Elastografia hepática em pacientes com carcinoma hepatocelular em triagem para transplante de fígado / Liver elastography in patients with hepatocellular carcinoma in screening for liver transplantation

Lucas Souto Nacif

15 December 2014

INTRODUÇÃO: A cirrose é a oitava causa de mortalidade no mundo, e sua progressão e estadiamento são de extrema importância nos pacientes com doença terminal do fígado. A presença de cirrose é reconhecida como risco aumentado de carcinoma hepatocelular (CHC) e o seu aparecimento está diretamente relacionado ao grau de fibrose do fígado. Na última década, notou-se o desenvolvimento e aperfeiçoamento dos métodos de predição do grau de fibrose e cirrose, através de métodos não-invasivos, com o objetivo de substituir a biópsia hepática. A população em lista de espera para transplante de fígado apresenta graus diferentes de fibrose hepática, que pode não estar diretamente relacionada ao MELD. Além disso, esses pacientes apresentam CHC no momento da triagem para transplante de fígado. Não existe avaliação desta população por elastografia. OBJETIVO: O objetivo deste trabalho foi avaliar os pacientes em triagem para transplante de fígado, com e sem carcinoma hepatocelular, pela elastografia hepática com Fibroscan® e ARFI. MÉTODO: Foram estudados 103 pacientes adultos do ambulatório de triagem da Disciplina de Transplante de Órgãos do Aparelho Digestivo HC/FMUSP, no período de outubro de 2012 à dezembro de 2013. A amostragem foi por conveniência e foram avaliados dados clínicos, epidemiográficos, laboratoriais, imagem, elastográficos e o desfecho. Análise de elastografia transitória (ET) foi feita pelo Fibroscan® TM (Echosens, França) e força impulso por radiação acústica (ARFI) (Siemens Acuson S2000, Alemanha) nos grupos com e sem CHC comprovados de acordo com orientação de diagnóstico pelas diretrizes européias (EASL) e americanas (AASLD). Para a análise estatística foi realizado o teste de Mann-Whitney, teste não paramétrico aplicado para duas amostras independentes; o teste de Fisher e o método ANOVA através do teste de Kruskal-Wallis ou teste de Tukey para comparações múltiplas. Foi realizado também a curva ROC para avaliação dos testes diagnósticos e ponto de corte. O valor considerado de p significativo foi <0,05. RESULTADOS: Entre os pacientes avaliados, a maioria foi de homens (68%), com idade média de 53 ± 11,5 anos. A etiologia mais comum foi o vírus da hepatite C (VHC) em 34,9%. A classificação pelo escore Child-Turcotte-Pugh (CTP) mostrou: pacientes classe A em 38,4%, classe B em 47,2% e classe C em 14,2%. O valor do MELD médio dos pacientes foi de 14,75 (± 6,45) e a mediana de 14 (variando, 6 - 32). Na população estudada de 103 pacientes, a ET (Fibroscan®) foi realizada com sucesso em 75 de 103 pacientes e ARFI em 78 de 78 pacientes. A etiologia VHC e elevados valores de alfa-feto proteína foram fatores de risco para a presença de CHC. Os valores de MELD mais elevados foram significativos nos pacientes que evoluíram a óbito. A curva ROC mostrou respectivamente sensibilidade e especificidade para a AFP de 50% e 86% (valor de corte 9,1); ET (valor de corte 9 kPa) 92% e 17%; e ARFI 21% e 92% (valor de corte 2,56 m/s). O valor médio da ET nos pacientes com CHC foi de 30,4 ± 21,0 kPa, do ARFI do parênquima hepático foi de 1,97 ± 0,64 e ARFI do nódulo hepático foi de 1,89 ± 0,74. CONCLUSÃO: Os pacientes em triagem para transplante de fígado com carcinoma hepatocelular apresentam valores elevados de elastografia tanto pelo Fibroscan® quanto pelo ARFI®. A elastografia apresenta-se como uma importante ferramenta não invasiva para o acompanhamento de cirróticos graves podendo ajudar no manejo do carcinoma hepatocelular / INTRODUCTION: Cirrhosis is the eighth leading cause of mortality worldwide and its progression and staging are extremely important in patients with end liver disease. The presence of cirrhosis is recognized as an increased risk of hepatocellular carcinoma (HCC) and its incidence is directly related to the degree of liver fibrosis. In the last decade, was noted the development and improvement of methods for predicting the degree of fibrosis and cirrhosis using non-invasive methods, aiming to replace the liver biopsy. The population on the liver transplant waiting list presents different degrees of liver fibrosis, which may not be directly related to MELD. In addition, these patients have HCC at the time of screening for liver transplantation. There is no evaluation of this population by elastography. OBJECTIVE: The aim of this study was to evaluate patients on screened to the list for liver transplantation, with and without hepatocellular carcinoma, by liver elastography with Fibroscan and ARFI. METHOD: Were studied 103 adult patients from the screening for liver transplantation waiting list on the Liver and Gastrointestinal Transplant Division HC/FMUSP from October 2012 to December 2013. Sampling for convenience and evaluation clinical data, epidemiological, laboratory, imaging, elastography findings and outcome. Analysis of transient elastography (TE) by Fibroscan TM (Echosens, France) and Acoustic Radiation Force Impulse (ARFI) by (Siemens Acuson S2000, Germany) in patients with and without HCC proven in accordance with guidelines of diagnosis EASL/AASLD. Fisher\'s ANOVA or Kruskal-Wallis tests Whitney-Mann Test were performed. Tukey and define cut-of for examinations with ROC curves. The p value considered was < 0.05. RESULTS: Among the patients, the majority were men (68%), mean age 53 ± 11.5 years. This is the most common cause of hepatitis C virus (HCV) 34.9%. The classification by Child-Turcotte-Pugh score (CTP) showed: class A patients in 38.4%, 47.2% in class B and class C in 14.2%. The average value of MELD patients was 14.75 (± 6.45) and a median of 14 (range, 6-32). In the study population of 103 patients, the ET (Fibroscan) was successfully performed in 75 of 103 patients and ARFI in 78 of 78 patients. The HCV etiology and high levels of alpha-fetoprotein were risk factors for the presence of HCC. MELD values were significant higher in patients who died. The ROC curve shown respectively sensitivity and specificity for AFP of 50% and 86% (cutoff 9.1); ET (9 cutoff kPa) 92% to 17%; and ARFI 21% and 92% (cut-off 2.56 m / s). The average value of ET in HCC patients was 30.4 ± 21.0 kPa, the ARFI parenchymal liver was 1.97 ± 0.64 and ARFI liver nodules was 1.89 ± 0.74. CONCLUSION: Patients in screening for liver transplantation with hepatocellular carcinoma have elevated values of both elastography by Fibroscan as the ARFI®. Elastography is presented as an important non-invasive tool for monitoring severe cirrhosis may help in management of hepatocellular carcinoma

