Hyppää pääsisältöön
Opintojakso, lukuvuosi 2024–2025
BBT.BTE.303

Bioceramics and Their Clinical Applications, 5 op

Tampereen yliopisto
Opetusperiodit
Aktiivinen periodissa 2 (21.10.2024–31.12.2024)
Aktiivinen periodissa 3 (1.1.2025–2.3.2025)
Aktiivinen periodissa 4 (3.3.2025–31.5.2025)
Koodi
BBT.BTE.303
Opetuskieli
englanti
Lukuvuodet
2024–2025, 2025–2026, 2026–2027
Opintojakson taso
Syventävät opinnot
Arvosteluasteikko
Yleinen asteikko, 0-5
Vastuuhenkilö
Vastuuopettaja:
Jonathan Massera
Vastuuorganisaatio
Lääketieteen ja terveysteknologian tiedekunta 100 %
Järjestävä organisaatio
MET yhteinen koulutus 100 %
Yhteiset osaamistavoitteet
Kansainvälisyys ja globaali vastuu
Core content
  • The structure and mechanical properties of bioceramics.
  • Biological interactions of bioceramics with the body.
  • Fabrication of bioceramics.
  • Analysis methods of bioceramics.
  • Examples of different types of bioceramics and their clinical applications.
  • Bioceramics in dental implant
  • Bioceramics in cancer treatment
Complementary knowledge
  • The effect of crystalline and amorphous structures on the bioceramics bioactivity. The limitations of bioceramics mechanical properties in their possible clinical applications.
  • How the bioactivity of certain glasses is based on the basic chemistry and reaction pathways.
  • The factors that have to be considered when manufacturing bioactive ceramic coatings or bioactive glasses.
  • The chemistry of bioactive ceramics in in vitro studies. The composition of simulated body fluid.
  • Different bioactive ceramics classifications based on their bioactivity.
  • action of bioceramics on teeth sensitivity and fluoroapatite formation
  • Biocermics as drug delivery system. Bioceramics can be tailored to favor cancer prognosis
Specialist knowledge
  • How to control the bioactivity of bioceramics.
  • How different locations in the body affect the chemistry of bioactive glasses. Differences in chemistry of different bioactive glass products; monoliths, fibers, porous materials, fine powders, etc.
  • The benefits and problems of melt derived bioactive glasses and sol-gel derived bioactive glasses.
  • The limitations of bioactive ceramics in "in vitro" studying compared to "in vivo" studying. The formation of bond between bioactive ceramic and host bone.
  • Why bioactive glasses show bioactivity? The meaning of Silica in bioactive ceramics.
  • how bioactive glass can regenrate enamel?
  • Bioceramics and radiotherapy
Osaamistavoitteet
Pakolliset esitiedot
Lisätiedot
Oppimateriaalit
Vastaavat opintojaksot
Kokonaisuudet, joihin opintojakso kuuluu
Suoritustapa 1
Pass the exam (grade at leats 1) AND present the group work/report
Kaikkien osuuksien suorittaminen on pakollista.

Tentti

13.12.2024 13.12.2024
Aktiivinen periodissa 2 (21.10.2024–31.12.2024)
21.01.2025 21.01.2025
Aktiivinen periodissa 3 (1.1.2025–2.3.2025)
19.03.2025 19.03.2025
Aktiivinen periodissa 4 (3.3.2025–31.5.2025)

Osallistuminen opetukseen

21.10.2024 08.12.2024
Aktiivinen periodissa 2 (21.10.2024–31.12.2024)