Undiagnosed sleep-disordered breathing among male nondippers with essential hypertension

High prevalence of unrecognized sleep apnoea in drug-resistant hypertension

OBJECTIVES

To determine the prevalence of obstructive sleep apnoea (OSA) in adult patients with drug-resistant hypertension, a common problem in a tertiary care facility.

DESIGN

Cross-sectional study.

SETTING

University hypertension clinic.

PATIENTS AND METHODS

Adults with drug-resistant hypertension, defined as a clinic blood pressure of > or = 140/90 mmHg, while taking a sensible combination of three or more antihypertensive drugs, titrated to maximally recommended doses. Each of the 41 participants completed an overnight polysomnographic study and all but two had a 24 h ambulatory blood pressure measurement.

RESULTS

Prevalence of OSA, defined as an apnoea-hypopnoea index of > or = 10 obstructive events per hour of sleep, was 83% in the 24 men and 17 women studied. Patients were generally late middle-aged (57.2 +/- 1.6 years, mean +/- SE), predominantly white (85%), obese (body mass index, 34.0 +/- 0.9 kg/m2) and taking a mean of 3.6 +/- 0.1 different antihypertensive medications daily. OSA was more prevalent in men than in women (96 versus 65%, P = 0.014) and more severe (mean apnoea-hypopnoea index of 32.2 +/- 4.5 versus 14.0 +/- 3.1 events/h, P = 0.004). There was no gender difference in body mass index or age. Women with OSA were significantly older and had a higher systolic blood pressure, lower diastolic blood pressure, wider pulse pressure and slower heart rate than women without OSA.

CONCLUSIONS

The extraordinarily high prevalence of OSA in these patients supports its potential role in the pathogenesis of drug-resistant hypertension, and justifies the undertaking of a randomized controlled trial to corroborate this hypothesis.

Nocturnal non-dipping: what does it augur?

The non-dipping pattern of blood pressure (defined as a nocturnal fall of less than 10%) occurs in about 25% of hypertensives, with increased prevalence in certain sub-groups such as diabetics, African-Americans, and patients with renal disease. It almost certainly has multiple causes, including factors such as the levels of activity and arousal during both the day and the night, the depth and quality of sleep, and the activity of the sympathetic nervous system, among others. In patients with uncomplicated hypertension, the reproducibility is relatively low. There is evidence suggesting that the non-dipping pattern may have an adverse prognosis: thus, it appears to predict the progression of renal disease, to be associated with increased target-organ damage (in some studies), and also to predict increased cardiovascular morbidity. Antihypertensive drug treatment can normalize the non-dipping pattern, but the therapeutic consequences of this are unknown.

Are sleep-related breathing disorders important contributing factors to the production of essential hypertension?

About 50% of all patients with essential hypertension have obstructive sleep apnea (OSA), and another 40% of essential hypertension patients are habitual snorers, but without OSA. There is now convincing evidence that both OSA and habitual snoring are independent risk factors for essential hypertension, and that treatment of OSA will reduce the blood pressure. There is also some evidence that treatment of habitual snoring will also reduce the blood pressure. If this is the case, then we postulate a unifying hypothesis: that these two sleep-related breathing disorders (SRBD) (OSA and habitual snoring) are very common contributing factors to what is called "essential hypertension." The many epidemiologic, clinical, hematologic, biochemical, and physiologic findings seen in essential hypertension could also be due to the associated SRBD. A routine search for SRBD by asking a few simple questions of all patients (especially those with hypertension) and their bed partners could increase the number of patients detected and treated significantly. Successful treatment of SRBD would improve sleep quality and the associated excessive daytime sleepiness, and thus improve the quality of life. In addition, there is a good chance that the hypertension will improve as well.

