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Effectiveness of ultra-/very-high-frequency oscillations combined with helium–oxygen gas mixture in a rabbit model
by
Shimizu, Naoki
, Tatsunami, Shinobu
, Akita, Mieko
, Akiyama, Louis
in
639/166/985
/ 692/308/3187
/ 692/699/1785
/ Animal experiment
/ Animals
/ Blood pressure
/ Carbon Dioxide
/ CO2 excretion
/ Excretion
/ Helium
/ Helium - administration & dosage
/ High frequency oscillatory ventilation
/ High-Frequency Ventilation - methods
/ Humanities and Social Sciences
/ Male
/ multidisciplinary
/ Oscillation
/ Oscillations
/ Oxygen
/ Oxygen - metabolism
/ Rabbits
/ Science
/ Science (multidisciplinary)
/ Ultra-high frequency
/ Variance analysis
/ Ventilation
2024
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Effectiveness of ultra-/very-high-frequency oscillations combined with helium–oxygen gas mixture in a rabbit model
by
Shimizu, Naoki
, Tatsunami, Shinobu
, Akita, Mieko
, Akiyama, Louis
in
639/166/985
/ 692/308/3187
/ 692/699/1785
/ Animal experiment
/ Animals
/ Blood pressure
/ Carbon Dioxide
/ CO2 excretion
/ Excretion
/ Helium
/ Helium - administration & dosage
/ High frequency oscillatory ventilation
/ High-Frequency Ventilation - methods
/ Humanities and Social Sciences
/ Male
/ multidisciplinary
/ Oscillation
/ Oscillations
/ Oxygen
/ Oxygen - metabolism
/ Rabbits
/ Science
/ Science (multidisciplinary)
/ Ultra-high frequency
/ Variance analysis
/ Ventilation
2024
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Effectiveness of ultra-/very-high-frequency oscillations combined with helium–oxygen gas mixture in a rabbit model
by
Shimizu, Naoki
, Tatsunami, Shinobu
, Akita, Mieko
, Akiyama, Louis
in
639/166/985
/ 692/308/3187
/ 692/699/1785
/ Animal experiment
/ Animals
/ Blood pressure
/ Carbon Dioxide
/ CO2 excretion
/ Excretion
/ Helium
/ Helium - administration & dosage
/ High frequency oscillatory ventilation
/ High-Frequency Ventilation - methods
/ Humanities and Social Sciences
/ Male
/ multidisciplinary
/ Oscillation
/ Oscillations
/ Oxygen
/ Oxygen - metabolism
/ Rabbits
/ Science
/ Science (multidisciplinary)
/ Ultra-high frequency
/ Variance analysis
/ Ventilation
2024
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Effectiveness of ultra-/very-high-frequency oscillations combined with helium–oxygen gas mixture in a rabbit model
Journal Article
Effectiveness of ultra-/very-high-frequency oscillations combined with helium–oxygen gas mixture in a rabbit model
2024
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Overview
High-frequency oscillatory ventilation (HFOV) at frequencies of approximately 15 Hz is associated with optimal CO
2
excretion. Higher frequencies using a nitrogen–oxygen gas mixture worsen CO
2
excretion. An in vitro experiment using HFOV and a helium–oxygen gas mixture showed a significant increase in CO
2
transport, which increased with increases in ventilation frequency. We hypothesised that in HFOV, the change in the arterial partial pressure of CO
2
(PaCO
2
) would be greater at frequencies above 15 Hz when combined with helium–oxygen gas mixture administration. We tested this hypothesis in a hypoventilated healthy rabbit model by administering a helium–oxygen gas mixture at 15, 25, 35, and 45 Hz frequencies. One-way repeated measures ANOVA showed a significant decrease in PaCO
2
among the four ventilation frequency groups. Post-hoc analysis showed significant differences between 15 and 35 Hz frequencies and between 15 and 45 Hz frequencies. The mean (standard error) decrease of PaCO
2
was 10.8 (2.2), 14.1 (2.3), 21.3 (3.3), and 23.1 (2.5) mmHg at 15, 25, 35, and 45 Hz, respectively. Combination therapy of helium–oxygen gas mixture and high-frequency oscillation using ultra/very high frequencies (35–45 Hz) was associated with a greater PaCO
2
decrease than that using the standard frequency (15 Hz).
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
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