Obstructive sleep apnea as a risk factor in the development of nonalcoholic fatty liver disease

Lee, Alexander Shang-Long

12 July 2018

Nonalcoholic fatty liver disease (NAFLD) afflicts approximately a quarter of the world’s general population and more than half of the world’s obese population. The disease is characterized by a spectrum of liver pathologies, ranging from simple steatosis or the accumulation of fat within hepatic tissue to steatohepatitis comprised of inflammation and fibrosis, also known as NASH. Simple steatosis is relatively asymptomatic and is considered benign, but NASH poses great risk for advanced forms of liver disease, such as cirrhosis and hepatocellular cancer. Obstructive sleep apnea(OSA) is a respiratory disorder involving the recurrent collapse of the upper airway during sleep. Consequently, the patient experiences constant arousals due to constant blockage followed reopening of the airway. Aside from poor quality and disruption of sleep, chronic intermittent hypoxia (CIH) is also present during OSA. The presence of CIH leaves many vital organs deprived of adequate oxygen to carry out normal physiological function. In response to this hypoxic state, the body upregulates many transcription factors, many of which control inflammatory processes. In recent studies, chronic and recurrent hypoxia generated from OSA has been implicated in the onset and progression of NAFLD. The pathogenesis of NAFLD is believed to be associated with metabolic imbalances, mainly obesity and insulin resistance, both of which also overlap with OSA. These conditions are the main factors in predisposing a patient suffering from OSA to the effects of CIH. Multiple lines of evidence suggest that CIH may accelerate the development of NAFLD through 1) Lipolysis of hepatic adipose tissue and increased hepatic free fatty acids; 2) Upregulation of lipid biosynthetic through CIH; 3) Upregulation of hypoxia-inducible factor 1-alpha by CIH inducing liver inflammation and fibrosis. The primary focus of this thesis will attempt to determine a possible link between OSA and NAFLD. Through citation of prior scientific studies, it will formulate the theory of OSA as a predisposing factor in the heightened risk of NAFLD pathogenesis and development to more severe, terminal stages. Primarily, the review of literature will highlight the metabolic imbalances of obesity and insulin resistance and how each is related to OSA and NAFLD. Ultimately, deposition of fat and inflammation triggered through various chemical factors connected to OSA will depict both the generation and progression of NAFLD.

Medicine

Obstructive sleep apnea (OSA)

Nonalcoholic fatty liver disease (NAFLD)

Investigating the role of lipocalin-2 as a diagnostic indicator for nonalcoholic steatohepatitis in a fructose-induced rat fatty liver model: First experimental studies

Alwahsh, Salamah Mohammad

12 December 2013

No description available.

570

Nonalcoholic fatty liver disease (NAFLD)

Metabolic syndrome

Inflammation

Biomarker

NASH

Polymorphonuclear neutrophils

Biologie (PPN619462639)

Efeitos do exercício físico sobre a expressão hepática de activina A e folistatina em modelo de doença hepática gordurosa não acoólica em ratos

