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1.
Braz. j. med. biol. res ; 50(9): e5648, 2017. tab, graf
Article Dans Anglais | LILACS | ID: biblio-888995

Résumé

The association of bioactive molecules, such as vascular endothelial growth factor (VEGF), with nanofibers facilitates their controlled release, which could contribute to cellular migration and differentiation in tissue regeneration. In this research, the influence of their incorporation on a polylactic-co-glycolic acid (PLGA) scaffold produced by electrospinning on cell adhesion and viability and cytotoxicity was carried out in three groups: 1) PLGA/BSA/VEGF; 2) PLGA/BSA, and 3) PLGA. Morphology, fiber diameter, contact angle, loading efficiency and controlled release of VEGF of the biomaterials, among others, were measured. The nanofibers showed smooth surfaces without beads and with interconnected pores. PLGA/BSA/VEGF showed the smallest water contact angle and VEGF released for up to 160 h. An improvement in cell adhesion was observed for the PLGA/BSA/VEGF scaffolds compared to the other groups and the scaffolds were non-toxic for the cells. Therefore, the scaffolds were shown to be a good strategy for sustained delivery of VEGF and may be a useful tool for tissue engineering.


Sujets)
Humains , Acide lactique/administration et posologie , Cellules souches mésenchymateuses/métabolisme , Acide polyglycolique/administration et posologie , Ingénierie tissulaire/méthodes , Structures d'échafaudage tissulaires , Facteur de croissance endothéliale vasculaire de type A/administration et posologie , Adhérence cellulaire/effets des médicaments et des substances chimiques , Différenciation cellulaire/effets des médicaments et des substances chimiques , Cellules cultivées , Cellules souches mésenchymateuses/cytologie , Cellules souches mésenchymateuses/enzymologie , Nanofibres
2.
Braz. j. med. biol. res ; 49(9): e5319, 2016. tab, graf
Article Dans Anglais | LILACS | ID: biblio-951695

Résumé

Spinal cord injury (SCI) is a disabling condition resulting in deficits of sensory and motor functions, and has no effective treatment. Considering that protocols with stem cell transplantation and treadmill training have shown promising results, the present study evaluated the effectiveness of stem cells from human exfoliated deciduous teeth (SHEDs) transplantation combined with treadmill training in rats with experimental spinal cord injury. Fifty-four Wistar rats were spinalized using NYU impactor. The rats were randomly distributed into 5 groups: Sham (laminectomy with no SCI, n=10); SCI (laminectomy followed by SCI, n=12); SHEDs (SCI treated with SHEDs, n=11); TT (SCI treated with treadmill training, n=11); SHEDs+TT (SCI treated with SHEDs and treadmill training; n=10). Treatment with SHEDs alone or in combination with treadmill training promoted functional recovery, reaching scores of 15 and 14, respectively, in the BBB scale, being different from the SCI group, which reached 11. SHEDs treatment was able to reduce the cystic cavity area and glial scar, increase neurofilament. Treadmill training alone had no functional effectiveness or tissue effects. In a second experiment, the SHEDs transplantation reduced the TNF-α levels in the cord tissue measured 6 h after the injury. Contrary to our hypothesis, treadmill training either alone or in combination, caused no functional improvement. However, SHEDs showed to be neuroprotective, by the reduction of TNF-α levels, the cystic cavity and the glial scar associated with the improvement of motor function after SCI. These results provide evidence that grafted SHEDs might be an effective therapy to spinal cord lesions, with possible anti-inflammatory action.


Sujets)
Humains , Animaux , Mâle , Conditionnement physique d'animal/méthodes , Traumatismes de la moelle épinière/thérapie , Transplantation de cellules souches/méthodes , Pulpe dentaire/cytologie , Traitement par les exercices physiques/méthodes , Facteurs temps , Chute dentaire , Test ELISA , Répartition aléatoire , Résultat thérapeutique , Rat Wistar , Association thérapeutique , Récupération fonctionnelle , Cytométrie en flux , Locomotion
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