throughput chemical analyzer by particle-enhanced turbidimetric immunoassay (PETIA) at the University Hospital in Uppsala, Sweden. The antigen excess, linearity, lower limit of quantification (LoQ), recovery, assay precision, stability and interference caused by haemoglobin was evaluated. No hook effect was observed, the assay was linear over the studied interval <0.001-0.950 mg/L with a regression of R2=0.9994. The LoQ was calculated to 0.020 mg/L with a coefficient of variation (CV) ≤10% which was considered acceptable. The assay had a recovery between 93-100% and the assay precision had a total CV <3.5%. Cystatin C is stable for 3 days in room temperature and 14 days in +4C. The assay did not show any major interference with haemoglobin. The urinary cystatin C showed good precision and performance characteristics by measurements using PETIA all of which is a necessary qualification for a biomarker at a 24-h running routine laboratory. avian antibodies cystatin C method validation urine Clinical chemistry Klinisk kemi
17	Estimativa da taxa de filtração glomerular com equações baseadas na creatinina e cistatina C séricas em pacientes com diabete melito tipo 2 Camargo, Eduardo Guimarães January 2011 (has links) As diretrizes nacionais e internacionais de nefrologia e diabetologia recomendam que, em pacientes com diabete melito (DM), além da aferição anual da excreção urinária de albumina, seja realizada a estimativa da TFG por meio de equações que incluam a creatinina sérica. As equações mais empregadas e analisadas têm sido as dos estudos MDRD (Modification of Diet in Renal Disease) e CKD-EPI (Chronic kidney Disease Epidemiology Collaboration). No entanto, algumas evidências demonstram um pior desempenho dessas equações em indivíduos com DM, com acentuada subestimativa da TFG. Este desempenho limitado parece estar relacionado a peculiaridades do paciente com DM, como a presença de hiperglicemia e hiperfiltração glomerular, mas também a limitações da própria creatinina como marcador pouco sensível e específico da TFG. O uso de novos marcadores endógenos com perfil mais próximo do ideal, como é o caso da cistatina C, tem se mostrado promissor, mas a sua acurácia ainda não foi adequadamente demonstrada no DM. O objetivo desse artigo foi analisar criticamente os métodos disponíveis de medida e de estimativa da TFG em pacientes com DM, enfatizando aspectos peculiares e possíveis interferentes. / The current guidelines of Nephrology and Diabetology recommend that in patients with diabetes mellitus (DM), along with the annual measure of urinary albumin excretion, the glomerular filtration rate (GFR) should be estimated using creatinine-based equations. The most frequently recommended equations were developed by the MDRD (Modification of Diet in Renal Disease) and CKDEPI (Chronic Kidney Disease Epidemiology Collaboration) studies. However, recent evidences show a worse performance of these equations in diabetic patients, with a significant underestimation of GFR. This limited performance seems to be related to the peculiarities of the patient with DM, such as the presence of hyperglycemia and glomerular hyperfiltration, but also due to the limitations in the sensitivity and specificity of serum creatinine as GFR marker. The use of new markers with closer–to-the ideal endogenous profile, like cystatin C, has shown promise, but its accuracy has not been yet adequately demonstrated in DM. The purpose of this article was to critically analyze the current available methods of measurement and estimation of GFR in patients with DM, emphasizing its peculiarities and possible interferences. Taxa de filtração glomerular Diabetes mellitus Cistatinas Diabetes mellitus Glomerular filtration rate Creatinine MDRD CKDEPI Cystatin C
18	Estimativa da taxa de filtração glomerular com equações baseadas na creatinina e cistatina C séricas em pacientes com diabete melito tipo 2 Camargo, Eduardo Guimarães January 2011 (has links) As diretrizes nacionais e internacionais de nefrologia e diabetologia recomendam que, em pacientes com diabete melito (DM), além da aferição anual da excreção urinária de albumina, seja realizada a estimativa da TFG por meio de equações que incluam a creatinina sérica. As equações mais empregadas e analisadas têm sido as dos estudos MDRD (Modification of Diet in Renal Disease) e CKD-EPI (Chronic kidney Disease Epidemiology Collaboration). No entanto, algumas evidências demonstram um pior desempenho dessas equações em indivíduos com DM, com acentuada subestimativa da TFG. Este desempenho limitado parece estar relacionado a peculiaridades do paciente com DM, como a presença de hiperglicemia e hiperfiltração glomerular, mas