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Effect of Oral Branched-Chain Amino Acids on Serum Albumin Concentration in Heart Failure Patients with Hypoalbuminemia: Results of a Preliminary Study.
Uchino, Y, Watanabe, M, Takata, M, Amiya, E, Tsushima, K, Adachi, T, Hiroi, Y, Funazaki, T, Komuro, I
American journal of cardiovascular drugs : drugs, devices, and other interventions. 2018;(4):327-332
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Abstract
BACKGROUND We conducted a randomized, controlled trial to determine whether supplementation with oral branched-chain amino acids (BCAAs) improves serum albumin and clinical outcomes in heart failure (HF) patients with hypoalbuminemia. METHODS AND RESULTS We randomly assigned 18 in-hospital HF patients with serum albumin < 3.5 g/dL to receive oral BCAA granules (LIVACT®) for 28 days during their hospital stay or until discharge (BCAA group; N = 9) or to receive no supplementation (controls; N = 9), in addition to recommended HF therapy. The primary endpoints were changes from baseline in serum albumin and cardiothoracic ratio (CTR). Sixteen patients completed the study. The mean (± standard deviation) period of BCAA supplementation was 18.4 ± 8.4 days. Serum albumin significantly increased in the BCAA group [mean difference vs baseline, 0.44 g/dL; 95% confidence interval (CI) 0.13-0.76; P = 0.014] and did not change in controls (0.18 g/dL; 95% CI - 0.05 to 0.40; P = 0.108). CTR significantly decreased in the BCAA group (- 2.3%; 95% CI - 3.8 to - 0.8; P = 0.014) and did not change in controls (- 1.0%; 95% CI - 2.3 to 0.3; P = 0.111). CONCLUSION In-hospital HF patients with hypoalbuminemia supplemented with BCAAs showed increased serum albumin and decreased CTR. Clinical trial registration number UMIN000004488 [ http://www.umin.ac.jp/ctr/index.htm ].
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Volume of Plasma Expansion and Functional Outcomes in Stroke.
Miller, JB, Lewandowski, C, Wira, CR, Taylor, A, Burmeister, C, Welch, R
Neurocritical care. 2017;(2):191-195
Abstract
BACKGROUND Plasma expansion in acute ischemic stroke has potential to improve cerebral perfusion, but the long-term effects on functional outcome are mixed in prior trials. The goal of this study was to evaluate how the magnitude of plasma expansion affects neurological recovery in acute stroke. METHODS This was a secondary analysis of data from the Albumin in Acute Stroke Part 2 trial investigating the relationship between the magnitude of overall intravenous volume infusion (crystalloid and colloid) to clinical outcome. The data were inclusive of 841 patients with a mean age of 64 years and a median National Institutes of Health Stroke Scale (NIHSS) of 11. In a multivariable-adjusted logistic regression model, this analysis tested the volume of plasma expansion over the first 48 h of hospitalization as a predictor of favorable outcome, defined as either a modified Rankin Scale score of 0 or 1 or a NIHSS score of 0 or 1 at 90 days. This model included all study patients, irrespective of albumin or isotonic saline treatment. RESULTS Patients that received higher volumes of plasma expansion more frequently had large vessel ischemic stroke and higher NIHSS scores. The multivariable-adjusted model revealed that there was decreased odds of a favorable outcome for every 250 ml additional volume plasma expansion over the first 48 h (OR 0.91, 95 % CI, 0.88-0.94). CONCLUSIONS The present study demonstrates an association between greater volume of plasma expansion and worse neurological recovery.
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Asymmetric dimethylarginine (ADMA) in human blood: effects of extended haemodialysis in the critically ill patient with acute kidney injury, protein binding to human serum albumin and proteolysis by thermolysin.
