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Objective To analyze the expression changes of related mRNA and microRNA(miRNA)during spinal cord regeneration after tail amputation of Gekko japonicus, and to explore the biological effects of differentially expressed mRNA and miRNA during spinal cord regeneration. Methods Fifty Gekko japonicus, the tail amputation model of Gekko japonicus was constructed, divided into normal group, 15 days tail amputation group, and 25 days tail amputation group, 5 in each group, repeat the experiment 3 times, 5 spare. Samples of each group were collected, RNA of each group was extracted and high-throughput sequencing. Bioinformatics analysis identifies differentially expressed mRNA and miRNA between groups, Gene Ontology(GO) enrichment analysis of differentially expressed mRNA functional annotations, and construction of miRNA and mRNA gene regulatory networks related to spinal cord regeneration. Results The differential expression of mRNA and miRNA in the normal and newborn spinal cords of Gekko japonicus was analyzed by sequencing. The 15 days and 25 days tail amputation groups identified 538 and 510 differential mRNA expressions and 446, 127 differential miRNA expressions, respectively. GO analysis found that the differentially expressed mRNA aggregated in biological processes related to cell proliferation and neurodevelopment. In the spinal cord regeneration-related miRNA and its target gene regulatory network, 21 mRNA expression was down-regulated in the 15 days tail amputation group, which was regulated negatively by 41 up-regulated miRNAs; 12 mRNA expression was up-regulated and was regulated by 29 down-regulated miRNAs. In the 25 days tail amputation group, 8 mRNA expression was down-regulated and regulated negatively by 10 up-regulated miRNAs; 20 mRNA expression was up-regulated and regulated by 32 down-regulated miRNAs. Conclusion Through the analysis of the differential expression of miRNA and mRNA in the regenerated spinal cord of Gekko japonicus, the expression changes of mRNA and miRNA in spinal cord regeneration were initially revealed, which provided experimental data for elucidating the molecular mechanism of spinal cord regeneration.
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SUMMARY: Spinal cord regeneration after mechanical injury is one of the most difficult biomedical problems. This article evaluates the effect of poly(N-[2-hydroxypropyl]-methacrylamide) hydrogel (PHPMA-hydrogel) on spinal cord regeneration in young rats after lateral spinal cord hemi-excision (laceration) at the level of segments T12-T13 (TrGel group). The locomotor function score (FS) and the paretic hindlimb spasticity score (SS) were assessed according to Basso-Beattie-Bresnahan (BBB) and Ashworth scales, respectively, and compared to a group of animals with no matrix implanted (Tr group). Regeneration of nerve fibers at the level of injury was evaluated at ~5 months after spinal cord injury (SCI). One week after the SCI induction, the FS on the BBB scale was 0.9±0.5 points in the Tr group and 3.6±1.2 points in the TrGel group. In the Tr group, the FS in 5 months was significantly lower than in 2 weeks after SCI, while no significant changes in FS were detected in the TrGel group over the entire observation period. The final FS was 0.8±0.3 points in the Tr group and 4.5±1.8 points in the TrGel group. No significant changes in SS have been observed in the TrGel group throughout the experiment, while the Tr group showed significant increases in SS at 2nd week, 6th week, 3th month and 5th month. The SS in 5 months was 3.6±0.3 points on the Ashworth scale in the Tr group and 1.8±0.7 points in the TrGel group. Throughout the observation period, significant differences in FS between groups were observed only in 5 weeks after SCI, whereas significant differences in SS were observed in 2, 3 and 6-8 weeks post-injury. Glial fibrous tissue containing newly formed nerve fibers, isolated or grouped in small clusters, that originated from the surrounding spinal cord matter have been found between the implanted hydrogel fragments. In conclusion, PHPMA-hydrogel improves recovery of the hindlimb locomotor function and promotes regenerative growth of nerve fibers. Further research is needed to clarify the mechanism of this PHPMA-hydrogel effect.
