Abstracts
OBJECTIVE:
To describe the prevalence of hepatic steatosis and to assess the performance of biochemical, anthropometric and body composition indicators for hepatic steatosis in obese teenagers.
METHODS:
Cross-sectional study including 79 adolecents aged from ten to 18 years old. Hepatic steatosis was diagnosed by abdominal ultrasound in case of moderate or intense hepatorenal contrast and/or a difference in the histogram ≥7 on the right kidney cortex. The insulin resistance was determined by the Homeostasis Model Assessment-Insulin Resistance (HOMA-IR) index for values >3.16. Anthropometric and body composition indicators consisted of body mass index, body fat percentage, abdominal circumference and subcutaneous fat. Fasting glycemia and insulin, lipid profile and hepatic enzymes, such as aspartate aminotransferase, alanine aminotransferase, gamma-glutamyltransferase and alkaline phosphatase, were also evaluated. In order to assess the performance of these indicators in the diagnosis of hepatic steatosis in teenagers, a ROC curve analysis was applied.
RESULTS:
Hepatic steatosis was found in 20% of the patients and insulin resistance, in 29%. Gamma-glutamyltransferase and HOMA-IR were good indicators for predicting hepatic steatosis, with a cutoff of 1.06 times above the reference value for gamma-glutamyltransferase and 3.28 times for the HOMA-IR. The anthropometric indicators, the body fat percentage, the lipid profile, the glycemia and the aspartate aminotransferase did not present significant associations.
CONCLUSIONS:
Patients with high gamma-glutamyltransferase level and/or HOMA-IR should be submitted to abdominal ultrasound examination due to the increased chance of having hepatic steatosis.
fatty liver; obesity; adolescent; enzymes
OBJETIVO:
Describir la prevalencia de la esteatosis hepática y evaluar el desempeño de indicadores bioquímicos, antropométricos y de composición corporal para identificar la enfermedad en adolescentes obesos.
MÉTODOS:
Estudio transversal con 79 adolescentes de 10 a 18 años. Se diagnosticó la esteatosis hepática por ultrasonido abdominal en caso de contraste hepatorrenal moderado o intenso y/o diferencia en el histograma ≥7 con relación al córtex del riñón derecho. Se determinó la resistencia a la insulina por el índice Homeostasis Model Assessment-Insulin Resistence (HOMA-IR) para valores >3,16. Los indicadores antropométricos y de composición corporal fueron índice de masa corporal, porcentaje de grasa corporal, circunferencia abdominal y grasa subcutánea. Se dosificaron glucemia e insulina en ayuno, perfil lipídico y las encimas hepáticas aspartato aminotransferasa, alanina aminotransferasa, gama-glutamiltransferasa y fosfatasa alcalina. Se analizaron curvas ROC para evaluar el desempeño de los indicadores en identificar adolescentes con esteatosis hepática.
RESULTADOS:
La esteatosis hepática estuvo presente en el 20% de los pacientes y la resistencia a la insulina, en el 29%. La gama-glutamiltransferasa y el HOMA-IR se mostraron buenos indicadores para predecir la esteatosis hepática, con punto de corte de 1,06 veces por encima del valor de referencia para la gama-glutamiltransferasa y de 3,28 para el HOMA-IR. Los indicadores antropométricos, el porcentaje de grasa corporal, el perfil lipídico, la glucemia y la aspartato aminotransferasa no presentaron diferencias significantes.
CONCLUSIONES:
Pacientes con elevación de gama-glutamiltransferasa y/o HOMA-IR deben ser sometidos al examen de ultrasonido abdominal con gran probabilidad de obtenerse como resultado la esteatosis hepática.
hígado grasoso; obesidad; adolescente; encimas
OBJETIVO:
Descrever a prevalência da esteatose hepática e avaliar o desempenho de indicadores bioquímicos, antropométricos e de composição corporal para identificar a doença em adolescentes obesos.
