Your search keyword '"rbc deformability"' showing total 13 results

1. Red Blood Cell Morphology Is Associated with Altered Hemorheological Properties and Fatigue in Patients with Long COVID.

Author

Grau, Marijke, Presche, Alena, Krüger, Anna-Lena, Bloch, Wilhelm, and Haiduk, Björn

Subjects

*ERYTHROCYTES, *HEMORHEOLOGY, *POST-acute COVID-19 syndrome, *FATIGUE (Physiology), *CELL morphology, *BLOOD flow

Abstract

Simple Summary: SARS-CoV-2 alters the properties of oxygen-carrying red blood cells (RBCs) through a possible deterioration of hemorheological properties, such as aggregation and deformability. However, long-term changes in these properties and a possible association with morphological abnormalities remain unknown. Therefore, this study aims to investigate changes in the above-mentioned RBC properties in Long-COVID (LC). Venous blood was collected from n = 30 diagnosed LC and n = 30 non-Long-COVID controls (non-LC). Hematological parameters were measured, as well as the aggregation, deformability, and morphology of the RBCs and the mechanical sensitivity index (MS), which reflects the functional capacity of RBCs to deform. The results indicate that hematological parameters were not altered in LC. However, LC showed higher overall aggregation parameters. RBC deformability was higher in LC compared to non-LC; however, MS was limited in this group. LC showed a higher percentage of RBCs with abnormal shapes, which was related to MS and to fatigue, which is considered the leading symptom of LC. It is concluded that the symptoms of LC and changes in the blood flow determining the properties of RBCs are related to the morphological changes in RBCs. Future studies should investigate the underlying causes in order to develop appropriate therapies for this relatively new disease. Background: SARS-CoV-2 infection adversely affects rheological parameters, particularly red blood cell (RBC) aggregation and deformability, but whether these changes persist in patients suffering from Long-COVID (LC) and whether these changes are related to RBC morphology remain unknown. Methods: Venous blood was collected from n = 30 diagnosed LC patients and n = 30 non-LC controls and RBC deformability, RBC aggregation, and hematological parameters were measured. In addition, RBCs were examined microscopically for morphological abnormalities. The mechanical sensitivity index (MS) was assessed in n = 15 LC and n = 15 non-LC samples. Results: Hematological parameters did not differ between the groups. However, LC showed higher aggregation-related parameters. Although RBC deformability was higher in LC, MS, reflecting the functional capacity to deform, was limited in this group. RBCs from LC showed significantly more morphological abnormalities. The extent of morphological abnormalities correlated with MS and the FACIT-Fatigue score of the LC patients. Conclusion: RBCs from LC show a high degree of morphological abnormalities, which might limit the blood flow determining RBC properties and also be related to fatigue symptomatology in LC. Approaches are now needed to understand the underlying cause of these alterations and to ameliorate these permanent changes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Red Blood Cell Morphology Is Associated with Altered Hemorheological Properties and Fatigue in Patients with Long COVID

Author

Marijke Grau, Alena Presche, Anna-Lena Krüger, Wilhelm Bloch, and Björn Haiduk

Subjects

Long-COVID, red blood cells, mechanical sensitivity index, morphology, RBC deformability, RBC aggregation, Biology (General), QH301-705.5

Abstract

Background: SARS-CoV-2 infection adversely affects rheological parameters, particularly red blood cell (RBC) aggregation and deformability, but whether these changes persist in patients suffering from Long-COVID (LC) and whether these changes are related to RBC morphology remain unknown. Methods: Venous blood was collected from n = 30 diagnosed LC patients and n = 30 non-LC controls and RBC deformability, RBC aggregation, and hematological parameters were measured. In addition, RBCs were examined microscopically for morphological abnormalities. The mechanical sensitivity index (MS) was assessed in n = 15 LC and n = 15 non-LC samples. Results: Hematological parameters did not differ between the groups. However, LC showed higher aggregation-related parameters. Although RBC deformability was higher in LC, MS, reflecting the functional capacity to deform, was limited in this group. RBCs from LC showed significantly more morphological abnormalities. The extent of morphological abnormalities correlated with MS and the FACIT-Fatigue score of the LC patients. Conclusion: RBCs from LC show a high degree of morphological abnormalities, which might limit the blood flow determining RBC properties and also be related to fatigue symptomatology in LC. Approaches are now needed to understand the underlying cause of these alterations and to ameliorate these permanent changes.