Carcinoma hepatocelular

Elastografia

Estágio final de doença hepática

Transplante de fígado

Elastography

End stage liver disease

Hepatocellular carcinoma

Liver transplantation

Ethanol Feeding Reduces Circulating CTRP3 Levels

Fleming, Christina Katelyn, Peterson, Jonathan M.

01 April 2016

Abstract available through The FASEB Journal.

alcohol-induced fatty liver disease

AFLD

C1q TNF Related Protein 3

CTRP3

Health Sciences

Hepatology

Medical Sciences

Pathogenesis of the Metabolic Syndrome: influence of lipid depots and effect of physical activity

Lisa-Marie Atkin

Unknown Date

Abstract Metabolic Syndrome (MetSyn) is a medical condition prevalent in Australia. MetSyn is diagnosed with a varying combination of visceral obesity, insulin resistance/ impaired glucose tolerance/ Type 2 diabetes, dyslipidaemia and hypertension. Obesity is a central feature of this syndrome that is characterised by abnormalities in glucose and lipid metabolism. An understanding of the cause of the metabolic derangement that occurs in obesity, and that contributes to MetSyn, would allow effective treatment and prevention strategies to be formulated. This is a priority in the current environment of highly prevalent overweight and obesity in Australian children and adults. Lipotoxicity of insulin-dependent tissues and ectopic fat depots are emerging as fundamental processes in the pathogenesis of MetSyn. Lifestyle intervention, such as increased physical activity, show great promise as agents for disrupting the disease progression and may act via direct or indirect mechanisms on the underlying pathology of MetSyn. This study aimed to determine if diagnostic markers of MetSyn exist in obese, prepubertal, Australian children and to assess the contribution of lifestyle factors on components of MetSyn. Further, this study sought to investigate the relationship between body fat patterning (total body fat, abdominal adipose depots, skeletal intramyocellular lipids, intrahepatocellular lipids) and markers of MetSyn. An experimental intervention was then employed to examine the effect of physical activity on body fat distribution, insulin sensitivity, and haemodynamic and biochemical markers of MetSyn, and additionally to determine if the effect of exercise on parameters of MetSyn was mediated by a change in body fat patterning. Data were collected in a group of 15 obese (mean BMI Z-score 2.51 ± 0.49), prepubertal children (6 male, 9 female) aged 5.1 – 11.4 years (mean age 7.82 yrs ± 1.83). Measures included insulin sensitivity, blood biochemistry (lipid, haemostatic and adipocyte activity markers), blood pressure, two-compartment body composition by hydrometry, and nuclear magnetic resonance scanning for abdominal adipose depots, intrahepatic lipids and skeletal intramyocellular lipids. Each child’s habitual nutrition and physical activity were also ascertained using multiple-pass 24-hr diet recalls and accelerometry respectively. Data collection was conducted pre and post a 12-week physical activity intervention which consisted of cardiorespiratory activity during instructor led sessions (60 mins, twice weekly) and family led sessions (>10 mins, 4 days/wk). There is no universally accepted definition of MetSyn in childhood. The International Diabetes Federation suggests that MetSyn should not be diagnosed in children aged 6 to < 10 years. Children can be identified to be at risk of MetSyn, however, based on waist circumference ≥90th percentile and family history1,2; all subjects in this study were at risk according to these criteria. Four definitions of paediatric MetSyn previously applied to a group of young, overweight Australian children3 were used to calculate the prevalence of MetSyn in the current sample and it was found to be 27-89% at baseline and 13-80% after the experimental intervention depending upon the definition used. Acanthosis nigricans and impaired glucose tolerance (IGT) were present in one female child. Post-intervention, IGT had resolved and the child was glucose tolerant. Habitual dietary intake (energy intake and macronutrients) measured over a 3-day period pre-intervention displayed a significant positive association between fasting glucose and energy intake, as well as a significant negative association between fasting glucose and the protein component of the diet. Following the physical activity programme, energy intake was significantly positively correlated with body fat percentage (% BF). There was no difference found in dietary intake assessed prior to and following cessation of the physical activity intervention, in terms of energy or % energy from macronutrients. Habitual physical activity was not related to MetSyn diagnostic indicators. A higher level of physical fitness, estimated by predicted O2max (ml•kg-1•min-1), was significantly correlated with a lower level of diastolic blood pressure at baseline. A greater fitness level ( O2max) was moderately correlated with a lower BMI Z-score following the 12-week intervention. There was no difference between pre- and post-intervention habitual physical activity. A trend towards less sedentary time and increased light intensity activity was found, but these did not reach significance. Physical fitness level showed a trend for improvement following the intervention (P = 0.060). Anthropometrically determined body composition and body fat distribution did not change following the intervention. Radiologically determined abdominal adipose tissue depots were not significantly different post-intervention. % BF was not different when assessed with bioelectrical impedance analysis. However, % BF did reduce significantly over the 12-week intervention period when quantified by hydrometry (42.3% ± 5.0 vs 36.9% ± 8.6, P = 0.022). Adipokines, the secretory products of adipocytes displaying pleiotropic metabolic action, were investigated for their relation to lipid depots and additionally for change post-intervention. Cardiovascular (CV) disease risk was investigated by proatherogenic and protective blood lipids. When examined at baseline, fasting blood triacylglycerols (TAG) were inversely associated with basal and stimulated insulin sensitivity. Post-intervention, a higher level of HDL-C was found to be associated with greater