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Electrochemical Biosensing Platforms for Human and Plant Monitoring
KTH, School of Engineering Sciences in Chemistry, Biotechnology and Health (CBH), Chemistry, Applied Physical Chemistry. (Chemical Sensing Group)ORCID iD: 0000-0002-6128-5340
2024 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

A growing demand has emerged for new point-of-care (POC) platforms capable of delivering reliable clinical data in real-time through minimally invasive procedures. Currently, the majority of clinical data is derived from analyzing collected biological samples, primarily blood or plant sap. Unfortunately, these methods cost discomfort to patients, and are even destructive to plants. For example, conventional sap collection requires sacrifice the plants. The lack of portable tools for fast, on-site patient/plant monitoring has driven research into alternative strategies using biosensors.

The glucometer (i.e. blood glucose meter) stands out as one of the most successful examples of a POC device. It reflects the key features we strive for in such a biosensing platform: minimal limitations on who and where it can be used, combined with high reliability and affordability. Electrochemical readouts are advantageous in this case due to its fast response, wide detection range, and ease of integration into portable devices. This doctoral thesis introduces advancements of electrochemical biosensing platforms for detecting various analytes both in humans and plants. The key findings are summarized in the Results and Discussion section based on the four published research articles.

Briefly, the first type of electrochemical biosensor was developed for the determination of glycine in various human biofluids (e.g., blood, sweat, and urine). Considering the increasing importance of amino acid detection for clinical applications, we then created a new biosensing platform based on microneedles (MN) that aims to measure in dermal interstitial fluid. This minimally invasive strategy highlights the novelty of our second work. Third, we extended MN-based biosensors to another important analyte, lactate, which is previously widely analyzed in sweat. Finally, we demonstrated the first example of applying the MN sensors for continuous and real-time plant monitoring.

Abstract [sv]

En växande efterfrågan har uppstått på nya point-of-care-plattformar (POC) som kan leverera tillförlitliga kliniska data i realtid genom minimalt invasiva procedurer. För närvarande härrör majoriteten av kliniska data från analys av insamlade biologiska prover, främst blod eller växtsaft. Tyvärr kostar dessa metoder obehag för patienter och är till och med destruktiva för växter, eftersom konventionell savinsamling kräver att växterna offras. Bristen på bärbara verktyg för snabb patient-/anläggningsövervakning på plats har drivit forskning på alternativa strategier som använder biosensorer.

Glukometern (dvs blodsockermätaren) framstår som ett av de mest framgångsrika exemplen på en POC-enhet. Det återspeglar nyckelfunktionerna vi strävar efter i en sådan biosensingplattform: minimala begränsningar för vem och var den kan användas, kombinerat med hög tillförlitlighet och prisvärdhet. Noterbart är den elektrokemiska avläsningen fördelaktig i detta fall på grund av dess snabba svar, breda detekteringsområde och enkla integration i bärbara enheter. I detta avseende introducerar denna doktorsavhandling framsteg inom elektrokemiska bioavkänningsplattformar för att detektera olika analyter både hos människor och växter. De viktigaste resultaten sammanfattas i avsnittet Resultat och diskussion baserat på de fyra publicerade artiklarna.

Först utvecklades den första typen av elektrokemisk biosensor för bestämning av glycin i olika humana biovätskor (t.ex. blod, svett och urin). Med tanke på den ökande betydelsen av aminosyradetektering för kliniska tillämpningar skapade vi sedan en ny biosensingplattform baserad på mikronålar (MN) som syftar till att mäta i interstitiell vätska (ISF). Denna minimalt invasiva strategi framhäver nyheten i vårt andra arbete. För det tredje utökar vi MN-baserade biosensorer till en annan viktig analyt, laktat, som tidigare analyserats flitigt i svett. Slutligen visade vi det första exemplet på att använda MN-sensorer för kontinuerlig och realtidsövervakning av anläggningar.

Place, publisher, year, edition, pages
Stockholm: KTH Royal Institute of Technology, 2024. , p. 132
Series
TRITA-CBH-FOU ; 2024:40
Keywords [en]
Biosensor, Microneedle, Interstitial Fluid, Glycine, Lactate, Ions, Plant
National Category
Analytical Chemistry
Research subject
Chemistry
Identifiers
URN: urn:nbn:se:kth:diva-353668ISBN: 978-91-8106-062-1 (print)OAI: oai:DiVA.org:kth-353668DiVA, id: diva2:1899674
Public defence
2024-10-16, F3 (Flodis), Lindstedtsvägen 26, Stockholm, Stockholm, 10:00 (English)
Opponent
Supervisors
Note

QC 20240924

Available from: 2024-09-24 Created: 2024-09-20 Last updated: 2024-09-24Bibliographically approved
List of papers
1. Electrochemical biosensor for glycine detection in biological fluids
Open this publication in new window or tab >>Electrochemical biosensor for glycine detection in biological fluids
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2021 (English)In: Biosensors & bioelectronics, ISSN 0956-5663, E-ISSN 1873-4235, Vol. 182, article id 113154Article in journal (Refereed) Published
Abstract [en]

We present herein the very first amperometric biosensor for the quantitative determination of glycine in diverse biological fluids. The biosensor is based on a novel quinoprotein that catalyzes the oxidation of glycine with high specificity. This process is coupled to the redox conversion of Prussian blue in the presence of hydrogen peroxide originating from the enzymatic reaction. The optimized tailoring of the biosensor design consists of the effective encapsulation of the quinoprotein in a chitosan matrix with the posterior addition of an outer Nafion layer, which is here demonstrated to suppress matrix interference. This is particularly important in the case of ascorbic acid, which is known to influence the redox behavior of the Prussian blue. The analytical performance of the biosensor demonstrates fast response time (<7 s), acceptable reversibility, reproducibility, and stability (<6% variation) as well as a wide linear range of response (25?500 ?M) that covers healthy (and even most unhealthy) physiological levels of glycine in blood/serum, urine and sweat. A total of 6 real samples from healthy patients and animals were analyzed: two serum, two urine and two sweat samples. The results were validated via commercially available fluorescence kit, displaying discrepancy of less than 9% in all the samples. The unique analytical features and effortless preparation of the new glycine biosensor position it at the forefront of current technologies towards decentralized clinical applications and sport performance monitoring.

