Red blood cell deformability during storage: towards functional proteomics and metabolomics in the Blood Bank.

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Test 1 analyser for determination of ESR. 2. Experimental evaluation and comparison with RBC aggregometry

Test 1 is a recently introduced technique claiming to determine Erythrocyte Sedimentation Rate (ESR) in 20 s. In contrast to the original Westergren procedure this new technique uses undiluted blood and operates at 37 degrees C. It is hypothesized that Test 1 is in fact an erythrocyte aggregometer and does not measure any sedimentation. Test 1 results were compared to those obtained with StaRRsed, an automated ESR analyser based on the Westergren technique, and the results of both were correlated to various indices of red blood cell (RBC) aggregation, obtained with an aggrego--meter (LORCA). Measurements were made on blood from 75 patients with various rheumatic disorders. Furthermore, blood that was experimentally manipulated in order to affect RBC aggregation, i.e. by changing the hematocrit, by diminishing plasma protein concentration, by inducing hyperaggregation or by RBC rigidification, was tested on all three instruments. Generally in patient blood, Test 1 results demonstrated a higher correlation with the various aggregation parameters than StaRRsed. Highest correlation (R = -0.8)) with both Test 1 and StaRRsed outcome were seen with I(20), a RBC aggregation parameter directly related to the backscatter intensity. All experimentally induced changes in RBC aggregation paralleled closely those obtained with Test 1 while StaRRsed results followed a different course. The results obtained in this study strongly support the hypothesis that Test 1 measures only the RBC aggregation process and does not cover any of the indices directly linked to the sedimentation process as determined by the Westergren metho

Photometric measurements of red blood cell aggregation: light transmission versus light reflectance

Red blood cell (RBC) aggregation is the reversible and regular clumping in the presence of certain macromolecules. This is a clinically important phenomenon, being significantly enhanced in the presence of acute phase reactants (e. g., fibrinogen). Both light reflection (LR) and light transmission (LT) from or through thin layers of RBC suspensions during the process of aggregation are accepted to reflect the time course of aggregation. It has been recognized that the time courses of LR and LT might be different from each other. We aim to compare the RBC aggregation measurements based on simultaneous recordings of LR and LT. The results indicate that LR during RBC aggregation is characterized by a faster time course compared to simultaneously recorded LT. This difference in time course of LR and LT is reflected in the calculated parameters reflecting the overall extent and kinetics of RBC aggregation. Additionally, the power of parameters calculated using LR and LT time courses in detecting a given difference in aggregation are significantly different from each other. These differences should be taken into account in selecting the appropriate calculated parameters for analyzing LR or LT time courses for the assessment of RBC aggregation. (C) 2009 Society of Photo-Optical Instrumentation Engineers. [DOI: 10.1117/1.3251050

Exercise performance, red blood cell deformability, and lipid peroxidation: effects of fish oil and vitamin E.

Department of Human Biology, Maastricht University, 6200 MD Maastricht, The Netherlands. Previous studies have indicated that fish oil supplementation increases red blood cell (RBC) deformability, which may improve exercise performance. Exercise alone, or in combination with an increase in fatty acid unsaturation, however, may enhance lipid peroxidation. Effects of a bicycle time trial of approximately 1 h on RBC characteristics and lipid peroxidation were, therefore, studied in 24 trained cyclists. After 3 wk of fish oil supplementation (6 g/day), without or with vitamin E (300 IU/day), trial performance, RBC characteristics, and lipid peroxidation were measured again. RBC deformability appeared to decrease during endurance exercise. After correction for hemoconcentration, plasma total tocopherol concentrations decreased by 0.77 micromol/l (P = 0. 012) or 2.9% and carotenoid concentrations by 0.08 micromol/l (P = 0. 0008) or 4.5%. Endurance exercise did not affect the lag time and rate of in vitro oxidation of low-density lipoproteins (LDLs), but the maximum amount of conjugated dienes formed decreased by 2.1 +/- 1.0 micromol/mmol LDL cholesterol (P = 0.042) or 1.2%. Fish oil supplementation with and without vitamin E did not affect RBC characteristics or exercise performance. Both supplements decreased the rate of LDL oxidation, and fish oil supplementation with vitamin E delayed oxidation. The amount of dienes, however, was not affected. The supplements also did not change effects of exercise. We conclude that the changes observed during endurance exercise may indicate increased oxidative stress, but further research is necessary to confirm this. Fish oil supplementation does not improve endurance performance, but it also does not cause or augment changes in antioxidant levels or LDL oxidation during exercise. Publication Types: Clinical Trial Controlled Clinical Tria

Skeletal muscle of mice with a mutation in slow ¿-tropomyosin is weaker at lower lengths

Skeletal muscle function was measured in anaesthetised transgenic mice having a mutation in the TPM3 gene (slow α-tropomyosin), a similar mutation as found in some patients with nemaline myopathy, and was compared with control muscles. Measurements of isometric and dynamic muscle performance were done with electrical nerve stimulation at physiological temperatures. No muscle weakness was found in the transgenic muscles when performance was measured at muscle optimum length. This was true not only with full activation but also at lower activation levels, indicating that calcium sensitivity was not affected at this length. Also, fatigability was not affected in these conditions. However, isometric force of the muscles with the mutation in TPM3 was lower at lengths below optimum, with more impairment at decreasing length. As the muscles are active over a large range of different muscle lengths during daily activities, this finding may explain, at least in part, the muscle weakness experienced by patients with nemaline myopathy. © 2002 Elsevier Science B.V. All rights reserved