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Modelling the protein-energy malnourished stroke patient2013 June 1900 (has links)
Little is known about the effects of protein-energy malnutrition (PEM) developing after stroke on brain recovery. The goal of this project was to develop two experimental models in the adult rat to allow evaluation of nutritional effects on post-stroke recovery: (1) a PEM model, and (2) a photothrombotic stroke model.
Experiment 1 examined the hypothesis that a diet containing either 1% or 0.5% protein will produce an acute state of mild-moderate PEM in adult rats. Male, Sprague-Dawley rats (16 wk) were trained in the Montoya staircase before being randomized to diets containing 0.5% (n=8), 1% (n=8), or 12.5% protein (n=10 [CON]) for 31d. Both low protein diets increased liver lipid content (p< 0.001) and decreased food intake (p= 0.005) and body weight (p< 0.001) compared to the 12.5% protein diet. The 0.5% protein group best mimicked the stroke patient, as judged by decreased serum albumin (p= 0.018) and an acute decrease in mean (±SEM) body weight (g) by d7 (0.5%= 424±15; 1%= 428±14; CON= 477±10; p = 0.011). Increased concentrations of the positive acute phase proteins, alpha-2-macroglobulin and alpha-1-acid glycoprotein, were greatest in the 0.5% group (p< 0.001). No differences were observed in the Montoya test on d3, 15, or 30 (p= 0.26). Values on d30 were: 0.5%= 109.5±4.4% of pre-diet performance; 1%= 97.2±5.5%; CON= 98.5±10.2%.
Experiment 2 tested the hypothesis that targeted laser irradiation and 30 mg/kg of rose Bengal injection will cause an infarct in the forepaw region of the cortex with accompanying functional deficits. Male adult rats trained in the Montoya staircase were randomized to ISCHEMIA (n=15) or SHAM (n=3) surgery. A cortical infarct occurred in 86% of rats, with some misplacement
and variability in volume (5.7-12.8 mm3). Forepaw impairments were confirmed by decreased performance in the staircase at d3 (34.3±7.3 % of pre-stroke performance, p<0.001) and diminished use in the cylinder test (30.3±4.0% affected limb use versus 53.9±1.93% prestroke, p< 0.001). At d30, mean recovery was incomplete in the staircase (p< 0.001).
These experimental models, with additional refinements, can be used to address the hypothesis that deteriorating nutritional status after a stroke interferes with brain recovery.
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Análise dos mecanismos de neuroplasticidade na porção lombar da medula espinal do rato submetida à lesão isquêmica fototrombótica e tratada pela injeção local de PEDF / Analysis of neuroplasticity mechanisms in lumbar levels of the rat spinal cord submitted to photothrombotic ischemia and treated with local injection of PEDFBatista, Chary Ely Martin Marquez 26 March 2012 (has links)
O fator derivado do epitélio pigmentado (PEDF) é um fator neurotrófico que possui um grande potencial trófico nos neurônios motores da medula espinal, bem como é capaz de modular o microambiente da lesão. Desta forma, analisamos a capacidade do tratamento com PEDF em promover a neuroplasticidade da medula espinal após lesão isquêmica. Ratos Wistar adultos foram submetidos à lesão medular isquêmica do tipo fototrombótica, segundo o método de Rose Bengal, na altura do 11° segmento torácico e foram imediatamente tratados com inoculação local de PEDF (grupo PEDF) ou solvente (grupo Salina). Ratos submetidos à cirurgia simulada (grupo Sham) receberam a injeção do solvente. Ao término do procedimento cirúrgico, os ratos foram submetidos a testes neurofuncionais durante 6 semanas. Após esse período, os animais sofreram eutanásia e o tecido medular foi dividido entre as técnicas de imunoistoquímica, western blot e PCR em tempo real. Foi analisada na região lombar anterior da medula espinal a modulação das CSPGs, a expressão dos fatores neurotróficos NT-3, GDNF, BDNF e FGF-2, bem como os níveis das moléculas associadas à angiogênese e apoptose (laminina e Bcl-2), das proteínas relacionadas à neuroplasticidade (MAP-2, GAP-43 e sinaptofisina) e do sistema Eph/efrina e a RhoA, que são capazes de modular o crescimento de fibras. Os resultados mostraram uma recuperação parcial e espontânea do comportamento sensório-motor dos animais que foram submetidos à lesão