RESUMEN: La regeneración de la médula espinal después de una lesión mecánica es uno de los problemas biomédicos más difíciles. Este artículo evalúa el efecto del hidrogel de poli (N- [2-hidroxipropil] -metacrilamida) (PHPMA-hidrogel) sobre la regeneración de la médula espinal en ratas jóvenes después de la hemiescisión lateral de la médula espinal (lesión) a nivel de los segmentos T12 - T13 (Grupo TrGel). La puntuación de la función locomotora (FS) y la puntuación de espasticidad parética de las patas traseras (SS) se evaluaron de acuerdo con las escalas de Basso- Beattie-Bresnahan (BBB) y Ashworth, respectivamente, y se compararon con un grupo de animales sin matriz implantada (grupo Tr). Se evaluó la regeneración de las fibras nerviosas al nivel de la lesión ~ 5 meses después de la lesión de la médula espinal (LME). Una semana después de la inducción de SCI, el FS en la escala BBB fue 0,9 ± 0,5 puntos en el grupo Tr y 3,6 ± 1,2 puntos en el grupo TrGel. En el grupo Tr, el FS en 5 meses fue significativamente menor que en 2 semanas después de SCI, mientras que no se detectaron cambios significativos en FS en el grupo TrGel durante el período de observación. El FS final fue de 0,8 ± 0,3 puntos en el grupo Tr y de 4,5 ± 1,8 puntos en el grupo TrGel. No se han obser- vado cambios significativos en SS en el grupo TrGel durante el experimento, mientras que el grupo Tr mostró aumentos significativos en SS en la 2ª semana, 6ª semana, 3º mes y 5º mes. La SS en 5 meses fue de 3,6 ± 0,3 puntos en la escala de Ashworth en el grupo Tr y de 1,8 ± 0,7 puntos en el grupo TrGel. A lo largo del período de observación, se observaron diferencias significativas en FS entre los grupos solo en 5 semanas después de la LME, mientras que se observaron diferencias significativas en SS en 2, 3 y 6-8 semanas después de la lesión. Entre los fragmentos de hidrogel implantados se observó tejido fibroso glial que contenía fibras nerviosas recién formadas, aisladas o agrupadas en pequeños grupos, que se originaban a partir de la materia de la médula espinal circundante. En conclusión, PHPMA-hydrogel mejora la recuperación de la función locomotora de las patas traseras y promueve el crecimiento regenerativo de las fibras nerviosas. Se requieren más estudios para aclarar el mecanismo del efecto de hidrogel PHPMA.
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Animais , Ratos , Poli-Hidroxietil Metacrilato/administração & dosagem , Traumatismos da Medula Espinal/terapia , Hidrogel de Polietilenoglicol-Dimetacrilato/administração & dosagem , Traumatismos da Medula Espinal/fisiopatologia , Ratos Wistar , Recuperação de Função Fisiológica/efeitos dos fármacos , Modelos Animais de Doenças , Regeneração da Medula Espinal/efeitos dos fármacosRESUMO
Objective Exploring the effect of spinal cord decellularized scaffold on spinal cord defects and observing the behavior and regeneration of rats after operation. Methods The spinal cords of 30 SD rats were treated with 3% Triton X-100 and 2% sodium deoxycholate on oscillator. The cell residue and the spatial structure of the tissue were compared before and after treatment, in order to understand the tissue structure of the stent itself. 90 SD rats were randomly divided into control group, simple injury group and stent transplantation group. Excision of the spinal cord 9-10 segments in the simple injury group and the stent graft group the acellular scaffold was transplanted to the stent graft group. Behavioral scores were observed postoperatively. At 4, 8, and 12 weeks, the spinal cords of the injured part of the rats were taken for HE staining and immunofluorescence detection of nerve regeneration-related proteins. Results After decellularization of the spinal cord, the nerve cells and axons were completely removed, and the extracellular matrix of the spinal cord was preserved. Scanning electron microscopy revealed that the scaffold retained a certain porous network scaffold structure. In the experiment of decellularized scaffold in vivo, the Basso-Beattie-Bresnahan(BBB) score showed that the recovery of hindlimb motor function in rats with decellularized scaffolds was better than that in rats with simple injury. HE staining showed that the decellularized scaffold could fill the defect of the spinal cord segment and accelerate the repair process of the injured spinal cord. Immunofluorescence showed that there was a certain axonal regeneration in the injured part of the stent transplantation group. Conclusion The spinal cord decellularized scaffold retains the extracellular matrix and has a certain spatial structure, which can accelerate the process of spinal cord defect repair to a certain extent, and has a certain promoting effect on nerve regeneration.
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ABSTRACT Spinal cord injury (SCI) affects 1.3 million North Americans, with more than half occurring after trauma. In Brazil, few studies have evaluated the epidemiology of SCI with an estimated incidence of 16 to 26 per million per year. The final extent of the spinal cord damage results from primary and secondary mechanisms that start at the moment of the injury and go on for days, and even weeks, after the event. There is convincing evidence that hypotension contributes to secondary injury after acute SCI. Surgical decompression aims at relieving mechanical pressure on the microvascular circulation, therefore reducing hypoxia and ischemia. The role of methylprednisolone as a therapeutic option is still a matter of debate, however most guidelines do not recommend its regular use. Neuroprotective therapies aiming to reduce further injury have been studied and many others are underway. Neuroregenerative therapies are being extensively investigated, with cell based therapy being very promising.