MÉTODOS:
Estudo transversal com 79 adolescentes de dez a 18 anos. Diagnosticou-se a esteatose hepática por ultrassom abdominal em caso de contraste hepatorrenal moderado ou intenso e/ou diferença no histograma ≥7 em relação ao córtex do rim direito. Determinou-se a resistência à insulina pelo índice Homeostasis Model Assessment-Insulin Resistance (HOMA-IR) para valores >3,16. Os indicadores antropométricos e de composição corporal foram: índice de massa corpórea, porcentagem de gordura corporal, circunferência abdominal e gordura subcutânea. Dosaram-se glicemia e insulina de jejum, perfil lipídico e enzimas hepáticas aspartato aminotransferase, alanina aminotransferase, gama-glutamiltransferase e fosfatase alcalina. Aplicou-se a curva ROC para avaliar o desempenho dos indicadores para identificar adolescentes com esteatose hepática.
RESULTADOS:
A esteatose hepática esteve presente em 20% dos pacientes e a resistência à insulina, em 29%. A gama-glutamiltransferase e o HOMA-IR mostraram-se bons indicadores para predizer a esteatose hepática, com ponto de corte de 1,06 vezes acima do valor de referência para a gama-glutamiltransferase e de 3,28 para o HOMA-IR. Os indicadores antropométricos, a porcentagem de gordura corporal, o perfil lipídico, a glicemia e a aspartato aminotransferase não apresentaram diferenças significantes.
CONCLUSÕES:
Pacientes com elevação de gama-glutamiltransferase e/ou HOMA-IR devem ser submetidos ao exame de ultrassom abdominal, havendo grande probabilidade de se obter como resultado a esteatose hepática.
fígado gorduroso; obesidade; adolescente; enzimas
Introduction
The non-alcoholic fatty liver disease (NAFLD) is a clinicopathological condition characterized by lipid accumulation inside the hepatocytes, whose spectrum of presentation ranges from a simple fatty infiltration of liver (steatosis), through the establishment of an inflammation (steatohepatisis), to fibrosis and hepatic cirrhosis. The pathologic condition is similar to that of the alcohol-induced lesion, but it occurs in individuals without significant alcohol consumption( 11. Angulo P. Nonalcoholic fatty liver disease. N Engl J Med 2002;346:1221-31. ).
NAFLD occurs mainly in obese individuals and it is an increasing problem in children and adolescents, given the increasing prevalence of childhood obesity. The hepatic steatosis (HS) with onset in childhood and adolescence deserves special attention because most patients are asymptomatic and the evolution is silent( 22. Roberts EA. Non-alcoholic steatohepatitis in children. Clin Liver Dis 2007;11:155-72. ).
The gold standard for the diagnosis of NAFLD is liver biopsy; however, due to the difficulty of implementation and the risk of complications, indirect methods such as imaging and laboratory exams associated to the history and clinical examination, have been widely used in children and adolescents( 33. Sathya P, Martin S, Alvarez F. Nonalcoholic fatty liver disease (NAFLD) in children. Curr Opin Pediatr 2002;14:593-600. ).
The difficulty to diagnose coupled with the small number of studies available makes the prevalence of HS still poorly known in the pediatric age group. HS seems to be primarily associated with obesity and insulin resistance (IR). With the significant increase in the prevalence of obesity in children and adolescents and the direct relationship of this nutritional disorder with the development of HS, the present study aimed to describe the prevalence of HS diagnosed by abdominal ultrasonography and to evaluate the performance of biochemical, anthropometric, and body composition indicators in identifying HS in obese adolescents.
Method
We conducted a cross-sectional study with adolescents attending the Child and Adolescent Obesity Outpatient Clinic at Hospital de Clínicas from the School of Medical Sciences within Universidade Estadual de Campinas (Unicamp). All adolescents treated from April 2011 to May 2012 who presented body mass index (BMI) ≥P97 for age and sex, according to the charts of the Word Health Organization (WHO( 44. World Health Organization [homepage on the Internet]. Geneva: Growth reference 5-19 years [cited 2013 Jan 10]. Available from: http://www.who.int/growthref/en/
http://www.who.int/growthref/en/...
