Two chronic motor training paradigms differentially influence acute instrumental learning in spinally transected rats

Bigbee, A. J.; Crown, Eric D.; Ferguson, Adam R.; Roy, Roland R.; Tillakaratne, Niranjala J.K.; Grau, James W.; Edgerton, V. Reggie

doi:10.1016/j.bbr.2007.02.029

Cited by 39 publications

(47 citation statements)

References 36 publications

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“…Not surprisingly, training in one task does not necessarily translate into improvements in another task [53][54][55][56]. Even more surprising are findings that training in one task can even have detrimental effects on another task.…”

Section: Activity-based Approachesmentioning

confidence: 99%

“…Even more surprising are findings that training in one task can even have detrimental effects on another task. For example, cats with complete SCI transections trained to walk on a treadmill had difficulties in standing in contrast to cats trained to stand, which performed worse in walking than untrained cats [53,56]. Likewise, rats with cervical SCI trained in a reaching task showed deficits in crossing a horizontal ladder [45] or increased activity induced by environmental enrichment promoted recovery in untrained tasks, but interfered with the training in reaching tasks [57].…”

Section: Activity-based Approachesmentioning

confidence: 99%

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Plasticity After Spinal Cord Injury: Relevance to Recovery and Approaches to Facilitate It

2011

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Summary: Motor, sensory, and autonomic functions can spontaneously return or recover to varying extents in both humans and animals, regardless of the traumatic spinal cord injury (SCI) level and whether it was complete or incomplete. In parallel, adverse and painful functions can appear. The underlying mechanisms for all of these diverse functional changes are summarized under the term plasticity. Our review will describe what is known regarding this phenomenon after traumatic SCI and focus on its relevance to motor and sensory recovery. Although it is still somewhat speculative, plasticity can be found throughout the neuraxis and includes various changes ranging from alterations in the properties of spared neuronal circuitries, intact or lesioned axon collateral sprouting, and synaptic rearrangements. Furthermore, we will discuss a selection of potential approaches for facilitating plasticity as possible SCI treatments. Because a mechanism underlying spontaneous plasticity and recovery might be motor activity and the related neuronal activity, activity-based therapies are being used and investigated both clinically and experimentally. Additional pharmacological and gene-delivery approaches, based on plasticity being dependent on the delicate balance between growth inhibition and promotion as well as the basic intrinsic growth ability of the neurons themselves, have been found to be effective alone and in combination with activitybased therapies. The positive results have to be tempered with the reality that not all plasticity is beneficial. Therefore, a tremendous number of questions still need to be addressed. Ultimately, answers to these questions will enhance plasticity's potential for improving the quality of life for persons with SCI.

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Section: Activity-based Approachesmentioning

confidence: 99%

Section: Activity-based Approachesmentioning

confidence: 99%

Plasticity After Spinal Cord Injury: Relevance to Recovery and Approaches to Facilitate It

2011

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“…Earlier reports showed also, using different modes of training, that spinal learning is task dependent. 14,15 Furthermore, some data suggest that the spinal cord itself needs to have reached a significant level of excitability for weight-bearing spinal stepping to be expressed. 16,17 It was also shown that the amount of hindlimb loading (using robotic-controlled weight support assistance) as well as the amount of training (number of steps) significantly alter stepping quality promoted by training.…”

Section: Effects Of Tt On Locomotor Recoverymentioning

confidence: 99%

Non-assisted treadmill training does not improve motor recovery and body composition in spinal cord-transected mice