Published

2024

3. Effects of 12 Weeks of Resistance Training on Body Composition, Muscle Hypertrophy and Function, Blood Lipid Level, and Hemorheological Properties in Middle-Aged Obese Women.

Author

Jisoo Seo, Hun-Young Park, Won-Sang Jung, Sung-Woo Kim, Yerin Sun, Jae-Ho Choi, Jisu Kim, and Kiwon Lim

Abstract

Background: This study investigated the effects of 12-week resistance training on body composition, blood pressure, blood lipid levels, muscle cross-sectional area (CSA), isokinetic muscle function, and hemorheological properties in middle-aged obese women. Methods: Twenty-eight obese women with a mean age of 50.79 ± 5.80 years were randomly assigned to the control (CON, n = 13) or experimental (EXP, n = 15) group. The EXP group underwent a resistance training program composed of warm-up, main resistance exercise (deadlift, barbell squat, seated leg extension, and lying leg curl, bench press, preacher bench biceps curl, barbell rowing, and dumbbell shoulder press), and cool-down. The resistance exercise consisted of three sets of 8-10 repetitions (reps) performed with 70-80% of 1-rep maximum, and reps and sets were increased every 3 weeks. The training frequency was 80 min, 3 days per week for 12 weeks. The CON group maintained their daily lifestyle without training. All participants underwent measurements of body composition (weight, body mass index, lean body mass, fat mass, and % body fat), blood pressure (systolic blood pressure, diastolic blood pressure, mean arterial pressure, and pulse pressure), blood lipid levels (triglycerides, total cholesterol, high-density lipoprotein cholesterol, and low-density lipoprotein cholesterol), CSA of the muscles (quadriceps, hamstring, and total thigh muscle), isokinetic muscle function (peak torque [PT], relative PT, mean power, and total work [TW]), and hemorheological properties (erythrocyte deformability and aggregation) before and after 12 weeks of training. Results: The EXP group showed a significant improved muscle function, including PT (p < 0.001), relative PT (p < 0.001) in extension 60°/s, TW (p < 0.001) in extension 180°/s, and TW (p = 0.018) in flexion 180°/s. Regarding hemorheological properties, the EXP group showed significant improvement in erythrocyte aggregation (p < 0.001) and deformability (p < 0.001). Conclusions: The present study verified that our resistance training program resulted in greater muscle function, decreased fat mass, and improved hemorheological properties. Clinical Trial Registration: This study was registered with cris.nih.go.kr (No. KCT0007412). [ABSTRACT FROM AUTHOR]

Published

2023

4. Hemorheological properties in patients with type-1 and type-2 diabetes mellitus

Author

Irina A. Sokolova, Aleksandrina V. Kachalova, Anastasiya A. Fabrichnova, Yulia A. Kovaleva, Aleksandr A. Shahnazarov, and Vladimir B. Koshelev

Subjects

diabetes mellitus, RBC aggregation, RBC deformability, monafram, Applied optics. Photonics, TA1501-1820, Medical technology, R855-855.5

Abstract

The hemorheologic disorders, which are potentially deleterious in a wide range of pathologies, were studied in patients with type-1 and type-2 diabetes mellitus. The significant determinants of blood viscosity, red blood cells (RBC) deformability and RBC reversible aggregation were assessed by ektacytometry and by laser backscattering technique, respectively. For both types of the disease, we observed acceleration of the first phase of RBC aggregation that contrasted with its deceleration at the second phase. The hydrodynamic stability of the aggregates, especially the smallest ones, exceeded the normal values in both cases. The influence of GP IIb/IIIa receptor inhibitor, monafram on RBC aggregation and disaggregation was the same in the cases of patients and normal subjects. The maximal shear induced RBC stretching exceeded the normal one in patients of both groups. The data reveal not only pathological but also compensatory character of hemorheological alterations in patients with type-1 and type-2 diabetes mellitus.

