Prof. Dr. Michael de Wild
Prof. Dr. Michael de Wild
Activities at the FHNW
Lecturer at the Institute for Medical Engineering and Medical Informatics
Teaching
Bachelor
- Engineering mechanics
- Biocompatible materials
- Practical course in materials testing
Master
- Biointerface Engineering
- Surface Characterization
- Materials Science
- Atomic View to Materials
- Materials Science and Biomaterials
- Guest lecturer Applications of Surface Science in Industry
- Block course Functional biocompatible materials for medical applications
Profile
- Member of the Swiss Physical Society (SPS)
- Member of the Swiss Society for Biomaterials and Regenerative Medicine (SSB+RM)
- Member of the programme committee of the Medical Cluster Conference [MEET THE EXPERT] Material and Surface Technology for Implants
- W. Hoffmann, C. Döbeli, R. Santoro, D. Wendt, M. de Wild, Reactor device for mechanical loading of tissue specimens and/or engineered tissues, European Patent Office Munich, priority application, EP 14/169756, 23 May 2014.
- W. Hofstetter, E. Hunziker, M. de Wild, M. Wieland, Dental implant system
PCT patent application WO 2009/040124, priority 26.09.2007.
EP07 018 894.1, priority 26.09.2007
PCT/EP2008/008198, priority 26.09.2008
US12/680,015, priority 25.03.2010 - M. de Wild, F. Homann, Dental implant having a surface made of a ceramic material
European patent application EP 1982671, priority 19.04.2007. - S. Tosatti, M. Schuler, D. Trentin, M. de Wild, Cell selective implant surface with controlled release of bioactive agents, PCT patent application A16238EP, priority 11.01.2006. Pat No. 07405002.2-1219. European patent application EP 1 808 188, 05.01.2007.
- F. Grohmann, M. de Wild, M. Memmolo, Beschichtung von Teilen aus Titan oder einer Titan-Legierung zur Verhinderung von Kaltverschweissung, PCT patent application A05019053.7, priority 01.09. (2005). Coating for Parts Made of Titanium or the Alloy Thereof or Preventing Cold Welding, European patent application EP 1759722, priority 01.09. (2005).
- S. Berner, S. Schintke, L. Ramoino, M. de Wild, T. A. Jung, Method to induce and control a reversible structural transition in a molecular dipole layer, U.S. patent application (2003).
- M. Brunner, S. Berner, H. Suzuki and T.A. Jung, University of Basel, Production method for atomic and molecular patterns on surfaces and nanostructured devices, PCT patent application WO 02/086200 A1 (2001).
- O. Koudal, V. Kobbe, M. Brunner, B. Banholzer, Endress + Hauser Flowtec AG, Volume or mass flowmeter, PCT patent application 99102267.4-2204 (1999).
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No peer reviewed content available
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Peer reviewedGottsauner, M., Morawska, M. M., Tempel, S., Müller-Gerbl, M., Dalcanale, F., de Wild, M., & Ettl, T. (2024). Geometric cuts by an autonomous laser osteotome increase stability in mandibular reconstruction with free fibula grafts. A cadaver study. Journal of Oral and Maxillofacial Surgery, 82(2). https://doi.org/10.1016/j.joms.2023.10.008
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Peer reviewedGottsauner, M., Morawska, M. M., Tempel, S., Müller-Gerbl, M., Dalcanale, F., de Wild, M., & Ettl, T. (2024). Geometric cuts by an autonomous laser osteotome increase stability in mandibular reconstruction with free fibula grafts. A cadaver study. Journal of Oral and Maxillofacial Surgery, 82(2), 235–245. https://doi.org/10.1016/j.joms.2023.10.008
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Peer reviewedMaintz, M., Msallem, B., de Wild, M., Seiler, D., Herrmann, S., Feiler, S., Sharma, N., Dalcanale, F., Cattin, P., & Thieringer, F. M. (2023). Parameter optimization in a finite element mandibular fracture fixation model using the design of experiments approach. Journal of the Mechanical Behavior of Biomedical Materials, 144. https://doi.org/10.1016/j.jmbbm.2023.105948
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Peer reviewedZarean, P., Zarean, P., de Wild, M., Thieringer, F. M., Sharma, N., Seiler, D., & Malgaroli, P. (2023). Effect of printing parameters on mechanical performance of material-extrusion 3D-printed PEEK specimens at the point-of-care. Applied Sciences, 13(3), 1–15. https://doi.org/10.3390/app13031230