), were invited to participate in the research. We analyzed the clinical, laboratory, and ultrasonography characteristics of 79 patients of both sexes, from 10 to 18 years old, who were diagnosed with obesity and whose parents signed an informed consent form (ICF).
Anthropometric techniques for measuring weight and height were those recommended by Lohman et al( 55. Lohman GT, Roche AF, Martorell R. Anthropometric standardization reference manual. Champaign: Human Kinetics; 1988. ). We calculated BMI by the Quetelet index (BMI=weight/height2). Waist circumference (WC) was measured in centimeters with tape measure (Sanny(r)), at the midpoint between the last rib and the superior border of the iliac crest. The percentage of body fat (%BF) was measured by dual energy X-ray absorptiometry (DXA), with Hologic(r) appliance, Discovery QDR Series n. 1005-75.
Insulin resistance was diagnosed by Homeostasis Model Assessment-Insulin Resistance (HOMA-IR), which is the product of fasting insulin (mUI/mL) and fasting plasma glucose (mmol/L) divided by 22.5. Insulin Resistance was defined when the values were above 3.16( 66. Keskin M, Kurtoglu S, Kendirci M, Atabek ME, Yazici C. Homeostasis model assessment is more reliable than the fasting glucose/insulin ratio and quantitative insulin sensitivity check index for assessing insulin resistance among obese children and adolescents. Pediatrics 2005;115:500-3. ).
We carried out the ultrasonography by a Toshiba device, Power Vision 6000, through sector transducers of 3.75MHz and 5MHz. All exams were performed by the same examiner, with the patient in supine position after fasting for 12 hours. The diagnosis of HS was considered in case of moderate or intense hepatorenal contrast and/or difference ≥7 on the histogram of the relationship right lobe/cortex of the right kidney( 77. Osawa H, Mori Y. Sonographic diagnosis off fatty liver using a histogram techinique that compares liver and renal cortical echo amplitudes. J Clin Ultrasound 1996;24:25-9. ).
Subcutaneous fat (SF) was measured by ultrasonography, with a 7.5MHz linear transducer. The transducer was positioned in the middle at 1cm above the navel line, without exerting any pressure on the abdomen, in order not to underestimate the measurement. SF was measured as the distance (cm) between the skin and the outer face of the fascia of the rectus abdominis muscles( 88. Diniz AL, Tomé RA, Debs CL, Carraro R, Roever LB, Pinto RM. Reproducibility of ultrasonography as a method to measure abdominal and visceral fat. Radiol Bras 2009;42:353-7. ).
For laboratorial analysis of the biochemical exams, blood samples by venipuncture were collected in the morning after fasting for 12 hours. We analyzed fasting plasma glucose and lipid profile by enzymatic colorimetric; the measurement of aspartate aminotransferase (AST) and alanine aminotransferase (ALT) was performed by kinetic method ultraviolet (U.V.). For alkaline phosphatase (ALP) and gama-glutamil transferase (GGT), we used the colorimetric kinetic method, all with the Roche Diagnostics(r) Laboratory Reagent Kit. For determination of basal insulin, we used the reagents kit from the Siemens Healthcare Diagnostics(r)Laboratory by the method of chemiluminescence.
Furthermore, we calculated the fatty liver index (FLI), a simple predictor, which assesses the presence of HS in the general population, proposed by Bedogni et al( 99. Bedogni G, Bellentani S, Miglioli L, Masutti F, Passalacqua M, Castiglione A et al. The fatty liver index: a simple and accurate predictor of hepatic steatosis in the general population. BMC Gastroenterology 2006;33:1-7. ) and validated for the adult population.
FLI=(e0,953*log(TG)+0,139*IMC+0,718*log(GGT)+0,053*WC-15,745)/(1+e0,953*log(TG)+0,139*IMC+0,718*log(GGT)+0,053*WC-15,745)*100, being WC: waist circumference; GGT: gama-glutamil transferase; TG: triglycerides; log: logarithm; e: Euler. According to this index, it is considered HS when the value is ≥60.
