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In Honor of Nobel Laureate Dr. Avram Hershko
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SIPS 2024 takes place from October 20 - 24, 2024 at the Out of the Blue Resort in Crete, Greece

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More than 540 abstracts submitted from over 50 countries


Featuring many Nobel Laureates and other Distinguished Guests

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Oral Presentations


SESSION:
SISAMWedPM2-R6
Schultz International Symposium (8th Intl. Symp. on Science of Intelligent & Sustainable Advanced Ferromagnetic and Superconducting Magnets (SISAM))
Wed. 23 Oct. 2024 / Room: Knossos
Session Chairs: Jürgen Eckert; Student Monitors: TBA

14:45: [SISAMWedPM206] OS Invited
DEVELOPMENT OF NOVEL MRI-COMPATIBLE METALLIC GLASSES WITH ULTRALOW MAGNETIC SUSCEPTIBILITY FOR BIOMEDICAL APPLICATIONS
Mariana Calin1; Annett Gebert1
1IFW Dresden, Dresden, Germany
Paper ID: 47 [Abstract]

Nowadays, magnetic resonance imaging (MRI) has become a powerful diagnostic tool in medical fields, e.g. in brain surgery, cardiovascular diseases and orthopedics. However, MRI diagnosis is inhibited by the presence of certain metallic implants in the body because they become magnetized in the intense magnetic field of the MRI instrument, which may produce image artifacts and therefore prevent exact diagnosis. To decrease the artifacts, medical alloys/devices with low magnetic susceptibility are requiredCompared with stainless steel and Co–Cr alloys, which are conventional implant alloys, titanium (Ti)– and zirconium (Zr)-based alloys have lower magnetic susceptibility and are more suitable for clinical investigation using MRI than the others [1]

Metallic glasses have a great potential for small medical devices useful in dentistry (e.g. dental implants and suprastructures), osteosynthesis (e.g fracture fixation systems) and occlusive vascular diseases (e.g stents and aneurysm clips) [2-4]. Ti-, Zr- and precious metal-based bulk metallic glassess (BMGs) have been widely investigated as potential biomaterials especially for bone-related implant applications [2-3]. However, the major problem still facing the development of biomedical metallic glasses is the one of inducing amorphization without using any harmful alloying additions. We reviewed the biological safety and glass forming tendency in Ti of a series of alloying elements [2].

In the present paper we discuss the underlying processes for amorphous phase formation, mechanical and biochemical behavior as well as the biocompatibility of various Ni-free Ti- and Zr-based BMGs with potential for biomedicine. Moreover, we report the formation novel amorphous Ti-Zr-Nb-Hf-Si multi-principal element alloys with excellent corrosion stability in simulated body fluids and ultralow magnetic susceptibility, less than one-third of that of commercial biomedical Ti-based materials [4]These alloys exhibit also higher X-ray linear attenuation coefficients relevant for interventional X-ray-based medical imaging. This two-fold advantage (lower magnetic susceptibility and higher radiopacity) allows the materials to be more precisely visualized via biomedical imaging methods, which is especially important for miniaturised implants.

Financial support through the European Commission (H2020-MSCA-ITN BIOREMIA GA 861046) is gratefully acknowledged.

References:
[1] J. Lin, S. Ozan, Y. Li, D. Ping, X. Tong, G. Li, C.Wen, Sci.Rep, 6:37901, (2016)
[2] M. Calin, A. Gebert, A.C. Ghinea, F. Gostin, S. Abdi, Ch. Mickel, J. Eckert., Mat. Sci. Eng. C 33, 875-883 (2013)
[3] M. Demetriou, A. Wiest, D.C. Hofmann, W.L. Johnson, B. Han, N. Wolfson, G. Wang, P. Liaw, JOM, 62, 83-91 (2010)
[4] M. Calin, J. Vishnu, P. Thirathipviwat, M. Popa, M. Krautz, G. Manivasagam, A. Gebert, Mat. Sci. Eng. C 121, 111733/1-7 (2021).


15:45 COFFEE BREAK/POSTERS/EXHIBITION - Ballroom Foyer