Electrochemical Immunosensor for TNFα-Mediated Inflammatory Disease Screening

Cruz, Andrea; Queirós, Raquel B.; Abreu, Catarina M.; Barata, Catarina; Fernandes, Rosa; Silva, Rufino; Ambrósio, António Francisco; Soares-dos-Reis, Ricardo; Guimarães, Joana; Sá, María José; Relvas, João B.; Freitas, P. P.; Pinto, Inês Mendes

doi:10.1021/acschemneuro.9b00036

Cited by 21 publications

(23 citation statements)

References 28 publications

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“…Many electrochemical biosensors have been developed for the detection of cytokines. [ 147–150 ] Filik et al. [ 151 ] summarized the recent developments of numerous electrochemical assays for the measurement of TNF‐ α , illustrating various novel sensing strategies for immunoelectrochemical sensor improvement to selectively detect cytokines.…”

Section: Quantification Of Cytokinesmentioning

confidence: 99%

Cytokines: From Clinical Significance to Quantification

et al. 2021

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Cytokines are critical mediators that oversee and regulate immune and inflammatory responses via complex networks and serve as biomarkers for many diseases. Quantification of cytokines has significant value in both clinical medicine and biology as the levels provide insights into physiological and pathological processes and can be used to aid diagnosis and treatment. Cytokines and their clinical significance are introduced from the perspective of their pro‐ and anti‐inflammatory effects. Factors affecting cytokines quantification in biological fluids, native levels in different body fluids, sample processing and storage conditions, sensitivity to freeze‐thaw, and soluble cytokine receptors are discussed. In addition, recent advances in in vitro and in vivo assays, biosensors based on different signal outputs and intracellular to extracellular protein expression are summarized. Various quantification platforms for high‐sensitivity and reliable measurement of cytokines in different scenarios are discussed, and commercially available cytokine assays are compared. A discussion of challenges in the development and advancement of technologies for cytokine quantification that aim to achieve real‐time multiplex cytokine analysis for point‐of‐care situations applicable for both biomedical research and clinical practice are discussed.

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Section: Quantification Of Cytokinesmentioning

confidence: 99%

Cytokines: From Clinical Significance to Quantification

et al. 2021

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“…Sensitivity depends on the biomarker(s) being detected, but is generally higher than that obtained with conventional tests (e.g. those for the detection of tumour necrosis factor α is around 40-fold more sensitive than the ELISA-based assays) [ 123 ]. Moreover, this biosensor can be integrated into a reader and connected to a computer or to a smartphone, from which the results can be directly read.…”

Section: Basic and Applied Molecular Researchmentioning

confidence: 99%

State of the Art and Future Challenges in Multiple Sclerosis Research and Medical Management: An Insight into the 5th International Porto Congress of Multiple Sclerosis

et al. 2020

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The 5th International Porto Congress of Multiple Sclerosis took place between the 14th and 16th of February 2019 in Porto, Portugal. Its intensive programme covered a wide-range of themes-including many of the hot topics, challenges, pitfalls and yet unmet needs in the field of multiple sclerosis (MS)-led by a number of well-acknowledged world experts. This meeting review summarizes the talks that took place during the congress, which focussed on issues in MS as diverse as the development and challenges of progressive MS, epidemiology, differential diagnosis, medical management, molecular research and imaging tools.

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“…This has kindled interest in the use of multiple molecular features in the form of proteins, RNA, metabolites, lipids, and others for improved stroke diagnostics sensitivity and specificity [ 17 ]. In this context, new miniaturized biosensing POC prototypes are under development for fast multiplex monitoring of different biochemical and genetic pathways potentially associated with stroke (e.g., MMP9, TNF-α, IL6, S100B, GFAP, microRNA) in minimally invasive blood samples [ 80 , 81 , 82 , 83 , 84 ] (see Table 6 ). Despite recent technological advances, only a few innovative analytical platforms are capable of multi-biomarker panel profiling towards the potential development of tailored POCT stroke devices.…”

Section: Conventional and Point-of-care Technologiesmentioning

confidence: 99%

Timely and Blood-Based Multiplex Molecular Profiling of Acute Stroke

Dias

Silva

Pinto

et al. 2021

Life

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Stroke is a leading cause of death and disability in the world. To address such a problem, early diagnosis and tailored acute treatment represent one of the major priorities in acute stroke care. Since the efficacy of reperfusion treatments is highly time-dependent, there is a critical need to optimize procedures for faster and more precise diagnosis. We provide a concise review of the most relevant and well-documented blood–protein biomarkers that exhibit greater potential for translational to clinical practice in stroke differential diagnosis and to differentiate ischemic stroke from hemorrhagic stroke, followed by an overview of the most recent point-of-care technological approaches to address this problem. The integration of fluid-based biomarker profiling, using point-of-care biosensors with demographic, clinical, and neuroimaging parameters in multi-dimensional clinical decision-making algorithms, will be the next step in personalized stroke care.

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Electrochemical Immunosensor for TNFα-Mediated Inflammatory Disease Screening

Cited by 21 publications

References 28 publications

Cytokines: From Clinical Significance to Quantification

Cytokines: From Clinical Significance to Quantification

State of the Art and Future Challenges in Multiple Sclerosis Research and Medical Management: An Insight into the 5th International Porto Congress of Multiple Sclerosis

Timely and Blood-Based Multiplex Molecular Profiling of Acute Stroke

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