Silva, Rafaella Nascimento e

10 April 2012

Made available in DSpace on 2016-06-02T20:19:18Z (GMT). No. of bitstreams: 1 4384.pdf: 6022457 bytes, checksum: 1327718b29745e1447375271aa448490 (MD5) Previous issue date: 2012-04-10 / Universidade Federal de Sao Carlos / Nonalcoholic Fatty Liver disease (NAFLD) is characterized by fat accumulation in the liver and associated with obesity and insulin resistance. Activin A is a member of the transforming growth factor (TGF)-β superfamily which inhibits hepatocyte growth and induces apoptosis. Follistatin is a glycoprotein which antagonizes the biological actions of activin. Exercise is an important therapeutic strategy to decrease the metabolic effects of obesity. In this study, we evaluated the pattern of Activin A and follistatin liver expression in obese rats submitted to swimming exercise. Adult male Wistar rats were allowed free access to standard rodent chow (control group, C) or HF diet (58% Kcal from fat, high-fat group, HF) during 12 weeks. Glucose tolerance test (GTT) and insulin tolerance test (ITT) were performed at 12 weeks. After 12 weeks, C and HF rats were randomly assigned to a swimming training group (C-Ex and HF-Ex) or a sedentary group (C-Sed and HF-Sed). C-Ex and HF-Ex swam for 45 minutes at 0900h and 1700h, 5 day week-1, for 4 weeks. After this period, rats were submitted again to GTT and then killed by decapitation. Plasma was collected for liver enzymes, alanine transaminase (ALT), aspartate transaminase (AST) and gammaglutamyl transaminase (GGT) determination. Liver was dissected and immediately frozen in liquid nitrogen and stored at -700 C for subsequent analysis. Actvin βA subunit and follistatin mRNA was quantified by real time RT-PCR. HF developed insulin resistance according to GTT and ITT tests. ALT levels were significantly higher in HF-Sed than in C-Sed and significantly lower in HF-Ex than in HF-Sed. AST and GGT did not vary among the groups. Actvin βA subunit mRNA was significantly higher in HF-Ex than in HF-Sed. Follistatin mRNA was significantly lower in C-Ex and HF-Ex compared to C-Sed and HF-Sed, respectively. There was no evidence of steatosis or inflammation (grade 0) in C. In contrast, in HF the severity of steatosis varied from grade 1 to grade 3. This was not associated with inflammation or fibrosis. After the training period, HF-Ex showed improvement in the extent of liver parenchyma damage, the severity of steatosis varying from grade 0 to grade 1. These data suggest that exercise may reduce the deleterious effects of high-fat diet on liver and the local expression of activin-follistatin may be involved. / A doença hepática gordurosa não alcoólica (DHGNA) é caracterizada pelo acúmulo de gordura no fígado e está associada à obesidade e à resistência insulínica. A activina A, membro da superfamília do fator de crescimento e transformação β (TGF-β), inibe o crescimento de hepatócitos e induz a apoptose. A folistatina é uma glicoproteína que antagoniza as ações biológicas da activina. O exercício é uma importante ferramenta terapêutica na diminuição dos efeitos metabólicos da obesidade. Neste estudo, foi avaliado o padrão de expressão de activina A e folistatina no fígado de ratos obesos submetidos ao exercício de natação. Ratos Wistar, machos e adultos tiveram acesso livre à dieta padrão (grupo controle, C) ou dieta hiperlipídica (58% Kcal de gordura, grupo dieta hiperlipídica, DH) durante 12 semanas. O teste de tolerância à glicose (TTG) e o teste de tolerância à insulina (TTI) foram realizados antes e após 3, 4, 8 e 12 semanas. Após 12 semanas, os animais C e DH foram distribuídos aleatoriamente em grupos exercício (CE e DHE) ou grupos sedentários (CS e DHS). Os grupos CE e DHE nadaram por 45 minutos às 9:00h e 17:00h, 5 vezes por semana, durante 4 semanas. Após este período, os animais foram submetidos novamente ao TTG e foram sacrificados por decapitação. O plasma foi coletado para analisar as enzimas hepáticas alanina transaminase (ALT), aspartato transaminase (AST) e gama glutamil transferase (GGT). O fígado foi dissecado e imediatamente congelado em nitrogênio líquido e armazenado a -80ºC para posterior análise. O RNAm da subunidade βA de activina e folistatina foi quantificado por PCR-RT em tempo real. O grupo DH desenvolveu resistência à insulina de acordo com os testes TTG e TTI. Os níveis de ALT foram significativamente maiores no grupo DHS comparados com o grupo CS e significativamente menores no grupo DHE comparados com o grupo DHS. Os níveis de AST e GGT não variaram entre os grupos. A expressão da subunidade βA de activina foi significativamente maior no grupo DHE comparada com o grupo DHS. A expressão de folistatina foi significativamente menor nos grupos CE e DHE comparado aos grupos CS e DHS, respectivamente. Não houve evidências de esteatose ou inflamação (grau 0) no grupo C. Porém, no grupo DH a severidade da esteatose variou do grau 1 ao grau 3, mas não foi associada com inflamação ou fibrose. Após o período de treinamento, o grupo DHE apresentou melhora na extensão da lesão do parênquima hepático, com severidade da esteatose variando do grau 0 ao grau 1. Estes dados sugerem que o exercício reduziu os efeitos deletérios da dieta hiperlipídica no fígado e a expressão local de activina-folistatina pode está envolvida.

