Detection threshold for inspiratory resistive loads and respiratory-related evoked potentials.

@article{Davenport2007DetectionTF,
  title={Detection threshold for inspiratory resistive loads and respiratory-related evoked potentials.},
  author={Paul W. Davenport and Pei-Ying S. Chan and Weirong Zhang and Yang-Ling Chou},
  journal={Journal of applied physiology},
  year={2007},
  volume={102 1},
  pages={
          276-85
        }
}
The relationship between detection threshold of inspiratory resistive loads and the peaks of the respiratory-related evoked potential (RREP) is unknown. It was hypothesized that the short-latency and long-latency peaks of the RREP would only be elicited by inspiratory loads that exceeded the detection threshold. The detection threshold for inspiratory resistive loads was measured in healthy subjects with inspiratory-interruption or onset load presentations. In a separate protocol, the RREPs… 
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Supra-threshold inspiratory loads elicit respiratory related evoked potentials in healthy subjects
The effect of increased background resistance on the resistive load threshold for eliciting the respiratory-related evoked potential.
TLDR
It is demonstrated that the respiratory-related evoked potential (RREP) is present if the DeltaR is above the cognitive detection threshold, and the RREP is absent if the load is below the detection threshold.
Sensory detection of threshold intensity resistive loads in severe obstructive sleep apnoea
Evidence against a subcortical gate preventing conscious detection of respiratory load stimuli
Respiratory-Related-Evoked Potential Measures of Respiratory Sensory Gating in Attend and Ignore Conditions
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TLDR
The results demonstrated that respiratory gating is evident in both attend and ignore conditions, and the P300 peak S2/S1 ratio is consistent with controlled attention modulation of central neural gating of respiratory mechanosensation.
Respiratory-related evoked potential measures of respiratory sensory gating.
TLDR
Results are consistent with central neural gating of respiratory afferent input, and the RREP gating response is similar to somatosensory mechanoreceptor gating.
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Genioglossus muscle responses to resistive loads in severe OSA patients and healthy controls.
TLDR
The hypothesis that deficits in neuromuscular response to negative upper airway pressure exist in OSA during wakefulness is not supported, however the results are likely influenced by a counterintuitive and novel genioglossus muscle suppression response observed in a significant proportion of both OSA and healthy control participants.
The Effect of Development in Respiratory Sensory Gating Measured by Electrocortical Activations
TLDR
The results suggest that school-aged children, compared to adults, display reduced respiratory sensory gating, which is similar to somatosensory gating with exteroceptive stimuli.
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References

SHOWING 1-10 OF 57 REFERENCES
The relationship between respiratory-related evoked potentials and the perception of inspiratory resistive loads.
TLDR
Evidence is provided that P3 may be a key index of the perception of respiratory sensitivity and effort, being augmented to larger loads as a function of resistive load.
Inspiratory resistive load detection in conscious dogs.
TLDR
It is demonstrated that dogs can be conditioned to reliably and specifically signal the detection of graded inspiratory mechanical loads.
Relationship between resistive loads and P1 peak of respiratory-related evoked potential.
TLDR
Results were consistent with the hypothesis that the perceptual magnitude of the respiratory load was related to the P1 amplitude of the RREP, suggesting the physical magnitude ofThe load-related stimulus was correlated with the amplitude ofThe cortical neural activation.
Inspiratory resistive load detection in children with life‐threatening asthma
The detection of inspiratory resistive (R) loads was studied in nonasthmatic children (NA), asthmatic children (A), and children with a history of life‐threatening asthma (LTA). It was hypothesized
Effects of detection and classification of resistive and elastic loads on endogenous event-related potentials.
TLDR
It is demonstrated that event-related potentials are elicited by brief presentations of resistive and elastic loads and that N2 and P3 latencies vary reliably as a function of load magnitude and load type, which is sensitive to load type and to classification accuracy even when resistive or elastic loads are not distinguishable subjectively.
Temporal differences in the detection of resistive and elastic loads to breathing.
Event-related potentials to inspiratory flow-resistive loads in young adults: stimulus magnitude effects
P3-specific amplitude reductions to respiratory and auditory stimuli in subjects with asthma.
TLDR
An intrinsic reduction in P3 amplitude for patients with asthma is suggested, which may relate to differences in processing perceptual information.
Changes in the perception of inspiratory resistive loads during partial curarization.
TLDR
The results suggest that detection of resistive loads depends upon sensing apparent information arising from an unexpected pressure‐flow disturbance but that estimation of the size of an added load depends, in part, on sensing the outgoing motor command.
Effect of timing, flow, lung volume, and threshold pressures on resistive load detection.
TLDR
The results suggest that external resistive load detection is subserved by the relation between pressure and flow over the early part of inspiration.
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