insulin sensitivity, although this was not apparent at baseline. The relation between TAG and insulin sensitivity discovered pre-intervention was no longer evident. All other biomarkers of CV risk were not associated with body composition, glucose homeostasis, and lifestyle factors pre- and post-intervention. The effect of the physical activity intervention on indicators of haemostasis, physical fitness, blood lipids and lipoproteins, systemic inflammation, and fibrinolytic activity were analysed for change. Both systolic and diastolic blood pressure were significantly reduced following the physical activity programme. There was no significant difference found in any other measured parameter of CV risk. Log[HOMA], a surrogate index of insulin resistance, was significantly decreased post-intervention indicating reduced insulin resistance. QUICKI, a surrogate index of insulin sensitivity, was significantly improved post-intervention. The remaining indicators of insulin resistance, insulin sensitivity and β-cell function based on fasting surrogates did not significantly change over the 12-week experimental period. Dynamic insulin sensitivity and β-cell function were investigated pre- and post-intervention using paired samples t-tests. Glucose and insulin area under the curve of the OGTT were significantly reduced and whole-body insulin sensitivity index (WBISI) was significantly increased hence showing an improvement in stimulated insulin sensitivity. AUCCP/AUCglu significantly declined also indicating an improved response to oral glucose stimulation. IGI and ΔCP30/ΔG30, as markers of β-cell insulin secretion, did not change. Disposition index, the interrelationship of insulin secretion (IGI) and insulin sensitivity (WBISI), was not changed pre- and post-intervention. Hepatic insulin extraction was increased post-intervention (4.3 ± 1.2 vs 4.8 ± 1.1, P = 0.022) possibly due to greater hepatic and/or peripheral insulin sensitivity. General linear modeling (GLM) showed the improvement in whole-body insulin sensitivity discovered following the intervention was independent of % BF, abdominal adipose tissue depots, and ectopic lipid depots. Intrahepatocellular lipids (IHCL) significantly decreased after the 12-week intervention (6.99% ± 9.41 vs 5.83% ± 8.54) whilst there was no significant change in the serum markers of liver inflammation. IHCL was positively and strongly associated with total abdominal adipose tissue, intra-abdominal adipose tissue and subcutaneous abdominal adipose tissue both before and after the intervention. IHCL was positively associated with %BF measured post-intervention; this relationship almost reached significance when measured pre-intervention (P = 0.060). IHCL was not associated with insulin sensitivity either pre- or post-intervention nor with circulating lipids at either timepoint. The change in IHCL was independent of % BF and abdominal adipose tissue tested by GLM. However, there was no significant difference found in IHCL post-intervention after adjustment for insulin sensitivity (WBISI) by GLM. Prior to intervention, 10 of 15 subjects had hepatic steatosis diagnostic of non-alcoholic fatty liver disease. Eight of the 10 subjects with clinically significant hepatic steatosis had reduction of fatty infiltrate following the exercise intervention. In the whole group it was demonstrated that physical activity attenuates lipid infiltration of the liver independent of body fat. To further investigate the pathophysiology of ectopic lipid depots, biomarkers of oxidative stress and anti-oxidant status were examined in relation to IHCL. Pre-intervention, there was no association found between pro-oxidative or anti-oxidative activity and IHCL. Post-intervention, an inverse association of plasma carotenoid:cholesterol ratio with IHCL was found. Skeletal intramyocellular lipids (IMCL) measured in the right soleus were significantly increased post-intervention (2.4 ± 1.1 vs 2.6 ± 1.2, P = 0.035). There was no association between IMCL and % BF when measured pre- or post-intervention. Abdominal adipose depots were associated with IMCL at baseline and following the intervention. IMCL was not related to IHCL at either timepoint. Pre-intervention, there was a trend for a relationship between IMCL and insulin. Post-intervention, IMCL was tightly and inversely correlated with insulin sensitivity (r = -0.85 P = 0.000). Linear regression between IMCL and WBISI run pre-intervention and post-intervention found the slopes were not significantly different whereas the intercepts were highly significantly different (P = 0.001), thus, as IMCL increased there was a corresponding decrease in insulin sensitivity. GLM found the increase in IMCL was independent of % BF and abdominal adipose tissue, but was not independent of WBISI. These data indicate the greater IMCL level found post-intervention was a non-pathologic training adaptation. To further investigate the pathophysiology of ectopic lipid depots, biomarkers of oxidative stress and anti-oxidant status were examined in relation to IMCL. Pre-intervention, there was a positive association between malondialdehyde and IMCL. Post-intervention, an inverse association was found between IMCL and both plasma total carotenoids and total carotenoid:free cholesterol ratio. In summation, this study found improved metabolic health in obese, prepubertal children following a 12-week physical activity intervention without dietary intervention or intentional weight loss. Body fat and fat distribution were not prime mediators for the effect of the intervention on parameters of the Metabolic Syndrome; whereas insulin sensitivity was discovered to be a mediator of the change shown in ectopic fat depots. Causality and directionality of these fascinating relationships cannot be determined from the present study, and further research is encouraged. This thesis offers an insight into the pathogenesis of MetSyn and the use of physical activity to improve MetSyn in the setting of paediatric obesity.

metabolic syndrome

children

obesity

physical activity

exercise

diabetes

visceral fat

intramyocellular lipid

non-alcoholic fatty liver disease

hepatic steatosis

A PROTEOMIC STUDY OF OXIDATIVE STRESS IN ALCOHOLIC LIVER DISEASE

Newton, Billy W.

