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Congress: ECR25
Poster Number: C-25755
Type: Poster: EPOS Radiologist (scientific)
Authorblock: N. Dukov, Y. Baneva, Z. Bliznakov, K. S. Bliznakova; Varna/BG
Disclosures:
Nikolay Dukov: Nothing to disclose
Yanka Baneva: Nothing to disclose
Zhivko Bliznakov: Nothing to disclose
Kristina Stanimirova Bliznakova: Nothing to disclose
Keywords: Computer applications, Radiation physics, CT, Experimental investigations, Technical aspects, Technology assessment, Education and training, Quality assurance, Tissue characterisation
References

[1]. Vallejos Baier, R., Contreras Raggio, J.I., Toro Arancibia, C., Bustamante, M., Perez, L., Burda, I., Aiyangar, A., and Vivanco, J.F.: Structure-function assessment of 3D-printed porous scaffolds by a low-cost/open source fused filament fabrication printer. Mater Sci Eng C Mater Biol Appl, 123, pp. 111945 (2021).

[2]. Alssabbagh, M., Tajuddin, A., Manap, M.B., and Zainon, R.: Evaluation of nine 3D printing materials as tissue equivalent materials in terms of mass attenuation coefficient and mass density. Int J Adv Appl Sci, 4 (9), 168-173 (2017)

[3]. Dukov, N., Bliznakova, K., Okkalidis, N., Teneva, T., Encheva, E., and Bliznakov, Z.: Thermoplastic 3D printing technology using a single filament for producing realistic patient-derived breast models. Phys Med Biol, 67 (4) (2022).

[4]. Ma, X., Figl, M., Unger, E., Buschmann, M., Homolka, P.: X-ray attenuation of bone, soft and adipose tissue in CT from 70 to 140 kV and comparison with 3D printable additive manufacturing materials. Sci Rep, 12, 14580 (2022).
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