We analyzed the data using the IBM Statistical Package for the Social Sciences (SPSS) version 20.0. The descriptive analysis of continuous variables included the calculation of means and their respective standard deviations; for categorical variables, their percentage values were calculated. We used the Kolmogorov-Smirnov to assess the normality of the distribution of studied variables. We used the Mann-Whitney test to compare two independent groups. The hypothesis of dependence between categorical variables was assessed using the chi-square or Fischer's exact test, according to the expected frequencies. We calculated the values for Odds Ratio (OR) and their respective confidence intervals of 95% (95%CI) to assess the strength of dependence between categorical variables.
The analysis of ROC curves (Receiver Operating Characteristic Curve) was used to assess the performance of the anthropometric and biochemical indicators in identifying adolescents with HS. Given the difference of values of the hepatic enzymes according to age and sex in the analyzed adolescents, the values of these enzymes were transformed in number of times the upper limit of normality (no x). That is, the result of the serum concentration of the hepatic enzyme was divided by the number of the reference value according to age and sex. We considered the reference value for each sex and age range and divided the value found by the reference value. We used as reference the values preconized by Roche Diagnostics( 1010. Roche Diagnostics [homepage on the Internet]. Reference ranges for adults and children [cited 2013 Jan 10]. Available from: https://www.rochediagnostics.fr/Htdocs/media/pdf/actualites/2a_Reference_Ranges_2008.pdf
https://www.rochediagnostics.fr/Htdocs/m...
). The areas under the ROC curves were calculated as proposed by Hanley and McNeil. We used a confidence interval of 95%. The sensibility and specificity values were calculated for all variables in the analysis of the ROC curves with significant results. The cutoff point with the highest sum of sensitivity and specificity was chosen to optimize the relationship between these two parameters, reflecting greater accuracy in diagnosis.
The Kappa (k) test was used as a measure of agreement between the ultrasound (US) and the FLI. The k value reflects the degree of concordance between the methods. Values of k equal to 1 indicate perfect agreement between both methods and values equal to zero indicate no correlation between the tested methods.
The level of significance established as a basis for decision was lower than 5% (p<0.05) for all tests.
The study was approved by the Research Ethics Committee of Medical Sciences at Unicamp in December 2010, under protocol n. 872/2010.
Results
We evaluated 79 patients, being 39 (49.4%) female and 40 (50.6%) male, aged between 10 and 18 years (mean 12.8), who attended the Child and Adolescent Obesity Outpatient Clinic of Hospital de Clínicas da Unicamp.
The HS diagnosed by abdominal ultrasonography was present in 16 patients (20.3%). The mean ALT, GGT, and ALP were significantly higher in patients with HS, as well as the HOMA-IR index. Indicators of body composition and lipid profile showed no significantly different among the groups with and without HS (Table 1).
Among the patients assessed, 23 (29.1%) presented IR, being 13 (56.5%) females and 10 (43.5%) males. Of the patients with diagnosis of IR, eight (34.8%) also had HS. The means for WC, BMI, SF and %BF were higher in patients who presented IR. Mean HDL-cholesterol was significantly lower in patients with IR (Table 2).
In the analysis of the ROC curve, liver enzymes (ALT, GG,T and ALP), HOMA -IR index, and FLI showed areas under the curve (AUC) significant (p<0.05) for the prediction of HS (Table 3). On the other hand, anthropometric and body composition indicators, plasma lipid profile, fasting glucose, and AST showed no significant results. The most accurate cutoff points for variables with significant results are shown in Table 3.
The concordance analysis between the diagnoses of HS by US and by FLI demonstrated a kappa index of 0.23, indicating little agreement between the methods. The chi-square test showed a correlation between both methods for the diagnosis of HS (6.924; p<0.009). Adolescents with a diagnosis of HS by FLI were five times more likely to show the HS by US. (OR 5.42; 95%CI 1.404-20.898).
