Brittmarie Andersson
Research Engineer at Department of Surgical Sciences; Orthopaedics and Handsurgery
- Telephone:
- +46 18 471 45 12
- E-mail:
- brittmarie.andersson@uu.se
- Visiting address:
- Rudbeckslaboratoriet Hus C11 Bv
Dag Hammarskjölds v 20
SE-75185 Uppsala
Sweden - Postal address:
- Rudbeckslaboratoriet Hus C11 Bv
Dag Hammarskjölds v 20
SE-75185 UPPSALA
Sweden
Publications
Recent publications
Part of 3D Printing in Medicine, 2025
- DOI for Trabecular-bone mimicking osteoconductive collagen scaffolds: An optimized 3D printing approach using freeform reversible embedding of suspended hydrogels
- Download full text (pdf) of Trabecular-bone mimicking osteoconductive collagen scaffolds: An optimized 3D printing approach using freeform reversible embedding of suspended hydrogels
Part of ACS Applied Materials and Interfaces, p. 30385-30395, 2024
Part of Biomimetics, 2024
- DOI for Physically and Chemically Crosslinked Hyaluronic Acid-Based Hydrogels Differentially Promote Axonal Outgrowth from Neural Tissue Cultures
- Download full text (pdf) of Physically and Chemically Crosslinked Hyaluronic Acid-Based Hydrogels Differentially Promote Axonal Outgrowth from Neural Tissue Cultures
Part of Biomaterials Advances, 2022
- DOI for 3D-printed porous Ti6Al4V alloys with silver coating combine osteocompatibility and antimicrobial properties
- Download full text (pdf) of 3D-printed porous Ti6Al4V alloys with silver coating combine osteocompatibility and antimicrobial properties
Part of ACS Applied Materials and Interfaces, p. 41751-41763, 2022
- DOI for Trabecular Titanium for Orthopedic Applications: Balancing Antimicrobial with Osteoconductive Properties by Varying Silver Contents
- Download full text (pdf) of Trabecular Titanium for Orthopedic Applications: Balancing Antimicrobial with Osteoconductive Properties by Varying Silver Contents
All publications
Articles in journal
Part of 3D Printing in Medicine, 2025
- DOI for Trabecular-bone mimicking osteoconductive collagen scaffolds: An optimized 3D printing approach using freeform reversible embedding of suspended hydrogels
- Download full text (pdf) of Trabecular-bone mimicking osteoconductive collagen scaffolds: An optimized 3D printing approach using freeform reversible embedding of suspended hydrogels
Part of ACS Applied Materials and Interfaces, p. 30385-30395, 2024
Part of Biomimetics, 2024
- DOI for Physically and Chemically Crosslinked Hyaluronic Acid-Based Hydrogels Differentially Promote Axonal Outgrowth from Neural Tissue Cultures
- Download full text (pdf) of Physically and Chemically Crosslinked Hyaluronic Acid-Based Hydrogels Differentially Promote Axonal Outgrowth from Neural Tissue Cultures
Part of Biomaterials Advances, 2022
- DOI for 3D-printed porous Ti6Al4V alloys with silver coating combine osteocompatibility and antimicrobial properties
- Download full text (pdf) of 3D-printed porous Ti6Al4V alloys with silver coating combine osteocompatibility and antimicrobial properties
Part of ACS Applied Materials and Interfaces, p. 41751-41763, 2022
- DOI for Trabecular Titanium for Orthopedic Applications: Balancing Antimicrobial with Osteoconductive Properties by Varying Silver Contents
- Download full text (pdf) of Trabecular Titanium for Orthopedic Applications: Balancing Antimicrobial with Osteoconductive Properties by Varying Silver Contents
Antimicrobial and osteoconductive properties of two different types of titanium silver coating
Part of European Cells & Materials, p. 694-706, 2021
- DOI for Antimicrobial and osteoconductive properties of two different types of titanium silver coating
- Download full text (pdf) of Antimicrobial and osteoconductive properties of two different types of titanium silver coating
Part of Materials science & engineering. C, biomimetic materials, sensors and systems, 2021
- DOI for Hexagonal pore geometry and the presence of hydroxyapatite enhance deposition of mineralized bone matrix on additively manufactured polylactic acid scaffolds
- Download full text (pdf) of Hexagonal pore geometry and the presence of hydroxyapatite enhance deposition of mineralized bone matrix on additively manufactured polylactic acid scaffolds
Part of Journal of Neuroscience Methods, 2020
Part of Cell and Tissue Research, p. 493-505, 2018
- DOI for Neural crest stem cells protect spinal cord neurons from excitotoxic damage and inhibit glial activation by secretion of brain-derived neurotrophic factor
- Download full text (pdf) of Neural crest stem cells protect spinal cord neurons from excitotoxic damage and inhibit glial activation by secretion of brain-derived neurotrophic factor
Part of Neuroimmunomodulation, p. 220-230, 2017
Part of Journal of Tissue Engineering and Regenerative Medicine, p. 799-807, 2015
Part of Journal of biomaterials applications, p. 825-836, 2014
Part of Journal of Neuroscience Research, p. 1457-1465, 2014