Blood, sweat, and tears: developing clinically relevant protein biosensors for integrated body fluid analysis

Corrie, Simon R.; Coffey, Jacob W.; Islam, Jiaul; Markey, Kate A.; Kendall, M. A. F.

doi:10.1039/c5an00464k

Cited by 160 publications

(147 citation statements)

References 172 publications

(211 reference statements)

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“…42,[46][47][48] Thus, the results found in this study for tears and blood serum are within the range of values described in the literature. 49,50 Total proteins in the tear films of humans and chimpanzees have been quantified, 43 with no difference in the observed values. This differs from our results, in which CM tears had decreased protein amounts.…”

Section: Sds-page and Clinical Biochemistry Analysis Of The CM And Humentioning

confidence: 95%

Evaluation of lacrimal production, osmolarity, crystallization, proteomic profile, and biochemistry of capuchin monkeys’ tear film

Raposo

Portela

Masmali

et al. 2018

J of Medical Primatology

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Section: Sds-page and Clinical Biochemistry Analysis Of The CM And Humentioning

confidence: 95%

Evaluation of lacrimal production, osmolarity, crystallization, proteomic profile, and biochemistry of capuchin monkeys’ tear film

Raposo

Portela

Masmali

et al. 2018

J of Medical Primatology

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“…Wearable sensors have been receiving considerable recent attention because of their great promise for on-body monitoring of a wide range of relevant parameters for health, fitness, and biomedicine applications (Ghafar-Zadeh et al, 2015; Andreu Perez et al, 2015; Soh et al, 2015; Corrie et al, 2015). While the majority of existing wearable technologies focus on monitoring physical parameters (e.g., motion, respiration rate, etc.)…”

Section: Introductionmentioning

confidence: 99%

Wearable salivary uric acid mouthguard biosensor with integrated wireless electronics

Kim¹,

Imani

Araújo

et al. 2015

Biosensors and Bioelectronics

500

412

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This article demonstrates an instrumented mouthguard capable of non-invasively monitoring salivary uric acid (SUA) levels. The enzyme (uricase)-modified screen printed electrode system has been integrated onto a mouthguard platform along with anatomically-miniaturized instrumentation electronics featuring a potentiostat, microcontroller, and a Bluetooth Low Energy (BLE) transceiver. Unlike RFID-based biosensing systems, which require large proximal power sources, the developed platform enables real-time wireless transmission of the sensed information to standard smartphones, laptops, and other consumer electronics for on-demand processing, diagnostics, or storage. The mouthguard biosensor system offers high sensitivity, selectivity, and stability towards uric acid detection in human saliva, covering the concentration ranges for both healthy people and hyperuricemia patients. The new wireless mouthguard biosensor system is able to monitor SUA level in real-time and continuous fashion, and can be readily expanded to an array of sensors for different analytes to enable an attractive wearable monitoring system for diverse health and fitness applications.

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“…Electrochemistry provides fast, sensitive and relatively inexpensive detection using measurement equipment and transducers that are robust and easy to miniaturize, and a number of enzymatic point‐of‐care (POC) electrochemical devices are well established in the market . In contrast, diagnostic immunosensors face challenges such as the need to integrate multi‐step and multi‐reagent immunoassays, detection of analytes that may be present at very low concentrations, or potential interferences caused by non‐target compounds present in complex clinical samples …”

Section: Introductionmentioning

confidence: 99%

“…[2] In contrast, diagnostic immunosensors face challenges such as the need to integrate multi-step and multi-reagent immunoassays, detection of analytes that may be present at very low concentrations, or potential interferences caused by non-target compounds present in complex clinical samples. [3] Immunomagnetic sensing relies on magnetic beads (MB) modified with antibodies (Ab). [4] MB are attracted by external magnetic fields and can be easily re-suspended in solution when the magnetic field is removed or switched-off.…”

Section: Introductionmentioning

confidence: 99%

Electrochemical Lateral Flow Devices: Towards Rapid Immunomagnetic Assays

et al. 2017

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Paper has been used for a long time in the production of low‐cost point‐of‐care (POC) detection devices, most of which rely on the detection of colored bands by the user. However, test strips rarely provide the quantitative detection of biomarkers in clinical samples. In contrast, electrochemical detection enables quantitative detection in paper‐based immunoassays. Here, we demonstrate the production of a simple and economical lateral‐flow electrode device using only screen printing. Contrary to previous work, this device is used to simplify the washing and detection of a short and sensitive immunomagnetic assay for myeloperoxidase (MPO) detection. As we show, after incubation of the sample with magnetic beads (MBs) and detection antibody (Ab) for only 5 min, the whole reaction mixture can be directly pipetted onto the strip. Washing and detection can then be performed, as the MBs are retained with the aid of a magnet, and minimal user intervention is needed. The obtained results reveal that MPO can be detected in 1 : 100 diluted serum with limits of detection and quantification of 0.18 and 0.62 ng mL−1, respectively, in less than 15 min.

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Blood, sweat, and tears: developing clinically relevant protein biosensors for integrated body fluid analysis

Cited by 160 publications

References 172 publications

Evaluation of lacrimal production, osmolarity, crystallization, proteomic profile, and biochemistry of capuchin monkeys’ tear film

Evaluation of lacrimal production, osmolarity, crystallization, proteomic profile, and biochemistry of capuchin monkeys’ tear film

Wearable salivary uric acid mouthguard biosensor with integrated wireless electronics

Electrochemical Lateral Flow Devices: Towards Rapid Immunomagnetic Assays

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