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Peer reviewedLee, S. S., Du, X., Smit, T., Bissacco, E. G., Seiler, D., de Wild, M., & Ferguson, S. J. (2023). 3D-printed LEGO®-inspired titanium scaffolds for patient-specific regenerative medicine. Biomaterials Advances, 154. https://doi.org/10.1016/j.bioadv.2023.213617
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Peer reviewedde Wild, M., Zimmermann, S., Klein, K., Steffen, T., Schlottig, F., Hasler, C., & Rechenberg, B. v. (2023). Immediate stabilization of pedicle screws. Current Directions in Biomedical Engineering, 9(1). https://doi.org/10.1515/cdbme-2023-1004
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Peer reviewedMaevskaia, E., Khera, N., Ghayor, C., Bhattacharya, I., Guerrero, J., Nicholls, F., Waldvogel, C., Bärtschi, R., Fritschi, L., Salamon, D., Özcan, M., Malgaroli, P., Seiler, D., de Wild, M., & Weber, F. E. (2023). Three-dimensional printed hydroxyapatite bone substitutes designed by a novel periodic minimal surface algorithm are highly osteoconductive. 3D Printing and Additive Manufacturing, 10(5), 905–916. https://doi.org/10.1089/3dp.2022.0134
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Peer reviewedMaintz, M., Seiler, D., Thieringer, F. M., & de Wild, M. (2022). Topology-optimized patient-specific osteosynthesis plates. Current Directions in Biomedical Engineering, 8(2), 177–180. https://doi.org/10.1515/cdbme-2022-1046
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Peer reviewedRohr, N., Brunner, C., Bellon, B., Fischer, J., & de Wild, M. (2022). Characterization of a cotton-wool like composite bone graft material. Journal of Materials Science: Materials in Medicine, 33(8). https://doi.org/10.1007/s10856-022-06682-3
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Peer reviewedLennart, R., Schuler, F., Gayral, T., de Wild, M., & Renaud, P. (2021). Development of models for additively manufactured actuators using compliant Wren mechanism. Precision Engineering, 72, 304–314. https://doi.org/10.1016/j.precisioneng.2021.05.002
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Peer reviewedMüller, S., Schwenk, T., de Wild, M., Dimitrou, D., & Rosso, C. (2021). Increased construct stiffness with meniscal repair sutures and devices increases the risk of cheese-wiring during biomechanical load-to-failure testing. Orthopaedic Journal of Sports Medicine, 9(6). https://doi.org/10.1177/23259671211015674
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Peer reviewedSchuler, F., Dany, S., John, C., & de Wild, M. (2021). Exploitation of transition temperatures of NiTi- SMA by adjusting SLM parameters. Current Directions in Biomedical Engineering, 7(2), 61–64. https://doi.org/10.1515/cdbme-2021-2016
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Peer reviewedSimeunovic, S., Jung, C., Mory, D., Seiler, D., & de Wild, M. (2021). Investigating dry electro-chemical polishing of titanium structures. Current Directions in Biomedical Engineering, 7(2), 77–80. https://doi.org/10.1515/cdbme-2021-2020
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Dalcanale, F., Bitiqi, H., & de Wild, M. (2020). CaP bone‐like coating for fast osseointegration of dental implants. Clinical Oral Implants Research, 31(S20). https://doi.org/10.1111/clr.1_13644
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de Wild, M., & Schuler, F. (2020). Smart 4D-printed implants and instruments. Current Directions in Biomedical Engineering, 6(3), 209–212. https://doi.org/10.1515/cdbme-2020-3053
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Peer reviewedde Wild, M., Dietschy, A., Claudio, R., & Rosso, C. (2019). Three anchor concepts for rotator cuff repair in standardized physiological and osteoporotic bone: a biomechanical study. Journal of Shoulder and Elbow Surgery, 1–8. https://doi.org/10.1016/j.jse.2019.07.032
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Peer reviewedMüller, S., & de Wild, M. (2019). The new LassoLoop360° technique for biomechanically superior tissue grip. Knee Surgery, Sports Traumatology, Arthroscopy, 27(12), 3962–3969. https://doi.org/10.1007/s00167-019-05604-1