RESUMO O traumatismo raquimedular (TRM) afeta 1.3 milhão de norte americanos, sendo mais da metade secundário a trauma.No Brasil, pouco estudos avaliaram sistematicamente a epidemiologia do TRM, mas estima-se uma incidência de 16 a 26 por milhão por ano. A extensão final do dano medular é resultante de mecanismos primários e secundários, que começam no momento do evento e prosseguem por dias e até semanas seguintes. Há fortes evidências de que a hipotensão contribua para danos secundários pós TRM. A cirurgia descompressiva visa a aliviar a compressão mecânica sobre a microcirculação, assim reduzindo isquemia e hipóxia. O papel da metilprednisolona no tratamento de pacientes com TRM é controverso, não sendo recomandada pela maior parte das diretrizes atuais. Terapias neuroprotetoras visando a reduzir injúria adicional foram e vêm sendo estudadas. Terapias neurorregenerativas estão sob investigação ampla, sendo a terapia celular uma forte promessa.
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Humanos , Traumatismos da Medula Espinal/complicações , Traumatismos da Medula Espinal/terapia , Metilprednisolona/uso terapêutico , Índices de Gravidade do Trauma , Fármacos Neuroprotetores/uso terapêutico , Descompressão CirúrgicaRESUMO
OBJECTIVES: To determine whether the intervention in rats is effective in terms of spinal cord regeneration and locomotor recovery, in order to obtain sufficient evidence to apply the therapy in humans. METHODS: a randomized, controlled, experimental, prospective, randomized trial was conducted, with a sample of 15 adult female Sprague-Dawley rats weighing 250 gr. They were divided into three equal groups, and trained for 2 weeks based on Pavlov's classical conditioning method, to strengthen the muscles of the 4 legs, stimulate the rats mentally, and keep them healthy for the surgery. RESULTS: It was observed that implantation of these cells into the site of injury may be beneficial to the process of spinal cord regeneration after spinal trauma, to mediate secretion of neurotrophic and neuroprotective chemokines, and that the OECs have the ability to bridge the repair site and decrease the formation of gliosis, creating a favorable environment for axonal regeneration. CONCLUSION: It is emphasized that the olfactory ensheathing glial cells possess unique regenerative properties; however, it was not until recently that the activity of promoting central nervous system regeneration was recognized. .
OBJETIVOS: Verificar se intervenção em ratos tem eficácia comprovada na regeneração medular e na recuperação locomotora, visando obter evidência suficiente para aplicar a terapia ao ser humano. MÉTODOS: Estudo prospectivo experimental controlado e randomizado, com amostra de 15 ratas Sprague-Dawley adultas pesando 250 gramas. Os indivíduos foram divididos em três grupos que foram treinados durante 2 semanas pelo método de Pavlov de condicionamento clássico, de modo a fortalecer os músculos das quatro patas, estimular os animais mentalmente e mantê-los saudáveis para a cirurgia. RESULTADOS: Constatou-se que a implantação dessas células no local da lesão pode ser benéfica para o processo de regeneração medular depois do trauma, visto que medeia secreção de quimiocinas neurotróficas e neuroprotetoras; da mesma maneira que as células olfatórias da glia (OEC) têm a capacidade de fazer ponto no local do reparo e de diminuir a formação de gliose, criando ambiente propício para a regeneração axonal. CONCLUSÃO: Cabe destacar que as células olfatórias da glia têm propriedades regeneradoras únicas, porém, apenas recentemente sua atividade promotora de regeneração do sistema nervoso central foi reconhecida. .
OBJETIVOS: Si la intervención en ratas prueba su efectividad respecto a la regeneración medular y la recuperación locomotora con el fin de obtener evidencia suficiente para aplicar la terapia en humanos. MÉTODOS: Se realizóun estudio prospectivo experimental controlado aleatorizado, donde se incluyóuna muestra de 15 ratas adultas hembras Sprague-Dawley de 250 gr. Se dividieron por tercias las cuales se entrenaron durante 2 semanas en base al método de Pavlov de condicionamiento clásico con el fin de fortalecer los músculos de las 4 patas, estimularlas anímicamente y mantenerlas saludables para el acto quirúrgico. RESULTADOS: Se ha observado que el implante de estas células en el sitio de la lesión, puede resultar benéfico para el proceso de regeneración medular después del trauma al mediar la secreción de quimiocinas neurotróficas y neuroprotectoras, asímismo las OECs poseen la habilidad de puentear el sitio de reparación y disminuir la formación de gliosis creando un ambiente permisivo para la regeneración axonal. CONCLUSIÓN: Cabe destacar que las células de la glia olfatoria poseen propiedades regeneradoras únicas, sin embargo no fue sino hasta hace poco que su actividad promotora de regeneración del sistema nervioso central se reconoció. .
