Electrochemical biosensors are undoubtedly the most popular among POC devices due to their high sensitivity, simplicity, low cost, and reliability. The development of these electrochemical devices has continued to grow exponentially since Clark designed the first enzymatic glucose biosensor, which was then improved and became the most commercialized healthcare biosensor. Electrochemical biosensors that use smartphones received great attention as they use a friendly semi-automated user interface with minimum extra tailored hardware. They can also be used at home, offering an interesting, cost-effective alternative.
Application | Biosensor Type | Evaluated in Real Samples? | Pat. Nº, Year, State | Improvements of Smart Sensor vs. Benchtop Techniques | Refs. |
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Secretory leukocyte protease inhibitor (SLPI) but can be applied to different applications | Immunological | ||||
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M, LOD: 3 aM. LOD of the clinical specimen: 200 copies/mL, which was the lowest LOD among the published RNA measurement of SARS-CoV-2 at this moment | |||||
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Application | Biosensor Type | Evaluated in Real Samples? | Pat. Nº, Year, State | Improvements of Smart Sensor vs. Benchtop Techniques | Ref. | |||||
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No. Tested in solutions of different concentrations of the biomarker secretory leukocyte protease inhibitor (SLPI) | ||||||||||
H2O2 , Glucose and Catechol biosensor | US11166653B2, 2016/2021 [ | 24 | ] | Electronic module containing a low-power potentiostat that interfaces efficiently with a wide variety of phones through the audio jack to obtain power and communicate. The system uses a microcontroller. Total power consumption: 6.9 mW. Compared with a commercial potentiostat: current from ±300 pA to ±20 µA with a 100 kΩ gain. It can be used to obtain voltammograms. The platform can be used with different brands of smartphones and allows the use of electrochemical biosensors for different applications. | Enzymatic: GOX and tyrosinase over poly(aniline-co-anthranilic acid) | Yes. Food and pharmaceutical samples | [25 | ,26] | ||
Polymeric substrate material and image processing software provided a great correlation with benchtop techniques and higher LOD. | [ | 44 | US20210087614A1, 2019 Pending [27] | |||||||
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HIV and Hepatitis B biosensor | DNA/RNA-linked biosensor | Yes. Plasma samples | WO2014089700A1, 2013 Pending [45] | They were able to detect between 103 to 109 copies/mL over a 20µL sample and differentiate patients with HIV from those with HBV on the mono-infection assay and multiplexed detection of both of them in a co-infection assay. The results were quite well-correlated compared to benchtop equipment measurements. | [46] | Blood β-ketone (blood β-hydroxybutyrate) | Enzymatic: β-hydroxybutyrate dehydrogenase method | Yes. Tested in finger blood | Electrochemical dongle, which is powered by the smartphone through an OTG. It takes chronoamperometric measurements of blood ketone. Linear regression coefficient of 0.987 for a range of 0 to 4 mmol/L of blood β-hydroxybutyrate. The authors were able to demonstrate that the preciseness and stability of the measured data are highly reliable and applicable for clinical use. | |
Hemoglobin and HIV biosensor | Immunosensor | [ | 28 |
Applications | Biosensor Type | Evaluated in Real Samples? | Pat. Nº, Year, State | Improvements of Smart Sensor vs. Benchtop Techniques | Ref. | ||||||||
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µCTX-II in urine | Immunological | No. Tested with artificial urine solution (AUS) with the same composition as real urine | US20180371529A1, 2015 Pending [72] | Effective smart optical biosensor, highly correlated with benchtop techniques and higher LOD for the use in patients with complications of renal insufficiency and also for the diagnosis and/or prognosis of osteoarthritis. | [73] | ||||||||
Hemoglobin | ] | ||||||||||||
Colorimetric | Yes. Finger-pricked blood | WO2021019553A1, 2019 Pending [74] WO2021019552A1, 2020 Pending [75] |
Fast, sensitive, and specific device for the detection of anemia with good correlation with the results of an automated hematology analyzer and on par with other POC test platforms. The results differ from the pathological estimates within the range of 0.5 g/dL for all severely anemic samples and <1.5 g/dL for the rest of the samples. | [76] | Yes. Blood samples | WO2016025698A1, 2014 Pending [47] | It consists of a combined pure optical assay and an immunoassay at the same time, and in the same device, without a difficult procedure for handling samples and reagents. The results are in good agreement with their commercial equivalents supported by smartphone technologies. | [48] | |||||
Urinary microbial ATP | Bioluminescent | No. A urine sample inoculated with E.Coli was used to simulate a urinary tract infection. | US8642272B2, 2014 [77] | First device bioluminescent on paper for the detection of low-cost ATP, based on the reaction of Luciferase/D-Luciferina that exploits the smartphone camera as a detector. The ATP sensing paper includes an Innovator Lyophilized “Nano-Lantern” With Reaction Components. The mentioned patent does not correspond to the device but is related to its manufacturing materials. | [78] | For protein detection: bull serum albumin (BSA) and thrombin | Immunological for BSA detection and Enzymatic for Thrombin detection | No. Tested with solutions of different concentrations of BSA and thrombin | |||||