também a limitações da própria creatinina como marcador pouco sensível e específico da TFG. O uso de novos marcadores endógenos com perfil mais próximo do ideal, como é o caso da cistatina C, tem se mostrado promissor, mas a sua acurácia ainda não foi adequadamente demonstrada no DM. O objetivo desse artigo foi analisar criticamente os métodos disponíveis de medida e de estimativa da TFG em pacientes com DM, enfatizando aspectos peculiares e possíveis interferentes. / The current guidelines of Nephrology and Diabetology recommend that in patients with diabetes mellitus (DM), along with the annual measure of urinary albumin excretion, the glomerular filtration rate (GFR) should be estimated using creatinine-based equations. The most frequently recommended equations were developed by the MDRD (Modification of Diet in Renal Disease) and CKDEPI (Chronic Kidney Disease Epidemiology Collaboration) studies. However, recent evidences show a worse performance of these equations in diabetic patients, with a significant underestimation of GFR. This limited performance seems to be related to the peculiarities of the patient with DM, such as the presence of hyperglycemia and glomerular hyperfiltration, but also due to the limitations in the sensitivity and specificity of serum creatinine as GFR marker. The use of new markers with closer–to-the ideal endogenous profile, like cystatin C, has shown promise, but its accuracy has not been yet adequately demonstrated in DM. The purpose of this article was to critically analyze the current available methods of measurement and estimation of GFR in patients with DM, emphasizing its peculiarities and possible interferences. Taxa de filtração glomerular Diabetes mellitus Cistatinas Diabetes mellitus Glomerular filtration rate Creatinine MDRD CKDEPI Cystatin C
19	Estimativa da taxa de filtração glomerular com equações baseadas na creatinina e cistatina C séricas em pacientes com diabete melito tipo 2 Camargo, Eduardo Guimarães January 2011 (has links) As diretrizes nacionais e internacionais de nefrologia e diabetologia recomendam que, em pacientes com diabete melito (DM), além da aferição anual da excreção urinária de albumina, seja realizada a estimativa da TFG por meio de equações que incluam a creatinina sérica. As equações mais empregadas e analisadas têm sido as dos estudos MDRD (Modification of Diet in Renal Disease) e CKD-EPI (Chronic kidney Disease Epidemiology Collaboration). No entanto, algumas evidências demonstram um pior desempenho dessas equações em indivíduos com DM, com acentuada subestimativa da TFG. Este desempenho limitado parece estar relacionado a peculiaridades do paciente com DM, como a presença de hiperglicemia e hiperfiltração glomerular, mas também a limitações da própria creatinina como marcador pouco sensível e específico da TFG. O uso de novos marcadores endógenos com perfil mais próximo do ideal, como é o caso da cistatina C, tem se mostrado promissor, mas a sua acurácia ainda não foi adequadamente demonstrada no DM. O objetivo desse artigo foi analisar criticamente os métodos disponíveis de medida e de estimativa da TFG em pacientes com DM, enfatizando aspectos peculiares e possíveis interferentes. / The current guidelines of Nephrology and Diabetology recommend that in patients with diabetes mellitus (DM), along with the annual measure of urinary albumin excretion, the glomerular filtration rate (GFR) should be estimated using creatinine-based equations. The most frequently recommended equations were developed by the MDRD (Modification of Diet in Renal Disease) and CKDEPI (Chronic Kidney Disease Epidemiology Collaboration) studies. However, recent evidences show a worse performance of these equations in diabetic patients, with a significant underestimation of GFR. This limited performance seems to be related to the peculiarities of the patient with DM, such as the presence of hyperglycemia and glomerular hyperfiltration, but also due to the limitations in the sensitivity and specificity of serum creatinine as GFR marker. The use of new markers with closer–to-the ideal endogenous profile, like cystatin C, has shown promise, but its accuracy has not been yet adequately demonstrated in DM. The purpose of this article was to critically analyze the current available methods of measurement and estimation of GFR in patients with DM, emphasizing its peculiarities and possible interferences. Taxa de filtração glomerular Diabetes mellitus Cistatinas Diabetes mellitus Glomerular filtration rate Creatinine MDRD CKDEPI Cystatin C