16 January 2010

Alcoholic steatosis (AS) is the initial pathology associated with early stage alcoholic liver disease and is characterized by the accumulation of fat in the liver. AS is considered clinically benign as it is reversible, as compared with alcoholic steatohepatitis (ASH) which is the next stage of alcoholic liver disease (ALD), and mostly irreversible. Proteomics were used to investigate the molecular basis of AS to determine biomarkers representative of AS. Liver tissue proteins at different stages of steatosis from a rodent model of AS were separated by two dimensional electrophoresis (2DE), followed by MALDI mass spectrometry (MS) identification of significantly expressed proteins. Expression levels of several proteins related to alcohol induced oxidative stress, such as peroxiredoxin 6 (PRDX6) and aldehyde dehydrogenase 2 (ALDH2) were reduced by 2 to 3-fold in ethanol fed rats, and suggested an increase in oxidative stress. Several proteins involved in fatty acid and amino acid metabolism were found at increased expression levels, suggesting higher energy demand upon chronic exposure to ethanol. In order to delineate between the effects of fat accumulation and oxidative stress, an in vitro hepatocyte cell culture model of steatosis was developed. HepG2 cells loaded with oleic acid surprisingly demonstrated lower cytotoxicity upon oxidative challenge (based on lactate dehydrogenase activity) and inflammation (based on TNF-? induced activation of the pro-inflammatory transcription factor NF-?B). We also examined the effect of oleic acid loading in HepG2 cells on protein carbonylation, which is an important irreversible protein modification during oxidative stress that leads to protein dysfunction and disease. Fat-loaded hepatocytes exposed to oxidative stress with tert-butyl hydroperoxide (TBHP) contained 17% less carbonylated proteins than the non-fat loaded control. Mass spectrometric analysis of carbonylated proteins indicated that known classical markers of protein carbonylation (e.g., cytoskeletal proteins, chaperones) are not carbonylated in oleic acid loaded HepG2 cells, and suggests that the protective effect of fat loading is through interference with protein carbonylation. While counterintuitive to the general concept that AS increases oxidative stress, our fat loading results suggests that low levels of fat may activate antioxidant pathways and ameliorate the effect of subsequent oxidative or inflammatory challenge.

A PROTEOMIC STUDY OF OXIDATIVE STRESS IN ALCOHOLIC LIVER DISEASE

Newton, Billy W.

16 January 2010

Alcoholic steatosis (AS) is the initial pathology associated with early stage alcoholic liver disease and is characterized by the accumulation of fat in the liver. AS is considered clinically benign as it is reversible, as compared with alcoholic steatohepatitis (ASH) which is the next stage of alcoholic liver disease (ALD), and mostly irreversible. Proteomics were used to investigate the molecular basis of AS to determine biomarkers representative of AS. Liver tissue proteins at different stages of steatosis from a rodent model of AS were separated by two dimensional electrophoresis (2DE), followed by MALDI mass spectrometry (MS) identification of significantly expressed proteins. Expression levels of several proteins related to alcohol induced oxidative stress, such as peroxiredoxin 6 (PRDX6) and aldehyde dehydrogenase 2 (ALDH2) were reduced by 2 to 3-fold in ethanol fed rats, and suggested an increase in oxidative stress. Several proteins involved in fatty acid and amino acid metabolism were found at increased expression levels, suggesting higher energy demand upon chronic exposure to ethanol. In order to delineate between the effects of fat accumulation and oxidative stress, an in vitro hepatocyte cell culture model of steatosis was developed. HepG2 cells loaded with oleic acid surprisingly demonstrated lower cytotoxicity upon oxidative challenge (based on lactate dehydrogenase activity) and inflammation (based on TNF-? induced activation of the pro-inflammatory transcription factor NF-?B). We also examined the effect of oleic acid loading in HepG2 cells on protein carbonylation, which is an important irreversible protein modification during oxidative stress that leads to protein dysfunction and disease. Fat-loaded hepatocytes exposed to oxidative stress with tert-butyl hydroperoxide (TBHP) contained 17% less carbonylated proteins than the non-fat loaded control. Mass spectrometric analysis of carbonylated proteins indicated that known classical markers of protein carbonylation (e.g., cytoskeletal proteins, chaperones) are not carbonylated in oleic acid loaded HepG2 cells, and suggests that the protective effect of fat loading is through interference with protein carbonylation. While counterintuitive to the general concept that AS increases oxidative stress, our fat loading results suggests that low levels of fat may activate antioxidant pathways and ameliorate the effect of subsequent oxidative or inflammatory challenge.

Facilitating Clinical Trials of Parenteral Lipid Strategies for the Prevention of Intestinal Failure Associated Liver Disease (IFALD) in Infants

Diamond, Ivan R.