Published

2017

5. A Disposable Blood-on-a-Chip for Simultaneous Measurement of Multiple Biophysical Properties

Author

Yang Jun Kang

Subjects

RBC deformability, RBC aggregation, hematocrit, multiple biophysical properties, microfluidic device, periodic on-off blood flow, blood velocity fields, image intensity of blood flow, Mechanical engineering and machinery, TJ1-1570

Abstract

Biophysical properties are widely used to detect pathophysiological processes of vascular diseases or clinical states. For early detection of cardiovascular diseases, it is necessary to simultaneously measure multiple biophysical properties in a microfluidic environment. However, a microfluidic-based technique for measuring multiple biophysical properties has not been demonstrated. In this study, a simple measurement method was suggested to quantify three biophysical properties of blood, including red blood cell (RBC) deformability, RBC aggregation, and hematocrit. To demonstrate the suggested method, a microfluidic device was constructed, being composed of a big-sized channel (BC), a parallel micropillar (MP), a main channel, a branch channel, inlet, and outlets. By operating a single syringe pump, blood was supplied into the inlet of the microfluidic device, at a periodic on-off profile (i.e., period = 240 s). The RBC deformability index (DI) was obtained by analyzing the averaged blood velocity in the branch channel. Additionally, the RBC aggregation index (AIN) and the hematocrit index (HiBC) were measured by analyzing the image intensity of blood flows in the MP and the BC, respectively. The corresponding contributions of three influencing factors, including the turn-on time (Ton), the amplitude of blood flow rate (Q0), and the hematocrit (Hct) on the biophysical indices (DI, AIN, and HiBC) were evaluated quantitatively. As the three biophysical indices varied significantly with respect to the three factors, the following conditions (i.e., Ton = 210 s, Q0 = 1 mL/h, and Hct = 50%) were maintained for consistent measurement of biophysical properties. The proposed method was employed to detect variations of biophysical properties depending on the concentrations of autologous plasma, homogeneous hardened RBCs, and heterogeneous hardened RBCs. Based on the observations, the proposed method exhibited significant differences in biophysical properties depending on base solutions, homogeneous hardened RBCs (i.e., all RBCs fixed with the same concentration of glutaraldehyde solution), and heterogeneous hardened RBCs (i.e., partially mixed with normal RBCs and homogeneous hardened RBCs). Additionally, the suggested indices (i.e., DI, AIN, and HiBC) were effectively employed to quantify three biophysical properties, including RBC deformability, RBC aggregation, and hematocrit.

Published

2018

6. Effects of various acute hypoxic conditions on the hemorheological response during exercise and recovery.

Author

Hwang-Woon Moon, Se-Hyun Shin, Chul-Hyun Lee, Hun-Young Park, Sub Sunoo, and Sang-Seok Nam

Subjects

*HYPOXEMIA, *HEMORHEOLOGY, *EXERCISE, *PHYSIOLOGICAL transport of oxygen, *ERYTHROCYTE deformability

Abstract

Even though exercise hemorheology at hypoxic condition has been considered as a good tool to understand clinical hemorheology, there have been limited studies reported. Previous researches showed that hemorheological variables are closely correlated with oxygen delivery capacity during exercise. The present study investigated hypoxic responses including RBC deformability and aggregation, metabolic parameters and complete blood cell counts at various hypoxic conditions during cycling exercise and recovery. Eleven Korean healthy male subjects performed submaximal bike exercise at sea level (20.9% O2) and under various hypoxic conditions (16.5% O2, 14.5% O2, 12.8% O2, and 11.2% O2) in a random order. The submaximal bike exercise intensity of the subjects was 70% maximum heart rate at sea level. All variables were measured at rest, during exercise and recovery 30-minute, respectively. As oxygen partial pressure decreased, arterial blood oxygen saturation decreased but oxygen uptake did not change much. Heart rate and lactate concentration during exercise increased when oxygen partial pressure is less than or equal to 14.5% O2 condition. Red blood cell (RBC) counts, hemoglobin counts, and hematocrit level were not apparently altered with hypoxic conditions. RBC deformability showed significant alterations at 11.2% O2 conditions compared with other hypoxic conditions during exercise or recovery, except at 10 minutes recovery. However, decreases in oxygen partial pressure did not affect red blood cell aggregation. Therefore, we conclude that alterations in RBC deformability may reduce aerobic capabilities at hypoxic condition. [ABSTRACT FROM AUTHOR]

Published

2016

7. Effects of lipopolysaccharide on changes in red blood cells in a mice endotoxemia model.

Author

Jeihak Myung, Seol Ju Park, Jaekwan Lim, Yun Hee Kim, Sehyun Shin, and Choon Hak Lim

