Astaxanthin-folic acid combined treatment potentiates neuronal regeneration and functional recovery after brachial plexus avulsion and reimplantation

Abstract: Brachial plexus avulsion (BPA), which commonly occurs in neonatal birth injuries and car accidents, severely disrupts spinal cord segments and nerve roots. Avulsion is usually located in the transitional zone at the junction of spinal nerve roots and starting point of the spinal cord, which places heavy disability burdens on patients due to sensory and motor function loss in the innervated areas. Primary mechanical injuries and secondary pathogenesis, such as inflammatory infiltration and oxidative stress, lea… Show more

“…For instance, folic acid has been recognized as an effective molecule to play epigenetic regulation for enhanced nerve regeneration through DNA methylation [59][60][61]. It has also been demonstrated to influence the immunomodulatory process by suppressing inflammation, which is a potential mechanism to promote PNR [247][248][249]. Similarly, citric acid as an intermediate in the Krebs circle has been revealed to fuel the metabolism of MSCs and facilitate bone regeneration through 'metabonegenic' regulation [27,246,250].…”

Scaffold design considerations for peripheral nerve regeneration

“…For instance, folic acid has been recognized as an effective molecule to play epigenetic regulation for enhanced nerve regeneration through DNA methylation [59][60][61]. It has also been demonstrated to influence the immunomodulatory process by suppressing inflammation, which is a potential mechanism to promote PNR [247][248][249]. Similarly, citric acid as an intermediate in the Krebs circle has been revealed to fuel the metabolism of MSCs and facilitate bone regeneration through 'metabonegenic' regulation [27,246,250].…”

Scaffold design considerations for peripheral nerve regeneration

Synergistic effects of carotenoids: Therapeutic benefits on human health