Obesidade

Activina

Folistatina

Fígado - doenças

Exercício físico

Nonalcoholic fatty liver disease (NAFLD)

Activin-follistatin

Exercise

Efeito do Yo Jyo Hen Shi Ko (YHK) no metabolismo lipídico na esteatohepatite experimental / Evaluation of Yo Jyo Hen Shi Ko (YHK) in hepatic lipid metabolism in experimental steatohepatitis

Pereira, Isabel Veloso Alves

19 May 2010

A Doença Hepática Gordurosa Não Alcoólica (DHGNA) é atualmente uma das formas mais comuns de doença hepática, e está diretamente relacionada com a obesidade. Estudos indicam uma prevalência por volta de 30% na população ocidental e 11% na população oriental. A DGHNA possui um largo espectro abrangendo desde casos de esteatose simples sem inflamação, até casos com esteatohepatite e fibrose, podendo evoluir para cirrose e carcinoma hepatocelular. A fisiopatogênese da DHGNA é baseada em múltiplos eventos: resistência insulínica, aumento da lipólise periférica, aumento da síntese de novo de lipídeos, estresse oxidativo, endotoxemia crônica no desencadeamento da inflamação e fibrose entre outros. A etapa inicial caracteriza-se pelo acúmulo de ácidos graxos no hepatócito, suplantando sua capacidade de metabolização e exportação conseqüente à ação lipogênica da insulina, desta forma o metabolismo de ácidos graxos está intimamente ligado ao desenvolvimento da DHGNA. O Yo Jyo Hen Shi Ko (YHK) é um composto natural usado na medicina japonesa para tratamento de doenças hepáticas e apresenta propriedades antioxidantes, antiinflamatórias e hipolipemiantes. O presente estudo teve como objetivo avaliar o efeito do YHK no metabolismo hepático de lipídeos. Para tanto, foram utilizados camundongos obesos (ob/ob) com esteatohepatite não alcoólica (ENA) induzida por dieta deficiente em colina e metionina (DCM) e foram analisados no tecido hepático, genes relacionados com a síntese de novo de lipídeos (SREBP1c, FASn), genes relacionados com a oxidação e exportação de lipídeos (CPT1a e SCD-1, MTP), assim como genes relacionados com o armazenamento de lipídeos (Perilipina e ADFP). O YHK apresentou um efeito citoprotetor hepático com melhora dos parâmetros histológicos neste modelo experimental de ENA. Associadamente, houve redução na expressão de genes relacionados à síntese de novo como SREBP e da FASn, quando se comparou o grupo tratado com DCM+YHK com o grupo não tratado DCM. Em contrapartida, houve aumento na expressão da MTP e da SCD-1 ocasionando uma maior exportação de triglicerídeos hepáticos nos animais que utilizaram o YHK. Ainda, o YHK modulou as proteínas Perilipina e ADFP. Por outro lado, não houve modificação na oxidação de lipídeos.. Conclui-se que o YHK pode ser uma droga promissora no tratamento da DHGNA, já que age modulando genes envolvidos na síntese e exportação de lipídeos hepáticos, reduzindo o acúmulo de gordura no hepatócito / Nonalcoholic fatty liver disease (NAFLD) is currently one of the most common forms of liver disease, related directly to the increase of obesity in the world. Previous studies indicate a prevalence of around 30% in the western population and 11% in the eastern. This disease covers cases from simple steatosis without inflammation to cases of steato hepatitis (NASH) and fibrosis and it may lead to liver cirrhosis and hepatocellular carcinoma. The pathophysiology of NAFLD is based on multiple events: insulin resistance, increased peripheral lipolysis, increased de novo lipogenesis, oxidative stress, endotoxemia in triggering chronic inflammation and fibrosis and others. The initial stage of the disease is characterized by the accumulation of fatty acids in hepatocytes caused by the lipogenic action of insulin. This condition results in the surpassing of the cells ability to metabolize and export. This way, the metabolism of fatty acids is closely linked to the development of NAFLD. The Yo Jyo Hen Shi Ko (YHK) is a natural compound used in Japanese medicine for the treatment of liver disease and it has antioxidant, anti-inflammatory and lipid lowering properties. This study aimed to evaluate the effect of YHK in the hepatic metabolism of lipids. An experimental model was designed using obese mice (ob/ob) affected by NASH induced by a deficient diet in choline and methionine (MCD). Then, genes from its hepatic tissue related to de novo lipogenesis (SREBP1c, FASN), to lipid oxidation and exportation (CPT1A and SCD-1, MTP) as well as genes related to lipid storage (Perilipin and ADFP) were analyzed. The YHK presented a cytoprotective effect, improving the hepatic histological parameters in this experimental model. Additionally, when comparing the group treated with MCD + YHK (diet + YHK) to the untreated MCD group (diet) there was a reduction in the expression of genes related to de novo synthesis like SREBP1c and FASn. However, an increased expression of MTP and SCD-1 were observed leading to a greater liver exportation of fatty acids in animals that were treated with YHK. Moreover, the YHK modulated the proteins Perilipin and ADFP. On the other hand, there was no changing in lipid oxidation. In summary, the YHK can be a promising drug for the treatment of NAFLD, as it acts by modulating genes involved in the synthesis and exportation of hepatic lipids, reducing the accumulation of fat in hepatocytes