Subjects

*LIPOPOLYSACCHARIDES, *ERYTHROCYTES, *ENDOTOXEMIA, *SHEARING force, *LABORATORY mice

Abstract

The aim of this study was to evaluate changes in RBC aggregation and deformability over 24 hr and suggest specific shear stress values for detecting RBC deformability in a mouse endotoxemia model using lipopolysaccharide (LPS). Six-week-old male BALB/c mice received LPS (20 mg/kg) intraperitoneally. Aggregation indices (AIs) and T1/2 were measured to assess RBC aggregation, and elongation indices (EIs) were used to assess RBC deformability at shear stress values of 0.3, 0.5, 1, 3, 7, 10, 15 and 20 Pascals (Pa) 0, 30 min, 1, 2, 4, 6, 9, 12, 18 and 24 hours after the LPS injection. No significant differences were detected in the AIs during the study period, however, T1/2 shortened significantly 2, 6, 12, 18, and 24 hr after the LPS injection. The EIs increased significantly 24 hr after LPS injection at 0.5 and 1 Pa shear stress, whereas it decreased significantly at 10 Pa of shear stress 24 hr after the LPS injection. Altered RBC deformability was detectable 24 hr after the LPS injection and T1/2 may be a sensitive marker for detecting changes in RBC aggregation. The EIs should be measured at 1 Pa to detect changes in RBC deformability in LPS-induced septic mice. [ABSTRACT FROM AUTHOR]

Published

2016

8. A review of hemorheology: Measuring techniques and recent advances.

Author

Sousa, Patrícia, Pinho, Fernando, Alves, Manuel, and Oliveira, Mónica

Abstract

Significant progress has been made over the years on the topic of hemorheology, not only in terms of the development of more accurate and sophisticated techniques, but also in terms of understanding the phenomena associated with blood components, their interactions and impact upon blood properties. The rheological properties of blood are strongly dependent on the interactions and mechanical properties of red blood cells, and a variation of these properties can bring further insight into the human health state and can be an important parameter in clinical diagnosis. In this article, we provide both a reference for hemorheological research and a resource regarding the fundamental concepts in hemorheology. This review is aimed at those starting in the field of hemodynamics, where blood rheology plays a significant role, but also at those in search of the most up-to-date findings (both qualitative and quantitative) in hemorheological measurements and novel techniques used in this context, including technical advances under more extreme conditions such as in large amplitude oscillatory shear flow or under extensional flow, which impose large deformations comparable to those found in the microcirculatory system and in diseased vessels. Given the impressive rate of increase in the available knowledge on blood flow, this review is also intended to identify areas where current knowledge is still incomplete, and which have the potential for new, exciting and useful research. We also discuss the most important parameters that can lead to an alteration of blood rheology, and which as a consequence can have a significant impact on the normal physiological behavior of blood. [ABSTRACT FROM AUTHOR]

Published

2016

9. Hemorheological effects of secoisolariciresinol in ovariectomized rats.

Author

Maslov, Mikhail Y., Plotnikova, Tatiana M., Anishchenko, Anna M., Aliev, Oleg I., Nifantiev, Nikolay E., and Plotnikov, Mark B.

Abstract

BACKGROUND: Postmenopausal women often develop hemorheological disorders which may affect the systemic blood circulation and present a cardiovascular risk factor. OBJECTIVE:We evaluated effects of secoisolariciresinol (SECO), a phytoestrogen, on hemorheological parameters and lipid peroxidation in a model of the age-related and/or surgical menopause induced by ovariectomy in rats. METHODS: Arterial blood was sampled from sham-operated female rats, ovariectomized rats (OVX), and OVX treated with SECO (OVXSECO) (20 mg/kg/day intragastrically for two weeks). Plasma estrogen concentration and the following hemorheological parameters were measured: RBC aggregation (half-time of aggregation, T1/2; amplitude of aggregation, AMP; aggregation index, AI), RBC deformability (elongation index, EI), whole blood viscosity at the shear rate of 3-300 s-1, plasma viscosity, hematocrit, plasma fibrinogen. Lipid peroxidation was evaluated by measuring conjugated dienes (CD) and thiobarbituric acid reactive substances (TBARS) in plasma. RESULTS: Ovariectomy in rats caused a 60% decrease in plasma estrogen level and triggered the development of macro- and microhemorheological abnormalities. Blood viscosity increased by 12-31%, RBC elongation index reduced by 16-28%, and T1/2 and AI increased by 35% and 29% respectively. The increase in blood viscosity correlated predominantly with reduced RBC deformability. Plasma CD and TBARS were elevated by 47% and 104% respectively. SECO therapy for OVX rats reduced blood viscosity by 9-18% and T1/2 by 32%, and increased EI by 4-17%. SECO therapy disrupted the correlation between blood viscosity and RBC deformability. Lipid peroxidation was significantly inhibited, as shown by the reduction in CD and TBARS plasma concentrations by 89% and 70% respectively. SECO did not affect plasma viscosity, estrogen or fibrinogen levels. CONCLUSIONS: SECO treatment for OVX rats improves blood macro- and microrheological parameters, possibly through antioxidant protection of RBC. [ABSTRACT FROM AUTHOR]