fototrombótica, onde o tratamento com PEDF foi capaz de potencializar alguns desses parâmetros. A análise da região lombar anterior da medula espinal, caudal à lesão, mostrou uma diminuição das CSPGs nos dois grupos lesados, o que pode ter favorecido os eventos de neuroplasticidade. O tratamento com PEDF foi capaz de promover a regulação dos fatores neurotróficos NT-3 e GDNF, diminuir a angiogênese local (diminuição da laminina) e potencializar o processo de neuroplasticidade (aumento da MAP-2) nessa região. A lesão medular isquêmica foi capaz de modular a expressão do receptor EphA4 e da efrina-B1 e o tratamento com PEDF possivelmente regulou o estado de ativação da efrina-A2 e da efrina-B3 e certamente modulou a ativação da efrina-B2. Ainda, os receptores Eph e as efrinas foram observados diferentemente nos neurônios e astrócitos. Nossos resultados confirmam a capacidade plástica da medula espinal após lesão e mostra que o tratamento com PEDF foi capaz de potencializar esse processo / The pigment epithelium derived factor (PEDF) is a neurotrophic factor that has a great trophic potential in the motor neurons of the spinal cord, and is able to modulate the lesion microenvironment. We analyzed the capacity of the treatment with PEDF to promote the neuroplasticity after ischemic spinal cord injury. Adult male Wistar rats were underwent to photothrombotic ischemic spinal cord injury, according to the Rose Bengal method, at the level of 11° thoracic segment, and were immediately treated with local injection of PEDF (PEDF group) or solvent (Saline group). Rats underwent to a sham surgery (Sham group) received solvent injection. At the end of surgery, the rats were submitted to neurofunctional tests during 6 weeks. After this period, the animals were euthanized, and the anterior lumbar region of the spinal cord tissue was submitted to immunohistochemistry, western blot and real-time PCR analyses. The inhibitory response of CSPGs, the expression of neurotrophic factors (NT-3, GDNF, BDNF and FGF-2), the molecules associated with angiogenisis and apoptosis (laminin and Bcl-2), the proteins related to neuroplasticity (MAP-2, GAP-43 and synaptophysin), as well the Eph/ephrin system and the RhoA, which is able to modulate the fibers growth, were evaluated. The results showed a spontaneous, and parcial, recovery of the sensory motor behavior of the animals that were underwent to a photothrombotic injury, and the treatment with PEDF was able to potentiate some of these parameters. The analysis of the anterior lumbar region of the spinal cord, caudally to the lesion, showed a decrease of CSPGs, which may have favored the neuroplasticity events. The treatment with PEDF was able to promote the regulation of NT-3 and GDNF, as well the reduction of laminin and the increase of MAP-2 in that region. In relation to the Eph/ephrin system, the ischemic spinal cord injury was able to modulate the EphA4 receptor and ephrin-B1 expression, and the treatment with PEDF possibly regulated the activation state of ephrin-A2 and ephrin-B3 and certainly modulated the ephrin-B2 activation. Eph receptors and ephrins have been found specifically in neurons and astrocytes. Our results confirmed the plastic capacity of the spinal cord after injury and showed that the treatment with PEDF was able to enhance this process
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Análise dos mecanismos de neuroplasticidade na porção lombar da medula espinal do rato submetida à lesão isquêmica fototrombótica e tratada pela injeção local de PEDF / Analysis of neuroplasticity mechanisms in lumbar levels of the rat spinal cord submitted to photothrombotic ischemia and treated with local injection of PEDFChary Ely Martin Marquez Batista 26 March 2012 (has links)