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Peer reviewedChen, T.-H., Ghayor, C., Siegenthaler, B., Schuler, F., Rüegg, J., de Wild, M., & Weber, F. E. (2018). Lattice Microarchitecture for Bone Tissue Engineering from Calcium Phosphate Compared to Titanium. Tissue Engineering. Part A, 24(19-20). https://doi.org/10.1089/ten.TEA.2018.0014
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Peer reviewedde Wild, M., Ghayor, C., Zimmermann, S., Rüegg, J., Nicholls, F., Schuler, F., Chen, T.-H., & Weber, F. E. (2018). Osteoconductive Lattice Microarchitecture for Optimized Bone Regeneration. 3D Printing and Additive Manufacturing, 6. https://doi.org/10.1089/3dp.2017.0129
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de Wild, M. (2018, January). SPIRITS – Ein neues Roboter-Unterstützungssystem für die interventionelle Radiologie, das frühe Behandlung von Tumoren ermöglicht. RegioInform, 18(1). http://hdl.handle.net/11654/26963
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Matter, N., Schuler, F., Schumacher, R., & de Wild, M. (2018). Pre-process calculation to optimize laser parameter in selective laser melting. In eCM Conferences (Ed.), SSB+RM Conference Abstracts. http://hdl.handle.net/11654/27044
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Schuler, F., Renaud, P., & de Wild, M. (2018). 3D-printed auxetic structures for bio-medical application. In eCM Conferences (Ed.), Swiss Society for Biomaterials and Regenerative Medicine. http://hdl.handle.net/11654/27042
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Zimmermann, S., Schumacher, R., Bill, O., Dalcanale, F., & de Wild, M. (2018). Reduction of particles on SLM surfaces. Meet the Expert Conference. http://hdl.handle.net/11654/27043
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Weber, F. E., de Wild, M., Rüegg, J., & Schumacher, R. (2017). Mechanical anisotropy of titanium scaffolds. Current Directions in Biomedical Engineering, 3(2), 607–611. https://doi.org/10.1515/cdbme-2017-0127
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de Wild, M., Zimmermann, S., Obrecht, M., & Dard, M. (2017). Marker for the pre-clinical development of bone substitute materials. Current Directions in Biomedical Engineering, 3(2), 711–715. https://doi.org/10.1515/cdbme-2017-0151
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de Wild, M. (2017). Das Rennen. Aargauer Zeitung, Basellandschaftliche Zeitung, Solothurner Zeitung. http://hdl.handle.net/11654/25785
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Peer reviewedHarrasser, N., de Wild, M., Gorkotte, J., Obermeier, A., & Feihl, S. (2016). Evaluation of calcium dihydroxide- and silver-coated implants in the rat tibia. Journal of Applied Biomaterials & Functional Materials, 14(4), e441–e448. https://doi.org/10.5301/jabfm.5000323
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Peer reviewedHarrasser, N., Gorkotte, J., Obermeier, A., Feihl, S., Straub, M., Slotta-Huspenina, J., von Eisenhart-Rothe, R., Moser, W., Gruner, P., de Wild, M., Gollwitzer, H., & Burgkart, R. (2016). A new model of implant-related osteomyelitis in the metaphysis of rat tibiae. BMC Musculoskeletal Disorders. https://doi.org/10.1186/s12891-016-1005-z
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Wohlfender, F., Rüegg, J., Vogt, N., Marek, R., & de Wild, M. (2016). Track E. Bioprinting and additive manufacturing. Biomedical Engineering, 61(s1), 30–32. https://doi.org/10.1515/bmt-2016-5003
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Peer reviewedde Wild, M., Zimmermann, S., Rüegg, J., Schumacher, R., Fleischmann, T., Ghayor, C., & Weber, F. E. (2016). Influence of microarchitecture on osteoconduction and mechanics of porous titanium scaffolds generated by selective laser melting. 3D Printing and Additive Manufacturing, 3(3), 143–151. https://doi.org/10.1089/3dp.2016.0004
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Saxer, S., Rüegg, J., Dietschy, A., Schumacher, R., de Wild, M., Wiese, B., & Wohlfender, F. (2016). Preliminary microstructural investigation of Mg produced by SLM. European Cells and Materials, 32(Supplement 1), 24. http://hdl.handle.net/11654/23567