Discussion
The present study found a prevalence of HS of 20.3% in the studied population. The prevalence of HS is poorly understood and it may be related to the method used for diagnosis. The studies used elevated ALT levels as a criterion or the comparison of the echogenicity of the hepatic parenchyma with the renal cortex, the latter being more hyperechogenic in relation to the adjacent kidney. Studies show prevalence in obese children and adolescents from 15 to 42%( 1111. Grupta R, Bhangoo A, Matthews NA, Anhalt H, Matta Y, Lamichhane B et al. The prevalence of non-alcoholic fatty liver disease and metabolic syndrome in obese children. J Pediatr Endocrinol Metab 2011;24:907-11. , 1212. Duarte MA, Silva GA. Hepatic steatosis in obese children and adolescents. J Pediatr (Rio J) 2011;87:150-6. ). The prevalence of NAFLD more than doubled in the past 20 years, rising from 3.9% in 1988 to 10.7% in 2010 in U.S. adolescents( 1313. Welsh JA, Karpen S, Vos MB. Increasing prevalence of nonalcoholic fatty liver disease among United States adolescents, 1988-1994 to 2007-2010. J Pediatr 2013;162:496-500. ). Based on autopsy studies, Schwimmer et al( 1414. Schwimmer JB, Deutsch R, Kahen T, Lavine JE, Stanley C, Behling C. Prevalence of fatty liver in children and adolescents. Pediatrics 2006;118:1388-93. ) reported that the prevalence of HS in children and adolescents was of 9.6% and this prevalence rose to 38% in obese individuals. The difference in prevalence may be related to the degree of obesity, because in some studies with higher prevalence, mean BMI values are higher compared to studies with lower prevalence.
Abdominal ultrasonography is considered a good method for the diagnosis and monitoring of the degree of fatty infiltration in the liver, although it does not correlate with the degree of fibrosis. We adopted this method of image due to the good sensitivity (89%) and specificity (94%) for detection of HS compared to liver biopsy, considered as the gold standard( 1515. Saverymuttu SH, Joseph AE, Maxwell JD. Ultrasound scanning in the detection of hepatic fibrosis and steatosis. Br Med J (Clin Res Ed) 1986;292:13-5. ), besides having a relatively low cost, being noninvasive, easy to apply, and available in most services.
The prevalence of IR assessed by the HOMA-IR index, found in this study was 29.1%. Published data reported prevalence rates higher in obese adolescents( 1616. Caceres M, Teran CG, Rodriguez S, Medina M. Prevalence of insulin resistance and its association with metabolic syndrome criteria among Bolivian children and adolescents with obesity. BMC Pediatr 2008;8:31. , 1717. Medeiros CC, Ramos AT, Cardoso MA, França IS, Cardoso AS, Gonzaga NC et al. Insulin resistance and its association with metabolic syndrome components. Arq Bras Cardiol 2011;97:380-9. ). This variation in the prevalence of IR in the studies may be explained by the lack of an established cutoff point as a reference to classify patient outcomes( 66. Keskin M, Kurtoglu S, Kendirci M, Atabek ME, Yazici C. Homeostasis model assessment is more reliable than the fasting glucose/insulin ratio and quantitative insulin sensitivity check index for assessing insulin resistance among obese children and adolescents. Pediatrics 2005;115:500-3.
7. Osawa H, Mori Y. Sonographic diagnosis off fatty liver using a histogram techinique that compares liver and renal cortical echo amplitudes. J Clin Ultrasound 1996;24:25-9.
8. Diniz AL, Tomé RA, Debs CL, Carraro R, Roever LB, Pinto RM. Reproducibility of ultrasonography as a method to measure abdominal and visceral fat. Radiol Bras 2009;42:353-7.
9. Bedogni G, Bellentani S, Miglioli L, Masutti F, Passalacqua M, Castiglione A et al. The fatty liver index: a simple and accurate predictor of hepatic steatosis in the general population. BMC Gastroenterology 2006;33:1-7.
10. Roche Diagnostics [homepage on the Internet]. Reference ranges for adults and children [cited 2013 Jan 10]. Available from: https://www.rochediagnostics.fr/Htdocs/media/pdf/actualites/2a_Reference_Ranges_2008.pdf
https://www.rochediagnostics.fr/Htdocs/m...
11. Grupta R, Bhangoo A, Matthews NA, Anhalt H, Matta Y, Lamichhane B et al. The prevalence of non-alcoholic fatty liver disease and metabolic syndrome in obese children. J Pediatr Endocrinol Metab 2011;24:907-11.