15 November 2013

Objective: The objective of this thesis was to facilitate clinical trials of the optimal lipid based approach (e.g.: omega-3 containing lipid emulsions or minimization of conventional lipid) for the prevention of Intestinal Failure Associated Liver Disease (IFALD). This was achieved through 3 related projects. Project 1: The first project examined the risk of advanced IFALD associated with exposure to conventional intravenous lipid in a logistic regression model. The study demonstrated that each day of conventional lipid (> 2.5 g/kg/day) was associated with a significant increase in the risk of advanced IFALD [Odds Ratio: 1.04 95% CI: 1.003 – 1.06]. Project 2: The second project surveyed experts in Intestinal Failure regarding their beliefs of the efficacy of lipid minimization and lipid emulsions containing omega-3 fatty acids relative to conventional emulsions. The goal of the project was to develop prior distributions of the treatment response for these therapies that can be used in Bayesian analyses of clinical trials. Our results demonstrated consistent expert opinion that the novel lipid based approaches are superior to conventional therapy. Estimates of the treatment effect were similar for the two approaches (median elicited treatment response, relative to conventional lipid, was a relative risk of 0.53 for omega-3 lipid and 0.45 for lipid minimization). Project 3: The final project was a pilot randomized controlled trial of an omega-3 emulsion. The study demonstrated that the randomized design is a feasible strategy for evaluating lipid based approaches for the prevention of IFALD. A Bayesian preliminary assessment of the results of the trial, suggests a high likelihood that the trial will demonstrate a difference between the conventional and omega-3 emulsion evaluated in the trial. However, since the analysis was blinded, the direction of the difference is not known. Conclusion: This thesis will contribute to the design and analysis of high quality and feasible randomized trials that will allow investigators to address the optimal lipid based approach to the management of IFALD.

Intestinal Failure

Clinical Trials

Parenteral Nutrition

Omega-3 fatty acids

Bayesian Statistics

0766

0564

0570

Facilitating Clinical Trials of Parenteral Lipid Strategies for the Prevention of Intestinal Failure Associated Liver Disease (IFALD) in Infants

Diamond, Ivan R.

15 November 2013

Objective: The objective of this thesis was to facilitate clinical trials of the optimal lipid based approach (e.g.: omega-3 containing lipid emulsions or minimization of conventional lipid) for the prevention of Intestinal Failure Associated Liver Disease (IFALD). This was achieved through 3 related projects. Project 1: The first project examined the risk of advanced IFALD associated with exposure to conventional intravenous lipid in a logistic regression model. The study demonstrated that each day of conventional lipid (> 2.5 g/kg/day) was associated with a significant increase in the risk of advanced IFALD [Odds Ratio: 1.04 95% CI: 1.003 – 1.06]. Project 2: The second project surveyed experts in Intestinal Failure regarding their beliefs of the efficacy of lipid minimization and lipid emulsions containing omega-3 fatty acids relative to conventional emulsions. The goal of the project was to develop prior distributions of the treatment response for these therapies that can be used in Bayesian analyses of clinical trials. Our results demonstrated consistent expert opinion that the novel lipid based approaches are superior to conventional therapy. Estimates of the treatment effect were similar for the two approaches (median elicited treatment response, relative to conventional lipid, was a relative risk of 0.53 for omega-3 lipid and 0.45 for lipid minimization). Project 3: The final project was a pilot randomized controlled trial of an omega-3 emulsion. The study demonstrated that the randomized design is a feasible strategy for evaluating lipid based approaches for the prevention of IFALD. A Bayesian preliminary assessment of the results of the trial, suggests a high likelihood that the trial will demonstrate a difference between the conventional and omega-3 emulsion evaluated in the trial. However, since the analysis was blinded, the direction of the difference is not known. Conclusion: This thesis will contribute to the design and analysis of high quality and feasible randomized trials that will allow investigators to address the optimal lipid based approach to the management of IFALD.

Intestinal Failure

Clinical Trials

Parenteral Nutrition

Omega-3 fatty acids

Bayesian Statistics

0766

0564

0570

Pathogenesis of the Metabolic Syndrome: influence of lipid depots and effect of physical activity

