The research line Generative design strategies for tissue engineering, led by PhD. Juan Crespo Santiago, explores the potential of design engineering discipline and 3D printing techniques, as a platform to generate tissue engineering strategies. With a transdisciplinary background, we focus on investigating design engineering solutions in a tissue repair context.
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Phygital Bone: A biomimetic parametric model for 3D-printing human bone surrogates
Authors: Crespo-Santiago J*; Jordana X; Gesualdo M; Álvarez A; Andreu C; Mallafré H; Rzymelka V; Galtés I; Otero-Viñas M. Results in Engineering 2026 Jun;30:110448 DOI: 10.1016/j.rineng.2026.110448 Read More Abstract Accurate human bone surrogates are essential for biomechanical research. Existing commercial models provide limited control over microarchitectural features. [...]
3D BONE BIOTEC
GRANT Original Title (English): “3D BONE BIOTEC” Reference: AEI-010500-2024-18 PI: Juan Crespo Santiago Participants: ELISAVA UVIC-UCC, Fundació CIM UPC, PERDIGÓ, DAN*NA, Cluster de Materials Avançats de Catalunya, Cluster CataloniaBio & HealthTech. Funded by: Ministerio de Industria y Turismo A research project that will generate algorithm-aided designed human bone models suitable to [...]
Oozing: An accessible technique to create 3D-printed scaffolds suitable for tissue engineering
Oozing: An accessible technique to create 3D-printed scaffolds suitable for tissue engineering Authors: Juan Crespo Santiago, Luis M. Delgado, Rafa Madariaga, Laia Millan, Oriol Chico, Pau Oliver, Román Pérez, Marta Otero Viñas Abstract Tissue-engineered constructs require mimicking the extracellular matrix microenvironment of native tissue [...]