12. Duarte MA, Silva GA. Hepatic steatosis in obese children and adolescents. J Pediatr (Rio J) 2011;87:150-6.
13. Welsh JA, Karpen S, Vos MB. Increasing prevalence of nonalcoholic fatty liver disease among United States adolescents, 1988-1994 to 2007-2010. J Pediatr 2013;162:496-500.
14. Schwimmer JB, Deutsch R, Kahen T, Lavine JE, Stanley C, Behling C. Prevalence of fatty liver in children and adolescents. Pediatrics 2006;118:1388-93.
15. Saverymuttu SH, Joseph AE, Maxwell JD. Ultrasound scanning in the detection of hepatic fibrosis and steatosis. Br Med J (Clin Res Ed) 1986;292:13-5.
16. Caceres M, Teran CG, Rodriguez S, Medina M. Prevalence of insulin resistance and its association with metabolic syndrome criteria among Bolivian children and adolescents with obesity. BMC Pediatr 2008;8:31.
17. Medeiros CC, Ramos AT, Cardoso MA, França IS, Cardoso AS, Gonzaga NC et al. Insulin resistance and its association with metabolic syndrome components. Arq Bras Cardiol 2011;97:380-9. - 1818. Madeira IR, Carvalho CN, Gazolla FM, de Matos HJ, Borges MA, Bordallo MA. Cut-off point for homeostatic model assessment for insulin resistance (HOMA-IR) index established from receiver operating characteristic (ROC) curve in the detection of metabolic syndrome in overweight pre-pubertal children. Arq Bras Endocrinol Metab 2008;52:1466-73. ).
HS seems to relate directly to IR. The mean for the HOMA-IR index in this study was significantly higher in patients with HS. The HOMA-IR was shown to be a good indicator in predicting HS, with a cutoff of 3.28, close to that used for diagnosing IR (HOMA-IR >3.16). There is increasing evidence that obesity and IR are risk factors for NAFLD also in children and adolescents. Seixas( 1919. Seixas RB. Avaliação da esteatose hepática em crianças e adolescentes obesos e com sobrepeso e sua associação com a resistência à insulina [tese de mestrado]. Brasília (DF): UnB; 2010. ) demonstrated that obese children and adolescents with SH are 2.6-fold more likely to present IR when compared with children without HS. El-Koofy et al(20) observed that the prevalence of IR was significantly higher in patients with HS compared with patients without HS (73 versus 28%).
Insulin resistance and oxidative stress appear to be the two events involved in the pathogenesis of NAFLD. The pathophysiology involves two steps: first, IR causes steatosis; in the second, oxidative stress produces lipid peroxidation and active inflammatory cytokines, resulting in steatohepatitis( 2121. McCullough AJ. Update on nonalcoholic fatty liver disease. J Clin Gastroenterol 2002;34:255-62. ). The state of insulin resistance, often associated with obesity, leads to increased circulating free fatty acids that are seized and deposited within hepatocytes. This deposit activates the inflammatory cascade modulated by a variety of cytokines, and results in the exacerbation of oxidative stress, critical to the progression of NAFLD( 33. Sathya P, Martin S, Alvarez F. Nonalcoholic fatty liver disease (NAFLD) in children. Curr Opin Pediatr 2002;14:593-600. ). This hypothesis was confirmed in the study by Ruiz-Extremera et al( 2222. Ruiz-Extremera Á, Carazo Á, Salmerón Á, León J, Casado J, Goicoechea A et al. Factors associated with hepatic steatosis in obese children and adolescents. J Pediatr Gastroenterol Nutr 2011;53:196-201. ), in which it was observed in obese adolescents, that oxidative stress and IR are significant factors for the development of HS. Mager et al( 2323. Mager DR, Ling S, Roberts EA. Anthropometric and metabolic characteristics in children with clinically diagnosed nonalcoholic fatty liver disease. Paediatr Child Health 2008;13:111-7. ) suggest that in all children and adolescents with overweight and obesity and that present IR, HS should be investigated.