Lisa-Marie Atkin

Unknown Date

Abstract Metabolic Syndrome (MetSyn) is a medical condition prevalent in Australia. MetSyn is diagnosed with a varying combination of visceral obesity, insulin resistance/ impaired glucose tolerance/ Type 2 diabetes, dyslipidaemia and hypertension. Obesity is a central feature of this syndrome that is characterised by abnormalities in glucose and lipid metabolism. An understanding of the cause of the metabolic derangement that occurs in obesity, and that contributes to MetSyn, would allow effective treatment and prevention strategies to be formulated. This is a priority in the current environment of highly prevalent overweight and obesity in Australian children and adults. Lipotoxicity of insulin-dependent tissues and ectopic fat depots are emerging as fundamental processes in the pathogenesis of MetSyn. Lifestyle intervention, such as increased physical activity, show great promise as agents for disrupting the disease progression and may act via direct or indirect mechanisms on the underlying pathology of MetSyn. This study aimed to determine if diagnostic markers of MetSyn exist in obese, prepubertal, Australian children and to assess the contribution of lifestyle factors on components of MetSyn. Further, this study sought to investigate the relationship between body fat patterning (total body fat, abdominal adipose depots, skeletal intramyocellular lipids, intrahepatocellular lipids) and markers of MetSyn. An experimental intervention was then employed to examine the effect of physical activity on body fat distribution, insulin sensitivity, and haemodynamic and biochemical markers of MetSyn, and additionally to determine if the effect of exercise on parameters of MetSyn was mediated by a change in body fat patterning. Data were collected in a group of 15 obese (mean BMI Z-score 2.51 ± 0.49), prepubertal children (6 male, 9 female) aged 5.1 – 11.4 years (mean age 7.82 yrs ± 1.83). Measures included insulin sensitivity, blood biochemistry (lipid, haemostatic and adipocyte activity markers), blood pressure, two-compartment body composition by hydrometry, and nuclear magnetic resonance scanning for abdominal adipose depots, intrahepatic lipids and skeletal intramyocellular lipids. Each child’s habitual nutrition and physical activity were also ascertained using multiple-pass 24-hr diet recalls and accelerometry respectively. Data collection was conducted pre and post a 12-week physical activity intervention which consisted of cardiorespiratory activity during instructor led sessions (60 mins, twice weekly) and family led sessions (>10 mins, 4 days/wk). There is no universally accepted definition of MetSyn in childhood. The International Diabetes Federation suggests that MetSyn should not be diagnosed in children aged 6 to < 10 years. Children can be identified to be at risk of MetSyn, however, based on waist circumference ≥90th percentile and family history1,2; all subjects in this study were at risk according to these criteria. Four definitions of paediatric MetSyn previously applied to a group of young, overweight Australian children3 were used to calculate the prevalence of MetSyn in the current sample and it was found to be 27-89% at baseline and 13-80% after the experimental intervention depending upon the definition used. Acanthosis nigricans and impaired glucose tolerance (IGT) were present in one female child. Post-intervention, IGT had resolved and the child was glucose tolerant. Habitual dietary intake (energy intake and macronutrients) measured over a 3-day period pre-intervention displayed a significant positive association between fasting glucose and energy intake, as well as a significant negative association between fasting glucose and the protein component of the diet. Following the physical activity programme, energy intake was significantly positively correlated with body fat percentage (% BF). There was no difference found in dietary intake assessed prior to and following cessation of the physical activity intervention, in terms of energy or % energy from macronutrients. Habitual physical activity was not related to MetSyn diagnostic indicators. A higher level of physical fitness, estimated by predicted O2max (ml•kg-1•min-1), was significantly correlated with a lower level of diastolic blood pressure at baseline. A greater fitness level ( O2max) was moderately correlated with a lower BMI Z-score following the 12-week intervention. There was no difference between pre- and post-intervention habitual physical activity. A trend towards less sedentary time and increased light intensity activity was found, but these did not reach significance. Physical fitness level showed a trend for improvement following the intervention (P = 0.060). Anthropometrically determined body composition and body fat distribution did not change following the intervention. Radiologically determined abdominal adipose tissue depots were not significantly different post-intervention. % BF was not different when assessed with bioelectrical impedance analysis. However, % BF did reduce significantly over the 12-week intervention period when quantified by hydrometry (42.3% ± 5.0 vs 36.9% ± 8.6, P = 0.022). Adipokines, the secretory products of adipocytes displaying pleiotropic metabolic action, were investigated for their relation to lipid depots and additionally for change post-intervention. Cardiovascular (CV) disease risk was investigated by proatherogenic and protective blood lipids. When examined at baseline, fasting blood triacylglycerols (TAG) were inversely associated with basal and stimulated insulin sensitivity. Post-intervention, a higher level of HDL-C was found to be associated with greater insulin sensitivity, although this was not apparent at baseline. The relation between TAG and insulin sensitivity discovered pre-intervention was no longer evident. All other biomarkers of CV risk were not associated with body composition, glucose homeostasis, and lifestyle factors pre- and post-intervention. The effect of the physical activity intervention on indicators of haemostasis, physical fitness, blood lipids and lipoproteins, systemic inflammation, and fibrinolytic activity were analysed for change. Both systolic and diastolic blood pressure were significantly reduced following the physical activity programme. There was no significant difference found in any other measured parameter of CV risk. Log[HOMA], a surrogate index of insulin resistance, was significantly decreased post-intervention indicating reduced insulin resistance. QUICKI, a surrogate index of insulin sensitivity, was significantly improved post-intervention. The remaining indicators of insulin resistance, insulin sensitivity and β-cell function based on fasting surrogates did not significantly change over the 12-week experimental period. Dynamic insulin sensitivity and β-cell function were investigated pre- and post-intervention using paired samples t-tests. Glucose and insulin area under the curve of the OGTT were significantly reduced and whole-body insulin sensitivity index (WBISI) was significantly increased hence showing an improvement in stimulated insulin sensitivity. AUCCP/AUCglu significantly declined also indicating an improved response to oral glucose stimulation. IGI and ΔCP30/ΔG30, as markers of β-cell insulin secretion, did not change. Disposition index, the interrelationship of insulin secretion (IGI) and insulin sensitivity (WBISI), was not changed pre- and post-intervention. Hepatic insulin extraction was increased post-intervention (4.3 ± 1.2 vs 4.8 ± 1.1, P = 0.022) possibly due to greater hepatic and/or peripheral insulin sensitivity. General linear modeling (GLM) showed the improvement in whole-body insulin sensitivity discovered following the intervention was independent of % BF, abdominal adipose tissue depots, and ectopic lipid depots. Intrahepatocellular lipids (IHCL) significantly decreased after the 12-week intervention (6.99% ± 9.41 vs 5.83% ± 8.54) whilst there was no significant change in the serum markers of liver inflammation. IHCL was positively and strongly associated with total abdominal adipose tissue, intra-abdominal adipose tissue and subcutaneous abdominal adipose tissue both before and after the intervention. IHCL was positively associated with %BF measured post-intervention; this relationship almost reached significance when measured pre-intervention (P = 0.060). IHCL was not associated with insulin sensitivity either pre- or post-intervention nor with circulating lipids at either timepoint. The change in IHCL was independent of % BF and abdominal adipose tissue tested by GLM. However, there was no significant difference found in IHCL post-intervention after adjustment for insulin sensitivity (WBISI) by GLM. Prior to intervention, 10 of 15 subjects had hepatic steatosis diagnostic of non-alcoholic fatty liver disease. Eight of the 10 subjects with clinically significant hepatic steatosis had reduction of fatty infiltrate following the exercise intervention. In the whole group it was demonstrated that physical activity attenuates lipid infiltration of the liver independent of body fat. To further investigate the pathophysiology of ectopic lipid depots, biomarkers of oxidative stress and anti-oxidant status were examined in relation to IHCL. Pre-intervention, there was no association found between pro-oxidative or anti-oxidative activity and IHCL. Post-intervention, an inverse association of plasma carotenoid:cholesterol ratio with IHCL was found. Skeletal intramyocellular lipids (IMCL) measured in the right soleus were significantly increased post-intervention (2.4 ± 1.1 vs 2.6 ± 1.2, P = 0.035). There was no association between IMCL and % BF when measured pre- or post-intervention. Abdominal adipose depots were associated with IMCL at baseline and following the intervention. IMCL was not related to IHCL at either timepoint. Pre-intervention, there was a trend for a relationship between IMCL and insulin. Post-intervention, IMCL was tightly and inversely correlated with insulin sensitivity (r = -0.85 P = 0.000). Linear regression between IMCL and WBISI run pre-intervention and post-intervention found the slopes were not significantly different whereas the intercepts were highly significantly different (P = 0.001), thus, as IMCL increased there was a corresponding decrease in insulin sensitivity. GLM found the increase in IMCL was independent of % BF and abdominal adipose tissue, but was not independent of WBISI. These data indicate the greater IMCL level found post-intervention was a non-pathologic training adaptation. To further investigate the pathophysiology of ectopic lipid depots, biomarkers of oxidative stress and anti-oxidant status were examined in relation to IMCL. Pre-intervention, there was a positive association between malondialdehyde and IMCL. Post-intervention, an inverse association was found between IMCL and both plasma total carotenoids and total carotenoid:free cholesterol ratio. In summation, this study found improved metabolic health in obese, prepubertal children following a 12-week physical activity intervention without dietary intervention or intentional weight loss. Body fat and fat distribution were not prime mediators for the effect of the intervention on parameters of the Metabolic Syndrome; whereas insulin sensitivity was discovered to be a mediator of the change shown in ectopic fat depots. Causality and directionality of these fascinating relationships cannot be determined from the present study, and further research is encouraged. This thesis offers an insight into the pathogenesis of MetSyn and the use of physical activity to improve MetSyn in the setting of paediatric obesity.

