2022

Vernon M, Lu J, Padman B, Lamb C, Kent R, Mela P, Doyle B, Ihdayhid AR, Jansen S, Dilley RJ, De‐Juan‐Pardo EM. Engineering Heart Valve Interfaces Using Melt Electrowriting: Biomimetic Design Strategies from Multimodal Imaging. Advanced Healthcare Materials. 2022 Oct 27:2201028.

Heidari BS, Ruan R, Vahabli E, Chen P, De-Juan-Pardo EM, Zheng M, Doyle B (2022), ‘Natural, synthetic and commercially-available biopolymers used to regenerate tendons and ligaments’. Accepted, Bioactive Materials

Saidy NT, Fernández-Colino A, Heidari BS, Kent R, Vernon M, Bas O, Mulderrig S, Lubig A, Rodríguez-Cabello JC, Doyle B, Hutmacher DW, De-Juan-Pardo EM*, Mela P* (*equal contribution), ‘Spatially Heterogeneous Tubular Scaffolds for In Situ Heart Valve Tissue Engineering Using Melt Electrowriting’. Advanced Functional Materials 2110716

Collier E, Maitland B, Sanderson R, Heidari BS, Lamb C, Hepburn M, Dalton PD, Fang Q, De-Juan-Pardo EM* & Kennedy BF* (*equal contribution), ‘In Situ Characterization of Melt Electrowritten Scaffolds in Three Dimensions Using Optical Coherence Tomography’. Advanced Photonics Research 2100274

2021

Gao Q, Xie JJ, Salero E, Nuñez del Prado Z, Hutmacher DW, Ye J, De-Juan-Pardo EM*, Sabater AL*, Perez VL* (*equal contribution), ‘Tissue engineering of corneal stroma via melt electrowriting’. Journal of Tissue Engineering and Regenerative Medicine 15(10):841-851

Sanchez-Diaz R, Park JR, Rodrigues LL, Dalton PD, De-Juan-Pardo EM, Dargaville T, ‘Highly elastic scaffolds produced by melt electrowriting of poly(L-lactide-co-ε-caprolactone)’. Advanced Materials Technologies 2100508

Heidari BS, Rui R, De-Juan-Pardo EM, Zheng M, Doyle B, ‘Biofabrication and signaling strategies for tendon/ligament interfacial tissue engineering.’ ACS Biomaterials Science and Engineering 7(2):383-399

Mueller KMA, Topping G, Swaminger SP, Zou Y, Rojas-Gonzalez DM, De-Juan-Pardo EM, Berensmeier S, Schilling F, Mela P, ‘Visualization of USPIO-Labeled Melt-Electrowritten Scaffolds by Non-Invasive Magnetic Resonance Imaging’. Biomaterials Science 9:4607-4612

Heidari BS, Chen P,  Rui R, Al-Salami H, De-Juan-Pardo EM, Zheng M, Doyle B, ‘A novel biocompatible polymeric blend for applications requiring high toughness and tailored degradation rate’. Journal of Materials Chemistry B 9(10):2532-2546

Shafiee A, Cavalcanti AS, Saidy NT, Schneidereit D, Friedrich O, Ravichandran A, De-Juan-Pardo EM, Hutmacher DW, ‘Convergence of 3D Printed Biomimetic Wound Dressings and Adult Stem Cell Therapy’. Biomaterials 268:120558

2020

Bonda U, Jaeschke A, Lighterness A, Baldwin J, Werner C, De-Juan-Pardo EM*, Bray LJ* (*equal contribution), ‘3D Quantification of vascular-like structures in z-stack confocal images’. STAR Protocols 1(3):100180

Sanchez-Herrero A, Calvo IA, Flandes-Iparraguirre M, Landgraft M, Lahr C, Shafiee A, Granero-Molto F, Saez B, Mazo MM, Pavia B, De-Juan-Pardo EM, Nicol A, Prosper F, Bray L, McGovern J, ‘Engineering a humanised niche to support human haematopoiesis in mice: novel opportunities in modelling cancer’. Cancers, 12(8):2205

Saidy NT, Shabab T, Bas O, Menne M, Henry T, Hutmacher DW, Mela P* & De-Juan-Pardo EM* (*equal contribution), ‘Melt electrowriting of complex 3D anatomically relevant scaffolds.’ Frontiers in Bioengineering and Biotechnology, 8:793

2019

Saidy NT, Wolf F, Bas O, Keijdener H, Hutmacher DW, Mela P* and De-Juan-Pardo EM* (*equal contribution), ‘Biologically inspired scaffolds for heart valve tissue engineering via melt electrowriting.’ Small, 15(24): 1900873

Hammerl A, Díaz Cano CE, De-Juan-Pardo EM, Van Griensven M, Poh PSP, ‘A growth factors-free osteoblasts and peripheral blood mononuclear cells co-culture system for the evaluation of osteogenesis potential of melt-electrowritten polycaprolactone scaffolds.’ International Journal of Molecular Sciences, Mar 1; 20(5):1068

González-Gil AB, Lamo-Espinosa JM, Muiños-López E, Ripalda-Cemborain P, Abizanda G, Andreu I, Elizalde MR, Stuckensen K, Groll J, Hutmacher DW, De-Juan-Pardo EM, Prósper F, Granero-Moltó F, ‘Periosteum-derived mesenchymal progenitor cells in engineered implants promote fracture healing in a critical-size defect rat model.’ Journal of Tissue Engineering and Regenerative Medicine, Feb 13; 13(5):742-752

Dondossola E, Casarin S, Paindelli C, De-Juan-Pardo EM, Hutmacher DW, Logothetis CJ, Friedl P, ‘Radium 223-mediated zonal cytotoxicity of prostate cancer in bone’. Journal of the National Cancer Institute, Jan 18; 111(10):1042-1050

Wunner FM, Bas O, Eggert S, Mieszczaneck P, De-Juan-Pardo EM, Hutmacher DW, ‘Printomics: the high-throughput analysis of printing parameters applied to melt electrowriting.’ Biofabrication, Jan 24; 11(2):025004

Pereira BA, Lister NL, Hashimoto K, Teng L, Flandes-Iparraguirre M, Eder A, Sanchez-Herrero A, Niranjan B, Frydenberg M, Papargiris MM, Lawrence MG, Taylor RA, Hutmacher DW, Melbourne Urological Research Alliance (MURAL), Ellem SJ*, Risbridger GP* & De-Juan-Pardo EM* (equal contribution), ‘Tissue engineered human microtissues reveal the key role of the tumour 2 microenvironment in promoting prostate malignancy. Biomaterials, Jan 2;197:72-85

Wunner FM, Eggert S, Maartens J, Bas O, De-Juan-Pardo EM, Hutmacher DW, ‘Design and Development of a 3D Printing High-Throughput Melt Electrospinning Writing Device’, 3D Printing and Additive Manufacturing, April 1;6(2):82-90