Post-Stroke Timing of ECM Hydrogel Implantation Affects Biodegradation and Tissue Restoration.
biodegradation
biomaterial
cell invasion
extracellular matrix
hydrogel
regeneration
scaffold
stroke
therapeutic window
tissue repair
Journal
International journal of molecular sciences
ISSN: 1422-0067
Titre abrégé: Int J Mol Sci
Pays: Switzerland
ID NLM: 101092791
Informations de publication
Date de publication:
21 Oct 2021
21 Oct 2021
Historique:
received:
24
09
2021
revised:
13
10
2021
accepted:
17
10
2021
entrez:
13
11
2021
pubmed:
14
11
2021
medline:
6
1
2022
Statut:
epublish
Résumé
Extracellular matrix (ECM) hydrogel promotes tissue regeneration in lesion cavities after stroke. However, a bioscaffold's regenerative potential needs to be considered in the context of the evolving pathological environment caused by a stroke. To evaluate this key issue in rats, ECM hydrogel was delivered to the lesion core/cavity at 7-, 14-, 28-, and 90-days post-stroke. Due to a lack of tissue cavitation 7-days post-stroke, implantation of ECM hydrogel did not achieve a sufficient volume and distribution to warrant comparison with the other time points. Biodegradation of ECM hydrogel implanted 14- and 28-days post-stroke were efficiently (80%) degraded by 14-days post-bioscaffold implantation, whereas implantation 90-days post-stroke revealed only a 60% decrease. Macrophage invasion was robust at 14- and 28-days post-stroke but reduced in the 90-days post-stroke condition. The pro-inflammation (M1) and pro-repair (M2) phenotype ratios were equivalent at all time points, suggesting that the pathological environment determines macrophage invasion, whereas ECM hydrogel defines their polarization. Neural cells (neural progenitors, neurons, astrocytes, oligodendrocytes) were found at all time points, but a 90-days post-stroke implantation resulted in reduced densities of mature phenotypes. Brain tissue restoration is therefore dependent on an efficient delivery of a bioscaffold to a tissue cavity, with 28-days post-stroke producing the most efficient biodegradation and tissue regeneration, whereas by 90-days post-stroke, these effects are significantly reduced. Improving our understanding of how the pathological environment influences biodegradation and the tissue restoration process is hence essential to devise engineering strategies that could extend the therapeutic window for bioscaffolds to repair the damaged brain.
Identifiants
pubmed: 34768800
pii: ijms222111372
doi: 10.3390/ijms222111372
pmc: PMC8583606
pii:
doi:
Substances chimiques
Hydrogels
0
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Subventions
Organisme : NINDS NIH HHS
ID : R01 NS122768
Pays : United States
Organisme : NINDS NIH HHS
ID : R21 NS118399
Pays : United States
Organisme : NINDS NIH HHS
ID : R01NS122768
Pays : United States
Organisme : NINDS NIH HHS
ID : R21NS118399
Pays : United States
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