Phrenic nerve stimulation in normal subjects and in patients with diaphragmatic weakness.

Mier, A.; Brophy, C.; Moxham, John; Green, M

doi:10.1136/thx.42.11.885

Cited by 83 publications

(59 citation statements)

References 13 publications

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“…However, it can be difficult to perform. The time taken to locate the phrenic nerve with ES can be up to 20 min [9]. MIER et al [9] found that the phrenic nerve could not be located with ES in some subjects, especially patients with diaphragm weakness.…”

Section: Discussionmentioning

confidence: 99%

“…The time taken to locate the phrenic nerve with ES can be up to 20 min [9]. MIER et al [9] found that the phrenic nerve could not be located with ES in some subjects, especially patients with diaphragm weakness. Repeated stimulation for 30 min has been required to establish a diagnosis of diaphragm paralysis with reasonable confidence in the absence of a CMAP response to ES [9].…”

Section: Discussionmentioning

confidence: 99%

“…MIER et al [9] found that the phrenic nerve could not be located with ES in some subjects, especially patients with diaphragm weakness. Repeated stimulation for 30 min has been required to establish a diagnosis of diaphragm paralysis with reasonable confidence in the absence of a CMAP response to ES [9]. Once the phrenic nerve is located, it can be difficult; with ES, to sustain maximal stimulation because the position and direction of the stimulating electrode is critical, whatever the stimulus intensity.…”

Section: Discussionmentioning

confidence: 99%

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Assessment of diaphragm paralysis with oesophageal electromyography and unilateral magnetic phrenic nerve stimulation

et al. 2000

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Assessment of diaphragm paralysis with oesophageal EMG and unilateral magnetic phrenic nerve stimulation. YM Luo, ML Harris, RA Lyall, A Watson, MI Polkey, J Moxham. #ERS Journals Ltd 2000. ABSTRACT: The purpose of this study was to establish a sensitive and reliable method of diagnosing diaphragm paralysis by recording the diaphragm compound muscle action potential (CMAP) using a multipair oesophageal electrode and unilateral magnetic phrenic nerve stimulation.An oesophageal electrode catheter was designed containing six coils (1 cm wide and 3 cm apart), creating an array of four sequential electrode pairs. The oesophageal catheter was taped at the nose with the proximal electrode pair 40 cm from the nares. Eight patients with unilateral (n=5) or bilateral (n=3) diaphragm paralysis were studied. Five to seven phrenic nerve stimulations were performed at 80% of maximum magnetic stimulator output and the CMAPs were recorded simultaneously from the four pairs of electrodes.In the five patients with unilateral diaphragm paralysis, the CMAP amplitudes and latencies were 1.160.29 mV and 7.61.5 ms for functioning sides. No diaphragm CMAP could be detected when stimulating nonfunctioning phrenic nerves.This study shows that diaphragm paralysis can be reliably diagnosed by unilateral magnetic stimulation combined with a multipaired oesophageal electrode. Eur Respir J 2000; 15: 596±599.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Assessment of diaphragm paralysis with oesophageal electromyography and unilateral magnetic phrenic nerve stimulation

et al. 2000

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“…Conclusão: O melhor ponto de estímulo do nervo frênico no pescoço varia entre a borda medial e lateral da cabeça clavicular do músculo esternocleidomastóideo. Estimular ambos os locais e escolher a melhor resposta do nervo frênico parece ser o procedimento mais adequado.Palavras-chave: eletrodiagnóstico; valores de referência; nervo frênico; espirometria; condução nervosa.Phrenic nerve conduction has found increasing application in the diagnosis of respiratory dysfunction associated with surgical, neuromuscular, and pulmonary disorders 1,2,3,4,5,6 , which are important causes of respiratory failure and frequently contribute to difficulties in weaning patients off the ventilator in the critical care unit 7 . To determine a neuromuscular cause of hypercapnic respiratory failure, respiratory electrodiagnostic studies are often used 8 .…”

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“…Phrenic nerve conduction has found increasing application in the diagnosis of respiratory dysfunction associated with surgical, neuromuscular, and pulmonary disorders 1,2,3,4,5,6 , which are important causes of respiratory failure and frequently contribute to difficulties in weaning patients off the ventilator in the critical care unit 7 . To determine a neuromuscular cause of hypercapnic respiratory failure, respiratory electrodiagnostic studies are often used 8 .…”

Section: Introductionmentioning

confidence: 99%

Phrenic nerve conduction studies: normative data and technical aspects

Maranhão

Carvalho

Caetano

et al. 2017

Arq. Neuro-Psiquiatr.

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Objective:The aim of the present study was to define normative data of phrenic nerve conduction parameters of a healthy population. Methods: Phrenic nerve conduction studies were performed in 27 healthy volunteers. Results: The normative limits for expiratory phrenic nerve compound muscle action potential were: amplitude (0.47 mv -0.83 mv), latency (5.74 ms -7.10 ms), area (6.20 ms/mv -7.20 ms/mv) and duration (18.30 ms -20.96 ms). Inspiratory normative limits were: amplitude (0.67 mv -1.11 mv), latency (5.90 ms -6.34 ms), area (5.62 ms/mv -6.72 ms/mv) and duration (13.77 ms -15.37 ms). Conclusion: The best point of phrenic nerve stimulus in the neck varies among individuals between the medial and lateral border of the clavicular head of the sternocleidomastoid muscle and stimulation of both sites, then choosing the best phrenic nerve response, seems to be the appropriate procedure.Keywords: electrodiagnosis; reference values; phrenic nerve; spirometry; neural conduction. RESUMOObjetivo: O objetivo do presente estudo foi definir os dados normativos de condução do nervo frênico de uma população saudável. Métodos: Foram realizados estudos de condução do nervo frênico em 27 voluntários saudáveis. Resultados: Os limites normais do potencial de ação muscular composto do nervo frênico durante a expiração foram: amplitude (0.47 mv -0.83 mv), latência (5.74 ms -7.10 ms), área (6.20 ms/mv -7.20 ms/mv) e duração (18.30 ms -20.96 ms). E durante a inspiração os limites normais foram: amplitude (0.67 mv -1.11 mv), latência (5.90 ms -6.34 ms), área (5.62 ms/mv -6.72 ms/mv) e duração (13.77 ms -15.37 ms). Conclusão: O melhor ponto de estímulo do nervo frênico no pescoço varia entre a borda medial e lateral da cabeça clavicular do músculo esternocleidomastóideo. Estimular ambos os locais e escolher a melhor resposta do nervo frênico parece ser o procedimento mais adequado.Palavras-chave: eletrodiagnóstico; valores de referência; nervo frênico; espirometria; condução nervosa.Phrenic nerve conduction has found increasing application in the diagnosis of respiratory dysfunction associated with surgical, neuromuscular, and pulmonary disorders 1,2,3,4,5,6 , which are important causes of respiratory failure and frequently contribute to difficulties in weaning patients off the ventilator in the critical care unit 7 . To determine a neuromuscular cause of hypercapnic respiratory failure, respiratory electrodiagnostic studies are often used 8 . Recently, many authors have correlated phrenic nerve conduction abnormalities with chronic obstructive pulmonary disease. These studies demonstrated abnormal phrenic compound motor action potential (CMAP) amplitudes and latencies in chronic obstructive pulmonary disease patients 9,10,11,12 .Innervated by the phrenic nerve, the diaphragm is the principal respiratory muscle in humans. The diaphragmatic CMAPs are recorded with chest surface electrodes following phrenic nerve stimulation in the neck. Amplitude, latency, and area are measures used to evaluate phrenic nerve integrity 1,2,3,4,5,...

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