Effects of Repetitive Airway Obstruction on O<sub>2</sub>Saturation and Systemic and Pulmonary Arterial Pressure in Anesthetized Dogs

Iwase, Nobuo; Kikuchi, Yoshiyuki; Hida, Wataru; Miki, Hiroshi; Taguchi, Osamu; Satoh, Masatsugu; Okabe, Shinichi; Takishima, Tamotsu

doi:10.1164/ajrccm/146.6.1402

Cited by 45 publications

(29 citation statements)

References 6 publications

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“…On the other hand, increasing Pa,CO 2 by 1.4 kPa in anaesthetised dogs increased arterial pressure only by about 5 mmHg [13] when blood pressure increased more than 20 mmHg during the obstructive period in sleep apnoea [1]. These results [3,5,7] conflict with previous data [1,[8][9][10] and our finding showing the predominant role of hypoxaemia over hypercapnia in acute changes in SBP, DBP and HR. In our study, increases in SBP were higher with HOHC (+35.1±26.4 mmHg) than with HO (+25.3±25.7 mmHg) and HR decreased more with HOHC, (severe, -139.3±75.7 bpm; mild, -28.5±52.0 bpm) than HO (severe, -93.8±124.1 bpm; mild, -3.1±67.8 bpm) ( fig.…”

Section: Discussioncontrasting

confidence: 88%

“…In agreement with this finding, STOOHS and GUILLEMINAULT [8] demonstrated in five men with severe obstructive sleep apnoea, that mean blood pressure always increased during the obstructive period and that the changes in HR were correlated with the degree of hypoxaemia. In experimental models of repetitive airway obstruction in anaesthetised dogs, IWASE et al [9] showed that the main factor in the increase in systemic arterial pressure during repetitive airway obstruction was hypoxaemia and that hypercapnia and acidosis had no significant effects. Increases in apnoeic and postapnoeic blood pressure correlate with the degree of hypoxia during apnoea [1].…”

Section: Discussionmentioning

confidence: 99%

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Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Bakehe

Miramand²,

Chambille³

et al. 1995

Eur Respir J

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C Ca ar rd di io ov va as sc cu ul la ar r c ch ha an ng ge es s d du ur ri in ng g a ac cu ut te e e ep pi is so od di ic c r re ep pe et ti it ti iv ve e h hy yp po ox xi ic c a an nd d h hy yp pe er rc ca ap pn ni ic c b br re ea at th hi in ng g i in n r ra at ts s The aim of this study was to investigate the acute haemodynamic changes observed during the repetitive inhalation of various gas mixtures in rats for HO alone and HO + HC, and to analyse the effects of vigilance and of the stress of gas administration.We studied 6 unanaesthetized Wistar rats chronically instrumented with an aortic catheter. Nitrogen, nitrogen + CO 2 mixtures and compressed air were randomly administered in a Plexiglass chamber for 10 s and then flushed by compressed air for 20 s. Two cycles were repeated every min for 10 to 12 min. The inhaled gas fractions (FI,O 2 , FI,CO 2 ) were monitored by O 2 and CO 2 analysers. Blood pressure (BP) was measured by a P23XL transducer. The blood gases were analysed by a 1306 IL meter.In control experiments, with compressed air alone, there were no significant acute changes in heart rate (HR) and BP. During HO there were no changes in HR or BP at FI,O 2 values from 0.05-0.14, whilst at FI,O 2 values from 0-0.05 systolic blood pressure (SBP) rose significantly (+25.3±25.7 (SD) mmHg) and HR decreased (-93.8±124.1 bpm). During HOHC, SBP rose (+35.1±26.4 mmHg) and HR decreased (-139.3±75.7 bpm), significantly more than in HO alone. SBP was linearly correlated with Pa,O 2 during HO (r=0.53) and also during HOHC (r=0.44) and was not directly related to Pa,CO 2 which has, nevertheless, an additive effect to HO. SBP rose with each challenge significantly more when the rats were awake than when asleep (behavioural sleep).We conclude that in this acute repetitive inhalation model, the rise in SBP is not related to gas stress or to Pa,CO 2 but to a decrease in Pa,O 2 and is enhanced by wakefulness.

