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1.
Sci Rep ; 10(1): 12777, 2020 07 29.
Artigo em Inglês | MEDLINE | ID: mdl-32728074

RESUMO

Glutamate (GLU) and γ-aminobutyric acid (GABA) are the major excitatory (E) and inhibitory (I) neurotransmitters in the brain, respectively. Dysregulation of the E/I ratio is associated with numerous neurological disorders. Enzyme-based microelectrode array biosensors present the potential for improved biocompatibility, localized sample volumes, and much faster sampling rates over existing measurement methods. However, enzymes degrade over time. To overcome the time limitation of permanently implanted microbiosensors, we created a microwire-based biosensor that can be periodically inserted into a permanently implanted cannula. Biosensor coatings were based on our previously developed GLU and reagent-free GABA shank-type biosensor. In addition, the microwire biosensors were in the same geometric plane for the improved acquisition of signals in planar tissue including rodent brain slices, cultured cells, and brain regions with laminar structure. We measured real-time dynamics of GLU and GABA in rat hippocampal slices and observed a significant, nonlinear shift in the E/I ratio from excitatory to inhibitory dominance as electrical stimulation frequency increased from 10 to 140 Hz, suggesting that GABA release is a component of a homeostatic mechanism in the hippocampus to prevent excitotoxic damage. Additionally, we recorded from a freely moving rat over fourteen weeks, inserting fresh biosensors each time, thus demonstrating that the microwire biosensor overcomes the time limitation of permanently implanted biosensors and that the biosensors detect relevant changes in GLU and GABA levels that are consistent with various behaviors.


Assuntos
Técnicas Biossensoriais , Ácido Glutâmico/química , Microeletrodos , Ácido gama-Aminobutírico/química , Animais , Encéfalo/diagnóstico por imagem , Estimulação Elétrica , Homeostase , Masculino , Micro-Ondas , Modelos Neurológicos , Rede Nervosa , Neurônios/metabolismo , Neurotransmissores , Platina/química , Ratos , Ratos Sprague-Dawley , Propriedades de Superfície
2.
Sci Rep ; 10(1): 7815, 2020 05 08.
Artigo em Inglês | MEDLINE | ID: mdl-32385407

RESUMO

A high-resolution, three-dimensional, optical imaging technique for the murine brain was developed to identify the effects of different therapeutic windows for preclinical brain research. This technique tracks the same cells over several weeks. We conducted a pilot study of a promising drug to treat diffuse axonal injury (DAI) caused by traumatic brain injury, using two different therapeutic windows, as a means to demonstrate the utility of this novel longitudinal imaging technique. DAI causes immediate, sporadic axon damage followed by progressive secondary axon damage. We administered minocycline for three days commencing one hour after injury in one treatment group and beginning 72 hours after injury in another group to demonstrate the method's ability to show how and when the therapeutic drug exerts protective and/or healing effects. Fewer varicosities developed in acutely treated mice while more varicosities resolved in mice with delayed treatment. For both treatments, the drug arrested development of new axonal damage by 30 days. In addition to evaluation of therapeutics for traumatic brain injury, this hybrid microlens imaging method should be useful to study other types of brain injury and neurodegeneration and cellular responses to treatment.


Assuntos
Axônios/efeitos dos fármacos , Lesões Encefálicas/tratamento farmacológico , Lesão Axonal Difusa/tratamento farmacológico , Minociclina/farmacologia , Animais , Axônios/patologia , Encéfalo/diagnóstico por imagem , Encéfalo/efeitos dos fármacos , Lesões Encefálicas/diagnóstico por imagem , Lesões Encefálicas/patologia , Lesão Axonal Difusa/diagnóstico por imagem , Lesão Axonal Difusa/patologia , Modelos Animais de Doenças , Humanos , Camundongos , Imagem Óptica
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