Relationship between 24-H blood pressure and sleep disordered breathing in a normotensive community sample

Sleep disordered breathing (SDB) and hypertension are commonly associated. In this study, we assessed how longitudinal measures of SDB predict a 24-h ambulatory blood pressure monitoring (ABPM) profile. Participants (n = 82) were recruited from a community-based urban (26% African American) sample and included family members of patients with laboratory diagnosed SDB (cases) and family members of neighborhood control subjects evaluated at baseline and at 5 years. Nearly all participants were normotensive and were not receiving therapy for SDB. During both examinations, the respiratory distress index (RDI) was assessed with overnight in-home polysomnography. Seated blood pressure (BP) was assessed at a baseline examination (t,) and after a 5-year follow-up period (t5), when 24-h ABPM also was performed. The change in RDI (t5-t1) over 5 years was significantly associated with 24-h mean systolic blood pressure (SBP) (P = .04), 24-h maximum diastolic blood pressure (DBP) (P = .03), sleep mean SBP (P = .05), sleep mean DBP (P < .05), and sleep maximum SBP (P = .02). Regression analysis revealed that average 24-h mean arterial pressure (MAP) and mean 24-h DBP were each best predicted by change in RDI, explaining 5% of the variance in these 24-h BP readings, and by current smoking status. After accounting for these variables, BP was not predicted by any of the other potential confounders (all P > .10). Mean RDI (averaged between t5 and t1) was associated with mean MAP, mean SBP, and maximal SBP measured during sleep. This study documents for the first time the association between changes in sleep apnea activity and BP and in a community-based normotensive sample. Further long-term evaluation of the effects of these findings and the long-term consequences of hypertension are needed.

Blood pressure reduction at night: sleep and beyond

Blood pressure fall at night is commonly used to classify subjects as 'dippers' or 'non-dippers'. Such a classification is poorly reproducible, however, due to interference by a number of confounders. These include methodological problems with ambulatory blood pressure monitoring at night due to a variable hydrostatic difference between the arm cuff and the heart. Even correcting for this variable, however, does not significantly improve the reproducibility of the nocturnal blood pressure fall, which probably depends to a large extent on other factors, such as the level of daytime activity and differences in sleep patterns.

Ambulatory blood pressure and neuroendocrine control after diet-assisted gastric restrictive surgery

BACKGROUND

Long-term weight control after conventional diet is disappointing but may be improved when diet is assisted by gastric restrictive surgery (GRS).

OBJECTIVE

To determine the effects of GRS on ambulatory blood pressure (ABP) and neuroendocrine BP control in 28 morbidly obese subjects.

METHODS

A BP and heart rate were recorded every 10 min for 25 h before and 4 months after GRS. Effects of marked reductions in body weight on the renin-angiotensinaldosterone system, on plasma insulin and on sympathetic activity were also determined.

RESULTS

Body mass index decreased from 43 +/- 1 to 34 +/- 1 kg/m2 and systolic (S) BP decreased by 7 +/- 2 mmHg during daytime (P=0.01) and by 8 +/- 3 mmHg during the night (P=0.02). Pulse pressure, a marker of reduced arterial compliance, decreased by 5 +/- 1 mmHg throughout the 24 h period (P < 0.001). Diastolic BP remained unchanged. Heart rate decreased more during the night (-13 +/- 2 bpm, P<0.0001) than during daytime (-5 +/- 2 bpm, P=0.03). Reductions in SBP were largest in subjects with highest initial BP values (r = -0.63, P<0.001) but were unrelated to weight loss. GRS decreased fasting glycaemia, plasma insulin, plasma C peptide and 24 h urine sodium (n=20) and noradrenaline (n=19) excretion (P<0.01).

CONCLUSIONS

Diet-assisted GRS favourably affects neuroendocrine BP control in obese patients. Reductions in sodium intake, insulin levels and sympathetic tone combined with possible improvements in arterial compliance induce persistent 24 h reductions in SBP and pulse BP. Reductions in BP are largest in subjects with highest initial BP values and are unrelated to the amount of weight loss, thereby emphasizing the importance of even moderate reductions in weight on BP control.

Neural and humoral mechanisms mediating cardiovascular responses to obstructive sleep apnea

Patients with obstructive sleep apnea are at increased risk for hypertension. The mechanisms underlying this increased risk are not known. During sleep, repetitive apneic episodes result in hypoxemia and carbon dioxide retention, which cause increases in sympathetic nerve activity and elicit humoral vasoconstrictor responses. While these mechanisms explain nocturnal elevations in blood pressure, it is unclear why hypertension and elevated sympathetic nerve activity prevail even during the daytime. This review will examine briefly some of the neural and humoral mechanisms that are activated by nocturnal apneas and which may contribute to persistent increases in blood pressure even during daytime normoxia. Disruption of the autonomic and hemodynamic profile of normal sleep by apneic events manifests as raised blood pressure and heightened sympathetic nerve traffic during sleep. During awake daytime normoxia, baroreflex and chemoreflex dysfunction may contribute to maintenance of higher blood pressure and sympathetic activity. Sustained vasoconstrictor effects of nocturnal endothelin release may also be implicated in the elevated daytime blood pressures.