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Peer reviewedde Wild, M., Vogt, N., Wozniak, K., & Salito, A. (2016). Biocompatible wear-resistant thick ceramic coating. Current Directions in Biomedical Engineering, 2(1), 31–34. https://doi.org/10.1515/cdbme-2016-0010
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Peer reviewedBraissant, O., Chavanne, P., de Wild, M., Pieles, U., Stevanovic, S., Schumacher, R., Straumann, L., Wirz, D., Gruner, P., Bachmann, A., & Bonkat, G. (2015). Novel microcalorimetric assay for antibacterial activity of implant coatings. The cases of silver‐doped hydroxyapatite and calcium hydroxide. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 103(6), 1161–1167. https://doi.org/10.1002/jbm.b.33294
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Peer reviewedde Wild, M., Molenberg, A., Amacher, F., & Chris, B. (2015). Investigation of structural resorption behavior of biphasic bioceramics with help of gravimetry, μCT, SEM, and XRD. Journal of Biomedical Materials Research. Part B: Applied Biomaterials, 1–8. https://doi.org/10.1002/jbm.b.33419.
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Peer reviewedKarfeld-Sulzer, L. S., Ghayor, C., & de Wild, M. (2015). N-methyl Pyrrolidone/Bone Morphogenetic Protein-2 Double Delivery with In Situ Forming Implants. Journal of Controlled Release, 203, 181–188. http://hdl.handle.net/11654/11924
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Peer reviewedde Wild, M., Hoffmann, W., Feliciano, S., Martin, I., & Wendt, D. (2015). Novel perfused compression bioreactor system as an in vitro model to investigate fracture healing. Frontiers in Bioengineering and Biotechnology, 3(10), 1–6. https://doi.org/10.3389/fbioe.2015.00010
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de Wild, M., Schumacher, R., Rüegg, J., Zimmermann, S., & Weber, F. E. (2015). Stiffness - anisotropy of porous implant geometries. eCM Congress XVI. http://hdl.handle.net/11654/11872
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Peer reviewedJung, C., Mathes, S., Bono, E., Walker, C., Kessler, A., Straumann, L., de Wild, M., & de Haller, E. B. (2015). Cell viability on titanium implant surfaces modified with antibacterial copper. European Cells and Materials, 29, 24. http://hdl.handle.net/11654/11820
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Rimmer, N., Burgio, F., Rohner, A., Chavanne, P., Zimmermann, S., Gruner, P., Schumacher, R., de Wild, M., Papadimitropoulos, A., Martin, Y., Hugot Beaufils, M., & Pieles, U. (2015). Improvement of mechanical properties of 3D printed hydroxyapatite scaffolds by culture of osteoblast-like cells under perfusion flow. European Cells and Materials Conference Meeting Abstracts. http://hdl.handle.net/11654/17563
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Peer reviewedRosso, C., Müller, S., Buckland, D. M., Schwenk, T., Zimmermann, S., de Wild, M., & Valderrabano, V. (2014). All-inside meniscal repair devices compared with their matched inside-out Vertical mattress suture repair. Introducing 10,000 and 100,000 loading cycles. The American Journal of Sports Medicine, 42(9), 2226–2233. https://doi.org/10.1177/0363546514538394
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Peer reviewedBormann, T., Beckmann, F., Schinhammer, M., Deyhle, H., de Wild, M., & Müller, B. (2014). Assessing the grain structure of highly X-ray absorbing metallic alloys. International Journal of Materials Research, 105(7), 692–701. https://doi.org/10.3139/146.111052
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Peer reviewedBormann, T., Schulz, G., Deyhle, H., Beckmann, F., de Wild, M., Küffer, J., Münch, C., Hoffmann, W., & Müller, B. (2014). Combining micro computed tomography and three-dimensional registration to evaluate local strains in shape memory scaffolds. Acta Biomaterialia, 10(2), 1024–1034. https://doi.org/10.1016/j.actbio.2013.11.007
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Peer reviewedHoffmann, W., Bormann, T., Rossi, A., Müller, B., Schumacher, R., Martin, I., de Wild, M., & Wendt, D. (2014). Rapid prototyped porous nickel–titanium scaffolds as bone substitutes. Journal of Tissue Engineering, 5. https://doi.org/10.1177/2041731414540674