metabolic syndrome

children

obesity

physical activity

exercise

diabetes

visceral fat

intramyocellular lipid

non-alcoholic fatty liver disease

hepatic steatosis

Acompanhamento com equipe multiprofissional e evolução da Doença Hepática Gordurosa Não- Alcoólica (DHGNA) no pós-operatório de cirurgia bariátrica

Almeida, Simone Aparecida Rulim de

January 2018

Orientador: Antonio Carlos Caramori / Resumo: A obesidade representa um dos maiores problemas de saúde pública no mundo e cursa com inúmeras complicações e comorbidades. As medidas de mudanças no estilo de vida, embora sejam as terapias mais duradouras, não têm conseguido resolver muitos casos, principalmente em pacientes com obesidade mórbida, onde a cirurgia bariátrica passa a ser uma opção no tratamento capaz de impedir a progressão de comorbidades. A DHGNA, uma das complicações da obesidade, tornou-se também preocupante, pois tem alta prevalência, potencial de progressão para doença hepática grave e associação com diabetes mellitus tipo 2 (DM2), síndrome metabólica e doença cardíaca coronariana. O acompanhamento multiprofissional, principalmente nutricional, no pré e pós-operatório pode positivamente interferir sobre a ocorrência da DHGNA e suas complicações. O presente estudo avaliou a influência do acompanhamento com equipe multiprofissional sobre a evolução da DHGNA, com dados coletados dos prontuários de 76 pacientes do Ambulatório de Obesidade Mórbida do Hospital das Clínicas da Faculdade de Medicina de Botucatu (HCFMB). A DHGNA foi observada por ecografia e biópsia hepática (em graus variados) nos pacientes submetidos à cirurgia bariátrica, cuja intensidade e frequência tiveram melhora no pós-operatório. Qualitativamente os registros da equipe demonstraram um atendimento humanizado que busca estratégias de aconselhamento, auxiliando o paciente nas mudanças do estilo de vida, porém, a atuação da mesma no serviço... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Obesity represents one of the major public health issues in the world and has a wide range of complications and comorbidities. The measures of lifestyle changes, even though they are the most long-lasting therapies, have not been able to solve many cases, mainly in patients with morbid obesity, where bariatric surgery becomes an option in the treatment able to prevent the progression of comorbidities. NAFLD, one of the complications of obesity, has also become a concern, as it has a high prevalence, a potential for progression to severe liver disease and association with type 2 diabetes mellitus (DM2), metabolic syndrome, and coronary heart disease. The multi-professional, mainly nutritional monitoring, both in the pre-and postoperative periods can positively interfere with the occurrence of NAFLD and its complications. The present study evaluated the influence of follow-up with the multi-professional team on the evolution of NAFLD, with data collected from the medical reports of 76 patients from the Morbid Obesity Outpatient Clinic of the Hospital das Clínicas da Faculdade de Medicina de Botucatu (HCFMB). NAFLD was observed by echography and liver biopsy (to varying degrees) in patients undergoing bariatric surgery, whose intensity and frequency had improvement in the postoperative period. Qualitatively, the team records have shown a humanized service which seeks counseling strategies, assisting the patient in lifestyle changes. However, its performance in the studied servic... (Complete abstract click electronic access below) / Mestre

Cirurgia bariátrica.

equipe multiprofissional

bariatric surgery

patient care team

Investigation of Alcohol-Induced Changes in Hepatic Histone Modifications Using Mass Spectrometry Based Proteomics

