Rheological determinants of red blood cell aggregation in diabetic patients in relation to their metabolic control

Vibration motor-integrated low-cost, miniaturized system for rapid quantification of red blood cell aggregation

Human red blood cells (RBCs) aggregate under low shear conditions, which significantly modulates flow resistance and tissue perfusion. A higher aggregation tendency in blood thus serves as an important clinical indicator for the screening of cardiovascular disorders. Conventional ways of measuring RBC aggregation still require large sample volumes, cumbersome manual procedures, and expensive benchtop systems. These inconvenient and high-cost measurement methods hamper their clinical applicability. Here, we propose a low-cost, miniaturized system to overcome the limitations of these methods. Our system utilizes a coin vibration motor (CVM) to generate a localized vortex for disaggregating RBCs in a disposable fluidic chip. The design of the chip was optimized with fluid dynamics simulations to ensure sufficient shear flow in the localized vortex for RBC disaggregation. The time-dependent increase in light transmittance from an LED light source through the plasma gap while the RBCs re-aggregate is captured with a CMOS camera under stasis conditions to quantify the level of RBC aggregation. Our CVM-based aggregometer was validated against a commercial benchtop system for human blood samples under physiological and pathological conditions, and showed an excellent performance with a high intraclass correlation coefficient of 0.995. In addition, we were able to achieve a rapid measurement (<4 min) with the CVM-based aggregometer, requiring only a 6 μl blood sample. These illustrate the potential of our CVM-based aggregometer for low-cost point-of-care diagnostics without compromising the measurement sensitivity.

Red blood cell aggregation, disaggregation and aggregate morphology in autologous plasma and serum in diabetic foot disease

BACKGROUND

Diabetes mellitus is frequently associated with microcirculation pathology and hemorheological disorders.

METHODS

24 patients with diabetic foot and 22 healthy subjects were recruited. RBC aggregation, disaggregation and morphology of aggregates were determined in autologous plasma and serum.

RESULTS

The RBC aggregation in patients with diabetic foot increased in autologous plasma and serum. Increased red blood cell aggregate strength in these patients was observed only in autologous plasma. Microscopic images of RBC aggregates of patients with diabetic foot show the formation of pathologic globular structures of aggregates in autologous plasma and serum.

CONCLUSION

The RBC aggregation in autologous plasma and autologous serum in patients with diabetic foot is significantly higher than in healthy subjects. Increase in strength of RBC aggregates in diabetic foot patients was observed only in autologous plasma. The microscopic images of RBC aggregates in patients with diabetic foot indicate the formation of globular (pathologic) structures of aggregates in autologous plasma and serum. The differences in the morphology of RBC aggregates in autologous plasma and serum between healthy subjects and diabetic foot patients, obtained by microscopic image analysis with high magnification light microscope, can be used as an additional diagnostic tool in medical practice.

Quantitative Measurement of Erythrocyte Aggregation as a Systemic Inflammatory Marker by Ultrasound Imaging: A Systematic Review

This systematic review is aimed at answering two questions: (i) Is erythrocyte aggregation a useful biomarker in assessing systemic inflammation? (ii) Does quantitative ultrasound imaging provide the non-invasive option to measure erythrocyte aggregation in real time? The search was executed through bibliographic electronic databases CINAHL, EMB Review, EMBASE, MEDLINE, PubMed and the grey literature. The majority of studies correlated elevated erythrocyte aggregation with inflammatory blood markers for several pathologic states. Some studies used "erythrocyte aggregation" as an established marker of systemic inflammation. There were limited but promising articles regarding the use of quantitative ultrasound spectroscopy to monitor erythrocyte aggregation. Similarly, there were limited studies that used other ultrasound techniques to measure systemic inflammation. The quantitative measurement of erythrocyte aggregation has the potential to be a routine clinical marker of inflammation as it can reflect the cumulative inflammatory dynamics in vivo, is relatively simple to measure, is cost-effective and has a rapid turnaround time. Technologies like quantitative ultrasound spectroscopy that can measure erythrocyte aggregation non-invasively and in real time may offer the advantage of continuous monitoring of the inflammation state and, thus, may help in rapid decision making in a critical care setup.

HEMOGLOBIN A1c LEVEL HIGHER THAN 9.05% CAUSES A SIGNIFICANT IMPAIRMENT OF ERYTHROCYTE DEFORMABILITY IN DIABETES MELLITUS

Context

Clinical studies demonstrated erythrocyte deformability (ED) is impaired in diabetic patients and described the correlations between HbA1c and ED. Few studies further investigated what an exact elevated HbA1c level linked to the impairment of ED in diabetes.

