Gelatin-Based Liver Phantoms for Training Purposes: A Cookbook Approach

Radu Claudiu Elisei, Florin Graur (Lead / Corresponding author), Amir Szold, Andreas Melzer, Sever Cãlin Moldovan, Mihai Motrescu, Emil Moiş, Cãlin Popa, Doina Pîsla, Cãlin Vaida, Tiberiu Tudor, Adrian Coţe, Nadim Al-Hajjar

    Research output: Contribution to journalArticlepeer-review

    1 Citation (Scopus)

    Abstract

    Background: Patients with liver pathology benefit from image-guided interventions. Training for interventional procedures is recommended to be performed on liver phantoms until a basic proficiency is reached. In the last 40 years, several attempts have been made to develop materials to mimic the imaging characteristics of the human liver in order to create liver phantoms. There is still a lack of accessible, reproducible and cost-effective soft liver phantoms for image-guided procedure training. Methods: Starting from a CT-scan DICOM file, we created a 3D-printed liver mold using InVesalius (Centro de Tecnologia da informação Renato Archer CTI, InVesalius 3 open-source software, Campinas, Brazil) for segmentation, Autodesk Fusion 360 with Netfabb (Autodesk software company, Fusion 360 2.0.19426 with Autodesk Netfabb Premium 2023.0 64-Bit Edition, San Francisco, CA, USA) for 3D modeling and Stratasys Fortus 380 mc 3D printer (Stratasys 3D printing company, Fortus 380 mc 3D printer, Minneapolis, MN, USA). Using the 3D-printed mold, we created 14 gelatin-based liver phantoms with 14 different recipes, using water, cast sugar and dehydrated gelatin, 32% fat bovine milk cream with intravenous lipid solution and technical alcohol in different amounts. We tested all these phantoms as well as ex vivo pig liver and human normal, fatty and cirrhotic liver by measuring the elasticity, shear wave speed, ultrasound attenuation, CT-scan density, MRI signal intensity and fracture force. We assessed the results of the testing performed, as well as the optical appearance on ultrasound, CT and MRI, in order to find the best recipe for gelatin-based phantoms for image-guided procedure training. Results: After the assessment of all phantom recipes, we selected as the best recipe for transparent phantoms one with 14 g of gelatin/100 mL water and for opaque phantom, the recipes with 25% cream. Conclusions: These liver gelatin-based phantom recipes are an inexpensive, reproducible and accessible alternative for training in image-guided and diagnostic procedures and will meet most requirements for valuable training.

    Original languageEnglish
    Article number3440
    Number of pages19
    JournalJournal of Clinical Medicine
    Volume13
    Issue number12
    Early online date12 Jun 2024
    DOIs
    Publication statusPublished - Jun 2024

    Keywords

    • 3D printing
    • gelatin-based phantom
    • liver biopsy
    • liver mold
    • liver phantom
    • liver surgery
    • training
    • ultrasound-guided

    ASJC Scopus subject areas

    • General Medicine

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