E. coli and S. typhimurium | biosensor | ||||||||||||
Human IgM and IgG | Immunological | Yes. Human serum | US20210382048A1, 2021 Pending [79]Portable transducer and a handheld detector connected via Bluetooth to the smartphone. The detector can perform electrochemical impedance spectroscopy (EIS) (10 Hz to 10 kHz). The system can detect very low concentrations of BSA (1.78 µg/mL) and thrombin (2.97 ng/mL). They related the charge transfer resistance (Rct) with the concentration of BSA or thrombin. The smartphone delivers control commands, receive data signals, and display the Nyquist graph. A designed Android App serves as an interactive interface between the users and the biosensor system. It allows the use of other electrochemical biosensors. | [29] | |||||||||
Immunosensor | No | For the first time, a device capable of detecting two genetically related bacteria within a single sample drop is reported, with a LOD of 10 | −2 CFU/mL, in a fairly short time (12 min), and with a good consistency in comparison with the results obtained in laboratory experiments. | [ | This paper device has a detection limit of 100 fg/mL demonstrated for the biomarkers of the IgG and IgM protein, which is higher than the one achieved with a traditional Benchtop ELISA test. It is also a much faster method (<5 min), portable, resistant, stable, and low cost, which uses serum without sample preparation and can be easily discarded.49] | [80] | Glucose concentration | Enzyme-carbon composite pellets | No. Tested with solutions of different glucose concentrations | US20210270766A1, 2018 Pending [30] | Electrochemical sensor strips consist of carbon electrodes and a second part is composed of the carbon paste GOx biosensor, which can be replaced in each measurement. The biosensor is a compact carbon/GOx/rhodium pill. Measurement compartment: 3D-fabricated smartphone case with a permanently-attached passive sensor strip and a compartment where the biosensor magnetic pellet is placed for each measurement. They developed a portable potentiostat (Texas Instruments CC2541 BLE System on-Chip) communicated wirelessly with the smartphone. Android-based smartphone application developed. | [31] | |
Zika, Dengue, Chikungunya detector | DNA/RNA-linked biosensor | No. Tested in artificial blood, urine, and saliva samples | US20160025630A1, 2014 Pending [50] | Detection technique that involves quenching of unincorporated amplification signal reporters (QUASR). Distinctively to other reported LAMP detection modalities, QUASR offers very bright signals, reduces the detection of false-positive amplification, and offers the ability to multiplex two or more targets per reaction. These features can highly reduce reagent costs and dilution needs when sample volume is limiting. A personalized smartphone application (app) controls the isothermal heating module and a LED excitation module via Bluetooth. The app processes images through a novel detection algorithm for multiplexed QUASR assay signals with greater accuracy than conventional image analysis software. | |||||||||
SARS-CoV-2 | Genetic: AuNPs capped with highly specific antisense oligonucleotides (ssDNA) | [ | Yes. Samples collected from Vero cells infected with SARS-CoV-2 virus and clinical samples51] | US20210388454A1, 2020 Pending [81] | This device can successfully and precisely distinguish the positive samples from Covid-19 from negatives, with sensitivity and specificity of almost 100%. It also presents sensing feasibility even for virus genomic mutation events due to the use of AuNPs, covered with highly specific antisense oligonucleotides (SSDNA) that are simultaneously directed to two separate regions of the same SAR-COV-2 N gene | [82] | Alcohol in whole blood samples | Enzymatic: two enzymes are used, HRP and alcohol oxidase | Yes. Tested with whole blood | The system combines a three-electrode microfluidic chip with a secondary compact PCB module as a µPotentiostat. Chronoamperometric and CV measurements. Communicated with the smartphone via USB. The novelty of the system is the reusable biosensor concept. Two enzymes, HRP and alcohol oxidase, are immobilized via in situ electrodeposition of a calcium alginate hydrogel for selective ethanol detection. A constant potential of 0 V was applied between WE and Pt RE. The smartphone acts as a simple graphical interface and for cloud connectivity. | |||
HIV1-p17, hemagglutinin (HA), and dengue virus type I detector | Bioluminiscent reporter | [ | Yes. Blood plasma samples | 32 | ] | ||||||||
WO2019038375A1, 2018 Pending [ | 52 | ] | The design shows to be an attractive analytical platform for point-of-care antibody detection that dispenses with liquid handling steps that are related to the major issues in immunoassays. | ||||||||||
