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The spectrum of low-renin hypertension.
Buffolo, F, Monticone, S, Pecori, A, Pieroni, J, Losano, I, Cavaglià, G, Tetti, M, Veglio, F, Mulatero, P
Best practice & research. Clinical endocrinology & metabolism. 2020;(3):101399
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Abstract
Low-renin hypertension (LRH) is a frequent condition in patients with arterial hypertension, accounting for 30% of patients. Monogenic forms can cause LRH in a minority of cases. However, in the large majority of patients, LRH is caused by the combined effects of congenital and acquired factors, comprising dietary habits. Several genetic variants have been proposed as co-factors in the pathogenesis of LRH with normal-low serum aldosterone. Emerging evidences support the hypothesis that a large proportion of LRH with normal-high serum aldosterone is associated with subclinical primary aldosteronism (PA). The recent identification of aldosterone-producing cell clusters (APCCs) as the possible cause of subclinical PA, further supported the concept of a continuous spectrum of autonomous aldosterone secretion, from subclinical forms towards overt PA. In this review we describe the main aspects of LRH, focusing on molecular basis, clinical risk profile and patients' management.
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Change in renal function associated with drug treatment in heart failure: national guidance.
Clark, AL, Kalra, PR, Petrie, MC, Mark, PB, Tomlinson, LA, Tomson, CR
Heart (British Cardiac Society). 2019;(12):904-910
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Abstract
Inhibitors of the renin-angiotensin-aldosterone (RAAS) system are cornerstones of the management of patients with heart failure with reduced left ventricular ejection fraction (HFrEF). However, RAAS inhibitors may cause decline in renal function and/or hyperkalaemia, particularly during initiation and titration, intercurrent illness and during worsening of heart failure. There is very little evidence from clinical trials to guide the management of renal dysfunction. The Renal Association and British Society for Heart Failure have collaborated to describe the interactions between heart failure, RAAS inhibitors and renal dysfunction and give clear guidance on the use of RAAS inhibitors in patients with HFrEF. During initiation and titration of RAAS inhibitors, testing renal function is mandatory; a decline in renal function of 30% or more can be acceptable. During intercurrent illness, there is no evidence that stopping RAAS inhibitor is beneficial, but if potassium rises above 6.0 mmol/L, or creatinine rises more than 30%, RAAS inhibitors should be temporarily withheld. In patients with fluid retention, high doses of diuretic are needed and a decline in renal function is not an indication to reduce diuretic dose: if the patient remains congested, more diuretics are required. If a patient is hypovolaemic, diuretics should be stopped or withheld temporarily. Towards end of life, consider stopping RAAS inhibitors. RAAS inhibition has no known prognostic benefit in heart failure with preserved ejection fraction. Efforts should be made to initiate, titrate and maintain patients with HFrEF on RAAS inhibitor treatment, whether during intercurrent illness or worsening heart failure.
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An ectopic renin-secreting adrenal corticoadenoma in a child with malignant hypertension.
Kaslow, AM, Riquier-Brison, A, Peti-Peterdi, J, Shillingford, N, HaDuong, J, Venkatramani, R, Gayer, CP
Physiological reports. 2016;(5)
Abstract
A previously healthy 7-year-old male presented with hypertensive emergency, hypokalemia, and elevated plasma renin activity and aldosterone levels. There was no evidence of virilization or cushingoid features. MRI of the abdomen revealed a large (5 × 5 × 3 cm) peripherally enhancing, heterogeneous mass arising from the left adrenal gland. The patient was treated for a suspected pheochromocytoma. However, his blood pressure was not responsive to alpha-blockade. Blood pressure was controlled with a calcium channel blocker and an angiotensin-converting enzyme (ACE) inhibitor. A complete surgical resection of the mass was performed. Postoperatively, his blood pressure normalized and he did not require antihypertensives. On pathological examination, the tumor tissue stained negative for chromogranin and positive for renin. The final diagnosis was renin-secreting adrenal corticoadenoma, an extremely rare adrenal tumor not previously reported in a pediatric patient. Malignant hypertension due to a renin-secreting tumor may need to be distinguished from a pheochromocytoma if alpha-adrenergic blockade is ineffective.
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Roles of the circulating renin-angiotensin-aldosterone system in human pregnancy.
Lumbers, ER, Pringle, KG
American journal of physiology. Regulatory, integrative and comparative physiology. 2014;(2):R91-101
Abstract
This review describes the changes that occur in circulating renin-angiotensin-aldosterone system (RAAS) components in human pregnancy. These changes depend on endocrine secretions from the ovary and possibly the placenta and decidua. Not only do these hormonal secretions directly contribute to the increase in RAAS levels, they also cause physiological changes within the cardiovascular system and the kidney, which, in turn, induce reflex release of renal renin. High levels of ANG II play a critical role in maintaining circulating blood volume, blood pressure, and uteroplacental blood flow through interactions with the ANG II type I receptor and through increased production of downstream peptides acting on a changing ANG receptor phenotype. The increase in ANG II early in gestation is driven by estrogen-induced increments in angiotensinogen (AGT) levels, so there cannot be negative feedback leading to reduced ANG II production. AGT can exist in various forms in terms of redox state or complexed with other proteins as polymers; these affect the ability of renin to cleave ANG I from AGT. Thus, during pregnancy the rate of ANG I production varies not only because levels of renin change in response to homeostatic demand but also because AGT changes not only in concentration but in form. Activation of the circulating and intrarenal RAASs is essential for normal pregnancy outcome subserving the increased demand for salt and, hence, water during pregnancy. Thus, the complex integration of the secretions and actions of the circulating maternal renin-angiotensin system in pregnancy plays a key role in pregnancy outcome.
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Aliskiren in the treatment of hypertension and organ damage.
Riccioni, G
Cardiovascular therapeutics. 2011;(1):77-87
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Abstract
Hypertension is one of the most important risk factor and cause of cardiovascular diseases (CVD). Chronic activation of the renin-angiotensin-aldosterone system (RAAS) plays a key role in the development of hypertension, cardiac and renal diseases. RAAS inhibitors, such as angiotensin-converting enzyme inhibitors (ACEI) and angiotensin receptor blockers (ARBs), improve cardiovascular and renal outcomes. However, studies have shown that residual morbidity and mortality remains high, despite current optimal treatment. More comprehensive control of the RAAS might provide additional reductions in morbidity and mortality. Direct renin inhibitors such aliskiren offer the potential for enhanced RAAS control as they target the system at the point of activation, thereby reducing plasma renin activity; by contrast, ACEI and ARBs increase plasma renin activity. The efficacy of aliskiren in the reduction of major clinical events is being tested in large ongoing clinical trials. This review examines the efficacy, safety, and tolerability of aliskiren, and considers the evidence for the potential organ protection benefits of this treatment.