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1.
The Cardiorenal Syndrome in Heart Failure.
Costanzo, MR
Heart failure clinics. 2020;(1):81-97
Abstract
Abnormal fluid handling leads to physiologic abnormalities in multiple organ systems. Deranged hemodynamics, neurohormonal activation, excessive tubular sodium reabsorption, inflammation, oxidative stress, and nephrotoxic medications are important drivers of harmful cardiorenal interactions in patients with heart failure. Accurate quantitative measurement of fluid volume is vital to individualizing therapy for such patients. Blood volume analysis and pulmonary artery pressure monitoring seem the most reliable methods for assessing fluid volume and guiding decongestive therapies. Still the cornerstone of decongestive therapy, diuretics' effectiveness decreases with progression of heart failure. Extracorporeal ultrafiltration, an alternative to diuretics, has been shown to reduce heart-failure events.
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2.
A narrative review of pharmacologic de-resuscitation in the critically ill.
Bissell, BD, Donaldson, JC, Morris, PE, Neyra, JA
Journal of critical care. 2020;:156-162
Abstract
Despite evidence highlighting harms of fluid overload, minimal guidance exists on counteraction via utilization of diuretics in the de-resuscitation phase. While diuretics have been shown to decrease net volume and improve clinical outcomes in the critically ill, a lack of standardization surrounding selection of diuretic regimen or monitoring of de-resuscitation exists. Current monitoring parameters of de-resuscitation often rely on clinical signs of fluid overload, end organ recovery and other biochemical surrogate markers which are often deemed unreliable. The majority of evidence suggests that achieving a net-negative fluid balance within 72 h after shock resolution may be of benefit; however, approaches to such goal are uncertain. Loop diuretics are a widely available type of diuretic for removal of volume in patients with sufficient kidney function, with the potential for adjunct diuretics in special circumstances. At present, administration of diuretics within the broad critically ill population fails to find uniformity and often efficacy. Given the lack of randomized controlled trials in this susceptible population, we aim to provide a thorough therapeutic understanding of diuretic pharmacotherapy which is necessary in order to achieve desired goal of fluid balance and improve overall outcomes.
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3.
Acute kidney injury.
Reis, T
Revista da Associacao Medica Brasileira (1992). 2020;(Suppl 1):s68-s74
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4.
Urea for Chronic Hyponatremia.
Rondon-Berrios, H
Blood purification. 2020;(1-2):212-218
Abstract
BACKGROUND Hyponatremia is the most common electrolyte disorder encountered clinically. While acute and/or severe hyponatremia is commonly associated with significant symptoms, milder and more chronic forms of hyponatremia remain clinically inconspicuous. Recent evidence suggests that even milder forms of hyponatremia are associated with increased morbidity and mortality. Despite this, currently available treatments for chronic hyponatremia lack data on efficacy and/or have important limitations related to patient nonadherence, adverse side effects, and/or significant costs. Consequently, there is a clear need for investigation of alternative treatments for this common condition. SUMMARY Small case series conducted in Europe since the early 1980s suggest that urea, an oral osmotic diuretic that increases urinary water excretion, is safe and effective for the treatment of chronic hyponatremia. In 2016, a novel formulation of urea became available in the United States. Our group recently reported the first and only study describing the efficacy and safety of this American formulation of oral urea among hospitalized patients with hyponatremia. Key Messages: Oral urea appears to be an effective, safe, and well-tolerated therapeutic strategy in the management of chronic hyponatremia.
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5.
Pathophysiology of Drug-Induced Hypomagnesaemia.
Katopodis, P, Karteris, E, Katopodis, KP
Drug safety. 2020;(9):867-880
Abstract
Magnesium (Mg2+) is the second most abundant intracellular and fourth extracellular cation found in the body and is involved in a wide range of functions in the human cell and human physiology. Its role in most of the enzyme processes (ATP-ases)-stabilisation of nucleic acids (DNA, RNA), regulation of calcium and potassium ion channels, proliferation, glucose metabolism and apoptosis-make it one of the most important cations in the cell. Three pathogenetic mechanisms are mainly implicated in the development of hypomagnesaemia: reduced food intake, decreased intestinal absorption and increased renal excretion of Mg2+. This review presents the function of Mg2+, how it is handled in the kidney and the drugs that cause hypomagnesaemia. The frequency and the number of drugs like diuretics and proton-pump inhibitors (PPIs) that are used daily in medical practice are discussed in order to prevent and treat adverse effects by providing an insight into Mg2+ homeostasis.
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6.
Heart failure drug treatment.
Rossignol, P, Hernandez, AF, Solomon, SD, Zannad, F
Lancet (London, England). 2019;(10175):1034-1044
Abstract
Heart failure is the most common cardiovascular reason for hospital admission for people older than 60 years of age. Few areas in medicine have progressed as remarkably as heart failure treatment over the past three decades. However, progress has been consistent only for chronic heart failure with reduced ejection fraction. In acutely decompensated heart failure and heart failure with preserved ejection fraction, none of the treatments tested to date have been definitively proven to improve survival. Delaying or preventing heart failure has become increasingly important in patients who are prone to heart failure. The prevention of worsening chronic heart failure and hospitalisations for acute decompensation is also of great importance. The objective of this Series paper is to provide a concise and practical summary of the available drug treatments for heart failure. We support the implementation of the international guidelines. We offer views on the basis of our personal experience in research areas that have insufficient evidence. The best possible evidence-based drug treatment (including inhibitors of the renin-angiotensin-aldosterone system and β blockers) is useful only when optimally implemented. However, implementation might be challenging. We believe that disease management programmes can be helpful in providing a multidisciplinary, holistic approach to the delivery of optimal medical care.
