Pediatric non‐alcoholic fatty liver disease predicted by anthropometric values through transient elastography

Background Non‐alcoholic fatty liver disease (NAFLD) is the leading cause of pediatric chronic liver disease, which is strongly associated with obesity. Transient elastography, together with anthropometric values including waist‐to‐height ratio (WHtR) and body mass index (BMI) z‐scores are a more pr...

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Bibliographic Details
Published in:Pediatrics international 2021-02, Vol.63 (2), p.183-188
Main Authors: Song, Shih‐Hsi, Wong, Ying‐Chi, Wu, Tzee‐Chung, Huang, Ching‐Feng
Format: Article
Language:English
Subjects:
Body mass index
Body measurements
Body weight
Children
elastography
Fatty liver
Inflammation
Liver diseases
non‐alcoholic fatty liver disease
Obesity
Overweight
Pediatrics
ultrasonography
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Summary:Background Non‐alcoholic fatty liver disease (NAFLD) is the leading cause of pediatric chronic liver disease, which is strongly associated with obesity. Transient elastography, together with anthropometric values including waist‐to‐height ratio (WHtR) and body mass index (BMI) z‐scores are a more precise diagnostic method of NAFLD than ultrasonography. Through transient elastography, we investigate the principal anthropometric values associated with pediatric NAFLD. Methods Healthy children between the ages of 6–18 years whose BMIs were ≥85% of normal were recruited as the overweight‐and‐obese group, and children whose BMIs ranged between 5%–85% were recruited as the control group. Non‐alcoholic fatty liver disease was evaluated via transient elastography. BMI z‐score and WHtR were measured. Results A total of 107 (58 overweight‐and‐obese, 49 control) children were recruited. As evaluated by transient elastography, children in the overweight‐and‐obese group had significantly higher controlled attenuation parameter and liver stiffness measurement values than the control group. To detect fatty liver, WHtR with a cut‐off point of 0.481 and BMI z‐score with cut‐off point of 1.075 had the best sensitivity and specificity. To identify liver stiffness or inflammation, WHtR with cut‐off point of 0.514 and BMI z‐score with cut‐off point of 1.62 had the best sensitivity and specificity. Controlled attenuation parameter demonstrated a fair correlation with WHtR and BMI z‐scores, even in the normal range of these parameters. Conclusions Transient elastography together with anthropometric measurements demonstrate that pediatric NAFLD may develop earlier than expected. We present principal anthropometric values associated with pediatric NAFLD.
ISSN:1328-8067
1442-200X
DOI:10.1111/ped.14395