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1.
Molecular and physical technologies for monitoring fluid and electrolyte imbalance: A focus on cancer population.
Bennet, D, Khorsandian, Y, Pelusi, J, Mirabella, A, Pirrotte, P, Zenhausern, F
Clinical and translational medicine. 2021;(6):e461
Abstract
Several clinical examinations have shown the essential impact of monitoring (de)hydration (fluid and electrolyte imbalance) in cancer patients. There are multiple risk factors associated with (de)hydration, including aging, excessive or lack of fluid consumption in sports, alcohol consumption, hot weather, diabetes insipidus, vomiting, diarrhea, cancer, radiation, chemotherapy, and use of diuretics. Fluid and electrolyte imbalance mainly involves alterations in the levels of sodium, potassium, calcium, and magnesium in extracellular fluids. Hyponatremia is a common condition among individuals with cancer (62% of cases), along with hypokalemia (40%), hypophosphatemia (32%), hypomagnesemia (17%), hypocalcemia (12%), and hypernatremia (1-5%). Lack of hydration and monitoring of hydration status can lead to severe complications, such as nausea/vomiting, diarrhea, fatigue, seizures, cell swelling or shrinking, kidney failure, shock, coma, and even death. This article aims to review the current (de)hydration (fluid and electrolyte imbalance) monitoring technologies focusing on cancer. First, we discuss the physiological and pathophysiological implications of fluid and electrolyte imbalance in cancer patients. Second, we explore the different molecular and physical monitoring methods used to measure fluid and electrolyte imbalance and the measurement challenges in diverse populations. Hydration status is assessed in various indices; plasma, sweat, tear, saliva, urine, body mass, interstitial fluid, and skin-integration techniques have been extensively investigated. No unified (de)hydration (fluid and electrolyte imbalance) monitoring technology exists for different populations (including sports, elderly, children, and cancer). Establishing novel methods and technologies to facilitate and unify measurements of hydration status represents an excellent opportunity to develop impactful new approaches for patient care.
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2.
Fluid and Electrolyte Disturbances in COVID-19 and Their Complications.
Pourfridoni, M, Abbasnia, SM, Shafaei, F, Razaviyan, J, Heidari-Soureshjani, R
BioMed research international. 2021;:6667047
Abstract
The novel coronavirus disease 2019 (COVID-19) is the cause of an acute respiratory illness which has spread around the world. The virus infects the host by binding to the angiotensin-converting enzyme 2 (ACE2) receptors. Due to the presence of ACE2 receptors in the kidneys and gastrointestinal (GI) tract, kidneys and GI tract damage arising from the virus can be seen in patients and can cause acute conditions such as acute kidney injury (AKI) and digestive problems for the patient. One of the complications of kidneys and GI involvement in COVID-19 is fluid and electrolyte disturbances. The most common ones of these disorders are hyponatremia, hypernatremia, hypokalemia, hypocalcemia, hypochloremia, hypervolemia, and hypovolemia, which if left untreated, cause many problems for patients and even increase mortality. Fluid and electrolyte disturbances are more common in hospitalized and intensive care patients. Children are also at greater risk for fluid and electrolyte disturbances complications. Therefore, clinicians should pay special attention to the fluid and electrolyte status of patients. Changes in fluid and electrolyte levels can be a good indicator of disease progression.
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3.
Fluid and electrolyte therapy in childhood diabetic ketoacidosis management: A rationale for new national guideline.
Agwu, JC, Ng, SM
Diabetic medicine : a journal of the British Diabetic Association. 2021;(8):e14595
Abstract
Fluid and electrolyte therapy in childhood diabetic ketoacidosis (DKA) management has been controversial. Previous National Institute for Health and Care Excellence (NICE) 2015 guidance advocated a restricted fluid regimen while more recent guidelines have advocated a more liberal approach to fluid replacement in DKA. At the core of the debate is the need to avoid developing cerebral oedema as a complication. Although subtle asymptomatic cerebral oedema is common in children presenting in DKA, clinically apparent cerebral oedema is rare and has been reported in approximately 0.5%-1% of DKA cases in children. Recent research evidence has shown that there was no clear evidence of a difference in rates of clinically apparent cerebral injury in children in DKA managed with a range of fluid volumes and rates of rehydration. In view of this, NICE has updated its guideline. In this paper, we review literature evidence underpinning the current understanding of the pathophysiology of cerebral oedema in children and discuss the rationale for the new NICE guidance.