Published

2016

10. Hemorheological parameters and their correlations in OXYS rats: A new model of hyperviscosity syndrome.

Author

Maslov, Mikhail Y., Chernysheva, Galina A., Smol'jakova, Vera I., Aliev, Oleg I., Kolosova, Natalia G., and Plotnikov, Mark B.

Subjects

*HEMORHEOLOGY, *BLOOD hyperviscosity syndrome, *LABORATORY rats, *RETINAL degeneration, *DISEASE risk factors, AGE factors in retinal degeneration

Abstract

Rheohaemapheresis aims to normalize major rheological parameters and is used to treat patients with dry age-related macular degeneration (AMD). While effective, this approach is invasive and requires specially trained personnel. Therefore, the search for novel effective compounds with hemorheological properties that can be taken orally to treat AMD is justified. The use of a robust rodent model of AMD with high blood viscosity is crucial to test the efficacy of potential hemorheological drugs to treat this disease. The objective of this study was to investigate whether OXYS rats, generally used as an animal model of AMD, have hyperviscosity syndrome. The results of this study show that blood viscosity in OXYS rats at low (3-10 s-1) and high (45-300 s-1) shear rates were 14-20% and 7-10% higher than in Wistar rats, while hematocrit and plasma viscosity were not different. Red blood cells (RBCs) in OXYS rats were more prone to aggregation as shown by 39% shorter half-time than in Wistar rats. RBCs were also more rigid in OXYS than in Wistar rats as shown by 21-33% lower index of elongation at the shear stress of 1-7 Pa. These data indicate that OXYS rats have hyperviscosity syndrome as the result of abnormal RBC deformability and aggregation. We propose to use OXYS rats as an animal model for preclinical studies to test compounds with hemorheological properties aimed to treat AMD. [ABSTRACT FROM AUTHOR]

Published

2015

11. In vitro effect of clinical propofol concentrations on red blood cell aggregation and deformability.

Author

Kim, Yun Hee, Chung, Hye Gyo, Myung, Soohyun A., Rha, Jee hyun, Yang, Sung, Nam, Myung Hyun, Shin, Se hyun, and Lim, Choon Hak

Subjects

*PROPOFOL, *ERYTHROCYTES, *BLOOD cell deformability, *ANESTHESIA, *MICROBIAL aggregation

Abstract

This in vitro study investigated time-related effects of propofol at the plasma concentrations required for sedation and general anaesthesia, on RBC aggregation, deformability, and morphology. Blood containing propofol at plasma concentrations of 0, 2 and 4 μg ml-1 was incubated in a water bath at 37°C for 1, 2, or 4 hours. RBC elongation indices (EIs) and aggregation indices (AIs), which represent RBC deformability and aggregation, respectively, were measured. Also, RBC morphological indices (MIs), which represent RBC morphology, were calculated. EIs and AIs were similar at propofol concentrations of 0, 2, or 4 μg ml-1 after 1, 2, or 4 hours of incubation. MIs at propofol plasma concentrations 0 or 2 μg ml-1 were similar after 1, 2, and 4 hours of incubation, however, MI at a propofol concentration of 4 μg ml-1 after 4 hours of incubation was higher than its value after 1 or 2 hours of incubation. No significant difference was observed between MIs at propofol plasma concentrations 0, 2, or 4 μg ml-1 after 1, 2, and 4 hours of incubation. At clinical doses, propofol has no direct effects on RBC deformability, aggregation, or morphology over a 4 hours incubation period. [ABSTRACT FROM AUTHOR]

Published

2012

12. Red blood cells in retinal vascular disorders

Author

Sangho Kim, Ashutosh Ricchariya, Jay Chhablani, Stavroula Balabani, Philip H. Jones, Rupesh Agrawal, Joseph M. Sherwood, and David T. Shima

