Dielectric spectroscopy of red blood cells in sickle cell disease

Liu, Jia; Qiang, Yuhao; Du, E.

doi:10.1002/elps.202000143

Cited by 14 publications

(5 citation statements)

References 60 publications

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“…The data are consistent with a study of the electrokinetic potential of erythrocytes [10], which shows that a single antibody contact is not enough for the modification of the erythrocyte charge. In Europe and Japan, an increasing number of clinical laboratories are using cell electrophoresis [15], therefore electrophoresis of erythrocytes might be used for blood group detection.…”

Section: Resultsmentioning

confidence: 99%

Determination of blood group antigens using electrophoresis of erythrocytes incubated with specific antibodies

Berest

Borikov

Kravchun

et al. 2022

Separation Science Plus

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There is a need for specific determination of blood group antigens on erythrocytes for improvement of the quality of hemotransfusion therapy. O, A, B, AB, and weak variants of A and B antigen (O washed erythrocytes with anti‐A or anti‐B antibody absorbing ability) were investigated for electrophoretic mobility with immunoglobulin G complement‐dependent antibodies. The contact of anti‐A heated serum and complement with A erythrocytes resulted in their decreased electrokinetic potential the contrary to the serum without anti‐A and anti‐B antibodies and increased after addition of the serum from O blood group person with anti‐A and anti‐B absorbing ability. Anti‐B heated serum with complement decreased electrokinetic potential of B erythrocytes. Whereas both anti‐A heated serum and serum from AB person with complement did not decrease the electrokinetic potential of O erythrocytes. Anti‐B heated serum, in the same manner, decreased the electrokinetic potential of O blood group erythrocytes with anti‐B absorbing ability. Anti‐А immunoglobulin G complement‐dependent antibodies decreased the electrokinetic potential of washed O erythrocytes with аnti‐A absorbing ability contrary to immunoglobulin M antibodies. Evaluation of the electrokinetic potential of erythrocytes with a set of immunoglobulin G complement‐dependent antibodies might be considered for blood group type detection.

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Section: Resultsmentioning

confidence: 99%

Determination of blood group antigens using electrophoresis of erythrocytes incubated with specific antibodies

Berest

Borikov

Kravchun

et al. 2022

Separation Science Plus

View full text Add to dashboard Cite

show abstract

“…This technique can be further utilized in clinical pathology. Liu et al, in their study done in 2021, showed that the dielectric properties of normal red blood cells differed significantly from those of sickle cell disease after subjecting them both to hypoxia [31]. This study has provided insight and further potential for dielectric spectroscopy to be used in the field of hematology, as cell properties fluctuate with changes in their biochemical and genetic makeup.…”

Section: Discussionmentioning

confidence: 85%

A Novel Digital Fingerprinting Tool for Histopathology assessment Leveraging AI on Fresh Biopsy and Resection Tissues: A Feasibility Study using Gastrointestinal Tissues

Gaddam,

Samaddar,

Gopalakrishnan

et al. 2023

Preprint

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Digitization of tissues allows examination of tissue morphologies in new ways enabling patient stratification for effective treatments. Current slide-scanning techniques capture the visible details of the tissue as whole-slide images and digitally record them in the form of spatial and color relationships. Specialized experimental techniques like Dielectric spectroscopy can also be used to investigate a tissue’s response to an applied electric field. This study used the dielectric spectroscopy method to collect the complex permittivity of healthy and abnormal biopsy tissues excised during gastroenterology procedures. A single pole Cole-Cole model is fitted to the measurements dataset to extract the parameters which are used as features in machine learning binary classification models. The models achieved high accuracy, demonstrating the feasibility of using microwave-based spectroscopy measurements to create a digital dielectric fingerprint for tissues under investigation.

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“…The corresponding Bode plot in Figure 3 b shows that the NP-doped GelMA demonstrates a lower impedance value than that of GelMA over all the frequency values. The performance of neural recording electrodes is typically evaluated by their impedance at 1 kHz [ 39 , 40 ]. At 1 kHz, the measured impedance value for GelMA was 592 ± 22.7 Ω, while the NP-doped GelMA showed a significantly lower impedance, ranging from 38.3 to 52.4 Ω ( Figure 3 c).…”

Section: Resultsmentioning

confidence: 99%

Fabrication of Soft Tissue Scaffold-Mimicked Microelectrode Arrays Using Enzyme-Mediated Transfer Printing

Lin

Huang

2021

Micromachines

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Hydrogels are the ideal materials in the development of implanted bioactive neural interfaces because of the nerve tissue-mimicked physical and biological properties that can enhance neural interfacing compatibility. However, the integration of hydrogels and rigid/dehydrated electronic microstructure is challenging due to the non-reliable interfacial bonding, whereas hydrogels are not compatible with most conditions required for the micromachined fabrication process. Herein, we propose a new enzyme-mediated transfer printing process to design an adhesive biological hydrogel neural interface. The donor substrate was fabricated via photo-crosslinking of gelatin methacryloyl (GelMA) containing various conductive nanoparticles (NPs), including Ag nanowires (NWs), Pt NWs, and PEDOT:PSS, to form a stretchable conductive bioelectrode, called NP-doped GelMA. On the other hand, a receiver substrate composed of microbial transglutaminase-incorporated gelatin (mTG-Gln) enabled simultaneous temporally controlled gelation and covalent bond-enhanced adhesion to achieve one-step transfer printing of the prefabricated NP-doped GelMA features. The integrated hydrogel microelectrode arrays (MEA) were adhesive, and mechanically/structurally bio-compliant with stable conductivity. The devices were structurally stable in moisture to support the growth of neuronal cells. Despite that the introduction of AgNW and PEDOT:PSS NPs in the hydrogels needed further study to avoid cell toxicity, the PtNW-doped GelMA exhibited a comparable live cell density. This Gln-based MEA is expected to be the next-generation bioactive neural interface.

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Dielectric spectroscopy of red blood cells in sickle cell disease

Cited by 14 publications

References 60 publications

Determination of blood group antigens using electrophoresis of erythrocytes incubated with specific antibodies

Determination of blood group antigens using electrophoresis of erythrocytes incubated with specific antibodies

A Novel Digital Fingerprinting Tool for Histopathology assessment Leveraging AI on Fresh Biopsy and Resection Tissues: A Feasibility Study using Gastrointestinal Tissues

Fabrication of Soft Tissue Scaffold-Mimicked Microelectrode Arrays Using Enzyme-Mediated Transfer Printing

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