Marla R. Wolfson scite author profile

Recently, heater/humidifier devices that use novel methods to condition breathing gases from an external source have been introduced. The addition of sufficient warmth and high levels of humidification to breathing gas has allowed for higher flow rates from nasal cannula devices to be applied to patients (i.e., high flow therapy). This article provides a review of the proposed mechanisms behind the efficacy of high flow therapy via nasal cannula, which include washout of nasopharyngeal dead space, attenuation of the inspiratory resistance associated with the nasopharynx, improvement in conductance and pulmonary compliance, mild distending pressure and reduction in energy expenditure for gas conditioning.

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Partial Liquid Ventilation with Perflubron in Premature Infants with Severe Respiratory Distress Syndrome

Leach

et al. 1996

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Yap/Taz regulate alveolar regeneration and resolution of lung inflammation

LaCanna¹,

Liccardo²,

Zhang³

et al. 2019

218

219

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Thoracoabdominal Asynchrony in Infants with Airflow Obstruction

Allen

Wolfson²,

McDowell³

et al. 1990

Am Rev Respir Dis

134

108

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Thoracoabdominal asynchrony (TAA) has long been thought clinically useful in the assessment of airflow obstruction (AO) in infants. To test the hypothesis that the measurement of TAA is useful in the assessment of lung mechanics in infants with AO, we have used respiratory inductive plethysmography (RIP) to quantity TAA. We compared changes in TAA to changes in lung mechanics before and after aerosolized bronchodilator (BD) administration in 13 infants. Abdominal wall (AB) and rib cage (RC) motion were displayed on an X-Y recorder in a Lissajous figure. Asynchrony between RC and AB motion was quantified by comparing the width m of the Lissajous figure (difference between AB inspiratory and expiratory positions) at mid-RC excursion with the total AB excursion at its extremes (s). Phase angle phi ws computed as sin phi = m/s (or phi = 180 degrees - mu, where sin mu = m/s for phase angles greater than 90 degrees) and was taken as a measure of TAA. Lung resistance RL and elastance EL were calculated from esophageal pressure (Pes), mouth pressure, tidal volume, and tidal flow. All infants displayed TAA at baseline. After BD administration, TAA decreased in those infants in whom RL decreased. The percentage decrease in the phase angle from baseline after BD administration was significantly correlated with the decrease in peak-to-peak Pes (delta Pes) and the percentage decrease in RL and EL. We conclude that AO in infants leads to TAA through altered pleural pressure swings acting on the compliant chest wall. Changes in lung mechanics induced by bronchodilators are reflected in changes in TAA.(ABSTRACT TRUNCATED AT 250 WORDS)

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Comparison of gas and liquid ventilation: clinical, physiological, and histological correlates

Wolfson

Greenspan²,

Deoras³

et al. 1992

Journal of Applied Physiology

168

103

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To differentiate the effects of gas and liquid ventilation on cardiopulmonary function during early development, we compared the clinical, physiological, and histological profiles of gas- and liquid-ventilated preterm lambs (n = 16; 108-116 days gestation). Immediately after cesarean section delivery, ventilation commenced using gas delivered by a volume ventilator (n = 9) or liquid perfluorochemical (n = 7) delivered by a mechanically assisted liquid ventilation system. Pulmonary gas exchange, acid-base status, vital signs, and respiratory compliance were assessed during the 3-h protocol; sections of the lungs were obtained for histological analyses when the animals were killed. Six of nine gas-ventilated lambs expired from respiratory failure before 3 h, with the remaining animals experiencing severe respiratory insufficiency, pneumothoraces, and cardiovascular deterioration. Six of seven liquid-ventilated lambs survived with good gas exchange and cardiovascular stability and without fluorothorax; one experienced ventricular fibrillation before 1 h and expired despite pulmonary stability. Respiratory compliance was significantly greater in the liquid- than in the gas-ventilated lambs. Histological analyses of gas-ventilated lungs demonstrated nonhomogeneous lung expansion, with thick-walled gas exchange spaces containing proteinaceous exudate, hemorrhage, and hyaline membranes. In contrast, liquid-ventilated lungs appeared clear, with thin-walled and uniformly expanded gas exchange spaces that were free of hyaline membranes and luminal debris. Morphometric analyses demonstrated that surface area and gas exchange index were greater in the liquid- than in the gas-ventilated lambs. These results indicate that elimination of surface active forces by liquid ventilation during early development provides more effective gas exchange with less barotrauma compared with gas ventilation.(ABSTRACT TRUNCATED AT 250 WORDS)

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Marla R. Wolfson

Research in high flow therapy: Mechanisms of action

Partial Liquid Ventilation with Perflubron in Premature Infants with Severe Respiratory Distress Syndrome

Yap/Taz regulate alveolar regeneration and resolution of lung inflammation

Thoracoabdominal Asynchrony in Infants with Airflow Obstruction

Comparison of gas and liquid ventilation: clinical, physiological, and histological correlates

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