SCIENTIFIC PUBLICATIONS

Evidence-Based Methodology Supports Us

1. Fillat-Gomà F, Marcano-Fernández FA, Coderch-Navarro S, Martínez-Carreres L, Berenguer A. 3D printing innovation: New insights into upper extremity surgery planning. Injury. 2021 Jul;52 Suppl 4:S117-S124. doi: 10.1016/j.injury.2021.01.048. Epub 2021 Feb 13. PMID: 33632605. 
   
   
2. Marcano-Fernández FA, Berenguer A, Fillat-Gomà F, Corderch-Navarro S, Cámara-Cabrera J, Sánchez-Flò R. A customized percutaneous three-dimensional-printed guide for scaphoid fixation versus a freehand technique: a comparative study. J Hand Surg Eur Vol. 2021 Dec;46(10):1081-1087. doi: 10.1177/17531934211049132. Epub 2021 Oct 14. PMID: 34647500. 
   
   
3. Fernández-Poch N, Fillat-Gomà F, Martínez-Carreres L, Coderch-Navarro S, Yela-Verdú C, Carbó-Cedán S, Pelfort X. Three-dimensional-printed patient-specific instrumentation is an accurate tool to reproduce femoral bone tunnels in multipleligament knee injuries. Int Orthop. 2023 Feb 17. doi: 10.1007/s00264-023-05712-1. Epub ahead of print. PMID: 36799973. 
   
   
4. Levesque JN, Shah A, Ekhtiari S, Yan JR, Thornley P, Williams DS. Three-dimensional printing in orthopaedic surgery: a scoping review. EFORT Open Rev. 2020 Aug 1;5(7):430-441. doi: 10.1302/2058-5241.5.190024. PMID: 32818070; PMCID: PMC7407871. 
   
   
5. Boileau, P., Cheval, D., Gauci, M., Holzer, N., Chaoui, J. and Walch, G., 2018. Automated Three-Dimensional Measurement of Glenoid Version and Inclination in Arthritic Shoulders. Journal of Bone and Joint Surgery, 100(1), pp.57-65.
   
   
6. Marcoin, A., Nerot, C., Lestra, T., Blasco, L., Ferrier, A., Siboni, R. and Ohl, X., 2020. The precision of patient-specific instrumentation guides for the positioning of the glenoid component in total reverse shoulder arthroplasty: an in vivo scanographic study. International Orthopaedics, 44(9), pp.1761-1766.
   
   
7. Villatte, G., Muller, A., Pereira, B., Mulliez, A., Reilly, P. and Emery, R., 2018. Use of Patient-Specific Instrumentation (PSI) for glenoid component positioning in shoulder arthroplasty. A systematic review and meta-analysis. PLOS ONE, 13(8), p.e0201759.
   
   
8. Walch, G., Vezeridis, P., Boileau, P., Deransart, P. and Chaoui, J., 2015. Three-dimensional planning and use of patient-specific guides improve glenoid component position: an in vitro study. Journal of Shoulder and Elbow Surgery, 24(2), pp.302-309.
   
   
9. Boileau, P., Cheval, D., Gauci, M., Holzer, N., Chaoui, J. and Walch, G., 2018. Automated Three-Dimensional Measurement of Glenoid Version and Inclination in Arthritic Shoulders. Journal of Bone and Joint Surgery, 100(1), pp.57-65.
   
   
10. Srivas, P., Kapat, K., Dadhich, P., Pal, P., Dutta, J., Datta, P. and Dhara, S., 2017. Osseointegration assessment of extrusion printed Ti6Al4V scaffold towards accelerated skeletal defect healing via tissue in-growth. Bioprinting, 6, pp.8-17.
    
    
11. Xiong, Y., Wang, W., Gao, R., Zhang, H., Dong, L., Qin, J., Wang, B., Jia, W. and Li, X., 2020. Fatigue behavior and osseointegration of porous Ti-6Al-4V scaffolds with dense core for dental application. Materials & Design, 195, p.108994.