Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.15.1 (
ACE
)
18,300
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sleep-related breathing disorders are associated with considerably impaired vitality and reduced life expectancy. In this respect, a particularly important role is played by obstructive snoring and obstructive or mixed sleep apnoea. Because of the often underestimated prevalence of sleep-related breathing disorders and their association with hypertension in greater than 50% of patients, it is important to introduce antihypertensive drug therapy that does not exacerbate the effects and the degree of these disorders, and that above all produces an adequate lowering of blood pressure by night. In the present study in 12 patients, it has been shown that the new
ACE
inhibitor, cilazapril, achieves a good reduction in blood pressure over 24 hours and during all stages of sleep, without any negative influence on the ratio of
REM
: nonREM sleep. The apnoea index was reduced from 40 (range 12 to 84) to 27 (range 0 to 72) apnoeas per hour of sleep (p less than 0.01). It will be increasingly important to take into account the effects of antihypertensive therapy on other clinical parameters, especially the nocturnal blood pressure profile and its association with sleep-related breathing disorders.
...
PMID:First experience with cilazapril in the treatment of sleep apnoea-related hypertension. 171 71
Sleep disturbances are frequently associated with the use of antihypertensive drugs. They are observed mainly during the administration of drugs that affect central adrenergic mechanisms. Beta-adrenoceptor antagonists which readily penetrate into the brain (propranolol, pindolol) increase wakefulness and/or decrease
REM
sleep. Alpha 2-adrenoceptor agonists (clonidine, guanfacine) markedly reduce the duration of
REM
sleep. The catecholamine depleting agent reserpine increases
REM
sleep during single or repeated-dose administration, while the MAOI phenelzine shows opposite effects. The 5-HT2 antagonist ritanserin, which is chemically related to the antihypertensive agent ketanserin, increases slow wave sleep while
REM
sleep is decreased. Sleep disturbances have not been reported during the administration of calcium entry antagonists. However, they seem to modify the effects of hypnotics and CNS stimulants. There are no formal studies on the effects of
angiotensin converting enzyme
inhibitors and vasodilators on sleep in man.
...
PMID:Disturbances of sleep and wakefulness associated with the use of antihypertensive agents. 289 73
The nocturnal increases in blood pressure in cases of obstructive sleep apnea are discussed as causes in connection with increased cardiovascular mortality in sleep apnea. Previous antihypertension therapy studies revealed the antihypertensive action of the
ACE
inhibitor cilazapril averaged over NREM (NR) and
REM
sleep (R). In the present study, the effect of this drug on the blood pressure increase within the stress segment of obstructive apnea in NR and R was investigated in a double-blind randomized study versus placebo. Data were collected in digital form with the help of cardiorespiratory polysomnography and intra-arterial blood pressure measurements; a total of 640 apnea in 16 patients were evaluated. Relevant increases in blood pressure occurred during the apnea which were, as expected, more pronounced in R (150/74 mmHg) than in NR (135/69 mmHg). The antihypertensive action of cilazapril was also stronger in R (systole--11.9/diastole--6.4 mmHg) than in NR (systolic--9.0 mmHg/diastolic--5.7 mmHg). Placebo caused significantly lower decreases in blood pressure (systolic--3.7 mmHg/diastolic--2.4 mmHg in R, systolic--2.8 mmHg/diastolic--1.8 mmHg in NR). Thus, evidence is provided for a clinically relevant blood pressure lowering effect of the drug cilazapril on the stress-induced blood pressure increases accompanying obstructive apnea both in NREM and in
REM
sleep.
...
PMID:[Nocturnal hypertension and sleep apnea: effect of the ACE inhibitor cilazapril on apnea-induced blood pressure increases during sleep]. 761 7
Central sleep apnoea (CSA) in congestive heart failure is sleep state dependent and occurs typically in stages I and II of non-
REM
sleep. The pre-requisites are hypocapnia and some prolongation of the circulation time. It is not certain whether abnormalities in after-discharge activity in the brainstem are also important. The presence of CSA in patients with left ventricular dysfunction is a poor prognostic sign and associated with a higher mortality in that group compared to age, sex and ejection fraction matched patients with congestive cardiac failure alone. It is reasonable to speculate that the CSA causes an increase in sympathetic nervous system activity which would maintain afterload at a high level or tend to increase it with time. The application of a high afterload to an impaired left ventricle leads over time to a further reduction in ejection fraction. From other studies, particularly
ACE
inhibitor studies, it is known that ejection fraction and prognosis are almost linearly related. It could therefore be said that once CSA has developed it may lead to a vicious circle of increasing afterload and further reduction in ejection fraction, causing worsening CSA and further increases in afterload. A number of treatments have been shown to be of benefit: supplemental nocturnal oxygen therapy, acetazolamide and nasal CPAP therapy have all been shown to reduce CSA. In addition nasal continuous positive airways pressure (CPAP) has been shown by two groups in Canada to also improve ejection fraction. The beneficial effects on ejection fraction in particular, persist after the treatment has been withdrawn, which suggests either remodelling of the left ventricular musculature or a resetting of the baseline sympathetic nervous system activity. The impressive increase in ejection fraction due to three months nasal CPAP therapy in one study (an average 35% increase) is both dramatic and exciting for the future. It is reasonable to expect improvement in prognosis for patients with CCF whose ejection fraction rises with CPAP treatment. Finally, only a limited number of studies have been published. Unfortunately the impressive results from Canada have not yet been reproduced in other centres around the world.
...
PMID:Central sleep apnoea and heart failure (Part I). 952 93
Central sleep apnoea (CSA) in congestive heart failure is sleep state dependent and occurs typically in stages I and II of non-
REM
sleep. The pre-requisites are hypocapnia and some prolongation of the circulation time. It is not certain whether abnormalities in after-discharge activity in the brainstem are also important. The presence of CSA in patients with left ventricular dysfunction is a poor prognostic sign and associated with a higher mortality in that group compared to age, sex and ejection fraction matched patients with congestive cardiac failure alone. It is reasonable to speculate that the CSA causes an increase in sympathetic nervous system activity which would maintain afterload at a high level or tend to increase it with time. The application of a high afterload to an impaired left ventricle leads over time to a further reduction in ejection fraction. From other studies, particularly
ACE
inhibitor studies, it is known that ejection fraction and prognosis are almost linearly related. It could therefore be said that once CSA has developed it may lead to a vicious circle of increasing afterload and further reduction in ejection fraction, causing worsening CSA and further increases in afterload. A number of treatments have been shown to be of benefit: supplemental nocturnal oxygen therapy, acetazolamide and nasal CPAP therapy have all been shown to reduce CSA. In addition nasal continuous positive airways pressure (CPAP) has been shown by two groups in Canada to also improve ejection fraction. The beneficial effects on ejection fraction in particular, persist after the treatment has been withdrawn, which suggests either remodelling of the left ventricular musculature or a resetting of the baseline sympathetic nervous system activity. The impressive increase in ejection fraction due to three months nasal CPAP therapy in one study (an average 35% increase) is both dramatic and exciting for the future. It is reasonable to expect improvement in prognosis for patients with CCF whose ejection fraction rises with CPAP treatment. Finally, only a limited number of studies have been published. Unfortunately the impressive results from Canada have not yet been reproduced in other centres around the world.
...
PMID:Central sleep apnoea and heart failure (part II). 965 53
