Optimizing expiratory flows during mechanical cough in a pediatric neuromuscular lung model

Hov, Brit; Andersen, Tiina; Toussaint, Michel; Fondenes, Ove; Carlsen, Karin C. Lødrup; Hovland, Vegard

doi:10.1002/ppul.24606

Cited by 10 publications

(8 citation statements)

References 24 publications

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“…The application of TFL during NIV treatment enabled us to adjust MI‐E settings directly, by titrating insufflation pressures and flow to the most optimal levels of laryngeal opening, partly alluded to in a previous model 6 . The procedure led to immediate changes in treatment.…”

Section: Discussionmentioning

confidence: 99%

Tailoring NIV by dynamic laryngoscopy in a child with spinal muscular atrophy type I

Vollsæter

Skjoldmo

Røksund

et al. 2021

Clinical Case Reports

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Section: Discussionmentioning

confidence: 99%

Tailoring NIV by dynamic laryngoscopy in a child with spinal muscular atrophy type I

Vollsæter

Skjoldmo

Røksund

et al. 2021

Clinical Case Reports

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“…An alternative option is for the clinician to gain confidence with a more protocolized approach and once they have been successful, to individualize. Reasons for suggesting a more individualized approach include that bench [ 60 ] and clinical case series [ 57 , 59 ] have highlighted a greater negative to positive pressure that has been clinically effective. When it comes to the insufflation pressure, Mellis and Goebel [ 61 ] showed that it is not necessarily the deepest breath in that produces the highest CPF.…”

Section: Effective Mi-e Pressuresmentioning

confidence: 99%

Mechanical Insufflation-Exsufflation: Considerations for Improving Clinical Practice

Chatwin

Wakeman

2023

JCM

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The provision of mechanical insufflation-exsufflation (MI-E) devices to enhance cough efficacy is increasing. Typically, MI-E devices are used to augment cough in patients with neuromuscular disorders but also in patients who are weak in an acute care setting. Despite a growing evidence base for the use of these devices, there are barriers to the provision of MI-E, including clinician lack of knowledge and confidence. Enhancing clinician education and confidence is key. Individualized or protocolized approaches can be used to initiate MI-E. Evaluation of MI-E efficacy is critical. One method to evaluate effectiveness of MI-E is the MI-E-assisted cough peak flow (CPF). However, this should always be considered alongside other factors discussed in this review. The purpose of this review is to increase the theoretical understanding of the provision and evaluation of MI-E and provide insight into how this knowledge can be applied into clinical practice. Approaches to initiation and titration can be selected based on the clinical situation, patient diagnosis (including and beyond neuromuscular disorders), and clinician’s confidence.

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“…86 Lachal et al 87 enhance our understanding of airflow dynamics, and a wide range of MI-E settings may be systematically applied to suggest possible combinations to be applied subsequently in patients. 52,88 The dogma that upper airway collapse during exsufflation causes MI-E treatment failure, highly influenced former evaluation methods, assessing the exsufflation phase alone. Sancho et al's CT-scannings 25 and Lacombe's flow-curve shapes 84 confirmed Bach's postulate that exsufflation caused upper airway collapse in subjects with bulbar dysfunction.…”

Section: Laryngeal Modelsmentioning

confidence: 99%

“…Increasing inspiratory time may be necessary to achieve required insufflation volume prior to exsufflation. 23,88,103 A prolonged inspiration seems to be physiological in inducing cough. 68 Several rapid MI-E cycles may be challenging or impossible to handle for individuals with bulbar dysfunction.…”

Section: Individualizing Mi-e Treatmentmentioning

confidence: 99%

Upper Airway Assessment and Responses During Mechanically Assisted Cough

et al. 2021

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When ability to cough is impaired, secretion clearance may be assisted and augmented by Mechanical Insufflation-Exsufflation (MI-E). In some individuals, the efficacy of MI-E may be hampered by counterproductive upper airway reactions, where the airways close in response to positive pressures. In order to fully utilize the therapeutic potential inherent in the MI-E technology, we need a better understanding of the pathophysiology behind these untoward reactions. There is an increasing interest in monitoring and measuring upper airway responses to MI-E, and how such information can be used to optimize the MI-E settings. The purpose of this narrative review is to increase the theoretical understanding of larynx as a respiratory organ, summarize the current literature in the area, and provide insight into how this knowledge can affect current clinical practice.

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Optimizing expiratory flows during mechanical cough in a pediatric neuromuscular lung model

Cited by 10 publications

References 24 publications

Tailoring NIV by dynamic laryngoscopy in a child with spinal muscular atrophy type I

Tailoring NIV by dynamic laryngoscopy in a child with spinal muscular atrophy type I

Mechanical Insufflation-Exsufflation: Considerations for Improving Clinical Practice

Upper Airway Assessment and Responses During Mechanically Assisted Cough

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