PURPOSE: The major purpose of this retrospective study on 25 CT scans of child liver aged from 2 to 13 years was to investigate the growth, morphologic variations and modifications of the liver position as a function of the children age. The objective was to characterize the 3D geometry of the child liver, which is still unknown. METHODS: 3D reconstruction of child liver was performed using the Mimics(®) software. Measurements of volumes (total liver and right lobe), distances between anatomic reference points and angles were performed. The liver position was calculated with respect to the 11th thoracic vertebra. RESULTS: The liver shows a harmonious volume growth between the right and the left lobes, but a disharmonious one for the measurements in relation to the falciform ligament. The liver position, with respect to the vertebral column, in the peritoneal cavity was unchanged during the liver growth. CONCLUSION: The obtained results from this preliminary work give a description of the child liver during the growth and are of interest for the numerical modeling.
PURPOSE: The major purpose of this retrospective study on 25 CT scans of child liver aged from 2 to 13 years was to investigate the growth, morphologic variations and modifications of the liver position as a function of the children age. The objective was to characterize the 3D geometry of the child liver, which is still unknown. METHODS: 3D reconstruction of child liver was performed using the Mimics(®) software. Measurements of volumes (total liver and right lobe), distances between anatomic reference points and angles were performed. The liver position was calculated with respect to the 11th thoracic vertebra. RESULTS: The liver shows a harmonious volume growth between the right and the left lobes, but a disharmonious one for the measurements in relation to the falciform ligament. The liver position, with respect to the vertebral column, in the peritoneal cavity was unchanged during the liver growth. CONCLUSION: The obtained results from this preliminary work give a description of the child liver during the growth and are of interest for the numerical modeling.
Authors: M Behr; P J Arnoux; T Serre; S Bidal; H S Kang; L Thollon; C Cavallero; K Kayvantash; C Brunet Journal: Comput Methods Biomech Biomed Engin Date: 2003-08 Impact factor: 1.763
Authors: Jean-Nicolas Vauthey; Eddie K Abdalla; Dorota A Doherty; Philippe Gertsch; Marc J Fenstermacher; Evelyne M Loyer; Jan Lerut; Roland Materne; Xuemei Wang; Arthur Encarnacion; Delise Herron; Christian Mathey; Giovanni Ferrari; Chuslip Charnsangavej; Kim-Anh Do; Alban Denys Journal: Liver Transpl Date: 2002-03 Impact factor: 5.799