Camundongos ob/ob

Esteatohepatite não alcoólica (ENA)

Mice ob/ob

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Yo Jyo Hen Shi Ko (YHK)

Yo Jyo Hen Shi Ko - YHK

Cost-effectiveness of NASH screening

Zhang, Eric W.

09 1900

No description available.

Stéatohépatite non-alcoolique (NASH)

Coût-utilité

Dépistage

Coût-efficacité

élastographie

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Cost-utility

Elastography

Screening

Cost-effectiveness

Efeito do Yo Jyo Hen Shi Ko (YHK) no metabolismo lipídico na esteatohepatite experimental / Evaluation of Yo Jyo Hen Shi Ko (YHK) in hepatic lipid metabolism in experimental steatohepatitis

Isabel Veloso Alves Pereira

19 May 2010

A Doença Hepática Gordurosa Não Alcoólica (DHGNA) é atualmente uma das formas mais comuns de doença hepática, e está diretamente relacionada com a obesidade. Estudos indicam uma prevalência por volta de 30% na população ocidental e 11% na população oriental. A DGHNA possui um largo espectro abrangendo desde casos de esteatose simples sem inflamação, até casos com esteatohepatite e fibrose, podendo evoluir para cirrose e carcinoma hepatocelular. A fisiopatogênese da DHGNA é baseada em múltiplos eventos: resistência insulínica, aumento da lipólise periférica, aumento da síntese de novo de lipídeos, estresse oxidativo, endotoxemia crônica no desencadeamento da inflamação e fibrose entre outros. A etapa inicial caracteriza-se pelo acúmulo de ácidos graxos no hepatócito, suplantando sua capacidade de metabolização e exportação conseqüente à ação lipogênica da insulina, desta forma o metabolismo de ácidos graxos está intimamente ligado ao desenvolvimento da DHGNA. O Yo Jyo Hen Shi Ko (YHK) é um composto natural usado na medicina japonesa para tratamento de doenças hepáticas e apresenta propriedades antioxidantes, antiinflamatórias e hipolipemiantes. O presente estudo teve como objetivo avaliar o efeito do YHK no metabolismo hepático de lipídeos. Para tanto, foram utilizados camundongos obesos (ob/ob) com esteatohepatite não alcoólica (ENA) induzida por dieta deficiente em colina e metionina (DCM) e foram analisados no tecido hepático, genes relacionados com a síntese de novo de lipídeos (SREBP1c, FASn), genes relacionados com a oxidação e exportação de lipídeos (CPT1a e SCD-1, MTP), assim como genes relacionados com o armazenamento de lipídeos (Perilipina e ADFP). O YHK apresentou um efeito citoprotetor hepático com melhora dos parâmetros histológicos neste modelo experimental de ENA. Associadamente, houve redução na expressão de genes relacionados à síntese de novo como SREBP e da FASn, quando se comparou o grupo tratado com DCM+YHK com o grupo não tratado DCM. Em contrapartida, houve aumento na expressão da MTP e da SCD-1 ocasionando uma maior exportação de triglicerídeos hepáticos nos animais que utilizaram o YHK. Ainda, o YHK modulou as proteínas Perilipina e ADFP. Por outro lado, não houve modificação na oxidação de lipídeos.. Conclui-se que o YHK pode ser uma droga promissora no tratamento da DHGNA, já que age modulando genes envolvidos na síntese e exportação de lipídeos hepáticos, reduzindo o acúmulo de gordura no hepatócito / Nonalcoholic fatty liver disease (NAFLD) is currently one of the most common forms of liver disease, related directly to the increase of obesity in the world. Previous studies indicate a prevalence of around 30% in the western population and 11% in the eastern. This disease covers cases from simple steatosis without inflammation to cases of steato hepatitis (NASH) and fibrosis and it may lead to liver cirrhosis and hepatocellular carcinoma. The pathophysiology of NAFLD is based on multiple events: insulin resistance, increased peripheral lipolysis, increased de novo lipogenesis, oxidative stress, endotoxemia in triggering chronic inflammation and fibrosis and others. The initial stage of the disease is characterized by the accumulation of fatty acids in hepatocytes caused by the lipogenic action of insulin. This condition results in the surpassing of the cells ability to metabolize and export. This way, the metabolism of fatty acids is closely linked to the development of NAFLD. The Yo Jyo Hen Shi Ko (YHK) is a natural compound used in Japanese medicine for the treatment of liver disease and it has antioxidant, anti-inflammatory and lipid lowering properties. This study aimed to evaluate the effect of YHK in the hepatic metabolism of lipids. An experimental model was designed using obese mice (ob/ob) affected by NASH induced by a deficient diet in choline and methionine (MCD). Then, genes from its hepatic tissue related to de novo lipogenesis (SREBP1c, FASN), to lipid oxidation and exportation (CPT1A and SCD-1, MTP) as well as genes related to lipid storage (Perilipin and ADFP) were analyzed. The YHK presented a cytoprotective effect, improving the hepatic histological parameters in this experimental model. Additionally, when comparing the group treated with MCD + YHK (diet + YHK) to the untreated MCD group (diet) there was a reduction in the expression of genes related to de novo synthesis like SREBP1c and FASn. However, an increased expression of MTP and SCD-1 were observed leading to a greater liver exportation of fatty acids in animals that were treated with YHK. Moreover, the YHK modulated the proteins Perilipin and ADFP. On the other hand, there was no changing in lipid oxidation. In summary, the YHK can be a promising drug for the treatment of NAFLD, as it acts by modulating genes involved in the synthesis and exportation of hepatic lipids, reducing the accumulation of fat in hepatocytes

