| Property |
Value |
| Working Groups |
,
,
|
| Subproject |
C04 |
| Open Access |
No |
| Publication Type |
Journal Article |
| Peer Reviewed |
Yes |
| PMID |
35909053 |
| DOI |
10.1016/j.bioadv.2022.213041 |
| Publication Year |
2022 |
| Title |
Using different geometries to modulate the cardiac fibroblast phenotype and the biomechanical properties of engineered connective tissues
|
| Journal |
Biomaterials Advances |
| ISSN |
2772-9508 |
| URL |
http://dx.doi.org/10.1016/j.bioadv.2022.213041 |
| Pages |
213041 |
| Volume |
139 |
| Journal Abbreviation |
Biomaterials Advances |
| Authors |
Santos GL, DeGrave AN, Rehman A, Al Disi S, Xhaxho K, Schröder H, Bao G, Meyer T, Tiburcy M, Dworatzek E, Zimmermann W, Lutz S |
| First Author |
Santos GL |
| Last Author |
Lutz S |
| Scholia |
Wikidata-based representation at Scholia |
External Resources
Q113879212https://www.wikidata.org/wiki/Q113879212 Wikidata ID
Linked Cellmodels
| hPSCreg Name |
Cell Type |
ICD Code |
Disease |
Source |
Reprogramming |
Grade |
| UMGi001-A |
WT |
|
iPSC |
Fibroblasts |
Lentivirus |
Research |