Reduced Mortality in Maintenance Haemodialysis Patients on High versus Low Dialysate Magnesium: A Pilot Study

Schmaderer, Christoph; Braunisch, Matthias C.; Suttmann, Yana; Lorenz, Georg; Pham, Dang Tuan; Haller, Bernhard; Angermann, Susanne; Matschkal, Julia; Renders, Lutz; Baumann, Marcus; Braun, Jürgen R.; Heemann, Uwe; Küchle, Claudius

doi:10.3390/nu9090926

Cited by 27 publications

(25 citation statements)

References 26 publications

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“…This effect was reversed by a dialysate containing calcium, 1.25 mmol L −1 , and Mg, 0.75 mmol L −122 , suggesting that Mg may be more important than calcium in maintaining the hemodynamic stability. Moreover, a small case‐control study suggests that a higher dialysate magnesium might offer a beneficial effect on all‐cause and cardiovascular mortality in chronic HD patients . In this recent study, a high dialysate magnesium of 0.75 mmol L −1 was associated with a significant mortality risk reduction as compared to standard dialysate magnesium of 0.5 mmol L −1 even after adjusting for well‐known mortality risks.…”

Section: Types Of Supplementationsmentioning

confidence: 74%

Magnesium supplementation: A consideration in dialysis patients

Apetrii

Covic

Massy

2017

Seminars in Dialysis

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Even though disorders of magnesium (Mg) balance are common in dialyzed patients, this cation is often neglected. Many factors interfere with serum magnesium including diet, medications (eg, antacids or phosphate binders), and the dialysis prescription. Mg supplementation may help reduce serum phosphate concentration, PTH, and interfere with vascular calcification and bone mineralization. It could also decrease the all-cause and cardiovascular mortalities, although the results of current studies are conflicting. As with many other variables that influence hard endpoints in nephrology, additional research directly targeting the role of Mg supplementation in dialyzed patients are required. Nevertheless, a current risk/benefit assessment suggests that supplementation of Mg targeting high normal serum levels may represent a plausible option to improve the outcome of dialysis patients.

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Section: Types Of Supplementationsmentioning

confidence: 74%

Magnesium supplementation: A consideration in dialysis patients

Apetrii

Covic

Massy

2017

Seminars in Dialysis

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“…Several authors propose the use of a CDF formulation with higher Mg levels than usual (0.5 mM) to solve the aforementioned problem and provide a new strategy to reduce oxidative stress induced by HD therapy [15,26,29]. In a recent retrospective case-control study, HD patients on dialysate with low-or high-Mg (0.5 and 0.75 mM, respectively) were analyzed for survival [32]. During a 3-year follow-up, 20% of the patients died in the high-Mg group vs. 36% in the low-Mg group [32].…”

Section: Discussionmentioning

confidence: 99%

“…In a recent retrospective case-control study, HD patients on dialysate with low-or high-Mg (0.5 and 0.75 mM, respectively) were analyzed for survival [32]. During a 3-year follow-up, 20% of the patients died in the high-Mg group vs. 36% in the low-Mg group [32]. These data suggest that the increased Mg concentration in the dialysate could have a beneficial effect on CVD-associated mortality in HD patients [23,28,46].…”

Section: Discussionmentioning

confidence: 99%

Increasing the Magnesium Concentration in Various Dialysate Solutions Differentially Modulates Oxidative Stress in a Human Monocyte Cell Line

