2022
DOI: 10.1002/mabi.202200315
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Biodegradable and Electrically Conductive Melanin‐Poly (3‐Hydroxybutyrate) 3D Fibrous Scaffolds for Neural Tissue Engineering Applications

Abstract: Due to the severity of peripheral nerve injuries (PNI) and spinal cord injuries (SCI), treatment options for patients are limited. In this context, biomaterials designed to promote regeneration and reinstate the lost function are being explored. Such biomaterials should be able to mimic the biological, chemical, and physical cues of the extracellular matrix for maximum effectiveness as therapeutic agents. Development of biomaterials with desirable physical, chemical, and electrical properties, however, has pro… Show more

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Cited by 10 publications
(1 citation statement)
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“…Imaging agents, [95] neural tissue engineering, [96] wound dressing, muscular tissue engineering, bone, and cartilage tissue engineering. [97] Photoprotection, UV shielding properties, [98] anti-inflammatory activity, antibacterial activity, paramagnetic properties, cytoaffinity, and conductivity.…”
Section: ]mentioning
confidence: 99%
“…Imaging agents, [95] neural tissue engineering, [96] wound dressing, muscular tissue engineering, bone, and cartilage tissue engineering. [97] Photoprotection, UV shielding properties, [98] anti-inflammatory activity, antibacterial activity, paramagnetic properties, cytoaffinity, and conductivity.…”
Section: ]mentioning
confidence: 99%