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Section: Discussioncontrasting

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Bakehe

Miramand²,

Chambille³

et al. 1995

Eur Respir J

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“…The factors which have been proposed for the pathogenesis of Ppa changes in OSA are: changes in cardiac output [3,5], the mechanical influences of intrathoracic pressure swings [6,7], and hypoxia [1,4,5,8].…”

mentioning

confidence: 99%

“…In fact, Ppa during sleep increases more during room air breathing than during oxygen administration [5]; Ppa values during OSA are usually inversely correlated with arterial oxygen tension (PaO 2 ) or oxyhaemoglobin saturation (SaO 2 ) values [1,4]; and Ppa at apnoea termination increases as SaO 2 decreases during repetitive airway occlusion trials in dogs [8]. However, when oxygen was administered to blunt SaO 2 oscillations during OSA occurring in non rapid eye movement sleep (NREM) sleep, no significant effect was found on transmural Ppa oscillations within apnoeas [9].…”

mentioning

confidence: 99%

“…The studies published, so far, concerning the effect of hypoxia on Ppa in OSA have been limited to the highest nocturnal Ppa value [5], the highest value after occlusion [8], or the values recorded only in NREM sleep, when the range of SaO 2 oscillation is limited [9]. In our previous study [9], we hypothesized that although hypoxia may determine, if any, only a minor increase in Ppa within each apnoea, it could cause a sustained increase in Ppa in consecutive apnoeas, since the time course of the response of the pulmonary vessels to hypoxia may be slower than the SaO 2 swings occurring in each apnoea episode.…”

mentioning

confidence: 99%

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Slow and fast changes in transmural pulmonary artery pressure in obstructive sleep apnoea

Marrone¹,

Mr²,

Romano³

et al. 1994

Eur Respir J

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S Sl lo ow w a an nd d f fa as st t c ch ha an ng ge es s i in n t tr ra an ns sm mu ur ra al l p pu ul lm mo on na ar ry y a ar rt te er ry y p pr re es ss su ur re e i in n o ob bs st tr ru uc ct ti iv ve e s sl le ee ep p a ap pn no oe ea a Transmural systolic pulmonary artery pressure (Ppa,STM), oxyhaemoglobin saturation (SaO 2 ) and oesophageal pressure were analysed in two samples of consecutive obstructive apnoeas in each of four patients.In the first samples (samples A; probably recorded during non-rapid eye movement (NREM) sleep), SaO 2 swings were small and repetitive. In the second samples (samples B; probably recorded during rapid eye movement (REM) sleep), they were large and more variable. Oesophageal pressure oscillated similarly in the two groups of samples. In all cases, transmural systolic pulmonary artery pressure progressively increased throughout apnoeas, and subsequently decreased in the interapnoeic periods. However, both early and end-apnoeic transmural systolic pulmonary artery pressure, remained stable in samples A; whilst they progressively increased in samples B. Transmural systolic pulmonary artery pressure at the beginning of each apnoea was inversely correlated with SaO 2 at the end of the preceding apnoea. These results suggest that transmural systolic pulmonary artery pressure is influenced by SaO 2 , but does not vary at the same speed as SaO 2 . In all cases, beat-by-beat analysis showed, as expected, that the lower the oesophageal pressure, the higher the transmural systolic pulmonary artery pressure however, at each oesophageal pressure level, transmural systolic pulmonary artery pressure was more variable and higher, in samples B.In conclusion, transmural systolic pulmonary artery pressure in obstructive apnoeas shows rapid changes, which reflect oesophageal pressure variations, and slower changes, which are likely to be caused by SaO 2 .

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Obstructive Sleep Apnea

Ainge‐Allen¹,

Yee²,

Grunstein³

2022

Clinical Obesity in Adults and Children

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Effects of Repetitive Airway Obstruction on O₂Saturation and Systemic and Pulmonary Arterial Pressure in Anesthetized Dogs

Cited by 45 publications

References 6 publications

Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Slow and fast changes in transmural pulmonary artery pressure in obstructive sleep apnoea

Obstructive Sleep Apnea

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Effects of Repetitive Airway Obstruction on O2Saturation and Systemic and Pulmonary Arterial Pressure in Anesthetized Dogs

Cited by 45 publications

References 6 publications

Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Cardiovascular changes during acute episodic repetitive hypoxic and hypercapnic breathing in rats

Slow and fast changes in transmural pulmonary artery pressure in obstructive sleep apnoea

Obstructive Sleep Apnea

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Effects of Repetitive Airway Obstruction on O₂Saturation and Systemic and Pulmonary Arterial Pressure in Anesthetized Dogs