20	Construção e aplicação de um imunossensor para detecção do marcador de insuficiência renal aguda: a cistatina C / Construction and application of an immunosensor for the detection of the acute kidney injury marker: cystatin C Juliana Feliciano dos Santos 11 November 2016 (has links) Os rins desempenham um papel fundamental no sistema urinário e sua principal função é a filtração do sangue. Uma das causas que podem comprometer o funcionamento dos rins é a Insuficiência Renal Aguda (IRA) que é definida como a diminuição da taxa de filtração glomerular (TFG) de forma rápida e inesperada, causando a perda da função renal. Essa doença apresenta um número significativo de internações e também óbitos. O marcador padrão usado nos exames laboratoriais é a creatinina sérica, no entanto, a concentração da creatinina sérica pode variar dependendo de vários fatores, como idade, sexo, nutrição, entre outros. Além disso, sua concentração não varia consideravelmente nas primeiras indicações da lesão renal. Dessa forma, o diagnóstico é tardio e a função renal já pode estar comprometida. A proteína cistatina C (CST3) vem sendo indicada como um novo marcador para a doença, mostrando superioridade especialmente para detectar pequenas variações da TFG. A concentração da cistatina C não varia significativamente com a idade, sexo e massa muscular. Assim, foi desenvolvido um imunossensor para detectar a cistatina C, usando a configuração de transistor de efeito de campo de porta estendida e separada (SEGFET). Os eletrodos foram caracterizados por várias técnicas como MEV, microscopia de força atômica, técnicas eletroquímicas e também foi analisada a sensibilidade do ouro. As etapas de construção do imunossensor, e a interação do anticorpo com concentrações crescentes da proteína foram verificadas através de técnicas eletroquímicas, na faixa de concentração de 3 a 100 ng.mL-1. Nas medidas no SEGFET observou-se uma mudança significativa da corrente após a adição da cistatina C e para as substâncias interferentes não. O imunossensor apresentou alta sensibilidade detectando concentrações bem baixas da proteína alvo. A curva analítica ΔIDS% x [CST3] obteve-se L.D. = 0,75 ng.mL-1, L.Q. = 2,27 ng.mL-1 e r = 0,98122. A curva analítica ΔVGS% x [CST3] obteve-se L.D. = 0,28 ng.mL-1, L.Q. = 0,87 ng.mL-1 e r = 0,99846. Embora tenha algumas limitações o imunossensor é inovador e apresenta muitas vantagens podendo ser aplicado futuramente para o diagnóstico da doença. / The kidneys play a key role in the urinary system and its main function is the filtration of blood. One of the causes that can compromise the functioning of the kidneys is the Acute Kidney Injury (AKI), which is defined as the quickly and unexpected decrease in Glomerular Filtration Rate (GFR), causing the loss of kidney function. This disease presents a significant number of hospitalizations and also deaths. The standard marker used in laboratory tests is serum creatinine, however, serum creatinine concentration may vary depending on a number of factors, such as age, sex, nutrition, and so on. In addition, its concentration does not vary considerably in the first indications of renal injury. Thus, the diagnosis is delayed and renal function may already be compromised. The cystatin C protein (CST3) has been indicated as a new marker for the disease, showing superiority especially for detecting small variations in GFR. The concentration of cystatin C does not vary significantly with age, sex and muscle mass. Thus, an immunosensor was developed to detect cystatin C using the extended and a separate gate field effect transistor (SEGFET) configuration. The electrodes were characterized by several techniques such as SEM, atomic force microscopy, electrochemical techniques and also the sensitivity of gold was analyzed. The construction of the immunosensor, and the interaction of the antibody with increasing concentrations of the protein were verified by electrochemical techniques, in the concentration range of 3 to 100 ng.mL-1. In the measurements in the SEGFET a significant change of the current was observed after the addition of cystatin C and for the interfering substances there was no difference. The immunosensor showed high sensitivity detecting very low concentrations of the target protein. The analytical curve ΔIDS% x [CST3] was obtained L.D. = 0,75 ng.mL-1, L.Q. = 2,27 ng.mL-1 and r = 0,98122. The analytical curve ΔVGS% x [CST3] was obtained L.D. = 0,28 ng.mL-1, L.Q. = 0,87 ng.mL-1 and r = 0,99846. Although it has some limitations the immunosensor is innovative and presents many advantages and can be applied in the future to diagnose the disease. Cistatina C Diagnóstico precoce Imunossensor Insuficiência renal aguda Acute kidney injury Cystatin C Early diagnosis Immunosensor

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