et al. 2020

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es (M.A.) † These authors share senior authorship.Abstract: Oxidative stress is exacerbated in hemodialysis patients by several factors, including the uremic environment and the use of dialysis fluids (DFs). Since magnesium (Mg) plays a key role in modulating immune function and in reducing oxidative stress, we aimed to evaluate whether increasing the Mg concentration in different DFs could protect against oxidative stress in immunocompetent cells in vitro. Effect of ADF (acetate 3 mM), CDF (citrate 1 mM), and ACDF (citrate 0.8 mM + acetate 0.3 mM) dialysates with Mg at standard (0.5 mM) or higher (1, 1.25, and 2 mM) concentrations were assessed in THP-1 monocyte cultures. Reactive oxygen species (ROS) and malondialdehyde (MDA) levels were quantified under basal and uremic conditions (indoxyl sulfate (IS) treatment). Under uremic conditions, the three DFs with 0.5 mM Mg promoted higher ROS production and lipid damage than the control solution. However, CDF and ACDF induced lower levels of ROS and MDA, compared to that induced by ADF. High Mg concentration (1.25 and/or 2 mM) in CDF and ACDF protected against oxidative stress, indicated by reduced ROS and MDA levels compared to respective DFs with standard concentration of Mg. Increasing Mg concentrations in ADF promoted high ROS production and MDA content. Thus, an increase in Mg content in DFs has differential effects on the oxidative stress in IS-treated THP-1 cells depending on the dialysate used. renal function and the prevalence of cardiovascular events through altered leukocyte activation and intensified oxidative stress [3][4][5][6][7].Classically, UTs are divided into three categories: low-molecular-weight water-soluble solutes (<500 Da), middle-molecular-weight solutes (>500 Da), and protein-bound solutes [8]. These uremic toxins, represented by IS, is extremely toxic and difficult to eliminate by conventional dialysis; consequently, high IS levels may trigger oxidative-inflammatory stress, playing a key pathophysiologic role in CKD. In fact, several studies have confirmed that the occurrence of CVD induced by CKD is closely related to the IS accumulation [3].Uremia promotes a state of enhanced oxidative stress, which is the result of pro-oxidant molecules, such as reactive oxygen species (ROS), overwhelming the antioxidant defense mechanisms [9]. An increase in oxidative stress occurs during the dialysis session owing to the loss of antioxidants (e.g., uric acid, etc.) and the activation of leukocytes, which trigger both inflammatory compounds and ROS production, contributing to oxidative damage of biomolecules (e.g., lipid peroxidation, DNA damage, etc.) [3,[9][10][11][12].Clinical and experimental evidence demonstrates that several factors inherent to the dialysis procedure itself, such as dialysis modality, iron administration, biocompatibility, and types of dialyzer membrane and dialysates, can play a key role promoting chronic inflammation and oxidative stress in HD patients [9][10][11][12]. Bio-incompatibility during HD induces leukocyte activation...

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“…In experimental studies, magnesium inhibited vascular calcification and osteogenic differentiation in vitro [ 5 ], prevented calciprotein particle maturation, which can induce calcification in vitro [ 6 ], and bound to phosphate in the intestines, which reduced vascular calcification in rats [ 7 ]. In clinical studies, the follow-up periods used in previous large studies have been short [ 8 , 9 ]; notably, few interventional studies have been performed [ 2 , 10 ]. Clinical studies have produced inconsistent results regarding the association between Mg levels and mortality, partly because hypomagnesemia is linked to an increased frequency of co-morbidities.…”

Section: Introductionmentioning

confidence: 99%

Hypomagnesemia is not an independent risk factor for mortality in Japanese maintenance hemodialysis patients

Mizuiri¹,

Nishizawa²,

Yamashita³

et al. 2019

Int Urol Nephrol

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Purpose It is unclear whether hypomagnesemia is an independent risk factor or innocent bystander for mortality in maintenance hemodialysis (MHD) patients. Thus, we studied associations between hypomagnesemia and all-cause as well as cardiovascular (CV) mortality in MHD patients. Methods Baseline clinical characteristics and coronary artery calcium score (CACS) of 353 Japanese MHD patients were reviewed. Three-year survival rate and mortality risk factors were assessed. Results Median (interquartile range) age, dialysis vintage, serum magnesium (Mg), serum albumin and CACS of the subjects were 68 (60–78) years, 75 (32–151) months, 2.4 (2.2–2.7) mg/dl, 3.6 (3.3–3.8) g/dl, and 1181 (278–3190), respectively. During the 3-year period, 91 patients died. Kaplan–Meier overall 3-year survival rates were 59.0% in in patients with Mg < 2.4 mg/dl ( n = 136) and 82.3% in patients with Mg ≥ 2.4 mg/dl ( n = 217), ( P < 0.0001). In Cox regression models not incorporating serum albumin, Mg < 2.4 mg/dl was significantly associated with 3-year all-cause death, independent of age, dialysis vintage, average ultrafiltration, Log (CACS + 1), warfarin use, serum potassium, high-sensitivity C-reactive protein (hsCRP), phosphate, uric acid, and intact parathyroid hormone [Hazard ratio (HR) 95% confidence interval (CI): 2.82 (1.31–6.29), P = 0.0078], and CV death, independent of age, dialysis vintage, Log (CACS + 1), warfarin use, serum hsCRP, and uric acid [HR (95% CI): 4.47 (1.45–16.76), P = 0.0086]. Nevertheless, associations of Mg < 2.4 mg/dl with all-cause and CV mortality were all absent in models that included serum albumin. Conclusions Hypomagnesemia is not an independent risk factor for mortality but is associated with malnutrition in MHD patients.

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Reduced Mortality in Maintenance Haemodialysis Patients on High versus Low Dialysate Magnesium: A Pilot Study

Cited by 27 publications

References 26 publications

Magnesium supplementation: A consideration in dialysis patients

Magnesium supplementation: A consideration in dialysis patients

Increasing the Magnesium Concentration in Various Dialysate Solutions Differentially Modulates Oxidative Stress in a Human Monocyte Cell Line

Hypomagnesemia is not an independent risk factor for mortality in Japanese maintenance hemodialysis patients

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