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4.
Urine Electrolytes in the Intensive Care Unit: From Pathophysiology to Clinical Practice.
Umbrello, M, Formenti, P, Chiumello, D
Anesthesia and analgesia. 2020;(5):1456-1470
Abstract
Assessment of urine concentrations of sodium, chloride, and potassium is a widely available, rapid, and low-cost diagnostic option for the management of critically ill patients. Urine electrolytes have long been suggested in the diagnostic workup of hypovolemia, kidney injury, and acid-base and electrolyte disturbances. However, due to the wide range of normal reference values and challenges in interpretation, their use is controversial. To clarify their potential role in managing critical patients, we reviewed existing evidence on the use of urine electrolytes for diagnostic and therapeutic evaluation and assessment in critical illness. This review will describe the normal physiology of water and electrolyte excretion, summarize the use of urine electrolytes in hypovolemia, acute kidney injury, acid-base, and electrolyte disorders, and suggest some practical flowcharts for the potential use of urine electrolytes in daily critical care practice.
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5.
Electrolyte minerals intake and cardiovascular health.
Mohammadifard, N, Gotay, C, Humphries, KH, Ignaszewski, A, Esmaillzadeh, A, Sarrafzadegan, N
Critical reviews in food science and nutrition. 2019;(15):2375-2385
Abstract
Appropriate intake of micronutrient, such as electrolyte minerals is critical for the well-being of the cardiovascular health system. However, there are some debates regarding the impacts of dietary and/or supplemental intake of these minerals, on the risk of cardiovascular events and associated risk factors. High sodium intake is adversely associated with the risk of hypertension. Although many reports refered to the positive association of Na intake and cardiovascular events and all-cause mortality, however, other studies indicated that low Na intake is related to higher risk of all-cause mortality and HF-related events. By contrast, dietary potassium, magnesium and calcium have an inverse correlation with cardiovascular events and risk factors, especially with blood pressure. There are some controversies about cardiovascular effects and all-cause mortality of high Ca intake, including no effect, preventive or adverse effect with or without vitamin D. Calcium supplementation might be beneficial for prevention of cardiovascular events and all-cause mortality only in individuals with low intake. Moreover, calcium intake showed a J- or U-shaped association with the risk of cardiovascular diseases. Due to the controversies of the effect of electrolyte minerals especially sodium and calcium intake on cardiovascular events, large scale, well-designed long-term randomized clinical trials are required to evaluate the effect of minerals intake on cardiovascular events and all-cause mortality. In this review, we discuss the role of dietary and or supplemental sodium, potassium, magnesium, calcium, in cardiovascular health, as well as their clinical applications, benefits, and risks for the primary prevention of cardiovascular disease, in general population.
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6.
Perioperative fluid management in children: can we sum it all up now?
Sümpelmann, R, Becke, K, Zander, R, Witt, L
Current opinion in anaesthesiology. 2019;(3):384-391
Abstract
PURPOSE OF REVIEW The composition and type of intravenous fluids during paediatric anaesthesia have been subjects of debates for decades. Errors in perioperative fluid management in children may lead to serious complications and a negative outcome. Therefore, in this review, historical and recent developments and recommendations for perioperative fluid management in children are presented, based on physiology and focused on safety and efficacy. RECENT FINDINGS Optimized fasting times and liberal clear fluid intake until 1 h improve patient comfort and metabolic and haemodynamic condition after induction of anaesthesia. Physiologically composed balanced isotonic electrolyte solutions are safer than hypotonic electrolyte solutions or saline 0.9% to protect young children against the risks of hyponatraemia and hyperchloraemic acidosis. For intraoperative maintenance infusion, addition of 1-2% glucose is sufficient to avoid hypoglycaemia, lipolysis or hyperglycaemia. Modified fluid gelatine or hydroxyethyl starch in balanced electrolyte solution can safely be used to quickly normalize blood volume in case of perioperative circulatory instability and blood loss. SUMMARY Physiologically composed balanced isotonic electrolyte solutions are beneficial for maintaining homeostasis, shifting the status more towards the normal range in patients with preexisting imbalances and have a wide margin of safety in case of accidental hyperinfusion.
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7.
Challenges in management of diabetic ketoacidosis in hemodialysis patients, case presentation and review of literature.
