Estefania Echeverri Correa
PhD student at Department of Materials Science and Engineering; Biomedical Engineering
- E-mail:
- estefania.echeverri@angstrom.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 35
751 03 UPPSALA
Researcher at Department of Surgical Sciences; Orthopaedics and Handsurgery
- E-mail:
- estefania.echeverri@uu.se
- Visiting address:
- Akademiska sjukhuset, ingång 61, 6 tr
751 85 UPPSALA - Postal address:
- Akademiska sjukhuset, ingång 61, 6 tr
751 85 UPPSALA
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Publications
Recent publications
- Biological response to spinal implant degradation products (2024)
- Towards a bioprinted spinal cord model for monitoring cell responses to particles and ions released from spinal implants (2023)
- In vitro 3D model for monitoring glial cell responses to particles and ions released from spinal implants (2023)
- Fe and C additions decrease the dissolution rate of silicon nitride coatings and are compatible with microglial viability in 3D collagen hydrogels (2023)
- Reducing the dissolution rate of silicon nitride coatings for spinal implants using Fe and C as alloying elements (2023)
All publications
Articles
- Fe and C additions decrease the dissolution rate of silicon nitride coatings and are compatible with microglial viability in 3D collagen hydrogels (2023)
- Tailoring the dissolution rate and in vitro cell response of silicon nitride coatings through combinatorial sputtering with chromium and niobium (2022)
- Impact of particles derived from spinal implant materials on glial survival and activation
- Osteogenic potential of a calcium phosphate-PLLA composite structure
- The addition of silicon nitride to PMMA bone cements reduces bacterial attachment while supporting pre-osteoblast viability
- Dissolution behavior of SiFeCN combinatorial coatings for biomedical applications
- Tailoring the dissolution rate and in vitro cell response of silicon nitride coatings through combinatorial sputtering with chromium and niobium
Books
Conferences
- Towards a bioprinted spinal cord model for monitoring cell responses to particles and ions released from spinal implants (2023)
- In vitro 3D model for monitoring glial cell responses to particles and ions released from spinal implants (2023)
- Reducing the dissolution rate of silicon nitride coatings for spinal implants using Fe and C as alloying elements (2023)
- Dissolution Behaviour and Biocompatibility of Combinatorially Sputtered SiFeCN Coatings for Spinal Implants (2022)
- Decreasing the dissolution rate of silicon nitride coatings for spinal implants by the addition of Fe and C (2022)
- Dissolution and biocompatibility of combinatorially sputtered SiCrNbN coatings (2021)