<div class="csl-bib-body">
<div class="csl-entry">Petkovic, M., Gurmann, T., Sinawehl, L., Ammann, T., Wolff, R., Koch, T., Liska, R., & Baudis, S. (2025, April 1). <i>Biodegradable bone substitute materials for bone regeneration</i> [Presentation]. 6th FemChem Scientific Workshop 2025, Austria. http://hdl.handle.net/20.500.12708/225847</div>
</div>
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dc.identifier.uri
http://hdl.handle.net/20.500.12708/225847
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dc.description.abstract
As the global population ages and the occurrence of bone fractures, bone tissue related diseases and injuries rises, the need for bone repair solutions has become more urgent. Traditional non-degradable methods have been used to address these challenges, but they present several limitations, including the need for removal surgeries and the risk of complications such as infections, chronic inflammation, or implant rejection. These shortcomings highlight the need for innovative approaches in the field of bone tissue engineering (BTE). Synthetic biodegradable bone grafts produced using lithography-based additive manufacturing are designed to gradually degrade over time and be resorbed by the body which results in a stepwise replacement of the artificial graft by endogenous tissue. This characteristic eliminates the need for secondary surgeries and reduces the risk of chronic inflammation leading to overall better patient recovery. The use of biodegradable bone substitute materials is therefore a promising strategy to improve patient outcomes, reduce healthcare costs, and minimize complications associated with long-term implant retention. Nonetheless, there are many requirements that these scaffolds must meet, including appropriate degradation rates, good biocompatibility, and suitable (thermo-)mechanical properties. With that goal in mind, new monomers were synthesized and tested in formulations to investigate their (thermo-)mechanical performance and biocompatibility, as well as their applicability in 3D printing and their biodegradability.
en
dc.language.iso
en
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dc.subject
Biomaterials
en
dc.subject
Bone Tissue Engineering
en
dc.subject
Degradability
en
dc.title
Biodegradable bone substitute materials for bone regeneration
en
dc.type
Presentation
en
dc.type
Vortrag
de
dc.contributor.affiliation
TU Wien
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dc.contributor.affiliation
TU Wien
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dc.contributor.affiliation
TU Wien
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dc.type.category
Presentation
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tuw.researchTopic.id
M2
-
tuw.researchTopic.id
M6
-
tuw.researchTopic.name
Materials Characterization
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tuw.researchTopic.name
Biological and Bioactive Materials
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tuw.researchTopic.value
50
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tuw.researchTopic.value
50
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tuw.publication.orgunit
E163-02-1 - Forschungsgruppe Polymerchemie und Technologie
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tuw.publication.orgunit
E056-12 - Fachbereich ENROL DP
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tuw.publication.orgunit
E308-02-1 - Forschungsgruppe Strukturpolymere
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tuw.author.orcid
0009-0005-7274-736X
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tuw.author.orcid
0009-0009-7934-8838
-
tuw.author.orcid
0000-0003-2629-8223
-
tuw.author.orcid
0009-0007-9889-2316
-
tuw.author.orcid
0000-0001-5428-5871
-
tuw.author.orcid
0000-0003-2801-3113
-
tuw.author.orcid
0000-0001-7865-1936
-
tuw.author.orcid
0000-0002-5390-0761
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tuw.event.name
6th FemChem Scientific Workshop 2025
en
tuw.event.startdate
01-04-2025
-
tuw.event.enddate
01-04-2025
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tuw.event.online
On Site
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tuw.event.type
Event for scientific audience
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tuw.event.country
AT
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tuw.event.presenter
Petkovic, Mina
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wb.sciencebranch
Chemie
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wb.sciencebranch
Chemische Verfahrenstechnik
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wb.sciencebranch
Pharmazie, Pharmakologie, Toxikologie
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wb.sciencebranch.oefos
1040
-
wb.sciencebranch.oefos
2040
-
wb.sciencebranch.oefos
3012
-
wb.sciencebranch.value
60
-
wb.sciencebranch.value
20
-
wb.sciencebranch.value
20
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item.openairecristype
http://purl.org/coar/resource_type/R60J-J5BD
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item.fulltext
no Fulltext
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item.languageiso639-1
en
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item.grantfulltext
none
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item.openairetype
conference presentation
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item.cerifentitytype
Publications
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crisitem.author.dept
TU Wien
-
crisitem.author.dept
E163-02-1 - Forschungsgruppe Polymerchemie und Technologie
-
crisitem.author.dept
E163-02-1 - Forschungsgruppe Polymerchemie und Technologie
