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Query: UMLS:C0730345 (
microalbuminuria
)
4,018
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A considerable number of hormones control renal perfusion to preserve glomerular filtration. We used the "captopril test" to characterize patients with renal-vascular hypertension. This study revealed a group of patients which reacted to 25 mg of captopril with a significant increase of plasma renin activity, but angiography excluded a
renal artery stenosis
. These patients had significantly more hypertensive organ damage than a control-group, including a significant
microalbuminuria
. Consequently, we infused a subpressure dose of angiotensin II to investigate its impact on albuminuria in these patients. Although angiotensin II induced hyperfiltration,
microalbuminuria
was not increased. Because this finding could have therapeutic relevance, we investigated the significance of different antihypertensive drugs (beta-blocker, alpha-blocker, Calcium antagonists, ACE-inhibitor) on
microalbuminuria
in patients with arterial hypertension. Renal hemodynamics were influenced as expected, but blood-pressure and
microalbuminuria
were reduced to the same extent by all antihypertensives. In contrast to these results, we could demonstrate significantly different influences of a beta-blocker and an ACE-inhibitor on proteinuria in patients with primary glomerulonephritis. These results suggest different effects of antihypertensive drugs on renal protein excretion depending on the actual disease.
...
PMID:[Modification of renal hemodynamics and proteinuria in patients with arterial hypertension and kidney diseases]. 790 76
The NIDDM patient, willingly with high blood pressure and atheroma, has frequently an abnormal renal function. Must a
renal artery stenosis
(RAS) be searched as a determining or favorising cause? We have searched RAS by color duplex scan, in 60 consecutive NIDDM patients with altered renal function (creatinine clearance < or = 60 mL/min). Metabolic blood pressure (ABPM), cardiovascular and renal investigations have been realised. The population was composed of 22F/38M with middle age: 70.7 +/- 6.2 yrs, diabetic duration: 11.6 +/- 8 yrs, the plasma creatinine was: 161 +/- 78 mumol/L and clearance: 40 +/- 13 mL/min. Thirty eight had albuminuria, 28 had plasma creatinine > or = 150 mumol/L. All patients had high blood pressure. Significative RAS (> or = 70%) was detected in 15 patients (25%) by color duplex scan and proved with arteriography (n = 10) or angio NMR (n = 5). Twelve (80%) had unilateral stenosis (4 thrombosis), 3 (20%) bilateral stenosis. Renal US lead the diagnosis in 10 patients (66%): unilateral or bilateral hypotrophy. Those 15 patients had these following characteristics: 4F/11M (sex R : 0.36), middle age: 70.8 +/- 7.2 yrs, diabetic duration: 14.3 +/- 7.5 yrs, HbA1c was at 8.4 +/- 2%, 8 (53%) patients require insuline and 5 have retinopathy, plasma creatinine was at 169 +/- 6 mumol/L; 32% of patients with plasma creatinine > or = 150 mumol/L had RAS (n = 9/60%), creatinine clearance was at 38 +/- 12 mL/min (7/47% < or = 30 mL/min), 9 (60%) had macroalbuminuria and 5 (33%)
microalbuminuria
. All hypertensive patients were treated (mean SBP: 148 +/- 16, mean DBP: 82 +/- 7 mmHg) and had 62 +/- 28% SBP escape and 33 +/- 19% DBP escape. Ten had severe hypertension (at least 3 hypotensive drugs), 12 received CEI; 8 (53%) were smokers; 14 (93%) had one or more macroangiopathies (10/66% coronary heart diseases, 7/46% lower limbs arteritis, 6/40% carotid atheroma); 13 of these macroangiopathies are severe. In conclusion, renal failure (especially evolutive and/or treated with CEI) in NIDDM must call up a RAS (25%) specially in elderly males with a long diabetes duration, severe hypertension and macroangiopathies. This patient profile must lead to a color duplex scan to confirm the diagnosis already suspected by the renal echography.
...
PMID:[Renal artery stenosis and chronic renal failure in NIDDM]. 974 69
Approximately 150 million people worldwide have diabetes mellitus, of whom 90% are type II diabetics. It is therefore of no surprise that diabetic nephropathy has become the leading cause of end-stage renal disease. Opposite to what has been known previously, kidney disease is at least as common in type II as in type I diabetes. However, because the majority of type II diabetics has hypertension for many years before diabetes mellitus becomes clinically relevant, renal lesions are often heterogeneous with frequent exclusive presence of ischemic changes. For the treatment of hypertension in diabetics without nephropathy (no
microalbuminuria
), drugs that exert beneficial effects or are at least neutral with respect to lipid and glucose metabolism, such as ACE inhibitors, angiotensin II-receptor antagonists, non-dihydropyridine-calcium channel blockers and the thiazide-like indapamide, are to be preferred. Although metabolically neutral, dihydropyridine calcium channel blockers should be used with caution, since an increase in cardiovascular morbidity and mortality in type II diabetics treated with these compounds has most recently been described. Once that diabetic nephropathy is established, blood pressure should be lowered to 120/80 mmHg (measured in seated position). Antihypertensive treatment should primarily be based on ACE inhibitors; angiotensin II-receptor antagonists are a valuable alternative if ACE inhibitors are not tolerated. Both ACE inhibitors and angiotensin II-receptor antagonists should be used with high caution in elderly patients with severe atherosclerosis in whom acute renal failure could occur due to the presence of bilateral
renal artery stenosis
. Newer studies indicate that non-dihydropyridine calcium channel blockers such as verapamil and diltiazem may be as effective as ACE inhibitors in preserving renal function in diabetic nephropathy. A fix-dose combination of the ACE inhibitor trandolapril with verapamil is now available; it should be reserved for patients whose blood pressure and/or proteinuria can not be adequately controlled with ACE inhibitors. Finally, indapamide is the only antihypertensive diuretic with nephroprotective properties.
...
PMID:[Antihypertensive therapy in diabetes mellitus]. 1006 31
Resistant hypertension, defined as failure to achieve target blood pressure despite the use of optimal or maximum doses of at least 3 agents, one of which is a diuretic, or requiring 4 or more medications to achieve blood pressure goal, is likely to affect up to 20% of all patients with hypertension. Apparent resistant hypertension may be caused by medication nonadherence, substances that either interfere with antihypertensive mediations or cause blood pressure elevation, and under- or inappropriate medication treatment. Certain patient characteristics are associated with the presence of resistant hypertension and include chronic kidney disease, diabetes, obesity, and presence of end-organ damage (
microalbuminuria
, retinopathy, left-ventricular hypertrophy). Secondary causes of resistant hypertension are not uncommon and include obstructive sleep apnea, chronic kidney disease, primary aldosteronism,
renal artery stenosis
, pheochromocytoma, and Cushing's disease. Initial medication management usually includes adding or increasing the dose of a diuretic, which is effective in lowering the blood pressure of a large number of patients with resistant hypertension. Additional management options include maximizing lifestyle modification, combination therapy of antihypertensive agents depending on individual patient characteristics, adding less-commonly used fourth- or fifth-line antihypertensive agents, and referral to a hypertension specialist.
...
PMID:Clinical approach in treatment of resistant hypertension. 2196 29
