A roadmap for promoting endogenous in situ tissue restoration using inductive bioscaffolds after acute brain injury.
Biodegradation
Bioscaffold
Brain
Hydrogel
Magnetic resonance imaging
Regeneration
Stroke
Tissue repair
Journal
Brain research bulletin
ISSN: 1873-2747
Titre abrégé: Brain Res Bull
Pays: United States
ID NLM: 7605818
Informations de publication
Date de publication:
08 2019
08 2019
Historique:
received:
12
01
2019
revised:
10
05
2019
accepted:
17
05
2019
pubmed:
28
5
2019
medline:
25
7
2020
entrez:
26
5
2019
Statut:
ppublish
Résumé
The regeneration of brain tissue remains one of the greatest unsolved challenges in medicine and by many is considered unfeasible. Indeed, the adult mammalian brain does not regenerate tissue, but there is ongoing endogenous neurogenesis, which is upregulated after injury and contributes to tissue repair. This endogenous repair response is a conditio sine que non for tissue regeneration. However, scarring around the lesion core and cavitation provide unfavorable conditions for tissue regeneration in the brain. Based on the success of using extracellular matrix (ECM)-based bioscaffolds in peripheral soft tissue regeneration, it is plausible that the provision of an inductive ECM-based hydrogel inside the volumetric tissue loss can attract neural cells and create a de novo viable tissue. Following perturbation theory of these successes in peripheral tissues, we here propose 9 perturbation parts (i.e. requirements) that can be solved independently to create an integrated series to build a functional and integrated de novo neural tissue. Necessities for tissue formation, anatomical and functional connectivity are further discussed to provide a new substrate to support the improvement of behavioral impairments after acute brain injury. We also consider potential parallel developments of this tissue engineering effort that can support therapeutic benefits in the absence of de novo tissue formation (e.g. structural support to veterate brain tissue). It is envisaged that eventually top-down inductive "natural" bioscaffolds composed of decellularized tissues (i.e. ECM) will be replaced by bottom-up synthetic designer hydrogels that will provide very defined structural and signaling properties, potentially even opening up opportunities we currently do not envisage using natural materials.
Identifiants
pubmed: 31128250
pii: S0361-9230(19)30036-X
doi: 10.1016/j.brainresbull.2019.05.013
pmc: PMC6626582
mid: NIHMS1530271
pii:
doi:
Substances chimiques
Hydrogels
0
Types de publication
Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't
Review
Langues
eng
Sous-ensembles de citation
IM
Pagination
136-149Subventions
Organisme : NIBIB NIH HHS
ID : R01 EB016629
Pays : United States
Organisme : NINDS NIH HHS
ID : R01 NS082226
Pays : United States
Informations de copyright
Copyright © 2019 Elsevier Inc. All rights reserved.
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