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      Pathophysiology of Protein-Energy Wasting in Chronic Renal Failure

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      The Journal of Nutrition
      Oxford University Press (OUP)

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          Death risk in hemodialysis patients: the predictive value of commonly measured variables and an evaluation of death rate differences between facilities.

          Logistic regression analysis was applied to a sample of more than 12,000 hemodialysis patients to evaluate the association of various patient descriptors, treatment time (hours/treatment), and various laboratory tests with the probability of death. Advancing age, white race, and diabetes were all associated with a significantly increased risk of death. Short dialysis times were also associated with high death risk before adjustment for the value of laboratory tests. Of the laboratory variables, low serum albumin less than 40 g/L (less than 4.0 g/dL) was most highly associated with death probability. About two thirds of patients had low albumin. These findings suggest that inadequate nutrition may be an important contributing factor to the mortality suffered by hemodialysis patients. The relative risk profiles for other laboratory tests are presented. Among these, low serum creatinine, not high, was associated with high death risk. Both serum albumin concentration and creatinine were directly correlated with treatment time so that high values for both substances were associated with long treatment times. The data suggest that physicians may select patients with high creatinine for more intense dialysis exposure and patients with low creatinine for less intense treatment. In a separate analysis, observed death rates were compared with rates expected on the basis of case mix for these 237 facilities. The data suggest substantial volatility of observed/expected ratios when facility size is small. Nonetheless, a minority of facilities (less than or equal to 2%) may have higher rates than expected when compared with the pool of all patients in this sample. The effect of various laboratory variables on mortality is substantial, while relatively few facilities have observed death rates that exceed their expected values. Therefore, we suggest that strategies designed to improve the overall mortality statistic for dialysis patients in the United States would be better directed toward improving the quality of care for all patients, particularly high-risk patients, within their usual treatment settings rather than trying to identify facilities with high death rate for possible regulatory intervention.
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            Comorbidity, urea kinetics, and appetite in continuous ambulatory peritoneal dialysis patients: their interrelationship and prediction of survival.

            Comorbidity, urea kinetics (Kt/V and normalized protein catabolic rate), dietary protein, total calorie intake, and plasma albumin were measured in 97 continuous ambulatory peritoneal dialysis patients followed prospectively for 30 months. Comorbid disease was graded severe in 12 patients, intermediate in 29, and absent in 56. At entry to the study comorbidity was associated with increased age (P = 0.001), lower dietary protein (P = 0.015) and calorie intake (P = 0.02), and a lower plasma creatinine (P = 0.026). Trends toward lower Kt/V and albumin were not significant, and normalized protein catabolic rate was unaffected. Ability of these measures to predict mortality was assessed by univariate and multivariate analysis using Cox's proportional hazard model. On univariate analysis, comorbidity (P < 0.0001), age (P = 0.0001), Kt/V (P = 0.009), plasma albumin (P = 0.009), calorie intake (P = 0.035), and dietary protein intake (P = 0.03) predicted outcome, whereas normalized protein catabolic rate did not (P = 0.46). Multivariate analysis indicated that comorbidity (P = 0.0003) and age (P = 0.0085) were the only independent predictors of outcome. The addition of plasma albumin and Kt/V increased the significance of the Cox model. Further analysis of comorbidity demonstrated the relative importance of vascular disease and left ventricular dysfunction. This study illustrates the profound influence of comorbid disease on mortality in continuous ambulatory peritoneal dialysis patients and suggests that it causes suppression of appetite independent of the dialysis dose.
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              Amino acid and albumin losses during hemodialysis.

              Protein and calorie malnutrition are prevalent in chronic hemodialysis (HD) patients and has been linked to increased mortality and morbidity in this patient population. Concern has been raised that the open pore structure of high flux membranes may induce the loss of more amino acids (AA) compared to low flux membranes. To address this issue, we prospectively analyzed pre- and post-HD plasma AA profiles with three different membranes in nine patients. Simultaneously, we measured dialysate AA losses during HD. The membranes studied were: cellulosic (cuprophane-CU), low flux polymethylmethacrylate (LF-PMMA), and high flux polysulfone (HF-PS) during their first use. Our results show that pre-HD plasma AA profiles were abnormal compared to controls and decreased significantly during HD with all dialyzers. The use of HF-PS membranes resulted in significantly more AA losses into the dialysate when compared to LF-PMMA membranes (mean +/- SD; 8.0 +/- 2.8 g/dialysis for HF-PS, 6.1 +/- 1.5 g/dialysis for LF-PMMA, p < 0.05, and 7.2 +/- 2.6 g/dialysis for CU membranes, P = NS). When adjusted for surface area and blood flow, AA losses were not different between any of the dialyzers. We also measured dialysate AA losses during the sixth reuse of the HF-PS membrane. Losses of total AA increased by 50% during the sixth reuse of HF-PS membrane compared to its first use. In addition, albumin was detected in the dialysate during the sixth reuse of HF-PS membrane. We therefore measured albumin losses in all patients dialyzed with HF-PS membranes as a function of reuse.(ABSTRACT TRUNCATED AT 250 WORDS)
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                Author and article information

                Journal
                The Journal of Nutrition
                Oxford University Press (OUP)
                0022-3166
                1541-6100
                January 1999
                January 01 1999
                January 1999
                January 01 1999
                : 129
                : 1
                : 247S-251S
                Affiliations
                [1 ]Division of Nephrology and Hypertension, Harbor-UCLA Medical Center, Torrance, California and the UCLA Schools of Medicine and Public Health, Los Angeles, California
                Article
                10.1093/jn/129.1.247S
                353e20a0-1ee1-4c4c-a8b6-66724dff868c
                © 1999
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