In the comparison of means between groups with an without HS, the results of liver enzymes ALT, ALP, and GGT, presented as the number of times the upper limit of normal values, showed significant values. In the analysis of the ROC curve, the GGT showed greater specificity in the prediction of the HS, with a cutoff point 1.06 times higher than the reference value. ALT showed greater sensitivity, with a cutoff of 0.54 times - value below the reference value. As the cutoff is defined as the highest sum of sensitivity and specificity, when the cutoff of ALT rises to 1, the sensitivity decreases to 31.2%, indicating not being a good predictor of HS. The study by Ramos( 2424. Ramos AL. Esteatose hepática em crianças e adolescentes com excesso de peso: relação com os componentes da síndrome metabólica [tese de mestrado]. Campina Grande (PB): UEPB; 2011. ) corroborates the findings in the present study. In his research, the mean values of GGT were also associated to HS, but no enzyme presented a good cutoff point to predict the HS. The author also highlights the importance of performing ultrasonography in children and adolescents as a criterion to evaluate HS.
Some studies have shown that changes in ALT and GGT can relate to some degree of liver inflammation, characterizing a more advanced stage of NAFLD( 2525. Fishbein MH, Miner M, Mogren C, Chalekson J. The spectrum of fatty liver in obese children and the relationship of serum aminotransferases to severity of steatosis. J Pediatr Gastroenterol Nutr 2003;36:54-61. , 2626. Roberts EA. Pediatric nonalcoholic fatty liver disease (NAFLD): a "growing" problem. J Hepatol 2007;46:1133-42. ). Therefore, it is recommended that even in the absence of changes in serum levels of liver enzymes, the ultrasound integrate the overall assessment of the obese patient to identify mild cases of hepatic fatty infiltration.
The means of anthropometric indicators and body composition, and lipid profile showed no significant difference between groups, and neither did the ROC curve analysis. This can be explained by the fact that patients in this study were from a clinic that treats severer cases of obesity, all of which with BMI, WC, and %BF above the recommended, regardless of HS. El-Koofy et al( 2020. El-Koofy NM, Anwar GM, El-Raziky MS, El-Hennawy AM, El-Mougy FM, El-Karaksy HM et al. The association of metabolic syndrome, insulin resistance and non-alcoholic fatty liver disease in overweight/obese children. Saudi J Gastroenterol 2012;18:44-9. ) observed a significant difference in the means of groups with and without HS for BMI, WC, and lipid profile. However, it is noteworthy that liver biopsy was the method used for the diagnosis of NAFLD and that, as inclusion criteria, all patients had to present hepatomegaly and/or abnormalities on ALT, indicating a more advanced stage of liver disease. The authors diagnosed 44% of patients with NAFLD, a much higher prevalence than that found in the present study. In contrast, the results of Duarte and Silva( 1212. Duarte MA, Silva GA. Hepatic steatosis in obese children and adolescents. J Pediatr (Rio J) 2011;87:150-6. ) and Lin et al( 2727. Lin YC, Chang PF, Yeh SJ, Liu K, Chen HC. Risk factors for liver steatosis in obese children and adolescents. Pediatr Neonatol 2010;51:149-54. ) agree with the present study, with no significant difference in lipid profile between groups with and without HS.
The FLI showed little relation to the diagnosis of HS by US. This index uses three variables for the calculation (GGT, TG and WC), and two of these variables (TG and WC) showed no statistical difference between the groups with and without HS, which could be the explanation for the poor agreement between the methods. This is the first study that made reference to FLI in obese adolescents and due to the low concordance with the US, it was considered of little use in the studied population.
In conclusion, patients with elevated GGT and/or HOMA-IR >3.28 should undergo US examination with great probability of obtaining HS as a result. The FLI showed little association with the US, proving not to be a good method for the diagnosis of HS in obese adolescents.
References
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1Angulo P. Nonalcoholic fatty liver disease. N Engl J Med 2002;346:1221-31.
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2Roberts EA. Non-alcoholic steatohepatitis in children. Clin Liver Dis 2007;11:155-72.