O fator derivado do epitélio pigmentado (PEDF) é um fator neurotrófico que possui um grande potencial trófico nos neurônios motores da medula espinal, bem como é capaz de modular o microambiente da lesão. Desta forma, analisamos a capacidade do tratamento com PEDF em promover a neuroplasticidade da medula espinal após lesão isquêmica. Ratos Wistar adultos foram submetidos à lesão medular isquêmica do tipo fototrombótica, segundo o método de Rose Bengal, na altura do 11° segmento torácico e foram imediatamente tratados com inoculação local de PEDF (grupo PEDF) ou solvente (grupo Salina). Ratos submetidos à cirurgia simulada (grupo Sham) receberam a injeção do solvente. Ao término do procedimento cirúrgico, os ratos foram submetidos a testes neurofuncionais durante 6 semanas. Após esse período, os animais sofreram eutanásia e o tecido medular foi dividido entre as técnicas de imunoistoquímica, western blot e PCR em tempo real. Foi analisada na região lombar anterior da medula espinal a modulação das CSPGs, a expressão dos fatores neurotróficos NT-3, GDNF, BDNF e FGF-2, bem como os níveis das moléculas associadas à angiogênese e apoptose (laminina e Bcl-2), das proteínas relacionadas à neuroplasticidade (MAP-2, GAP-43 e sinaptofisina) e do sistema Eph/efrina e a RhoA, que são capazes de modular o crescimento de fibras. Os resultados mostraram uma recuperação parcial e espontânea do comportamento sensório-motor dos animais que foram submetidos à lesão fototrombótica, onde o tratamento com PEDF foi capaz de potencializar alguns desses parâmetros. A análise da região lombar anterior da medula espinal, caudal à lesão, mostrou uma diminuição das CSPGs nos dois grupos lesados, o que pode ter favorecido os eventos de neuroplasticidade. O tratamento com PEDF foi capaz de promover a regulação dos fatores neurotróficos NT-3 e GDNF, diminuir a angiogênese local (diminuição da laminina) e potencializar o processo de neuroplasticidade (aumento da MAP-2) nessa região. A lesão medular isquêmica foi capaz de modular a expressão do receptor EphA4 e da efrina-B1 e o tratamento com PEDF possivelmente regulou o estado de ativação da efrina-A2 e da efrina-B3 e certamente modulou a ativação da efrina-B2. Ainda, os receptores Eph e as efrinas foram observados diferentemente nos neurônios e astrócitos. Nossos resultados confirmam a capacidade plástica da medula espinal após lesão e mostra que o tratamento com PEDF foi capaz de potencializar esse processo / The pigment epithelium derived factor (PEDF) is a neurotrophic factor that has a great trophic potential in the motor neurons of the spinal cord, and is able to modulate the lesion microenvironment. We analyzed the capacity of the treatment with PEDF to promote the neuroplasticity after ischemic spinal cord injury. Adult male Wistar rats were underwent to photothrombotic ischemic spinal cord injury, according to the Rose Bengal method, at the level of 11° thoracic segment, and were immediately treated with local injection of PEDF (PEDF group) or solvent (Saline group). Rats underwent to a sham surgery (Sham group) received solvent injection. At the end of surgery, the rats were submitted to neurofunctional tests during 6 weeks. After this period, the animals were euthanized, and the anterior lumbar region of the spinal cord tissue was submitted to immunohistochemistry, western blot and real-time PCR analyses. The inhibitory response of CSPGs, the expression of neurotrophic factors (NT-3, GDNF, BDNF and FGF-2), the molecules associated with angiogenisis and apoptosis (laminin and Bcl-2), the proteins related to neuroplasticity (MAP-2, GAP-43 and synaptophysin), as well the Eph/ephrin system and the RhoA, which is able to modulate the fibers growth, were evaluated. The results showed a spontaneous, and parcial, recovery of the sensory motor behavior of the animals that were underwent to a photothrombotic injury, and the treatment with PEDF was able to potentiate some of these parameters. The analysis of the anterior lumbar region of the spinal cord, caudally to the lesion, showed a decrease of CSPGs, which may have favored the neuroplasticity events. The treatment with PEDF was able to promote the regulation of NT-3 and GDNF, as well the reduction of laminin and the increase of MAP-2 in that region. In relation to the Eph/ephrin system, the ischemic spinal cord injury was able to modulate the EphA4 receptor and ephrin-B1 expression, and the treatment with PEDF possibly regulated the activation state of ephrin-A2 and ephrin-B3 and certainly modulated the ephrin-B2 activation. Eph receptors and ephrins have been found specifically in neurons and astrocytes. Our results confirmed the plastic capacity of the spinal cord after injury and showed that the treatment with PEDF was able to enhance this process
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