Kriss, Crystina Leah

05 April 2018

Alcohol liver disease (ALD) is a major health concern throughout the world. Currently, in the United States, 17 million people suffer from alcoholism, of which 1.4 million people are receiving treatment [1, 2]. The link between ethanol metabolism, reactive oxygen species (ROS) and liver injury in ALD has been well characterized over the last couple decades [3-10]. Ethanol metabolism relies on the availability of the cofactor NAD+ for the oxidation of ethanol into acetate, consequently causing alterations in redox potential. Redox dysfunction within the mitochondria can affect multiple pathways important in maintaining cellular homeostasis. Chapter 1 provides an introduction to the role of ethanol metabolism in oxidative stress and alcohol liver injury (ALI). During ethanol metabolism, both the cytochrome bc1 and NADH dehydrogenase complexes within the mitochondria have been demonstrated to be major contributors to ROS formation and “leak” free radicals [11-13]. As a result, the free radicals superoxide (O2-) and hydrogen peroxide (H2O2) is diffused into the cytoplasm where they can react with other molecules, proteins and DNA and cause tissue injury [4, 14]. Chapter 1 aims to introduce the link between ethanol metabolism and histone post-translational modifications (PTM) such as tyrosine nitration and lysine acetylation using proteomics techniques. Chapter 2 uses a global proteomic study to identify links between gender and ALI. A 10-day chronic-binge mouse model was employed in order to identify gender-specific proteins that may influence the development of ALD. It has previously been established that females are more susceptible to developing ALD, however, the cause is still unknown. This study identifies gender differences in the family of cytochrome P450 proteins using a mouse model for chronic-binge alcohol exposure. The cytochrome P450 family of proteins are important in the metabolism of toxic compounds, such as acetaldehyde, a byproduct of ethanol metabolism. Interestingly, I also identified that female mice expressed naturally higher levels of histone acetylation prior to alcohol exposure when compared to males. Following alcohol exposure, the female mice did not show much change in acetylation, whereas male acetylation levels were raised to similar levels of the female mice. These acetylation changes raised the question, how does alcohol influence epigenetic marks on histone proteins? Recently, new evidence has emerged that supports the role of epigenetics in the pathophysiology of ALD [4, 14-27]. Ethanol metabolism will promote shifts in redox potential and mitochondrial dysfunction, the result is the formation of reactive oxygen and/or nitrogen species (ROS/RNS) [4, 5, 7, 10, 14, 28]. As ethanol is metabolized, the accumulation of ROS/RNS species such as NO- and O2- can induce the post-translational modification nitrotyrosine. Shifts in redox potential will cause the electron transport chain to “leak” the free radical O2-. Another free radical known as nitric oxide (NO-) has been shown to be elevated during times of ethanol consumption [29, 30]. Traditionally, NO has a protective role within the cell at low concentrations, however, in surplus can lead to tissue damage. Ethanol-induced increases in NO- and O2- can instigate to peroxynitrite (ONOO-) formation; a potent oxidant and nitrating agent of tyrosine residues [29, 31-34]. Chapter 3 examines the indirect effect of alcohol metabolism and ROS/RNS formation on histone tyrosine nitration. This project used mass-spectrometry to identify novel targets of histone tyrosine nitration using a mouse-model of chronic-binge alcohol exposure. Interestingly, histone H3 was found to be nitrated on the hinge-region of the N-terminal tail at tyrosine 41. Molecular dynamics of the nitrated and unmodified proteoforms revealed that the DNA prefers a change in conformation upon H3Y41 nitration. Further studies using an antibody synthesized against the nitrated H3y41 region of the protein revealed potential targets within the genome important in fatty acid synthesis and metabolism. Chapter 4 looks at the direct influence of alcohol metabolism and its contribution to histone acetylation via acetate production and acetyl-CoA. Alcohol metabolism has traditionally been thought influence acetylation through the sirtuin family of deacetylase proteins. Sirtuin deacetylases are NAD+-dependent and have been shown to be a regulate protein acetylation within the mitochondria, cytoplasm, and nucleus during times of ethanol exposure [35-37]. Shifts in redox potential attributed to ethanol metabolism can inhibit sirtuin deacetylase activity by out-competing the enzymes for available NAD+, ultimately leading to mitochondrial and nuclear hyperacetylation [17, 28, 38-42]. Currently, there is evidence that ethanol increases acetylation of histone 3 lysine 9, which then targets activation of the alcohol dehydrogenase gene (ADH) [17, 18, 43]. Moreover, Shukla et.al. (2008) support the idea that ethanol can alter epigenetic transcriptional activation based on which modification is selected for a site during times of stress when it can be occupied by more than one modification [22]. Chapter 4 demonstrates the use of mass-spectrometry to metabolically trace 13C2-labeled ethanol in vivo. These new data show clear evidence of 13C2 heavy-labeled ethanol being incorporated into known sites of acetylation on the N-terminal tails of histone H3 and H4. Incorporation of heavy-label was calculated using extracted ion chromatograms (XIC) for the double and singly acetylated and unmodified peptides belonging to H3K9-R17 and H3K18-R23. Total change in acetylation was also assessed for each peptide using the ratio of ratios of total acetylation to unmodified peptide over the fold change in ethanol- to control-fed groups. An interesting observation was observed in that the incorporation of heavy-label suggests site-selectivity of lysine residues over time. Histone 4 contains multiple sites of acetylation on the peptide H4K5-R17, making it hard to quantify manually. MaxQuant evidence files in conjunction with R were used to calculate the 13C2 incorporation on the multiple H4 acetyl-sites over 24-hours. Ethanol-heavy label incorporation at multiple acetyl-sites occurred as a mixture suggesting a role in transcriptional regulation. These new data establish a link between alcohol metabolism and known epigenetic marks on histone proteins. These studies have now established that alcohol metabolism is indirectly linked to histone tyrosine nitration through increased ROS/RNS and directly through acetate production. Understanding how these epigenetic marks fluctuate as ALD progresses will provide potential targets for the development of new drug therapies. The epigenetic marks identified in these studies have previously been established to be important activators in transcription. These data provide novel techniques using proteomics-based metabolic tracing in vivo. Future studies will assess how these marks change after chronic ethanol exposure and whether the changes in epigenetics are heritable. Understanding hereditary of alcoholism will provide insight to those predisposed to the disease.

Mass Spectrometry

Alcohol liver disease

Metabolic tracing

Tyrosine Nitration

Epigenetics

Histone

Acetylation

Biology

Cell Biology

Molecular Biology