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Target Concepts:
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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The new form of propofol gives the same haemodynamic effects as the old one (propofol diluted in cremophor EL). There are few experimental studies concerning the haemodynamic effects of propofol. In the dwarf pig, Glen and Turner found a fall in arterial blood pressure and peripheral resistances, whilst the heart rate and cardiac output rose. In man, studies have shown that propofol gives haemodynamic effects similar to the other intravenous anaesthetic drugs, and especially thiopentone. In subjects with a healthy heart, and for doses included between 1.5 and 2.5 mg X kg-1, propofol gave a 25 to 30% fall in arterial blood pressure. There are also a 20% fall in peripheral resistances and a small fall (10%) in cardiac output. Blood pressure returned to its initial level 3 to 5 min after the injection. The heart rate was not much changed, and rather slowed, perhaps because of central
vagotonia
. When propofol was used to maintain anaesthesia, either by repeat injections, or by infusion, with the patient breathing spontaneously and not undergoing painful stimuli, blood pressure and heart rate remained steady within 55 to 65% of their initial values. Propofol appeared to avoid to some extent the increase in blood pressure and heart rate seen during intubation. When propofol and fentanyl were used together, the cardiovascular effects were more pronounced than when they were used alone. Moreover, propofol appeared to limit to a large extent the
hypertension
due to intubation and sternotomy in patients undergoing aorto-coronary arterial graft surgery.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Hemodynamic effects of propofol]. 349 88
Physical conditioning induces numerous cardiovascular adaptations, including
vagotonia
and increased cardiac volume and mass. These adaptations characterise the 'athletic heart' and account for most of the normal variants in the athlete's electrocardiogram. Common alterations associated with
vagotonia
include sinus bradycardia, sinus arrhythmia, junctional escape beats, first degree atrioventricular block and second degree (Mobitz type I) atrioventricular block. Common electrocardiographic variants associated with increased cardiac mass and volume include increased voltage, prominent U waves, intraventricular conduction delays, early repolarisation and increased QT intervals. It is sometimes difficult to differentiate the healthy athlete with an athletic heart from the athletic patient with a diseased heart. Thus, further evaluation may be warranted, especially when the athlete also presents with
hypertension
and/or abnormalities of the cardiovascular physical examination.
...
PMID:Electrocardiographic alterations associated with the hearts of athletes. 955 25
Carotid sinus hypersensitivity (CSH) is a well-described cause of syncope, resulting in bradycardia and/or hypotension in response to neck pressure. The authors hypothesized that (CSH) represents an inappropriate response of the baroreflex system to a nonphysiologic stimulus, rather than a truly hypersensitive carotid sinus (ie, excessive
vagotonia
and sympathoinhibition in response to arterial
hypertension
). To test their hypothesis, the authors used a neck chamber to deliver stepped, R-wave-triggered changes in transmural carotid sinus pressure, from +40 to -60 mm Hg, during a single held expiration. The authors studied 7 men (age 69 +/- 8y; mean age +/- SD) with carotid sinus syndrome and 10 age- and sex-matched controls. Seven repetitions of pressure changes were averaged, and the carotid sinus response described by changes in the R-R interval. There was no statistical difference in carotid-cardiac baroreflex gain (R-R interval/pressure change; mean gain +/- SD, 3.0 +/- 2.1 msec/mm Hg and 2.2 +/- 3.0 msec/mm Hg, respectively) or other markers of carotid baroreflex responses between the subjects and controls. These preliminary results suggest that (CSH) may not be a "hypersensitive" reflex, but rather an inappropriate response, or "irritability," of the baroreflex system to nonphysiologic deformation of the carotid sinus and/or surrounding tissues.
...
PMID:Carotid sinus "irritability" rather than hypersensitivity: a new name for an old syndrome? 1157 May 99
Low-frequency magnetic fields and EHF-therapy have been used in correction of autonomic homeostasis in workers exposed to vibration for different periods of time. The workers suffered from early arterial
hypertension
. Vegetative status and central hemodynamics improved best in workers exposed to vibration for less than 5 years. If the exposure was 6-15 years, a positive trend occurred in the tension of regulatory mechanisms. Workers with long exposure to vibration suffering from
vagotonia
showed an inadequate response of the autonomic parameters to treatment. This necessitates enhancement of therapeutic measures with medicines.
...
PMID:[Dynamics of vegetative indicators induced by low-frequency magnetotherapy and EHF-puncture in hypertensive workers exposed to vibration]. 1189 74
