Developing Activated Carbon Veil Electrode for Sensing Salivary Uric Acid

Bukharinova, Maria A.; Stozhko, N. Yu.; Novakovskaya, Elizaveta A.; Khamzina, Ekaterina I.; Tarasov, Aleksey V.; Sokolkov, Sergey V.

doi:10.3390/bios11080287

Cited by 11 publications

(11 citation statements)

References 58 publications

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“…The paper by Bukharinova MA et al describes the development of a carbon veil electrode (CVE) for the determination of UA in saliva [ 74 ]. The results support the use of the sensor for the rapid determination of UA in artificial and human saliva.…”

Section: Uric Acid Leaching In Salivamentioning

confidence: 99%

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Purine Metabolism Dysfunctions: Experimental Methods of Detection and Diagnostic Potential

Cicero

Fogacci

Micoli

et al. 2023

IJMS

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Purines, such as adenine and guanine, perform several important functions in the cell. They are found in nucleic acids; are structural components of some coenzymes, including NADH and coenzyme A; and have a crucial role in the modulation of energy metabolism and signal transduction. Moreover, purines have been shown to play an important role in the physiology of platelets, muscles, and neurotransmission. All cells require a balanced number of purines for growth, proliferation, and survival. Under physiological conditions, enzymes involved in purines metabolism maintain a balanced ratio between their synthesis and degradation in the cell. In humans, the final product of purine catabolism is uric acid, while most other mammals possess the enzyme uricase that converts uric acid to allantoin, which can be easily eliminated with urine. During the last decades, hyperuricemia has been associated with a number of human extra-articular diseases (in particular, the cardiovascular ones) and their clinical severity. In this review, we go through the methods of investigation of purine metabolism dysfunctions, looking at the functionality of xanthine oxidoreductase and the formation of catabolites in urine and saliva. Finally, we discuss how these molecules can be used as markers of oxidative stress.

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Section: Uric Acid Leaching In Salivamentioning

confidence: 99%

“…The results support the use of the sensor for the rapid determination of UA in artificial and human saliva. The RSD does not exceed 3.9%, and the recovery is 96–105% [ 74 ]. UA contributes significantly to the antioxidant activity (AOA) of saliva (≈60%).…”

Section: Uric Acid Leaching In Salivamentioning

confidence: 99%

Purine Metabolism Dysfunctions: Experimental Methods of Detection and Diagnostic Potential

Cicero

Fogacci

Micoli

et al. 2023

IJMS

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“…These elements can be integrated onto materials of nano-micro scale, including 2D materials such as graphene and MoS 2 , 1D materials including carbon nanotubes (CNTs) and Si nanowire, and 0D materials including Au nanoparticles (AuNPs). − Optical signal detection through transducers is characterized by a unique interaction between the active site of the transducer and light signals, which arises from distinct physical, chemical, or structural properties, leading to high sensitivity . Optical transducers utilize a range of spectroscopic techniques, including absorption, fluorescence, and Raman scattering. − This approach has been utilized to monitor the differentiation state of stem cells including human neural stem cells (hNSCs) and MSCs by analyzing the presence and quantity of specific molecules in various environments. − Electrical sensors are using conductance or resistance variation between electrodes by adsorption of biochemical molecules on conducting channel materials. − Electrical transducers can detect and quantify a wide range of cellular environmental changes, from pH shifts to the presence of large molecules such as antibodies and proteins. This allows for distinguishing cancer cells, observing stem cell differentiation, and monitoring immune cell activation .…”

Section: Current Analytics For Single Cell Profilingmentioning

confidence: 99%

Nanosensor Chemical Cytometry: Advances and Opportunities in Cellular Therapy and Precision Medicine

Song,

Tian,

Lee

et al. 2023

ACS Meas. Sci. Au

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With the definition of therapeutics now encompassing transplanted or engineered cells and their molecular products, there is a growing scientific necessity for analytics to understand this new category of drugs. This Perspective highlights the recent development of new measurement science on label-free single cell analysis, nanosensor chemical cytometry (NCC), and their potential for cellular therapeutics and precision medicine. NCC is based on microfluidics integrated with fluorescent nanosensor arrays utilizing the optical lensing effect of a single cell to real-time extract molecular properties and correlate them with physical attributes of single cells. This new class of cytometry can quantify the heterogeneity of the multivariate physicochemical attributes of the cell populations in a completely label-free and nondestructive way and, thus, suggest the vein-to-vein conditions for the safe therapeutic applications. After the introduction of the NCC technology, we suggest the technological development roadmap for the maturation of the new field: from the sensor/chip design perspective to the system/software development level based on hardware automation and deep learning data analytics. The advancement of this new single cell sensing technology is anticipated to aid rich and multivariate single cell data setting and support safe and reliable cellular therapeutics. This new measurement science can lead to data-driven personalized precision medicine.

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“…Furthermore, supercapacitive SPBs also utilize, for the detection of exosomal miRNAs, oxalic acid, glucose, uric acid, tyrosine, SARS-CoV-2, and also blood pH. − …”

Section: Assembling Biosensor Devicesmentioning

confidence: 99%

Advanced Self-Powered Biofuel Cells with Capacitor and Nanogenerator for Biomarker Sensing

Yadav,

Patil,

Dutta

2023

ACS Appl. Bio Mater.

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Self-powered biofuel cells (BFCs) have evolved for highly sensitive detection of biomarkers such as noncodon micro ribonucleic acids (miRNAs) in the presence of interfering substrates. Self-charging supercapacitive BFCs for in vivo and in vitro cellular microenvironments represent the most prevalent sensing mechanism for diagnosis. Therefore, self-powered biosensing (SPB) with a capacitor and contact separation with a triboelectric nanogenerator (TENG) offers electrochemical and colorimetric dual-mode detection via improved electrical signal intensity. In this review, we discuss three major components: stretchable self-powered BFC design, miRNA sensing, and impedance spectroscopy. A specific focus is given to 1) assembling of sensors for biomarkers, 2) electrical output signal intensification, and 3) role of supercapacitors and nanogenerators in SPBs. We outline the key features of stretchable SPBs and the sequence of miRNA sensing by SPBs. We have emphasized the need of a supercapacitor and nanogenerator for SPBs in the context of advanced assembly of the sensing unit. Finally, we outline the role of impedance spectroscopy in the detection and estimation of biomarkers. We highlight key challenges in SPBs for biomarker sensing, which needs improved sensing accuracy, integration strategies of electrochemical biosensing for in vitro and in vivo microenvironments, and the impact of miRNA sensing on cancer diagnostics. This article attempts a specific focus on the accuracy and limitations of sensing unit for miRNA biomarkers and associated tool for boosting electrical signal intensity for a potential big step further.

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Developing Activated Carbon Veil Electrode for Sensing Salivary Uric Acid

Cited by 11 publications

References 58 publications

Purine Metabolism Dysfunctions: Experimental Methods of Detection and Diagnostic Potential

Purine Metabolism Dysfunctions: Experimental Methods of Detection and Diagnostic Potential

Nanosensor Chemical Cytometry: Advances and Opportunities in Cellular Therapy and Precision Medicine

Advanced Self-Powered Biofuel Cells with Capacitor and Nanogenerator for Biomarker Sensing

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