Biomaterial Database

Upper airway mechanics and post-hypoxic ventilatory decline during NREM sleep. 2007

R B Halker, and L A Pierchala, and M S Badr

Division of Pulmonary, Critical Care and Sleep Medicine, Wayne State University, 3 Hudson, Harper University Hospital, 3990 John R, Detroit, MI 48201, USA.

Termination of hypoxia results in a transient ventilatory decline referred to as post-hypoxic ventilatory decline (PHVD). We wished to determine whether PHVD is due to changes in ventilatory motor output or upper airway mechanics. We studied 19 healthy normal subjects (15 men, 4 women) during stable non-REM (NREM) sleep. Subjects were exposed to multiple episodes of brief (3 min) hypoxia that terminated with one breath of 100% FI(O2). Minute ventilation (V (I)), tidal volume (V (T)), timing, and upper airway resistance (R (ua)) were measured during the control, hypoxia, and for the first six breaths immediately after cessation of hypoxia. In addition, we measured diaphragmatic electromyograms (EMGdia) via surface electrodes in four subjects. V (I) and V (T) decreased during the recovery period to a nadir of 81 and 83% of room air control, respectively. However, there was no significant change in respiratory frequency or upper airway resistance during the post-hypoxic recovery period. Decreased V (I) was associated with a comparable decrease in EMGdia. We conclude that: (1) PHVD occurs in normal humans during NREM sleep, (2) there is no evidence of post-hypoxic frequency decline in humans during NREM sleep, and (3) PHVD is centrally mediated and not driven by upper airway mechanics.

UI	MeSH Term	Description	Entries
D006985	Hyperventilation	A pulmonary ventilation rate faster than is metabolically necessary for the exchange of gases. It is the result of an increased frequency of breathing, an increased tidal volume, or a combination of both. It causes an excess intake of oxygen and the blowing off of carbon dioxide.	Hyperventilations
D008176	Lung Volume Measurements	Measurement of the amount of air that the lungs may contain at various points in the respiratory cycle.	Lung Capacities,Lung Volumes,Capacity, Lung,Lung Capacity,Lung Volume,Lung Volume Measurement,Measurement, Lung Volume,Volume, Lung
D008297	Male		Males
D012016	Reference Values	The range or frequency distribution of a measurement in a population (of organisms, organs or things) that has not been selected for the presence of disease or abnormality.	Normal Range,Normal Values,Reference Ranges,Normal Ranges,Normal Value,Range, Normal,Range, Reference,Ranges, Normal,Ranges, Reference,Reference Range,Reference Value,Value, Normal,Value, Reference,Values, Normal,Values, Reference
D012123	Pulmonary Ventilation	The total volume of gas inspired or expired per unit of time, usually measured in liters per minute.	Respiratory Airflow,Ventilation Tests,Ventilation, Pulmonary,Expiratory Airflow,Airflow, Expiratory,Airflow, Respiratory,Test, Ventilation,Tests, Ventilation,Ventilation Test
D012132	Respiratory Muscles	These include the muscles of the DIAPHRAGM and the INTERCOSTAL MUSCLES.	Ventilatory Muscles,Respiratory Muscle,Muscle, Respiratory,Muscle, Ventilatory,Muscles, Respiratory,Muscles, Ventilatory,Ventilatory Muscle
D003964	Diaphragm	The musculofibrous partition that separates the THORACIC CAVITY from the ABDOMINAL CAVITY. Contraction of the diaphragm increases the volume of the thoracic cavity aiding INHALATION.	Respiratory Diaphragm,Diaphragm, Respiratory,Diaphragms,Diaphragms, Respiratory,Respiratory Diaphragms
D005260	Female		Females
D006801	Humans	Members of the species Homo sapiens.	Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000328	Adult	A person having attained full growth or maturity. Adults are of 19 through 44 years of age. For a person between 19 and 24 years of age, YOUNG ADULT is available.	Adults