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Animais , Ratos , Regeneração da Medula Espinal , Bulbo Olfatório , Transplante de Células , Locomoção/fisiologiaRESUMO
STUDY DESIGN: Prospective case series. PURPOSE: To study the safety and feasibility of cotransplantation of bone marrow stem cells and autologous olfactory mucosa in chronic spinal cord injury. OVERVIEW OF LITERATURE: Stem cell therapies are a novel method in the attempt to restitute heavily damaged tissues. We discuss our experience with this modality in postspinal cord injury paraplegics. METHODS: The study includes 9 dorsal spine injury patients with American Spinal Injury Association (ASIA) Impairment Scale (AIS) A neurological impairment who underwent de-tethering of the spinal cord followed by cotransplantation with bone marrow stem cells and an olfactory mucosal graft. Participants were evaluated at the baseline and at 6 monthly intervals. Safety and tolerability were evaluated through the monitoring for adverse events and magnetic resonance imaging evaluation. Efficacy assessment was done through neurological and functional outcome measures. RESULTS: Surgery was tolerated well by all participants. No significant difference in the ASIA score was observed, although differences in the Functional Independence Measure and Modified Ashworth Scale were statistically significant. No significant complication was observed in any of our patients, except for neurogenic pain in one participant. The follow-up magnetic resonance imaging evaluation revealed an increase in the length of myelomalacia in seven participants. CONCLUSIONS: The cotransplantation of bone marrow stem cells and olfactory mucosa is a safe, feasible and viable procedure in AIS A participants with thoracic level injuries, as assessed at the 24-month follow-up. No efficacy could be demonstrated. For application, further large-scale multicenter studies are needed.
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Humanos , Ásia , Medula Óssea , Seguimentos , Imageamento por Ressonância Magnética , Mucosa Olfatória , Avaliação de Resultados em Cuidados de Saúde , Estudos Prospectivos , Medula Espinal , Traumatismos da Medula Espinal , Regeneração da Medula Espinal , Traumatismos da Coluna Vertebral , Coluna Vertebral , Células-Tronco , Tórax , TransplantesRESUMO
The primary trigger to periodic limb movement (PLM) during sleep is still unknown. Its association with the restless legs syndrome (RLS) is established in humans and was reported in spinal cord injury (SCI) patients classified by the American Spinal Injury Association (ASIA) as A. Its pathogenesis has not been completely unraveled, though recent advances might enhance our knowledge about those malfunctions. PLM association with central pattern generator (CPG) is one of the possible pathologic mechanisms involved. This article reviewed the advances in PLM and RLS genetics, the evolution of CPG functioning, and the neurotransmitters involved in CPG, PLM and RLS. We have proposed that SCI might be a trigger to develop PLM.
O gatilho principal para o desenvolvimento de movimentos periódicos dos membros (MPM) durante o sono ainda é desconhecido. A associação entre o MPM e a síndrome das pernas inquietas (SPI) em seres humanos já foi previamente estabelecida e relatada em pacientes com lesão medular (LM), classificados pela American Spinal Injury Association (ASIA) como A. A patogênese do MPM não foi completamente desvendada, apesar de avanços recentes poderem ampliar o conhecimento sobre essas disfunções. Um dos possíveis mecanismos patológicos envolvidos é o gerador de padrão central (GPC). Este artigo revisou os avanços na genética do MPM e da SPI, a evolução do funcionamento do GPC e os neurotransmissores relacionados ao GPC, ao MPM e à SPI. Foi proposta a hipótese de que a LM poderia ser um gatilho para deflagrar os MPM.
