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Item Histological analysis of Spinal Cord Injury treated with Amniotic Membrane(Universidade de São Paulo) Correia, Débora Campos Chaves; Lima, Leonardo Borges de; Sant'Anna, Luciana Barros; Lima, Mario Oliveira; Arisawa, Emilia Angela Lo SchiavoSpinal cord injury (SCI) is one of the most harmful syndromes that affects humans due to neuronal destruction and interruption of the nerve impulse transmission between axons. The conduction of motor, sensory, and autonomic responses below the level of the injury is seriously compromised, generating high treatment costs for the health system and a reduction in quality of life, stimulating research into new treatment protocols. This study aimed to evaluate the effectiveness of a biomaterial, the amniotic membrane (AM), to treat experimentally induced SCI. 15 adult rats were divided into three groups (n = 5): S (Sham), L (SCI without treatment), and AM (SCI treated with AM). Spinal cord injury was induced in the region T9-T10 by direct trauma, free-falling a weight (10 g, 2 mm flat edge) held on a mini guillotine, 25 mm above the exposed spinal cord. A fragment of AM, obtained from the human placenta after maternal consent, was applied to the injured area only in the AM group. After 28 days, specimens from the area of spinal cord injury were excised and subjected to routine histological procedures. Data from the semi-quantitative score, obtained from a scheme that assigned different scores to regions of the spinal cord, and from the quantitative analysis were subjected to parametric statistical analysis. Results showed that Group S presented medullary tissue without changes (score 0). In contrast, Group L presented numerous areas of cavitation in the dorsal and lateral regions of the white and gray matter (9.61 ± 6.60 p<0.001) with an intense inflammatory infiltrate. The AM group exhibited small areas of cavitation in the dorsal and lateral regions of the white matter and part of the dorsal columns in the gray matter (0.94 ± 1,03, p<0.001), with few inflammatory cells. The results suggest the effectiveness of AM in the treatment of induced SCI, characterized by a reduction in the evolution of inflammatory and degenerative processes in the central nervous tissue compared to the untreated group.Item Photobiomodulation and amniotic membrane for treat tendon injury in rats(Academia Brasileira de Ciências) Nicodemo, Mariana de Castro; Arisawa, Emilia Angela Lo Schiavo; Sant’Anna, Luciana Barros; Martins, Rodrigo Álvaro Brandão LopesTendons, complex fibrous structures, are subjected to great tensions, which can give rise to the so-called tendinopathies. This study aimed to evaluate photobiomodulation and human Amniotic Membrane applied as single or combined therapies to treat induced Achilles tendon lesions. Seventy-five rats were divided into five groups (n=15): C- control Sham surgery; I- tendon injury; LA- tendon injury treated with photobiomodulation; AM- tendon injury treated with Amniotic Membrane; LAM- tendon injury + photobiomodulation and Amniotic Membrane, subdivided into three groups (n=5) with analysis at 3, 7, and 14 days. The tendon injuries were made with a 20 g weight released from a mini guillotine onto the ankle in dorsiflexion. AM and LAM groups received an Amniotic Membrane fragment while LA and LAM groups received transcutaneous photobiomodulation, using a 660 nm wavelength laser. The inflammatory cells showed statistical differences between groups C and I (p<0.05), I and AM (p<0.01), I and LA (p<0.05), and I and LAM (p<0.01). Both photobiomodulation and Amniotic Membrane were shown to enhance tendon repair, and the association of photobiomodulation plus Amniotic Membrane was the most effective treatment. We conclude that the association of photobiomodulation plus Amniotic Membrane was effective in accelerating and improving the tendon regeneration process.