Camundongos ob/ob

Esteatohepatite não alcoólica (ENA)

Yo Jyo Hen Shi Ko - YHK

Mice ob/ob

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Yo Jyo Hen Shi Ko (YHK)

Ultrasound shear wave imaging for diagnosis of nonalcoholic fatty liver disease

Yazdani, Ladan

04 1900

Pour le diagnostic et la stratification de la fibrose hépatique, la rigidité du foie est un biomarqueur quantitatif estimé par des méthodes d'élastographie. L'élastographie par ondes de cisaillement (« shear wave », SW) utilise des ultrasons médicaux non invasifs pour évaluer les propriétés mécaniques du foie sur la base des propriétés de propagation des ondes de cisaillement. La vitesse des ondes de cisaillement (« shear wave speed », SWS) et l'atténuation des ondes de cisaillement (« shear wave attenuation », SWA) peuvent fournir une estimation de la viscoélasticité des tissus. Les tissus biologiques sont intrinsèquement viscoélastiques et un modèle mathématique complexe est généralement nécessaire pour calculer la viscoélasticité en imagerie SW. Le calcul précis de l'atténuation est essentiel, en particulier pour une estimation précise du module de perte et de la viscosité. Des études récentes ont tenté d'augmenter la précision de l'estimation du SWA, mais elles présentent encore certaines limites. Comme premier objectif de cette thèse, une méthode de décalage de fréquence revisitée a été développée pour améliorer les estimations fournies par la méthode originale de décalage en fréquence [Bernard et al 2017]. Dans la nouvelle méthode, l'hypothèse d'un paramètre de forme décrivant les caractéristiques spectrales des ondes de cisaillement, et assumé initialement constant pour tous les emplacements latéraux, a été abandonnée permettant un meilleur ajustement de la fonction gamma du spectre d'amplitude. En second lieu, un algorithme de consensus d'échantillons aléatoires adaptatifs (« adaptive random sample consensus », A-RANSAC) a été mis en œuvre pour estimer la pente du paramètre de taux variable de la distribution gamma afin d’améliorer la précision de la méthode. Pour valider ces changements algorithmiques, la méthode proposée a été comparée à trois méthodes récentes permettant d’estimer également l’atténuation des ondes de cisaillements (méthodes de décalage en fréquence, de décalage en fréquence en deux points et une méthode ayant comme acronyme anglophone AMUSE) à l'aide de données de simulations ou fantômes numériques. Également, des fantômes de gels homogènes in vitro et des données in vivo acquises sur le foie de canards ont été traités. Comme deuxième objectif, cette thèse porte également sur le diagnostic précoce de la stéatose hépatique non alcoolique (NAFLD) qui est nécessaire pour prévenir sa progression et réduire la mortalité globale. À cet effet, la méthode de décalage en fréquence revisitée a été testée sur des foies humains in vivo. La performance diagnostique de la nouvelle méthode a été étudiée sur des foies humains sains et atteints de la maladie du foie gras non alcoolique. Pour minimiser les sources de variabilité, une méthode d'analyse automatisée faisant la moyenne des mesures prises sous plusieurs angles a été mise au point. Les résultats de cette méthode ont été comparés à la fraction de graisse à densité de protons obtenue de l'imagerie par résonance magnétique (« magnetic resonance imaging proton density fat fraction », MRI-PDFF) et à la biopsie du foie. En outre, l’imagerie SWA a été utilisée pour classer la stéatose et des seuils de décision ont été établis pour la dichotomisation des différents grades de stéatose. Finalement, le dernier objectif de la thèse consiste en une étude de reproductibilité de six paramètres basés sur la technologie SW (vitesse, atténuation, dispersion, module