Sitar, ME, Kayacelebi, AA, Beckmann, B, Kielstein, JT, Tsikas, D
Amino acids. 2015;(9):1983-93
Abstract
Free, non-protein bound asymmetrically guanidine-dimethylated arginine (ADMA) is an endogenous inhibitor of nitric oxide (NO) synthesis. Human erythrocytic membrane comprises considerable amounts of large (>50 kDa) ADMA-containing proteins. Location in the erythrocyte membrane and identity and physiological functions of ADMA-containing proteins are unrevealed. In healthy subjects, the concentration of free ADMA in heparinised plasma is almost identical to that of serum. We hypothesised that the robustness of free ADMA concentration in human blood is due to a remarkable resistance of erythrocytic ADMA-containing proteins against proteases. In vivo, we investigated the course of the concentration of ADMA in serum and EDTA plasma of a critically ill patient with acute kidney injury during extended haemodialysis. In vitro, we studied the effects of thermolysin, a useful experimental proteolytic enzyme of erythrocyte membrane proteins, on erythrocytic ADMA. The protein binding (PB) of ADMA to human serum albumin (HSA) was also determined. In these studies, ADMA was measured by a previously reported, fully validated GC-MS/MS method. We measured almost identical ADMA concentrations in plasma and serum samples of the patient. During dialysis, the circulating ADMA concentration decreased slowly and moderately indicating removal of this substance, which was however much less than expected from its low molecular weight (202 Da) and high water solubility. After dialysis, circulating ADMA concentration increased again, a phenomenon called rebound, and ADMA reached higher levels compared to the baseline. The PB value of ADMA to HSA was about 30 %. This surprisingly high PB value of ADMA to HSA may be an explanation for the rather poor dialysance of ADMA. Washed human erythrocytes suspended in phosphate-buffered physiological saline were found not to release appreciable amounts of free and ADMA-containing proteins. The lack of effect of coagulation or anticoagulation on the concentration of circulating free ADMA in humans is likely to be due to a remarkable resistance of ADMA-containing proteins in the erythrocyte membrane against proteases in vivo in humans. Our study suggests that free ADMA is released in the circulating blood at relatively high rates. The considerable PB of ADMA to HSA is likely to add to the apparently poor dialysability of ADMA. Other contributing factors could be redistribution of free ADMA between plasma and erythrocytes in favour of plasma ADMA and parallel formation of free ADMA from erythrocytic ADMA-containing proteins during haemodialysis.
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The effect of the systemic inflammatory response on plasma vitamin 25 (OH) D concentrations adjusted for albumin.
Ghashut, RA, Talwar, D, Kinsella, J, Duncan, A, McMillan, DC
PloS one. 2014;(3):e92614
Abstract
BACKGROUND Plasma 25-hydroxyvitamin D (25(OH) D) deficiencies are associated with several diseases. The magnitude of systemic inflammatory response, as evidenced by C-reactive protein (CRP), is a major factor associated with lower 25(OH)D. Other aspects of the systemic inflammatory response may be important in determining plasma 25 (OH)D concentrations. AIM: To examine the relationship between plasma 25(OH)D, CRP and albumin concentrations in two patient cohorts. METHODS 5327 patients referred for nutritional assessment and 117 patients with critical illness were examined. Plasma 25 (OH) D concentrations were measured using standard methods. Intra and between assay imprecision was <10%. RESULT In the large cohort, plasma 25 (OH) D was significantly associated with CRP (r(s) = -0.113, p<0.001) and albumin (rs = 0.192, p<0.001). 3711 patients had CRP concentrations ≤ 10 mg/L; with decreasing albumin concentrations ≥ 35, 25-34 and <25 g/l, median concentrations of 25 (OH) D were significantly lower from 35 to 28 to 14 nmol/l (p<0.001). This decrease was significant when albumin concentrations were reduced between 25-34 g/L (p<0.001) and when albumin <25 g/L (p<0.001). 1271 patients had CRP concentrations between 11-80 mg/L; with decreasing albumin concentrations ≥ 35, 25-34 and <25 g/l, median concentrations of 25 (OH) D were significantly lower from 31 to 24 to 19 nmol/l (p<0.001). This decrease was significant when albumin concentration were 25-34 g/L (p<0.001) and when albumin <25 g/L (p<0.001). 345 patients had CRP concentrations >80 mg/L; with decreasing albumin concentrations ≥ 35, 25-34 and <25 g/l, median concentrations of 25 (OH) D were not significantly altered varying from 19 to 23 to 23 nmol/l. Similar relationships were also obtained in the cohort of patients with critical illness. CONCLUSION Plasma concentrations of 25(OH) D were independently associated with both CRP and albumin and consistent with the systemic inflammatory response as a major confounding factor in determining vitamin D status.