Objective

This study was to determine a cut-off point of HbA1c level leading to the impairment of ED in patients with diabetes.

Design

This was a retrospective observational study. ROC curve analysis was used to determine an optimal cut-off value of HbA1c for the increasing HSRV.

Subjects and Methods

In this study, 300 type 2 diabetic patients were enrolled. The whole blood viscosity was measured. High shear reductive viscosity (HSRV) was used to indirectly estimate ED. Based on the obtained cut-off value and glycemic control criteria for HbA1c, we divided all the cases into different groups to further confirm the accuracy of the cut-off value.

Results

In 300 patients, ROC curve illustrated that 9.05% was the optimal cut-off value as a predictor of the increasing HSRV. And higher odds ratio (OR) for significant decrease in ED was seen in the patients with HbA1c >9.05% compared to those with HbA1c≤9.05% (OR: 3.78, 95% CI: 2.08-6.87). HSRV increased significantly in patients with HbA1c level >9.05% in comparison to patients with HbA1c levels <6.5% between 6.5 and 8.0% and between 8.0 and 9.05%.

Conclusion

ED decreased significantly in diabetic patients as soon as HbA1c level was higher than 9.05%.

Erythrocyte aggregation may promote uneven spatial distribution of NO/O2 in the downstream vessel of arteriolar bifurcations

This study examined the effect of red blood cell (RBC) aggregation on nitric oxide (NO) and oxygen (O2) distributions in the downstream vessels of arteriolar bifurcations. Particular attention was paid to the inherent formation of asymmetric cell-free layer (CFL) widths in the downstream vessels and its consequential impact on the NO/O2 bioavailability after the bifurcations. A microscopic image-based two-dimensional transient model was used to predict the NO/O2 distribution by utilizing the in vivo CFL width data obtained under non-, normal- and hyper-aggregating conditions at the pseudoshear rate of 15.6±2.0s(-1). In vivo experimental result showed that the asymmetry of CFL widths was enhanced by the elevation in RBC aggregation level. The model demonstrated that NO bioavailability was regulated by the dynamic fluctuation of the local CFL widths, which is corollary to its modulation of wall shear stress. Accordingly, the uneven distribution of NO/O2 was prominent at opposite sides of the arterioles up to six vessel-diameter (6D) away from the bifurcating point, and this was further enhanced by increasing the levels of RBC aggregation. Our findings suggested that RBC aggregation potentially augments both the formation of asymmetric CFL widths and its influence on the uneven distribution of NO/O2 in the downstream flow of an arteriolar bifurcation. The extended heterogeneity of NO/O2 downstream (2D-6D) also implied its potential propagation throughout the entire arteriolar microvasculature.

Less known pathophysiological mechanisms of anemia in patients with diabetic nephropathy

Diabetes mellitus (DM) is currently considered a modern global epidemic, and diabetic nephropathy (DN) is the most common cause of chronic kidney disease (CKD). Anemia is one of the most significant complications of CKD, and it is mainly attributed to insufficient erythropoietin (EPO) production. However, anemia develops earlier in the course of CKD among patients with DM, and the severity of anemia tends to be more marked in these patients compared to nondiabetic subjects, regardless of the stage of CKD. In this review, we focus on the "less known" complex interacting mechanisms which are involved in the pathophysiology of anemia associated with DN. Although the major cause of anemia in DN is considered to be an inappropriate response of the plasma EPO concentration to anemia, several other possible mechanisms have been suggested. Glomerular hyperfiltration, proteinuria, renal tubular dysfunction and interstitial fibrosis are among the main culprits. On the other hand, systemic effects such as chronic inflammation, autonomic neuropathy and the renin-angiotensin system are also involved. Finally, several medications are considered to aggravate anemia associated with DN. Since anemia is an important predictor of quality of life and is implicated in the increased burden of cardiovascular morbidity and mortality, further research is required to elucidate its pathogenesis in diabetic patients.

Enhanced RBC Aggregation in Type 2 Diabetes Patients

BACKGROUND

This study aimed to investigate the relationship between HbA1c and RBC aggregation in type 2 diabetes mellitus (T2DM) patients by analysis of data from routine clinical tests and from in vitro experiments.

METHODS

A total of 2,111 inpatients with type 2 diabetes were selected and among them, 364 patients (Group A) had limited influence of plasma proteins on erythrocyte sedimentation rate (ESR) and was compared with the rest of the 1,747 inpatients (Group B). ESR, HbA1c , WBC, CRP, Fbg, and HCT were measured in all samples. Sixty samples were also collected from T2DM patients and used for in vitro ESR studies. Spearman's correlation coefficients were employed to reflect the correlation between ESR and other parameters. Mann-Whitney U test was used to compare the study parameters.