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Zwahlen, A., de Wild, M., & Jung, C. (2014). Comparison of methods for testing ultrasound in the cleaning bath. Fortschritte der Akustik - DAGA 2014, 716–717. https://doi.org/10.26041/fhnw-9894
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Peer reviewedde Wild, M., Meier, F., Bormann, T., Howald, C., & Müller, B. (2014). Damping of selective-laser-melted NiTi for medical implants. Journal of Materials Engineering and Performance, 23(7), 2614–2619. https://doi.org/10.1007/s11665-014-0889-8
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Peer reviewedBormann, T., Müller, B., Schinhammer, M., Kessler, A., Thalmann, P., & de Wild, M. (2014). Microstructure of selective laser melted nickel–titanium. Materials Characterization, 94, 189–202. https://doi.org/10.1016/j.matchar.2014.05.017
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Bormann, T., de Wild, M., Beckmann, F., & Müller, B. (2013). Assessing the morphology of selective laser melted NiTi-scaffolds for a three-dimensional quantification of the one-way shape memory effect. In N. C. Goulbourne & H. E. Naguib (Eds.), Behavior and Mechanics of Multifunctional Materials and Composites 2013 (Vol. 8689). https://doi.org/10.1117/12.2012245
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Peer reviewedHofstetter, W., Sehr, H., de Wild, M., Portenier, J., Gobrecht, J., & Hunziker, E. B. (2013). Modulation of human osteoblasts by metal surface chemistry. Journal of Biomedical Materials Research Part A, 101A(8), 2355–2364. https://doi.org/10.1002/jbm.a.34541
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Peer reviewedde Wild, M., Schumacher, R., Kyrill, M., Schkommodau, E., Thoma, D., Bredell, M., Kruse, A., Grätz, K., & Weber, F. (2013). Bone regeneration by the osteoconductivity of porous titanium implants manufactured by selective laser melting: A histological and µCT study in the rabbit. Tissue Engineering. Part A, 19(23-24), 2645–2654. https://doi.org/10.1089/ten.TEA.2012.0753
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Peer reviewedBormann, T., Schumacher, R., Müller, B., Mertmann, M., & de Wild, M. (2012). Tailoring selective laser melting process parameters for NiTi implants. Journal of Materials Engineering and Performance, 21(12), 2519–2524. https://doi.org/10.1007/s11665-012-0318-9
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Peer reviewedJung, C., Budesa, B., Fässler, F., Uehlinger, R., Müller, T., Schaffner, P., Bläsi, S., & de Wild, M. (2012). Reinigungseffektivität und Kavitationsrauschpegel bei Ultraschall-unterstützter wässriger Reinigung von Medizinprodukten. Tagungsband der 38. Deutschen Jahrestagung für Akustik DAGA 2012 in Darmstadt, 437–438. https://doi.org/10.26041/fhnw-10180
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Peer reviewedSchuler, M., Hamilton, D. W., Kunzler, T. P., Sprecher, C. M., de Wild, M., Brunette, D. M., Textor, M., & Tosatti, S. G. P. (2009). Comparison of the response of cultured osteoblasts and osteoblasts outgrown from rat calvarial bone chips to nonfouling KRSR and FHRRIKA‐peptide modified rough titanium surfaces. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 91B(2), 517–527. https://doi.org/10.1002/jbm.b.31425
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Peer reviewedSchuler, M., Kunzler, T. P., de Wild, M., Sprecher, C. M., Trentin, D., Brunette, D. M., Textor, M., & Tosatti, S. G. P. (2009). Fabrication of TiO2‐coated epoxy replicas with identical dual‐type surface topographies used in cell culture assays. Journal of Biomedical Materials Research Part A, 88A(1), 12–22. https://doi.org/10.1002/jbm.a.31720
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Peer reviewedSchuler, M., Owen, G. Rh., Hamilton, D. W., de Wild, M., Textor, M., Brunette, D. M., & Tosatti, S. G. P. (2006). Biomimetic modification of titanium dental implant model surfaces using the RGDSP-peptide sequence. A cell morphology study. Biomaterials, 27(21), 4003–4015. https://doi.org/10.1016/j.biomaterials.2006.03.009
