J. Morales scite author profile

Most of the biomaterials used nowadays for the reconstruction of the spinal cord (SC) tissue after an injury, tested in animals, have obtained modest results. This work presents a study about the compatibility of two novel, non-biodegradable, semi-conductive materials, obtained by plasma polymerization: iodine-doped pyrrole (PPy/I) and pyrrole-polyethylene glycol (PPy/PEG). Both polymers, separately, were implanted in the SC tissue of rats after a transection. Prior to implantation, the elemental composition and the physico-chemical properties of polymers were studied by electron scanning microscopy, IR Spectroscopy and thermogravimetric analysis. We used adult female Long Evans rats, subjected to SC transection. Animals were randomized to be allocated in one of the treatment groups and were killed four weeks after the lesion for histology study. Results showed that both implants were integrated to the SC tissue, as inflammatory and gliotic responses, similar to those observed in the control group, and rejection of the implant, were not evident. Moreover, the immediate effect of PPy/I or PPy/PEG in the injured SC prevented secondary tissue destruction, as compared to non-implanted control animals. In conclusion, implants of semi-conductive polymers were well-tolerated and integrated favorably to SC tissue after transection.

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Synthesis of selenium nanoparticles by pulsed laser ablation

Quintana

Haro‐Poniatowski

Morales

et al. 2002

Applied Surface Science

140

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Synthesis of polyaniline films by plasma polymerization

Cruz¹,

Morales²,

Castillo‐Ortega³

et al. 1997

Synthetic Metals

164

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Nanospherical particles of polypyrrole synthesized and doped by plasma

Cruz

Olayo

López

et al. 2010

Polymer

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J. Morales

Films obtained by plasma polymerization of pyrrole

Tissue spinal cord response in rats after implants of polypyrrole and polyethylene glycol obtained by plasma

Synthesis of selenium nanoparticles by pulsed laser ablation

Synthesis of polyaniline films by plasma polymerization

Nanospherical particles of polypyrrole synthesized and doped by plasma

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