RESULTS

The test results for Group A were lower than Group B with respect to ESR, age, HCT, HbA1c , CRP, WBC, and Fbg. Only the difference in HbA1c , CRP, and Fbg values had statistical significance (P < 0.05). In addition, HbA1c correlated better with ESR for Group A (R = 0.622) than Group B (R = 0.563), whereas CRP and Fbg were contrary to this. In the in vitro studies, the HbA1c values were classified into the subgroups of 6.5-8.0%, 8.1-10%, and >10%. The corresponding ESR values were 28 ± 5.1 mm/h, 33 ± 2.7 mm/h, and 40 ± 4.1 mm/h, respectively.

CONCLUSION

ESR results of T2DM patients were elevated that was mainly caused by Fbg levels, and in addition HbA1c in part contributed to RBC aggregation.

Effects of Momordica charantia L. on the blood rheological properties in diabetic patients

An evaluation of the rheological properties and the effects of Momordica. charantia L. (M. charantia) nanoparticles and polyethylene glycol (PEG) microspheres adsorbed with M. charantia nanoparticles on the blood of hyperglycemic patients is presented. Blood samples were collected according to glycemic status: normoglycemic (N = 56) and hyperglycemic (N = 26). General and hematological characteristics were determined. Blood rheological parameters were determined at room temperature and under a temperature scan. We determined the effects on whole blood viscosity of treatment with an extract of M. charantia, PEG, or PEG microspheres adsorbed with plant extract. The viscosity of the blood of hyperglycemic patients is greater than that of normoglycemic patients. Nanoparticles of M. charantia extracts lowered blood viscosity at equivalent rates in normo- and hyperglycemic individuals. PEG microspheres did not reduce blood viscosity in hyperglycemic individuals. However, PEG microspheres adsorbed with nanofraction extracts of M. charantia reduced blood viscosity. These data suggest that the effects of diabetes on the viscosity of the blood should be considered. The use of a nanoparticles extract of M. charantia and its adsorption on PEG microspheres may represent an alternative for the control and treatment of blood disorders in diabetic patients.

Use of nebulized budesonide in two critical patients with hydrocarbon intoxication

Reports of acute naphtha (a petroleum distillate) intoxication, particularly those containing treatment and toxicological data, are poorly verified in the literature. Systemic steroids have not usually been advised for routine management, but no previous studies have been reported on the effects of corticosteroid inhalations. In this study, two critical pediatric patients with chemical pneumonia due to naphtha ingestion have been reported who were effectively managed with nebulized budesonide.

Erythrocyte adhesion receptors: blood group antigens and related molecules

During the second half of the 20th century, blood bankers quickly expanded our knowledge of human erythrocyte blood group antigens. By the dawn of the 21st century, several hundred blood group antigen polymorphisms had been identified. Hot on the heels of the serologists, membrane biochemists and molecular geneticists defined both the biochemical and genetic bases of most of these antigens. Perhaps to their surprise, this work has led to the discovery of functionally diverse and important membrane proteins expressed on the surface of red cells, including numerous adhesion molecules. Red cells express an unexpected number of such adhesion receptors, some of which contribute to human disease, as well as to normal red cell development. And perhaps most interestingly, study of these molecules has elucidated ways in which even mature red cells respond to external stimuli, such as adrenergic hormones.

The Erythrosense as a Real-Time Biomarker to Reveal the Presence of Enhanced Red Blood Cell Aggregability in Atherothrombosis

This paper reviews the longitudinal studies in which the association between hypertension and cognitive functioning has been explored. The findings of these studies are far from being consistent: positive, adverse, or no relationships between cognitive performance and blood pressure have been reported. In some studies, cognitive functioning was related only to systolic blood pressure, whereas in others, it was related to diastolic blood pressure alone. Most probably, the inconsistency is due to the variability in research design, the measures employed, and data management. Some of the main methodological issues are the wide range in the age of the subjects and the variability in hypertension at baseline. Length of exposure to hypertension was rarely considered, and the search for the possible effects of the different antihypertensive treatments on cognitive ability is in its infancy. Many studies seek to identify cognitively impaired elderly and do not distinguish between the different types of dementia or the different cognitive domains. Thus, the possibility that hypertension affects specific cognitive functions has not been explored. The use of subdivisions of blood pressure values may have obscured nonlinear relationship. Nevertheless, the pattern that emerges is that midlife hypertension enhances cognitive impairment later in life, but at old age, mild hypertension may increase cognitive performance. Directions for future research to further elucidate the complex relationship between age, blood pressure, and cognition are discussed.

