Analysis of Hypoxic and Hypercapnic Ventilatory Response in Healthy Volunteers

Goldberg, Shmuel; Ollila, Hanna; Li, Gang; Sharifi, Husham; Rico, Tom; Andlauer, Olivier; Aran, Adi; Bloomrosen, Efrat; Faraco, Juliette; Han, Fang; Mignot, Emmanuel

doi:10.1371/journal.pone.0168930

Cited by 37 publications

(32 citation statements)

References 46 publications

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“…Another study not restricted to healthy volunteers included patients in an emergency room and did not exclude smokers, also found higher SpO 2 in females (0.7% higher in African American females and 0.6% higher in white females) . Recently, a study whose primary goal was to explore genetic factors related to the control of breathing, unexpectedly found higher SpO 2 in women compared to men. The difference between sexs was similar to our findings (98.0% ± 1.3% in females vs 96.6% ± 1.7% in males).…”

Section: Discussionmentioning

confidence: 99%

Sex‐linked difference in blood oxygen saturation

Levental

Picard

Mimouni

et al. 2018

Clinical Respiratory J

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Section: Discussionmentioning

confidence: 99%

Sex‐linked difference in blood oxygen saturation

Levental

Picard

Mimouni

et al. 2018

Clinical Respiratory J

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“…Dyspnea increases the tidal volume and thus normalizes the arterial saturation. As the reaction of the respiratory center on hypoxemia can differ, other patients will not react on hypoxemia and not become dyspneic [17].…”

Section: Discussionmentioning

confidence: 99%

Percutaneous Closure of PFO in Patients with Reduced Oxygen Saturation at Rest and during Exercise: Short- and Long-Term Results

Cuyper

Pauwels

Derom

et al. 2020

Journal of Interventional Cardiology

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Background. A patent foramen ovale (PFO) is a rare cause of hypoxemia and clinical symptoms of dyspnea. Due to a right-to-left shunt, desaturated blood enters the systemic circulation in a subset of patients resulting in dyspnea and a subsequent reduction in quality of life (QoL). Percutaneous closure of PFO is the treatment of choice. Objectives. This retrospective multicentre study evaluates short- and long-term results of percutaneous closure of PFO in patients with dyspnea and/or reduced oxygen saturation. Methods. Patients with respiratory symptoms were selected from databases containing all patients percutaneously closed between January 2000 and September 2018. Improvement in dyspnea, oxygenation, and QoL was investigated using pre- and postprocedural lung function parameters and two postprocedural questionnaires (SF-36 and PFSDQ-M). Results. The average follow-up period was 36 [12–43] months, ranging from 0 months to 14 years. Percutaneous closure was successful in 15 of the 16 patients. All patients reported subjective improvement in dyspnea immediately after device deployment, consistent with their improvement in oxygen saturation (from 90 ± 6% to 94 [92–97%] on room air and in upright position) (p<0.05). Both questionnaires also indicated an improvement of dyspnea and QoL after closure. The two early and two late deaths were unrelated to the procedure. Conclusion. PFO-related dyspnea and/or hypoxemia can be treated successfully with a percutaneous intervention with long-lasting benefits on oxygen saturation, dyspnea, and QoL.

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“…It has been shown that the primary driver of inhalation is a mechanism called "hypercapnic ventilatory drive", and "hypoxic ventilatory drive" is a secondary, back-up mechanism that stimulates breathing. (Dick, 1997, Goldberg, 2017 Hypercapnic drive forces exhalation in a very powerful, deep brain stem, primordial reflex. This is easily demonstrated in a typical individual who wishes to hold their breath for more than a minute.…”

Section: Respiratory Physiology Hypoventilation and Hypercapniamentioning

confidence: 99%

Liberal Oxygen with Unreliable Unpredictable Flowrate Is the Root Cause of Unexplained Physiological Events in Combat aircraft

Bassovitch¹

2020

Preprint

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Over the last 20 years, there has been a significant increase in the number of unexplained physiological events (UPEs) reported by pilots of fighter jets across different fleets. The UPEs have resulted in grounding some types of aircraft, loss of airplanes, and even loss of life. Despite considerable research, no single agreed-upon root cause has been found that explains UPEs, and therefore no reliable corrective actions exist. The purpose of this review was to analyze the literature related to other industries in which artificial hyperoxic gas mixes are employed and similar adverse reports have been reported. Based on analysis of the literature, it is hypothesized that UPEs are caused by unlimited delivery of high-dose oxygen in excess of officially approved oxygen schedules in the presence of inadequate airflow rates, at a time when the positive pressure breathing feature of their oxygen regulator system is not used. During flight maneuvers such as climbs, turns, and descents, pulmonary vital capacity is impaired by G-maneuvers and oxygen- and G-induced atelectasis. At the same time, tidal volume is reduced by flight gear, and effective gas exchange is not supported by adequate ventilation. These factors combine to produce hypercarbia, respiratory acidosis, acute respiratory distress syndrome, CO2 narcosis, and coma. In fact, reports from field data related to incidents in F-18S/H, showing that emergency oxygen did not correct the hypoxia-like symptoms including long-lasting periods of incapacitation and prolonged headaches, lend support to this hypothesis.

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Analysis of Hypoxic and Hypercapnic Ventilatory Response in Healthy Volunteers

Cited by 37 publications

References 46 publications

Sex‐linked difference in blood oxygen saturation

Sex‐linked difference in blood oxygen saturation

Percutaneous Closure of PFO in Patients with Reduced Oxygen Saturation at Rest and during Exercise: Short- and Long-Term Results

Liberal Oxygen with Unreliable Unpredictable Flowrate Is the Root Cause of Unexplained Physiological Events in Combat aircraft

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