de Young, viscosité et module de cisaillement). Cette étude a été réalisée chez des volontaires sains et des patients atteints de NAFLD à partir de données acquises lors de deux visites distinctes. En conclusion, une méthode robuste de calcul du SWA du foie a été développée et validée pour fournir une méthode de diagnostic de la NAFLD. / For diagnosis and staging of liver fibrosis, liver stiffness is a quantitative biomarker estimated by elastography methods. Ultrasound shear wave (SW) elastography utilizes noninvasive medical ultrasound to assess the mechanical properties of the liver based on the monitoring of the SW propagation. SW speed (SWS) and SW attenuation (SWA) can provide an estimation of tissue viscoelasticity. Biological tissues are inherently viscoelastic in nature and a complex mathematical model is usually required to compute viscoelasticity in SW imaging. Accurate computation of attenuation is critical, especially for accurate loss modulus and viscosity estimation. Recent studies have made attempts to increase the precision of SWA estimation, but they still face some limitations. As a first objective of this thesis, a revisited frequency-shift method was developed to improve the estimates provided by the original implementation of the frequency-shift method [Bernard et al 2017]. In the new method, the assumption of a constant shape parameter of the gamma function describing the SW magnitude spectrum has been dropped for all lateral locations, allowing a better gamma fitting. Secondly, an adaptive random sample consensus algorithm (A-RANSAC) was implemented to estimate the slope of the varying rate parameter of the gamma distribution to improve the accuracy of the method. For the validation of these algorithmic changes, the proposed method was compared with three recent methods proposed to estimate SWA (frequency-shift, two-point frequency-shift and AMUSE methods) using simulation data or numerical phantoms. In addition, in vitro homogenous gel phantoms and in vivo animal (duck) liver data were processed. As a second objective, this thesis also aimed at improving the early diagnosis of nonalcoholic fatty liver disease (NAFLD), which is necessary to prevent its progression and decrease the overall mortality. For this purpose, the revisited frequency-shift method was tested on in vivo human livers. The new method's diagnosis performance was investigated with healthy and NAFLD human livers. To minimize sources of variability, an automated analysis method averaging measurements from several angles has been developed. The results of this method were compared to the magnetic resonance imaging proton density fat fraction (MRI-PDFF) and to liver biopsy. SWA imaging was used for grading steatosis and cut-off decision thresholds were established for dichotomization of different steatosis grades. As a third objective, this thesis is proposing a reproducibility study of six SW-based parameters (speed, attenuation, dispersion, Young’s modulus, viscosity and shear modulus). The assessment was performed in healthy volunteers and NAFLD patients using data acquired at two separate visits. In conclusion, a robust method for computing the liver’s SWA was developed and validated to provide a diagnostic method for NAFLD.

Échographie

Élastographie par ondes de cisaillement

Atténuation d’ondes de cisaillement

Stéatose hépatique non alcoolique

Stéatose hépatique

Dispersion des vitesses de cisaillement

Biopsie

Reproductibilité

Viscoélasticité

Ultrasound

Shear wave elastography

Shear wave attenuation

Nonalcoholic fatty liver disease (NAFLD)

Liver steatosis

Shear wave speed dispersion

MRI proton density fat fraction

Biopsy

Reproducibility

Viscoelasticity