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Humanos , Geradores de Padrão Central/fisiopatologia , Síndrome da Mioclonia Noturna/etiologia , Síndrome das Pernas Inquietas/etiologia , Traumatismos da Medula Espinal/complicações , Evolução Biológica , Movimento/fisiologia , Síndrome das Pernas Inquietas/fisiopatologiaRESUMO
Objetivou-se investigar quais as ações realizadas nas Unidades Básicas de Saúde da Família (UBSF) para atender as demandas dos adultos com lesão medular (LM) pós-reabilitados; e enumerar facilidades/dificuldades para atender às demandas desses usuários. Estudo qualitativo realizado em vinte UBSF. Participaram, aleatoriamente, vinte médicos e vinte enfermeiros. Utilizou-se entrevista semiestruturada e análise de conteúdo. A análise das categorias baseou-se nos princípios da integralidade, universalidade, beneficência e justiça. Detectaram-se: desqualificação profissional para assistir a pessoa com LM, assistência fragmentada, dificuldades para agendar consultas e exames, dificuldades na referência e contrarreferência, inexistência de ações contínuas para cuidar dos indivíduos com LM. As UBSF não asseguram a proteção de todos os cidadãos, pois existem desafios à construção de práticas de saúde solidárias, acolhedoras e, consequentemente, mais efetivas e resolutivas para os sujeitos com LM.
It was aimed to investigate what actions taken in Basic Health Units of the Family-(BHUF) to meet the demands of adults with spinal cord injury (SCI) post-rehabilitation, list facilities/difficulties to meet the demands of users. Descriptive study conducted in twenty BHUF. Twenty doctors and twenty nurses, randomly selected, participated in the study. To collect and analyze data, it was used semi-structured interviews and analysis of content. The categories were based on the integrality, universality, charity and justice principles. It was found: professional disqualification to assist people with SCI, fragmented care, difficult to schedule consultations and examinations, difficulties in the reference and counter reference system, and lack of ongoing actions to take care of individuals with SCI. The BHUF not ensure the protection of all citizens, there are challenges to the construction practices of health solidarity, warm and consequently more effective and decisive for individuals with SCI.
El estudio objetivó averiguar cuáles las acciones realizadas en las Unidades Básicas de Salud de la Familia-UBSF para atender demandas de los adultos con lesión espinal (LE) después de la rehabilitación, enumerar facilidades/dificultades para atender demandas de eses usuarios. Estudio cualitativo realizado en veinte UBSF. Participaron, de forma aleatoria, veinte médicos y veinte enfermeros. Para colectar y analizar los datos, fueron utilizados entrevista semiestructurada y análisis de contenido. El análisis de las categorías se basó en los principios de integralidad, universalidad, beneficencia, justicia. Se verificó: descalificación profesional para asistir las personas con LE, fragmentación de la asistencia, dificultades en marcar consultas y exámenes, dificultades en la referencia y contra-referencia, inexistencia de acciones constantes para cuidar de las personas con LE. Las UBSF non aseguran la protección de todos los ciudadanos, pues existe desafíos para la construcción de prácticas de salud que sean solidarias, acogedoras, más efectivas y resolutivas para los sujetos con LE.
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Humanos , Política de Saúde , Qualidade da Assistência à Saúde , Traumatismos da Medula Espinal/terapia , Temas Bioéticos , Brasil , Atenção Primária à SaúdeRESUMO
Better understanding of spinal cord injury pathophysiology has allowed the development of new areas of investigation, focused in reducing the injury and stimulating cord regeneration. The preliminary results of these investigations have generated great expectation in the scientific world, together with ambiguous information for patients with these injuries. In this article, we present a review of the available literature in this area, describing several non-pharmacological interventions, together with new drugs, immune therapies to block processes that inhibit cord regeneration and the renowned cell therapy. After evaluating the available articles included in this review, we observed a progress towards an increased efficacy of these treatments, but with limitations due to methodological flaws in the study protocols, which do not allow us to make applicability recommendations of them in humans.
Los recientes avances en el entendimiento de la fisiopatología del traumatismo raquimedular, han permitido el desarrollo de investigación enfocada en intervenciones orientadas a disminuir la lesión y estimular la regeneración medular. El entusiasmo por este nuevo conocimiento ha generado expectativa en el mundo científico co e información ambigua en los pacientes con este tipo de lesiones. En este trabajo revisamos la literatura reciente y la que se está llevando a cabo a este respecto, encontrando la descripción de algunas intervenciones no farmacológicas diferentes a la cirugía, nuevos medicamentos, terapias de bloqueo inmunológico de procesos que inhiben la regeneración medular y la reconocida terapia celular. Al evaluar los trabajos incluidos en esta revisión, observamos un avance hacia el aumento de la efectividad de los tratamientos pero con la limitación debida a las falencias metodológicas en la investigación que impiden hacer recomendaciones de aplicabilidad de los mismos en humanos.