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Smart laser Sintering: Deep Learning-Powered powder bed fusion 3D printing in precision medicine

Youssef Abdalla, Martin Ferianc, Atheer Awad, Jeesu Kim, Moe Elbadawi, Abdul W. Basit, Mine Orlu, Miguel R. D. Rodrigues

2024International Journal of Pharmaceutics24 citationsDOIOpen Access PDF

Abstract

Medicines remain ineffective for over 50% of patients due to conventional mass production methods with fixed drug dosages. Three-dimensional (3D) printing, specifically selective laser sintering (SLS), offers a potential solution to this challenge, allowing the manufacturing of small, personalized batches of medication. Despite its simplicity and suitability for upscaling to large-scale production, SLS was not designed for pharmaceutical manufacturing and necessitates a time-consuming, trial-and-error adaptation process. In response, this study introduces a deep learning model trained on a variety of features to identify the best feature set to represent drugs and polymeric materials for the prediction of the printability of drug-loaded formulations using SLS. The proposed model demonstrates success by achieving 90% accuracy in predicting printability. Furthermore, explainability analysis unveils materials that facilitate SLS printability, offering invaluable insights for scientists to optimize SLS formulations, which can be expanded to other disciplines. This represents the first study in the field to develop an interpretable, uncertainty-optimized deep learning model for predicting the printability of drug-loaded formulations. This paves the way for accelerating formulation development, propelling us into a future of personalized medicine with unprecedented manufacturing precision.

Topics & Concepts

Selective laser sintering3D printingComputer scienceDeep learningProcess engineeringPharmaceutical manufacturingProcess (computing)Artificial intelligenceMaterials scienceNanotechnologyMachine learningBiochemical engineeringMechanical engineeringSinteringEngineeringMedicineOperating systemComposite materialPharmacology3D Printing in Biomedical ResearchAdditive Manufacturing and 3D Printing TechnologiesInnovative Microfluidic and Catalytic Techniques Innovation
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