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Peer reviewedFerguson, S. J., Broggini, N., Wieland, M., de Wild, M., Rupp, F., Geis-Gerstorfer, J., Cochran, D. L., & Buser, D. (2006). Biomechanical evaluation of the interfacial strength of a chemically modified sandblasted and acid-etched titanium surface. Journal of Biomedical Materials Research Part A, 78A(2), 291–297. https://doi.org/10.1002/jbm.a.30678
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No peer reviewed content available
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Carino, A., de Wild, M., & Dalcanale, F. (2019, March 19). Implant surface modification by a controlled biomimetic approach. [MEET THE EXPERT] IMPLANTS - Materials and Surface Technology for Implants. https://irf.fhnw.ch/handle/11654/30654
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de Wild, M. (2018, October). 3D printing of titanium alloys for biomedical and robotic applications, Technical Day 2018, 3D Printing, Robotics and Medicine. Technical Day 2018. http://hdl.handle.net/11654/26976
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Müller, S., Dietschy, A., de Wild, M., Rosso, C., & Weber, T. (2018, September). Biomechanical comparison of Three Anchors for Rotator Cuff Repair in Standardized Physiological and Osteoporotic Bone - introducing 1000 loading cycles. AGA Kongress. http://hdl.handle.net/11654/26964
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Rosso, C., de Wild, M., Dietschy, A., Weber, T., & Müller, S. (2018, September). Three Anchors For Rotator Cuff Repair Biomechanically Compared In Standardized Physiological And Osteoporotic Bone. SECEC2018. http://hdl.handle.net/11654/26965
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Sailer, J., Bless, N., Dalcanale, F., Stürmer, A., Dietschy, A., de Wild, M., & Müller, A. (2018, June). Development of a 3D biomechanical AC-joint model. 78. Jahrestagung SGOT Swissorthopaedics - Swiss Society of Orthopaedics and Traumatology. http://hdl.handle.net/11654/26970
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Rosso, C., de Wild, M., Weber, T., & Müller, S. (2018, May). European Society of SportsTraumatology, Knee Surgery and Arthroscopy. ESSKA Congress. http://hdl.handle.net/11654/27315
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Rosso, C., de Wild, M., Dietschy, A., & Weber, T. (2018, May). Pull-out Strength of Three Anchors for Rotator Cuff Repair in Standardized Physiological and Osteoporotic Bone. ESSKA Congress. http://hdl.handle.net/11654/26980
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Peer reviewedGruner, P., Moser, W., Wittwer, M., & de Wild, M. (2017). An inorganic antimicrobial surface modification for orthopaedic implants. European Cells and Materials. http://hdl.handle.net/11654/25773
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Peer reviewedde Wild, M. (2017). Smart Implants, breakout session. KTI MedTec Day. http://hdl.handle.net/11654/25792
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Peer reviewedSchuler, F., Renaud, P., & de Wild, M. (2017). Biopsy needle drive actuators made from NiTi. Annual Meeting of the German Society for Biomaterials. http://hdl.handle.net/11654/25805
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Peer reviewedde Wild, M. (2017). Antibakterielle Implantatoberflächen. Innovative Surfaces @ Swiss MedTech Expo. http://hdl.handle.net/11654/25771
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Peer reviewedMarek, R., de Wild, M., Wohlfender, F., & Wiese, B. (2017). Customizing the microstructure in three-dimensional Mg structures. 9th Biometal Symposium on Biodegradable Metals for Biomedical Applications. http://hdl.handle.net/11654/25772
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Peer reviewedde Wild, M. (2017). 3D printing of magnesium implants. 5. Jahrestreffen des Virtuellen Helmholtz Instituts. http://hdl.handle.net/11654/25789
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de Wild, M. (2016, September). Research and degree programme Medical Technology (Presentation of HLS and IMA). MEDTECH INNOVATION EVENT. http://hdl.handle.net/11654/23711
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Rüegg, J., Böhringer, S., Kessler, A., Schumacher, R., Schkommodau, E., & de Wild, M. (2016, May). Degradable Mg scaffolds produced by selective laser melting (P1035). 10th World Biomaterials Congress. http://hdl.handle.net/11654/23624
