Poster presentation

Chronic intermittent asphyxia impairs rat upper airway muscle responses to acute hypoxia and asphyxia

T O'Hare¹, M McGuire², KD O'Halloran³ and A Bradford¹

¹  Department of Physiology, Royal College of Surgeons in Ireland

²  Sleep Disorders Program, Harvard Medical School, Boston, MA 02115, USA

³  Human Anatomy and Physiology, NUI, Dublin, Ireland

corresponding author email

Neural Control of Breathing
Rotorua, New Zealand, 1-4 September 2001

Respiratory Research 2001, 2(Suppl 1):P24doi:10.1186/rr141

Received:	2 August 2001
Published:	17 August 2001

© 2001 BioMed Central Ltd

Poster presentation

Sleep disordered breathing (SDB) is characterised by chronic intermittent asphyxia (CIA) due to repetitive apnoeas. We tested the hypothesis that CIA affects upper airway muscle activity and responses to acute hypoxia and asphyxia.

Wistar rats were placed in restrainers with their heads in hoods ventilated with air (controls, n = 6) or an air/N₂/CO₂ mixture intermittently (treated group, n = 6) for 8 h per day, 5 days per week for 5 weeks using timed solenoid valves as previously described [1]. In were added to the the treated group, every 30 s, N₂ and CO₂ to a minimum of 6–8% and airflow for 15 s reducing hood O₂ increasing CO₂ to a maximum of 12–14% followed by removal of the N₂ and CO₂ and recovery to room air values. After 5 weeks, animals were anaesthetised (chloralose and urethane, 100 and 1000 mg/kg respectively IP). Sternohyoid (SH) electromyogram (EMG) activity was measured breathing air, 7.5% O₂ in N₂ (hypoxia) and 7.5% O₂ and 3% CO₂ (asphyxia). EMG data were expressed as % of peak activity breathing 9% CO₂ (% of reference).

Baseline SHEMG activity was significantly elevated in the treated group (28.4 ± 0.3% of reference in the controls vs. 48.5 ± 0.5% of reference in the treated group; means ± SEM, P < 0.05 ANOVA). CIA significantly reduced SHEMG responses to hypoxia and asphyxia. Thus, the increase in EMG activity from baseline values (ΔEMG) during the first minute of hypoxia was +46.2 ± 5.8% in control rats vs. +30.4 ± 6.1% in treated rats. Similarly, ΔEMG during the first minute of asphyxia was +66.3 ± 5.9% in control rats vs. +41.1 ± 11.1% in treated rats.

We suggest that the elevated upper airway muscle activity associated with SDB is due to CIA. We propose that a reduction in the response of upper airway dilator muscles to acute asphyxia following upper airway obstruction is likely to cause further asphyxic insult leading to a vicious feed-forward cycle. We further propose that CIA contributes to the pathophysiology of SDB and other conditions of intermittent asphyxia.

Acknowledgement

This work was funded by the RCSI/Charitable Infirmary Charitable Trust.

References

1. McGuire M, Bradford A: Chronic intermittent hypoxia raises haematocrit and causes right ventricular hypertrophy in the rat.

   Respir Physiol 1999, 117:53-58. PubMed Abstract | Publisher Full Text

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