Diaphragmatic plate electrode stimulation of the hamster diaphragm

Wd, Reid; Blogg, T.; Bj, Wiggs; Paré, P. D.; Rl, Pardy

doi:10.1152/jappl.1989.67.4.1341

Cited by 3 publications

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“…( 3 - 5 ) An animal study comparing phrenic nerve stimulation and intramuscular stimulation showed similar results in terms of transdiaphragmatic pressure generation and latency of nerve conduction velocity. ( 6 ) …”

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confidence: 99%

“…The findings are consistent with those of experimental and clinical studies. ( 5 , 6 , 9 - 11 ) Full activation of the diaphragm depends on proper electrode implantation into the diaphragm motor points, the entrance area, and the ramification of the phrenic nerves in the muscle; therefore, it is essential to explore the muscle and identify the points at which contraction is more consistent. One of the challenges was to design a specific electrode for diaphragmatic stimulation, given that, in rabbits, the diaphragm is thinner and more delicate than the peripheral muscles.…”

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confidence: 99%

“…( 3 - 5 ) Um estudo em animais comparando os métodos de estimulação através do nervo frênico e estimulação intramuscular mostrou resultados semelhantes na geração da pressão transdiafragmática e na latência na velocidade nervosa. ( 6 ) …”

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“…Os achados são consistentes quando comparados aos de estudos experimentais e clínicos. ( 5 , 6 , 9 - 11 ) A ativação completa do diafragma depende da adequada implantação dos eletrodos sobre os pontos motores do diafragma, a área de entrada e a ramificação do nervo frênico no músculo; para isso, é fundamental a exploração do músculo e a identificação dos pontos onde a contração é mais consistente. Um dos desafios enfrentados foi a concepção de um eletrodo específico para a estimulação do diafragma, uma vez que o diafragma do coelho é mais fino e delicado que os músculos periféricos.…”

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Effectiveness of diaphragmatic stimulation with single-channel electrodes in rabbits

et al. 2013

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Every year, a large number of individuals become dependent on mechanical ventilation because of a loss of diaphragm function. The most common causes are cervical spinal trauma and neuromuscular diseases. We have developed an experimental model to evaluate the performance of electrical stimulation of the diaphragm in rabbits using single-channel electrodes implanted directly into the muscle. Various current intensities (10, 16, 20, and 26 mA) produced tidal volumes above the baseline value, showing that this model is effective for the study of diaphragm performance at different levels of electrical stimulation

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Effectiveness of diaphragmatic stimulation with single-channel electrodes in rabbits

et al. 2013

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A digital technique for stimulus artifact reduction

Blogg

Reid

1990

Electroencephalography and Clinical Neurophysiology

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Reid

MacGowan

1998

Molecular and Cellular Biochemistry

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Respiratory muscle injury may result from excessive loading due to a decrease in respiratory muscle strength, an increase in the work of breathing, or an increase in the rate of ventilation. Other conditions such as hypoxemia, hypercapnia, aging, decreased nutrition, and immobilization may potentiate respiratory muscle injury. Respiratory muscle injury has been shown in animal models using direct muscle or phrenic nerve stimulation, acute inspiratory resistive loading, tracheal banding, corticosteroids, phrenic nerve section, and the mdx mouse. Although numerous examples of diaphragm injury have been shown in animal models, evidence in humans is sparse. Potential mechanisms which may contribute to respiratory muscle injury include high levels of intracellular calcium-activated degradative enzymes, non-uniformity of stresses and strains, plasma membrane disruptions, and activation of the inflammatory process.

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Diaphragmatic plate electrode stimulation of the hamster diaphragm

Cited by 3 publications

References 0 publications

Effectiveness of diaphragmatic stimulation with single-channel electrodes in rabbits

Effectiveness of diaphragmatic stimulation with single-channel electrodes in rabbits

A digital technique for stimulus artifact reduction

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