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7.
The use of diuretics in heart failure with congestion - a position statement from the Heart Failure Association of the European Society of Cardiology.
Mullens, W, Damman, K, Harjola, VP, Mebazaa, A, Brunner-La Rocca, HP, Martens, P, Testani, JM, Tang, WHW, Orso, F, Rossignol, P, et al
European journal of heart failure. 2019;(2):137-155
Abstract
The vast majority of acute heart failure episodes are characterized by increasing symptoms and signs of congestion with volume overload. The goal of therapy in those patients is the relief of congestion through achieving a state of euvolaemia, mainly through the use of diuretic therapy. The appropriate use of diuretics however remains challenging, especially when worsening renal function, diuretic resistance and electrolyte disturbances occur. This position paper focuses on the use of diuretics in heart failure with congestion. The manuscript addresses frequently encountered challenges, such as (i) evaluation of congestion and clinical euvolaemia, (ii) assessment of diuretic response/resistance in the treatment of acute heart failure, (iii) an approach towards stepped pharmacologic diuretic strategies, based upon diuretic response, and (iv) management of common electrolyte disturbances. Recommendations are made in line with available guidelines, evidence and expert opinion.
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8.
Pivotal clinical trials, meta-analyses and current guidelines in the treatment of hyperkalemia.
Bianchi, S, Regolisti, G
Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association. 2019;(Suppl 3):iii51-iii61
Abstract
Hyperkalemia (HK) is the most common electrolyte disturbance observed in patients with advanced stages of chronic kidney disease (CKD), is a potentially life-threatening clinical condition due to an increased risk of fatal arrhythmias, and strongly impacts the quality of life and prognosis of CKD patients. Moreover, while renin-angiotensin-aldosterone system inhibitors (RAASIs) represent the most cardio-nephro-protective drugs used in clinical practice, the treatment with these drugs per se increases serum potassium (sK) values, particularly when heart failure and diabetes mellitus coexist. In fact, the onset or recurrence of HK is frequently associated with not starting, down-titrating or withdrawing RAASIs, and is an indication to begin renal replacement treatment in end-stage renal disease. Current strategies aimed at preventing and treating chronic HK are still unsatisfactory, as evidenced by the relatively high prevalence of HK also in patients under stable nephrology care, and even in the ideal setting of randomized clinical trials. Indeed, dietary potassium restriction, the use of sodium bicarbonate or diuretics, the withdrawal or down-titration of RAASIs, or the administration of old potassium binders, namely sodium polystyrene sulphonate and calcium polystyrene sulphonate, have limited efficacy and are poorly tolerated; therefore, these strategies are not suitable for long-term control of sK. As such, there is an important unmet need for novel therapeutic options for the chronic management of patients at risk for HK. The development of new potassium binders may change the treatment landscape in the near future. This review summarizes the current evidence on the treatment of chronic HK in cardio-renal patients.
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9.
Hyponatremia-Inducing Drugs.
Liamis, G, Megapanou, E, Elisaf, M, Milionis, H
Frontiers of hormone research. 2019;:167-177
Abstract
In clinical practice, several medications such as diuretics, psychotropic drugs, and anticonvulsants have been reported to be a frequent cause of hyponatremia. Drugs may cause hyponatremia either by affecting the homeostasis of sodium and water (e.g., diuretics) or by altering the water homeostasis as a consequence of the syndrome of inappropriate secretion of antidiuretic hormone. On the contrary, drugs commonly prescribed in everyday clinical practice, including proton pump inhibitors, antibiotics, angiotensin-converting enzyme inhibitors, hypoglycemic agents and, amiodarone, have been infrequently 'incriminated' as causes of hyponatremia. Therefore, in the diagnostic approach of patients with low serum [Na+] levels, meticulous history taking and recording of pharmacotherapy is warranted to identify potentially culprit medications. Taking into account the adverse outcomes associated with even mild hyponatremia (i.e., impaired cognition, falls and fractures, mortality), recognition of drug-induced hyponatremia is of vital importance, while responsible agents should be discontinued and "re-challenge" should be avoided by informing the patient and involved caregivers.
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10.
Ascites and Hepatorenal Syndrome.
Adebayo, D, Neong, SF, Wong, F
Clinics in liver disease. 2019;(4):659-682
Abstract
Ascites occurs in up to 70% of patients during the natural history of cirrhosis. Management of uncomplicated ascites includes sodium restriction and diuretic therapy, whereas that for refractory ascites (RA) is regular large-volume paracentesis with transjugular intrahepatic portosystemic shunt being offered in appropriate patients. Renal impairment occurs in up to 50% of patients with RA with type 1 hepatorenal syndrome (HRS) being most severe. Liver transplant remains the definitive treatment of eligible candidates with HRS, whereas combined liver and kidney transplant should be considered in patients requiring dialysis for more than 4 to 6 weeks or those with underlying chronic kidney disease.