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de Wild, M. (2016, May). 3D manufacturing of metallic implants. Special CPM Seminar. http://hdl.handle.net/11654/23623
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de Wild, M., Moser, W., & Rüegg, J. (2016). Surface analysis on an explanted hip stem. 64. Jahrestagung der Vereinigung Süddeutscher Orthopäden und Unfallchirurgen e.V. http://hdl.handle.net/11654/23702
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de Wild, M. (2016). Implant Production using Selective Laser Melting. Photonics 4 Precision Manufacturing. http://hdl.handle.net/11654/23707
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de Wild, M. (2016). Antibakterielle Implantatoberflächen für Gelenkimplantate: Stand des Wissens, Alternative Konzepte, Osseointegration. Symposium zementfreie Endoprothetik. http://hdl.handle.net/11654/23712
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de Wild, M., Bormann, T., & Müller, B. (2016). Structural, Thermal, and Mechanical Characterization of NiTi Scaffolds fabricated by means of Selective Laser Melting. WCSM Annual World Congress of Smart Materials. http://hdl.handle.net/11654/23703
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de Wild, M., Rosso, C., Müller, S., Flury, R., Zimmermann, S., Lafosse, L., & Bongiorno, V. (2016). New Lasso-Loop 360° Technique For Arthroscopic Suprapectoral Biceps Tenodesis – A Biomechanical Comparison. EFORT Congress. http://hdl.handle.net/11654/23641
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de Wild, M. (2016). 3-D Printing. Table Ronde: La nouvelle dimension des applications LASER. http://hdl.handle.net/11654/23710
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de Wild, M. (2016). 3D gedruckte resorbierbare Metallimplantate. Jahresevent der Stiftung FHNW. http://hdl.handle.net/11654/23701
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de Wild, M. (2016). Resorbierbare metallische Implantate aus dem 3D-Drucker: Stand der Forschung und Anwendungen. Symposium zementfreie Endoprothetik. http://hdl.handle.net/11654/23705
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Schumacher, R., Rohner, A. M., Melzner, A., & de Wild, M. (2015). SINAPIS – Slurry Injection of Nano-scale Particles into Implant Surfaces. i-net Nano Technology Event «Innovation Landscape Nano». http://hdl.handle.net/11654/11875
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de Wild, M., Hoffmann, W., Schlottig, F., Schumacher, R., Bormann, T., Martin, I., Müller, B., & Mürrle, U. (2015). Porous shape-memory-scaffolds as mechanically active bone implants. Scientific Results and Innovation Elaborated in NRP 62. http://hdl.handle.net/11654/11968
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de Wild, M., Jung, C., & Zwahlen, A. (2015). Monitoring Ultraschallparameter im Reinigungsbad: SonoCheck Dosimeter versus Kavitationsrauschpegel. 6 . Workshop Kavitation in Technik und Medizin. http://hdl.handle.net/11654/11873
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de Wild, M., & Jung, C. (2015). NANTI: Development of a Nanoporous Antibacterial Surface for Titanium Implants by Electrochemical Copper deposition. CTI Micro-Nano Event. http://hdl.handle.net/11654/11867
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de Wild, M. (2015). The university of applied sciences in NRP 62. Smart Finish Scientific Results and Innovation Elaborated in NRP 62. http://hdl.handle.net/11654/11907
Contact
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Prof. Dr. Michael de Wild
- Lecturer
- Telephone
- +41 61 228 56 49 (direct)
- bWljaGFlbC5kZXdpbGRAZmhudy5jaA==
- School of Life Sciences FHNW
Institute for Medical Engineering and Medical Informatics
Hofackerstrasse 30
4132 Muttenz
Institute for Medical Engineering and Medical Informatics
FHNW University of Applied Sciences and Arts Northwestern Switzerland
School of Life Sciences,
Institute for Medical Engineering and Medical Informatics
Hofackerstrasse 30
CH - 4132 Muttenz
- Telephone
- +41 61 228 54 19
- ZXJpay5zY2hrb21tb2RhdUBmaG53LmNo