Our analyses reveal a gap between control groups A–C and Schwann-like cell-containing group E. Standing between are the results from group D, which contained implants of undifferentiated BMSC. Six weeks after surgery, group D had mean CMAP amplitude significantly higher than those from groups A or B. It represented 45% of its pre-injury data. Group D morphological data unraveled increased axonal diameter though significantly
shorter than that from group E. Therefore, we may also conclude that undifferentiated BMSC associated with nerve grafting and PGAt conduit has a more satisfying functional and morphological outcome for the injured facial nerve than the same surgical procedure without cell implant. Nevertheless, group E data remained this website superior and more consistent than those from group D in all aspects
evaluated. Our data are in agreement with others that demonstrated the beneficial effects of BMSC in the surgical repair of the lesion of peripheral nerves (Dezawa, 2001; McKenzie et al., 2006, Ishikawa et al., 2009, Wang et al., 2009, Wakao et al., 2010, Ladak et al., 2011, Wang et al., 2011 and Salomone Avasimibe molecular weight et al., 2013). Moreover, studies approaching specifically the facial nerve have been reported. Satar et al. (2009) observed better axonal organization and higher myelin thickness in facial nerves repaired by the addition of BMSC. Salomone et al. (2013) employed cell implants contained in a silicone conduit in nerves sutured from isolated stumps without autografting. Our study and theirs have used objective electromyographical analyses to functionally assess the nerve, and observed higher CMAP amplitude values for both cell-containing groups, although their results present a better outcome for BMSC. Wang
et al. (2011) applied a vein conduit without scaffold to repair the rabbit facial nerve with BMSC or Schwann-like cells. Their study and ours report the superior outcome of Schwann-like cells associated with autografting. The most important aspect for cell survival in the receptor tissue is the microenvironment. Initially, tissue homing is related to the cell Amylase expression of surface adhesion markers that interact with components from the extracellular matrix. This in addition to paracrine effects of growth factors secreted from adjacent cells provides conditions for cell survival, migration, tissue invasion and differentiation (Caddick et al., 2006). Both cell types from our study, BMSC and Schwann-like cells, should have succeeded in performing those cell processes, as they have been observed in vivo six weeks after their implant and also distally to the graft. The in vitro differentiation of Schwann-like cells might have empowered them with better conditions for nerve homing and maintenance of the expression of the Schwann cell phenotype for group-E cells.