-
3Sathya P, Martin S, Alvarez F. Nonalcoholic fatty liver disease (NAFLD) in children. Curr Opin Pediatr 2002;14:593-600.
-
4World Health Organization [homepage on the Internet]. Geneva: Growth reference 5-19 years [cited 2013 Jan 10]. Available from: http://www.who.int/growthref/en/
» http://www.who.int/growthref/en/ -
5Lohman GT, Roche AF, Martorell R. Anthropometric standardization reference manual. Champaign: Human Kinetics; 1988.
-
6Keskin M, Kurtoglu S, Kendirci M, Atabek ME, Yazici C. Homeostasis model assessment is more reliable than the fasting glucose/insulin ratio and quantitative insulin sensitivity check index for assessing insulin resistance among obese children and adolescents. Pediatrics 2005;115:500-3.
-
7Osawa H, Mori Y. Sonographic diagnosis off fatty liver using a histogram techinique that compares liver and renal cortical echo amplitudes. J Clin Ultrasound 1996;24:25-9.
-
8Diniz AL, Tomé RA, Debs CL, Carraro R, Roever LB, Pinto RM. Reproducibility of ultrasonography as a method to measure abdominal and visceral fat. Radiol Bras 2009;42:353-7.
-
9Bedogni G, Bellentani S, Miglioli L, Masutti F, Passalacqua M, Castiglione A et al. The fatty liver index: a simple and accurate predictor of hepatic steatosis in the general population. BMC Gastroenterology 2006;33:1-7.
-
10Roche Diagnostics [homepage on the Internet]. Reference ranges for adults and children [cited 2013 Jan 10]. Available from: https://www.rochediagnostics.fr/Htdocs/media/pdf/actualites/2a_Reference_Ranges_2008.pdf
» https://www.rochediagnostics.fr/Htdocs/media/pdf/actualites/2a_Reference_Ranges_2008.pdf -
11Grupta R, Bhangoo A, Matthews NA, Anhalt H, Matta Y, Lamichhane B et al. The prevalence of non-alcoholic fatty liver disease and metabolic syndrome in obese children. J Pediatr Endocrinol Metab 2011;24:907-11.
-
12Duarte MA, Silva GA. Hepatic steatosis in obese children and adolescents. J Pediatr (Rio J) 2011;87:150-6.
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13Welsh JA, Karpen S, Vos MB. Increasing prevalence of nonalcoholic fatty liver disease among United States adolescents, 1988-1994 to 2007-2010. J Pediatr 2013;162:496-500.
-
14Schwimmer JB, Deutsch R, Kahen T, Lavine JE, Stanley C, Behling C. Prevalence of fatty liver in children and adolescents. Pediatrics 2006;118:1388-93.
-
15Saverymuttu SH, Joseph AE, Maxwell JD. Ultrasound scanning in the detection of hepatic fibrosis and steatosis. Br Med J (Clin Res Ed) 1986;292:13-5.
-
16Caceres M, Teran CG, Rodriguez S, Medina M. Prevalence of insulin resistance and its association with metabolic syndrome criteria among Bolivian children and adolescents with obesity. BMC Pediatr 2008;8:31.
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17Medeiros CC, Ramos AT, Cardoso MA, França IS, Cardoso AS, Gonzaga NC et al. Insulin resistance and its association with metabolic syndrome components. Arq Bras Cardiol 2011;97:380-9.
-
18Madeira IR, Carvalho CN, Gazolla FM, de Matos HJ, Borges MA, Bordallo MA. Cut-off point for homeostatic model assessment for insulin resistance (HOMA-IR) index established from receiver operating characteristic (ROC) curve in the detection of metabolic syndrome in overweight pre-pubertal children. Arq Bras Endocrinol Metab 2008;52:1466-73.
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Fonte financiadora: Fundo de Apoio ao Ensino, à Pesquisa e à Extensão (Faepex) - processos nº 146365-11, 57256-11 e 57257-11
Publication Dates
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Publication in this collection
June 2014
History
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Received
08 Oct 2013 -
Accepted
17 Dec 2013