Ambulatory physical activity as a determinant of diurnal blood pressure variation

There are reports that indicate that diurnal blood pressure (BP) variation, in addition to high BP per se, is related to target organ damage and the incidence of cardiovascular events. However, the determinants of diurnal BP variation are not adequately understood. We used actigraphy and ambulatory BP monitoring to study the diurnal variation of BP and physical activity in 160 adults. Within individuals, activity was more strongly related to pulse rate than to BP. The correlation between BP and activity was stronger during sleep than when awake, but the correlation between activity and pulse rate was higher during the awake period than during sleep. Between individuals, the sleep/awake ratio of systolic BP (SBP) was correlated with mean sleep activity (r=.17, P<0.05), mean awake activity (r=-0.16, P<0.05), and, especially, the ratio of sleep/awake activity (r=.24, P<0.01). Awake BP variability (SD of awake SBP) was positively correlated with awake activity (r=.16, P<0. 05). In regard to the effect of position, the standing-supine SBP difference was negatively correlated with the sleep/awake SBP ratio (r=-0.39, P<0.01) and positively correlated with awake SBP variability (r=.33, P<0.01). When we divided the subjects into 3 groups, 19 extreme dippers (with a sleep SBP decrease of >/=20% of awake SBP), 102 dippers (with decreases of >/=10% to <20%), and 39 nondippers (with decreases of <10%), no significant differences existed in awake activity among the groups. However, the nondippers exhibited greater sleep activity than extreme dippers (P<0.05) and an increased sleep/awake activity ratio compared with extreme dippers and dippers (P<0.01). Extreme dipping may also be associated with increased BP variability (P=0.08). Individual SBP responses to activity (the within-person slope of awake SBP regressed on activity) did not differ significantly among the 3 subgroups. In conclusion, physical activity is one of the determinants of ambulatory BP and its diurnal variation. We hypothesize that the association of sleep activity to sleep BP and dipping reflects differences in sleep quality.

Sodium sensitivity in young adults with high resting end-tidal CO2

BACKGROUND

Previous research with normotensive adults aged over 40 years ('older') found that sensitivity of blood pressure of subjects with high resting end-tidal partial pressures of CO2 to high sodium intake was greater than normal.

OBJECTIVE

To test the hypothesis that the lesser sensitivity of blood pressure of young normotensive adults to high sodium intake is also a function of resting end-tidal partial pressure of CO2.

DESIGN

Forty-eight Caucasian men and women (age 28.5 +/- 1.4 years) had a lower than normal dietary intake of sodium chloride for 4 days, and then ingested sodium chloride capsules for 7 days (an additional 190 mmol/day sodium chloride). Resting end-tidal partial pressure of CO2 and blood pressure, and 24 h ambulatory blood pressure, were measured before and after the high-sodium diet. Overnight urine samples were collected before and after the high-sodium diet to determine dietary compliance, and to assess changes in urinary excretion of endogenous digitalis-like factors (a ouabain-like factor, and a marinobufagenin-like factor) that covary with plasma volume.

RESULTS

Subjects with high end-tidal partial pressures of CO2 had lower resting heart rates and lower urinary excretion of ouabain-like factor before sodium loading. Sodium loading decreased mean partial pressure of CO2 (by 0.8 +/- 0.2 mmHg) and increased only ambulatory systolic blood pressure (by 2.1 +/- 0.8 mmHg) for the whole group. However, the changes in resting systolic (r = 0.32, P < 0.025) and diastolic (r = 0.36, P < 0.01) blood pressures and in 24 h systolic (r = 0.28, P < 0.05) blood pressure after sodium loading were all positive functions of individual resting end-tidal partial pressures of CO2. Sodium loading increased urinary excretion of marinobufagenin-like factor (by 1.78 +/- 0.88 nmol) and the magnitude of the individual increase was a function of end-tidal partial pressure of CO2.

CONCLUSIONS

The results indicate that a high resting partial pressure of CO2 augments the effects of high sodium intake on plasma volume, levels of endogenous digitalis-like factors, and blood pressure in young normotensive humans.