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Neuroimage ; 298: 120791, 2024 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-39147291

RESUMO

Strokes cause spasticity via stretch reflex hyperexcitability in the spinal cord, and spastic paralysis due to involuntary muscle contraction in the hands and fingers can severely restrict skilled hand movements. However, the underlying neurological mechanisms remain unknown. Using a mouse model of spasticity after stroke, we demonstrate changes in neuronal activity with and without electrostimulation of the afferent nerve to induce the stretch reflex, measured using quantitative activation-induced manganese-enhanced magnetic resonance imaging. Neuronal activity increased within the ventral medullary reticular formation (MdV) in the contralesional brainstem during the acute post-stroke phase, and this increase was characterised by activation of circuits involved in spasticity. Interestingly, ascending electrostimulation inhibited the MdV activity on the stimulation side in normal conditions. Moreover, immunohistochemical staining showed that, in the acute phase, the density of GluA1, one of the α-amino-3 hydroxy­5 methyl -4 isoxazolepropionic acid receptor (AMPAR) subunits, at the synapses of MdV neurons was significantly increased. In addition, the GluA1/GluA2 ratio in these receptors was altered at 2 weeks post-stroke, confirming homeostatic plasticity as the underlying mechanisms of spasticity. These results provide new insights into the relationship between impaired skilled movements and spasticity at the acute post-stroke phase.


Assuntos
Bulbo , Espasticidade Muscular , Formação Reticular , Animais , Espasticidade Muscular/fisiopatologia , Espasticidade Muscular/etiologia , Camundongos , Formação Reticular/fisiopatologia , Formação Reticular/diagnóstico por imagem , Bulbo/metabolismo , Masculino , AVC Trombótico/fisiopatologia , Imageamento por Ressonância Magnética , Camundongos Endogâmicos C57BL , Modelos Animais de Doenças , Receptores de AMPA/metabolismo , Reflexo de Estiramento/fisiologia
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