Seddik, AA, Bashier, A, Alhadari, AK, AlAlawi, F, Alnour, HH, Bin Hussain, AA, Frankel, A, Railey, MJ
Diabetes & metabolic syndrome. 2019;(4):2481-2487
Abstract
Chronic kidney disease is associated with accumulation of uremic toxins that increases insulin resistance which will lead to blunted ability to suppress hepatic gluconeogenesis and reduce peripheral utilization of insulin. CKD patients fail to increase insulin secretion in response to insulin resistance because of acidosis, 1,25 vitamin D deficiency, and secondary hyperparathyroidism. Hemodialysis causes further fluctuations in glycemic control due to alterations in insulin secretion, clearance and resistance. DKA is uncommon in hemodialysis patients because of the absence of glycosuria and osmotic diuresis which accounts for most of the fluid and electrolyte losses seen in DKA, anuric patients may be somewhat protected from dehydration and shock, although still subject to hyperkalemia and metabolic acidosis. However, substantial volume loss can still occur due to a prolonged decrease in oral intake or increased insensible water losses related to tachypnoea and fever. There is no current guidelines for the management of diabetic ketoacidosis in anuric hemodialysis patients considering their differences than general population. In this review article we reviewed the literature and came with specific recommendations for management of Ketoacidosis in patients with CKD treated by hemodialysis.
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8.
SGLT2 inhibitors-induced electrolyte abnormalities: An analysis of the associated mechanisms.
Filippatos, TD, Tsimihodimos, V, Liamis, G, Elisaf, MS
Diabetes & metabolic syndrome. 2018;(1):59-63
Abstract
AIMS: Sodium-glucose co-transporter 2 (SGLT2) inhibitors are a new class of antidiabetic drugs that affect serum electrolytes levels. The aim of this review is the detailed presentation of the associated mechanisms of the SGLT2 inhibitors-induced electrolyte abnormalities. MATERIALS AND METHODS Eligible trials and relevant articles published in PubMed (last search in July 2017) are included in the review. RESULTS SGLT2 inhibitors induce small increases in serum concentrations of magnesium, potassium and phosphate. The small increase in serum phosphate concentration may result in reduced bone density and increased risk of bone fractures, mainly seen with canagliflozin, but recent meta-analyses did not show increased risk of bone fractures with SGLT2 inhibitors. CONCLUSION The increases in serum electrolytes levels may play a role in the cardiovascular protection that has been recently reported with empagliflozin and canagliflozin.
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9.
Urine electrolyte measurement as a "window" into renal microcirculatory stress assessment in critically ill patients.
Maciel, AT, ,
Journal of critical care. 2018;:90-96
Abstract
Urine electrolyte assessment has long been used in order to understand electrolyte concentration disturbances in blood and as an easy tool for monitoring renal perfusion and structural tubular damage. In the last few years, great improvement in the pathophysiology of acute kidney injury (AKI) has occurred, and the correlation between urine biochemistry (UB) behavior and renal perfusion was frequently questioned. Many authors have suggested abandoning UB monitoring due to its unclear role in AKI monitoring. Our group has been working in this field in the critically ill population, and we believe that, although UB is indeed very useful, a different point of view regarding the interpretation of the data should be used. The aim of this review is to explain the rationale of these new concepts and make suggestions for their adequate use in daily ICU practice, especially in low-income countries where more sophisticated and expensive AKI biomarker assessments are not available.
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10.
Electrolyte Disturbances in Critically Ill Cancer Patients: An Endocrine Perspective.
Khan, MI, Dellinger, RP, Waguespack, SG
Journal of intensive care medicine. 2018;(3):147-158
Abstract
Electrolyte disturbances are frequently encountered in critically ill oncology patients. Hyponatremia and hypernatremia as well as hypocalcemia and hypercalcemia are among the most commonly encountered electrolyte abnormalities. In the intensive care unit, management of critical electrolyte disturbances is focused on initial evaluation and immediate treatment plan to prevent severe complications. A PubMed search was performed to identify best available evidence for evaluation and management of dysnatremias, hypocalcemia, and hypercalcemia. Current literature was reviewed regarding the management of electrolyte disturbances. The role of new therapeutic options, for example, vaptans for hyponatremia, teriparatide for hypocalcemia, and denosumab for hypercalcemia, is discussed. Early diagnosis and appropriate management are expected to reduce adverse outcomes.