Cotinine in Urine | Immunological-Electrochemical | [ | Yes. Urine samples of smoker and non-smokers patients53] | WO2019139537A1, 2019 Pending [83] | A simple lateral flow competitive immunochromatography was successfully integrated with the AgNP/HRP/AuNP-modified electrode. Immunoreaction can be monitored by either electrochemical measurement or wireless detection. Wireless sensing was realized for cotinine in the range of 100–1000 ng/mL (R2 = 0.96) in PBS medium. For 1:8 diluted urine samples, the device differentiated positive and negative samples and exhibited cotinine discrimination at levels higher than 12 ng/mL. | [84] | Cancer biomarker microRNAs (miRNAs) | Genetic: Tris(2-carboxyethyl)phosphine hydrochloride (TCEP)-treated ssDNA probe drop casted onto an rGO/Au composite-modified WE | No. Tested with miR-21 spiked artificial saliva | ||||
Inflammation and cell viability biosensors | Bioluminiscent reporters | The system presents a circuit board as the potentiostat, powered through smartphone On-The-Go (OTG) port and a graphene oxide/gold composite-modified electrode as the biosensor. The circuit board communicates via Bluetooth with the smartphone. A specially designed Android application shows the results. The detection is facilitated via a synthetic ssDNA probe immobilized onto the GO/Au electrode. Good linearity (r2 = 0.99) for the detection of 1×10−4 M to 1×10−12 M of [miR-21]. The sample must be incubated at 40 °C for 1 h for hybridization before electrochemical measurement. | No. Simulated proinflammatory and toxic samples. | US20120045835A1, 2009 Pending [54][ | A limit of detection for tumor necrosis factor (TNFα) of 0.15 ± 0.05 ng/mL was achieved. This proposal promises to be a useful platform to preliminary screen environmental samples or other types of compounds for on-site detection. | ||||||||
IL-6 levels in blood and respiratory samples | 33 | ] | |||||||||||
Immunological | Yes. Human blood and bronchial aspirate samples | WO2021048087A1, 2019 Pending [85] | Paper immunosensor interfaced with a smartphone that generates intense colorimetric signals when the sample contains ultralow concentrations of IL-6. The device combines a paper-based signal amplification mechanism with polymer-filled reservoirs for dispensing antibody-decorated nanoparticles and a bespoken app for color quantification. Semi-quantitative measurements of IL-6 can be facilitated in 10 min with a LOD of 1.3 pg mL−1 and a dynamic range of up to 102 pg mL−1 in diluted blood samples.[55] | [86] | Reactive oxygen species (ROS) for COVID-19 detection | MWCNTs on the tip of steel needles of 3 electrodes | Yes. Tested in Fresh sputum or bronchoalveolar lavage fluids |
US11181499B2, 2017/2021 [34] | The system includes a previously patented electrochemical ROS/H2O2 system consisting of an electrochemical readout board (+/− 0.8 mV, 100 mV s−1, and a sensing disposable sensor. The group presented an application Patent in 2020 for the electrochemical approach to detect COVID-19, which was granted in 2021. |
[35] | |||
US11047824B2, 2020/2021 [36] | |||||||||||||
RNA from SARS-CoV-2 virus | Genetic: The sequences were provided by the Chinese Center for Disease Control and Prevention (CDC) | ||||||||||||
Hemoglobin sensor | Label-free detection | No. Simulated samples. | US8861086B2, 2014 [56] | It stands out for its compact size, portability, low cost, the efficiency of optical spectroscopy for quantitative measurement, and ease of data collection, management, and computation. | [57] | Yes. Tested with extracts from SARS-CoV-2-confirmed patients and recovered patients | |||||||
US20160296118A1, 2015 Pending [58] | It is an ultrasensitive electrochemical biosensor for the detection of the RNA of SARS-CoV-2 by using a smartphone. They used a super sandwich-type recognition strategy without the need for nucleic acid amplification and reverse transcription. For this biosensor, only two copies (10 μL) of SARS-CoV-2 were required per assay to detect a positive sample. Calibrated with concentrations between 10 | ||||||||||||
Bovine immunoglobulinG (IgG) | Immunosensor | No. Spiked buffer solution of IgG protein | US20190025330A1, 2917 Pending [59] | In addition to the ability to detect immunoglobulins G, the device can be applied to the sensing of other analytes by properly functionalizing the gold film. The results and sensitivity obtained were comparable to commercial SPR instruments, so being a portable SPR system, it makes it an extremely useful device. | [60] | ||||||||
Chloride, sodium, and zinc in sweat | Fluorescence | Yes. Sweat | US20210145352A1, 2018 Pending [61] | Through an ultrathin, skin-compatible adhesive layer, the device allows sweat to be collected and distributed to different areas with fluorescent reagents. The device makes it possible to quantitatively determine, in a simple and low-cost device, several biomarkers of sweat at the same time. | [62] | ||||||||
Prostatespecific antigen (PSA) | Fluorescence | No. Spiked solution with PSA | US20120141746A1, 2009 Pending [63] | The device allows, through simple steps, to quantify different concentrations of PSA by means of fluorescence measurement with a smartphone. This sends the data to the cloud for processing and gives a result in about 1 min. It is not a practical device since it needs an objective lens (magnification 40×) to be able to capture the images with the smartphone. | [64] | ||||||||
JP2008128677A, 2006 Pending [65] | |||||||||||||
WO2017141503A1, 2016 Pending [66] |