Reductions in dead space ventilation with nasal high flow depend on physiological dead space volume: metabolic hood measurements during sleep in patients with COPD and controls

Reductions in dead space ventilation with nasal high flow depend on physiological dead space volume: metabolic hood measurements during sleep in patients with COPD and controls

Nasal high flow (NHF) reduces minute ventilation and ventilatory loads during sleep but the mechanisms are not clear. We hypothesised NHF reduces ventilation in proportion to physiological but not anatomical dead space.11 subjects (five controls and six chronic obstructive pulmonary disease (COPD) p...

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Veröffentlicht in:The European respiratory journal 2018-05, Vol.51 (5), p.1702251-1702251
Hauptverfasser: Biselli, Paolo, Fricke, Kathrin, Grote, Ludger, Braun, Andrew T, Kirkness, Jason, Smith, Philip, Schwartz, Alan, Schneider, Hartmut
Format: Artikel
Sprache:eng
Schlagworte:
1948
1986
akrabarti mk
Alveoli
british journal of anaesthesia
cannula
Carbon dioxide
Catheters
Chronic obstructive pulmonary disease
disease
Energy expenditure
hypoxemic respiratory-failure
infants
journal of clinical investigation
Lung diseases
Lungmedicin och allergi
Mechanical ventilation
Metabolism
NREM sleep
Obstructive lung disease
oxygen
p11
p327
Physiology
REM sleep
Respiration
Respiratory Medicine and Allergy
Respiratory System
Sleep
therapy
v27
v58
Ventilation
wler ws
work
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Zusammenfassung:Nasal high flow (NHF) reduces minute ventilation and ventilatory loads during sleep but the mechanisms are not clear. We hypothesised NHF reduces ventilation in proportion to physiological but not anatomical dead space.11 subjects (five controls and six chronic obstructive pulmonary disease (COPD) patients) underwent polysomnography with transcutaneous carbon dioxide (CO ) monitoring under a metabolic hood. During stable non-rapid eye movement stage 2 sleep, subjects received NHF (20 L·min ) intermittently for periods of 5-10 min. We measured CO production and calculated dead space ventilation.Controls and COPD patients responded similarly to NHF. NHF reduced minute ventilation (from 5.6±0.4 to 4.8±0.4 L·min ; p
ISSN:0903-1936
1399-3003
DOI:10.1183/13993003.02251-2017