Estefania Echeverri Correa
Postdoctoral position 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
Publications
Recent publications
Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Part of Biofabrication, 2026
- DOI for Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
- Download full text (pdf) of Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Effects of CoCr- and SiN-derived particles on glial cells: implications for spinal implant safety
2025
Glial cell responses to CoCr- and SiN-derived particles from spinal implants
2025
Part of Next Materials, 2024
- DOI for The addition of silicon nitride to PMMA bone cements reduces bacterial attachment while supporting pre-osteoblast viability
- Download full text (pdf) of The addition of silicon nitride to PMMA bone cements reduces bacterial attachment while supporting pre-osteoblast viability
In vitro cell study of calcium phosphate cement-PLLA models for hard-tissue implants
2024
All publications
Articles in journal
Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Part of Biofabrication, 2026
- DOI for Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
- Download full text (pdf) of Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Part of Next Materials, 2024
- DOI for The addition of silicon nitride to PMMA bone cements reduces bacterial attachment while supporting pre-osteoblast viability
- Download full text (pdf) of The addition of silicon nitride to PMMA bone cements reduces bacterial attachment while supporting pre-osteoblast viability
Part of Biomaterials Science, p. 3144-3158, 2023
- DOI for Fe and C additions decrease the dissolution rate of silicon nitride coatings and are compatible with microglial viability in 3D collagen hydrogels
- Download full text (pdf) of Fe and C additions decrease the dissolution rate of silicon nitride coatings and are compatible with microglial viability in 3D collagen hydrogels
Part of Biomaterials Science, p. 3757-3769, 2022
- DOI for Tailoring the dissolution rate and in vitro cell response of silicon nitride coatings through combinatorial sputtering with chromium and niobium
- Download full text (pdf) of Tailoring the dissolution rate and in vitro cell response of silicon nitride coatings through combinatorial sputtering with chromium and niobium
Part of Biomaterials Science
Comprehensive doctoral thesis
Conference papers
Effects of CoCr- and SiN-derived particles on glial cells: implications for spinal implant safety
2025
Glial cell responses to CoCr- and SiN-derived particles from spinal implants
2025
In vitro cell study of calcium phosphate cement-PLLA models for hard-tissue implants
2024
2024
Part of TERMIS 2023 – European ChapterManchester Central Conference Centre Manchester, UK March 28–31, 2023, 2023
2023
2023
2022
2022
Dissolution and biocompatibility of combinatorially sputtered SiCrNbN coatings
2021