ABSTRACT.We examined the effect of muscle basal lamina (MBL) with neural stem cells (NSCs) and olfactory ensheathing cells (OECs) on spinal cord injury repair. Seventy-two Sprague-Dawley rats were subjected to spinal cord hemisection and divided into 6 groups. In blank control group (group A), the ends of the spinal cord hemisection model were flushed with physiological saline. In NSC transplantation group (B), OEC transplantation group (C), MBL with NSC transplantation group (D), MBL with OEC transplantation group (E), and MBL with NSC and OEC transplantation group (F), NSCs, OECs, MBL with NSCs, MBL with OECs, and MBL with NSCs and OECs were implanted into the ends of the hemisection model. Survival and migration of transplanted cells were detected by immunohistochemistry and immunofluorescence after 4 and 8 weeks. Hind limb function repair was evaluated by Bundle branch block score at various time points before and after surgery. MBL could promote NSC growth along its lumen and promote host cell advancement in the lumen, reducing local inflammatory responses. Using MBL with NSCs 13438 X.W. Kang et al.©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 14 (4): 13437-13455 (2015) and/or OECs for spinal cord repair shows advantages over simple cell transplantation. Group F contained more nerve cells in muscle basal lamina than group E. This method is useful for forming more axons, synaptic connections, and signal transduction pathways. However, these new axons showed nerve demyelination, which may greatly limit nerve signal conduction. In group F, OECs could induce neural stem cells, axonal growth, and synaptic connection formation, but its role is limited.
Continuous-time core-level photon-stimulated desorption (PSD) spectroscopy was used to investigate the monochromatic soft x-ray photoreactions of CF(2)Cl(2) adsorbed on Si(111)-7 × 7 near the F(1s) edge (681-704 eV). Sequential F(+) PSD spectra were observed as a function of photon exposure at the CF(2)Cl(2)-covered surface (dose = 2.0 × 10(14) molecules cm(-2), ∼0.75 monolayer). The F(+) PSD and total electron yield (TEY) spectra of solid CF(2)Cl(2) near the F(1s) edge were also measured. Both F(+) PSD and TEY spectra depict three features in the energy range of 687-695 eV, and are assigned to the excitations of F(1s) to (13a(1) + 9b(2))[(C-Cl)(∗)], (7b(1) + 14a(1))[(C-F)∗] antibonding and 5p Rydberg orbitals, respectively. Following the Auger decay process, two holes are created in the C-F bonding orbitals producing the 2h1e final state which results in the F(+) desorption. This PSD mechanism, responsible for the F(+) PSD of solid CF(2)Cl(2), is used to explain the first F(+) PSD spectrum in the sequential F(+) PSD spectra. The variation of spectral shapes in the sequential F(+) PSD spectra shows the consumption of adsorbed CF(2)Cl(2) molecules and the production of surface SiF species as a function of photon exposure. The photolysis cross section of the adsorbed CF(2)Cl(2) molecules by photons with varying energy (681-704 eV) is deduced from the sequential F(+) PSD spectra and found to be ∼6.0 × 10(-18) cm(2).
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