Subjects

SICKLE ERYTHROCYTES, Pathology, Erythrocytes, Blood viscosity, Hemodynamics, 02 engineering and technology, 030204 cardiovascular system & hematology, DISTRIBUTION WIDTH, RBC, ERYTHROCYTE DEFORMABILITY, 0302 clinical medicine, VEIN OCCLUSION, Retinal vascular disorders, IN-VIVO, Hematology, BEHCETS-DISEASE, Blood flow, Vein occlusion, medicine.anatomical_structure, Molecular Medicine, Rheology, Life Sciences & Biomedicine, medicine.medical_specialty, 0206 medical engineering, Immunology, POLYCYTHEMIA-VERA, Retina, Microcirculation, 03 medical and health sciences, Retinal Diseases, Internal medicine, medicine, Animals, Humans, Vascular Diseases, Molecular Biology, Hemorheological disorders, Science & Technology, business.industry, Retinal Vessels, 1103 Clinical Sciences, Cell Biology, 020601 biomedical engineering, ENDOTHELIAL-CELLS, RBC AGGREGATION, OPTICAL TWEEZERS, RBC deformability, Hemorheology, Vascular resistance, business

Abstract

Microvascular circulation plays a vital role in regulating physiological functions, such as vascular resistance, and maintaining organ health. Pathologies such as hypertension, diabetes, or hematologic diseases affect the microcirculation posing a significant risk to human health. The retinal vasculature provides a unique window for non-invasive visualisation of the human circulation in vivo and retinal vascular image analysis has been established to predict the development of both clinical and subclinical cardiovascular, metabolic, renal and retinal disease in epidemiologic studies. Blood viscosity which was otherwise thought to play a negligible role in determining blood flow based on Poiseuille's law up to the 1970s has now been shown to play an equally if not a more important role in controlling microcirculation and quantifying blood flow. Understanding the hemodynamics/rheology of the microcirculation and its changes in diseased states remains a challenging task; this is due to the particulate nature of blood, the mechanical properties of the cells (such as deformability and aggregability) and the complex architecture of the microvasculature. In our review, we have tried to postulate a possible role of red blood cell (RBC) biomechanical properties and laid down future framework for research related to hemorrheological aspects of blood in patients with retinal vascular disorders.

Published

2015

13. A Disposable Blood-on-a-Chip for Simultaneous Measurement of Multiple Biophysical Properties.

Author

Kang, Yang Jun

Subjects

ERYTHROCYTE deformability, PHYSICAL biochemistry, MICROFLUIDIC devices

Abstract

Biophysical properties are widely used to detect pathophysiological processes of vascular diseases or clinical states. For early detection of cardiovascular diseases, it is necessary to simultaneously measure multiple biophysical properties in a microfluidic environment. However, a microfluidic-based technique for measuring multiple biophysical properties has not been demonstrated. In this study, a simple measurement method was suggested to quantify three biophysical properties of blood, including red blood cell (RBC) deformability, RBC aggregation, and hematocrit. To demonstrate the suggested method, a microfluidic device was constructed, being composed of a big-sized channel (BC), a parallel micropillar (MP), a main channel, a branch channel, inlet, and outlets. By operating a single syringe pump, blood was supplied into the inlet of the microfluidic device, at a periodic on-off profile (i.e., period = 240 s). The RBC deformability index (DI) was obtained by analyzing the averaged blood velocity in the branch channel. Additionally, the RBC aggregation index (AIN) and the hematocrit index (HiBC) were measured by analyzing the image intensity of blood flows in the MP and the BC, respectively. The corresponding contributions of three influencing factors, including the turn-on time (Ton), the amplitude of blood flow rate (Q0), and the hematocrit (Hct) on the biophysical indices (DI, AIN, and HiBC) were evaluated quantitatively. As the three biophysical indices varied significantly with respect to the three factors, the following conditions (i.e., Ton = 210 s, Q0 = 1 mL/h, and Hct = 50%) were maintained for consistent measurement of biophysical properties. The proposed method was employed to detect variations of biophysical properties depending on the concentrations of autologous plasma, homogeneous hardened RBCs, and heterogeneous hardened RBCs. Based on the observations, the proposed method exhibited significant differences in biophysical properties depending on base solutions, homogeneous hardened RBCs (i.e., all RBCs fixed with the same concentration of glutaraldehyde solution), and heterogeneous hardened RBCs (i.e., partially mixed with normal RBCs and homogeneous hardened RBCs). Additionally, the suggested indices (i.e., DI, AIN, and HiBC) were effectively employed to quantify three biophysical properties, including RBC deformability, RBC aggregation, and hematocrit. [ABSTRACT FROM AUTHOR]

Published

2018