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Pivot Concepts:
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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)
Amlodipine is a low-clearance, dihydropyridine calcium antagonist. The slow rate of elimination (elimination half-life of 40-60 h) confers several pharmacokinetic characteristics that are not seen with other calcium-antagonist drugs. It has high oral bioavailability (60-80%) and accumulates to a steady-state with once-daily administration over a period of 1-1 1/2 weeks.
Fluctuation
of plasma drug concentration between doses is between 20 and 25% when once-daily dosing is used. Onset of effect is gradual after oral administration which is due, in part, to an intermediate rate of drug absorption (peak plasma drug concentration occurs 6-8 h after dosing) and perhaps also to the physicochemical characteristics of the drug-cell membrane-receptor interaction. The pharmacodynamic profile of the drug in hypertensive patients is consistent with the disposition of the drug. After single doses, blood pressure decreases gradually over 4-8 h and may slowly return to baseline over 24-72 h. No change in heart rate is noted after the dose as the onset is gradual and physiological reflexes are not activated. During chronic, oral, once-daily dosing blood pressure is decreased from pretreatment baseline with little fluctuation over the 24-hour dose interval. Discontinuation of amlodipine treatment results in a slow return of blood pressure to baseline over 7-10 days, with no evidence of a 'rebound' effect. Amlodipine is a low-clearance, dihydropyridine calcium antagonist which is effective for the treatment of
hypertension
and angina pectoris with once-daily dosing.
...
PMID:Pharmacokinetics and pharmacodynamics of amlodipine. 153 13
The vasculature of the eye and the heart share several common characteristics. The easily accessible vessels of the eye are therefore-to some extent-a window to the heart. There is interplay between cardiovascular functions and risk factors and the occurrence and progression of many eye diseases. In particular, arteriovenous nipping, narrowing of retinal arteries, and the dilatation of retinal veins are important signs of increased cardiovascular risk. The pressure in the dilated veins is often markedly increased due to a dysregulation of venous outflow from the eye. Besides such morphological criteria, functional alterations might be even more relevant and may play an important role in future diagnostics. Via neurovascular coupling, flickering light dilates capillaries and small arterioles, thus inducing endothelium-dependent, flow-mediated dilation of larger retinal vessels. Risk factors for arteriosclerosis, such as dyslipidaemia, diabetes, or
systemic hypertension
, are also risk factors for eye diseases such as retinal arterial or retinal vein occlusions, cataracts, age-related macular degeneration, and increases in intraocular pressure (IOP). Functional alterations of blood flow are particularly relevant to the eye. The primary vascular dysregulation syndrome (PVD), which often includes systemic hypotension, is associated with disturbed autoregulation of ocular blood flow (OBF).
Fluctuation
of IOP on a high level or blood pressure on a low level leads to instable OBF and oxygen supply and therefore to oxidative stress, which is particularly involved in the pathogenesis of glaucomatous neuropathy. Vascular dysregulation also leads to a barrier dysfunction and thereby to small retinal haemorrhages.
...
PMID:The eye and the heart. 2340 92