et al. 2010

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Study design: Experiments in a mouse model of complete paraplegia. Objectives: To evaluate the effect of non-assisted treadmill training on motor recovery and body composition in completely spinal cord-transected mice. Settings: Laval University Medical Center, Neuroscience Unit, Quebec City, Quebec, Canada. Methods: Following a complete low-thoracic (Th9/10) spinal transection (Tx), mice were divided into two groups that were either untrained or trained with no assistance. Training consisted of placing the mice during 15 min with no further intervention (that is no tail pinching or body weight support) on a motorized treadmill (8-10 cm s À1 ) five times per week for 5 weeks. Locomotor performances were assessed weekly in both groups using two complementary locomotor rating scales. After 5 weeks, all mice were killed and adipose tissue, soleus, and extensor digitorum longus muscles were dissected for analyses. Results: No significant difference in locomotor performances or in muscle fibre type conversion was found between trained and untrained mice. In contrast, body weight, adipose tissue, whole muscle, and individual fibre cross-sectional area (CSA) values were significantly lower in trained compared with untrained animals. Conclusions: Non-assisted treadmill training in these conditions did not improve motor performances and contributed to further accentuate body composition changes post-Tx, suggesting that assistance provided manually, robotically, or pharmacologically may be key to spinal learning and recovery of locomotor function and body composition.

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“…O treinamento na esteira é uma forma de atividade física intensamente investigada em estudos experimentais, tanto em humanos (Behrman e Harkema, 2000;Dobkin et al, 2003;Hutchinson et al, 2004;Giangregorio et al, 2005;Dietz, 2009), como em modelos animais (Kunkel-Bagden et al, 1993;De Leon et al, 1998;Edgerton et al, 2001;Ahn et al, 2006;Bigbee et al, 2007;Barriere et al, 2008). Kim et al (2006) afirmam que a recuperação da função motora após uma lesão é mediada por uma reorganização estrutural e funcional do sistema motor residual, que pode ser induzida pelo treinamento motor.…”

Section: De Acordo Com Os Dados Do National Spinal Cord Injury Dataunclassified

“…Como já foi dito no início da introdução, o treinamento na esteira é uma forma de atividade física intensamente investigada em estudos experimentais, tanto em humanos (Behrman e Harkema, 2000;Dobkin et al, 2003;Hutchinson et al, 2004;Giangregorio et al, 2005;Dietz, 2009;Duschau-Wicke et al, 2010), como em modelos animais (Kunkel-Bagden et al, 1993;De Leon et al, 1998;Edgerton et al, 2001;Ahn et al, 2006;Bigbee et al, 2007;Barriere et al, 2008;Heng e De Leon, 2009;Andrade et al, 2010). Já foi demonstrado que tanto em humanos como em ratos lesados medulares, o treinamento na esteira com suporte de peso resulta na melhora da habilidade de andar, e em alguns casos, os padrões de ativação muscular e a cinemática se aproximam daqueles de antes da lesão (Behrman e Harkema, 2000;Nooijen et al, 2009;Heng e De Leon, 2009).…”

Section: Reabilitaçãounclassified

Estratégia terapêutica após contusão da medula espinhal: recuperação funcional e estabilidade cortical sensório-motora

Miranda¹

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AGRADECIMENTOSAos meus pais, Renato e Aida, por me oferecerem sempre o melhor e terem me dado todas as condições de estudo. Sem o apoio deles, em todos os sentidos, este trabalho com certeza não teria sido realizado. Muito obrigada pelo carinho e amor.Ao meu namorado, Gustavo, pelo apoio, companheirismo, compreensão em relação ao tempo dedicado ao trabalho e amparo nos momentos difíceis.Aos meus irmãos, Renato, Vanessa e Paulo, com os quais eu aprendi a compartilhar, e a quem pude recorrer quando um problema surgisse. À Nice, minha segunda mãe, pelo carinho e atenção nas horas necessárias.A todos os meus familiares e amigos, pela convivência e apoio nas minhas decisões.Ao Edgard Morya, pela confiança em mim e no meu trabalho, além da paciência, empenho, dedicação e orientação criteriosa. À Angela Cristina do Valle, por ter me acompanhado desde o início desta trajetória e ter me guiado em relação aos caminhos a serem percorridos.

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Two chronic motor training paradigms differentially influence acute instrumental learning in spinally transected rats

Cited by 39 publications

References 36 publications

Plasticity After Spinal Cord Injury: Relevance to Recovery and Approaches to Facilitate It

Plasticity After Spinal Cord Injury: Relevance to Recovery and Approaches to Facilitate It

Non-assisted treadmill training does not improve motor recovery and body composition in spinal cord-transected mice

Estratégia terapêutica após contusão da medula espinhal: recuperação funcional e estabilidade cortical sensório-motora

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