The Erythrosense as a Real-Time Biomarker to Reveal the Presence of Enhanced Red Blood Cell Aggregability in Atherothrombosis

Both anemia and inflammation might be present in individuals with atherothrombosis. We have evaluated the eventual influence of these 2 variables on the degree of erythrocyte adhesiveness/aggregation in the peripheral blood of 583 women and 402 men with various atherothrombotic risk factors and vascular events. It turned out that both anemia and inflammation (highly sensitive C-reactive protein concentrations) influence the degree of cell adhesiveness/aggregation and that there is no interaction between them. Thus, the degree of erythrocyte adhesiveness/aggregation might have the diagnostic advantage of being enhanced in individuals with atherothrombosis who have inflammation and no anemia as well as those who have anemia and no inflammation. These findings might help to turn a phenomenon of hemorheological relevance into a diagnostic tool for the detection of individuals at risk of an acute ischemic event.

The Erythrosense as a Real-Time Biomarker to Reveal the Presence of Enhanced Red Blood Cell Aggregability in Atherothrombosis

A common mode of deep vein thrombosis prophylaxis in medical inpatients is unfractionated heparin 5000 U subcutaneously (s.q.) twice daily. We examined the evidence in favor of using this dose of heparin in this group of patients. MEDLINE was searched for studies using the words deep vein thrombosis prophylaxis and heparin. All randomized controlled trials comparing heparin and placebo or heparin and a low molecular weight heparin were used. Relative risk was 0.4 (95% confidence interval 0.22-0.73) in studies comparing heparin 5000 U s.q. b.i.d. with placebo. Relative risk was 0.28 (95% confidence interval 0.21-0.38) in studies comparing heparin 5000 units s.q. t.i.d. versus placebo. In studies comparing unfractionated heparin with enoxaparin relative risk was 1.42 (95% confidence interval 0.99-2.05). Heparin 5000 U s.q. b.i.d. is less efficacious than low molecular weight heparins and unfractionated heparin 5000 U s.q. t.i.d.

Non-invasive glucose measurement technologies: an update from 1999 to the dawn of the new millennium

There are three main issues in non-invasive (NI) glucose measurements: namely, specificity, compartmentalization of glucose values, and calibration. There has been progress in the use of near-infrared and mid-infrared spectroscopy. Recently new glucose measurement methods have been developed, exploiting the effect of glucose on erythrocyte scattering, new photoacoustic phenomenon, optical coherence tomography, thermo-optical studies on human skin, Raman spectroscopy studies, fluorescence measurements, and use of photonic crystals. In addition to optical methods, in vivo electrical impedance results have been reported. Some of these methods measure intrinsic properties of glucose; others deal with its effect on tissue or blood properties. Recent studies on skin from individuals with diabetes and its response to stimuli, skin thermo-optical response, peripheral blood flow, and red blood cell rheology in diabetes shed new light on physical and physiological changes resulting from the disease that can affect NI glucose measurements. There have been advances in understanding compartmentalization of glucose values by targeting certain regions of human tissue. Calibration of NI measurements and devices is still an open question. More studies are needed to understand the specific glucose signals and signals that are due to the effect of glucose on blood and tissue properties. These studies should be performed under normal physiological conditions and in the presence of other co-morbidities.

Inflammation at a glance: erythrocyte adhesiveness/aggregation test to reveal the presence of inflammation in people with atherothrombosis

The erythrocyte adhesiveness/aggregation test is a new biomarker to detect low-grade inflammation in patients with atherothrombosis. In a group of 30 individuals with an acute ischemic event, the variability of EAAT during a follow-up period was similar to those obtained for other commonly used markers of the acute phase response, suggesting the potential clinical use of this novel marker.

Glucose correlation with light scattering patterns--a novel method for non-invasive glucose measurements

To correlate occlusion red near-infrared spectroscopy technology with intravenous and interstitial glucose levels, occlusion red near-infrared spectroscopy and glucose levels were measured in five subjects with diabetes mellitus during a stepped hyperinsulinemic hypoglycemic clamp. Validation was achieved using a standard error grid and linear correlations. During hyperinsulinemic hypoglycemic clamp linear correlation was significant at r = 0.836, and the intercept was 43.3 mg/dL. Of the glucose measurements, 94.3% were assigned to zones A and B of the standard error grid, the zones of the greatest therapeutic relevance. Expected interference from serum triglycerides, catecholamines, and cortisol was not apparent. These results demonstrate the applicability of occlusion red near-infrared spectroscopy for in vivo glucose monitoring. The technology has implications for continuous non-invasive glucose sensing.