Place, publisher, year, edition, pages
Elsevier BV, 2021
Keywords
Glycine biosensor, Quinoprotein, Prussian blue, Biological fluids, Point-of-care-sensing
National Category
Analytical Chemistry
Identifiers
urn:nbn:se:kth:diva-295359 (URN)10.1016/j.bios.2021.113154 (DOI)000642451500003 ()33773381 (PubMedID)2-s2.0-85103341570 (Scopus ID)
Note

QC 20210524

Available from: 2021-05-24 Created: 2021-05-24 Last updated: 2024-09-24Bibliographically approved
2. Intradermal Glycine Detection with a Wearable Microneedle Biosensor: The First In Vivo Assay
Open this publication in new window or tab >>Intradermal Glycine Detection with a Wearable Microneedle Biosensor: The First In Vivo Assay
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2022 (English)In: Analytical Chemistry, ISSN 0003-2700, E-ISSN 1520-6882, Vol. 94, no 34, p. 11856-11864Article in journal (Refereed) Published
Abstract [en]

Glycine (GLY) is gaining importance in medical diagnoses due to its relationship with multiple physiological functions. Today, GLY is exclusively analyzed using instrumentation centralized in clinical labs, and a tangible point-of-care tool that gathers real-time data from the patient for effective and fast evaluations is lacking. Relevant clinical advances are expected as soon as the rapid provision of both punctual and continuous measurements is possible. In that context, this work presents a microneedle (MN)-based biosensor for intradermal GLY detection in interstitial fluid (ISF). The MN tip is externally tailored to detect GLY levels through the hydrogen peroxide formed in its reaction with a quinoprotein-based GLY oxidase enzyme. The analytical performance of the MN biosensor indicates a fast response time (<7 s); acceptable reversibility, reproducibility, and stability; as well as a wide linear range of response (25-600 μM) that covers the physiological levels of GLY in ISF. The MN biosensor conveniently exhibits high selectivity for GLY over other compounds commonly found in ISF, and the response is not influenced by temperature, pH, or skin insertions. Validated intradermal measurements of GLY were obtained at the in vitro (with pieces of rat skin), ex vivo (on-body tests of euthanized rats) and in vivo (on-body tests of anesthetized rats) levels, demonstrating its ability to produce accurate physiological data. The developed GLY MN biosensor is skin-wearable and provides reliable, real-time intradermal GLY measurements in ISF by means of a minimally invasive approach.

Place, publisher, year, edition, pages
American Chemical Society (ACS), 2022
National Category
Analytical Chemistry
Identifiers
urn:nbn:se:kth:diva-329060 (URN)10.1021/acs.analchem.2c02317 (DOI)000846740600001 ()35979995 (PubMedID)2-s2.0-85136467122 (Scopus ID)
Note

QC 20230614

Available from: 2023-06-14 Created: 2023-06-14 Last updated: 2024-09-24Bibliographically approved
3. Intradermal Lactate Monitoring Based on a Microneedle Sensor Patch for Enhanced In Vivo Accuracy
Open this publication in new window or tab >>Intradermal Lactate Monitoring Based on a Microneedle Sensor Patch for Enhanced In Vivo Accuracy
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2024 (English)In: ACS Sensors, E-ISSN 2379-3694, Vol. 9, no 6, p. 3115-3125Article in journal (Refereed) Published
Abstract [en]

Lactate is an important diagnostic and prognostic biomarker of several human pathological conditions, such as sepsis, malaria, and dengue fever. Unfortunately, due to the lack of reliable analytical decentralized platforms, the determination of lactate yet relies on discrete blood-based assays, which are invasive and inefficient and may cause tension and pain in the patient. Herein, we demonstrate the potential of a fully integrated microneedle (MN) sensing system for the minimally invasive transdermal detection of lactate in an interstitial fluid (ISF). The originality of this analytical technology relies on: (i) a strategy to provide a uniform coating of a doped polymer-based membrane as a diffusion-limiting layer on the MN structure, optimized to perform full-range lactate detection in the ISF (linear range of response: 0.25–35 mM, 30 s assay time, 8 h operation), (ii) double validation of ex vivo and in vivo results based on ISF and blood measurements in rats, (iii) monitoring of lactate level fluctuations under the administration of anesthesia to mimic bedside clinical scenarios, and (iv) in-house design and fabrication of a fully integrated and portable sensing device in the form of a wearable patch including a custom application and user-friendly interface in a smartphone for the rapid, routine, continuous, and real-time lactate monitoring. The main analytical merits of the lactate MN sensor include appropriate selectivity, reversibility, stability, and durability by using a two-electrode amperometric readout. The ex-vivo testing of the MN patch of preconditioned rat skin pieces and euthanized rats successfully demonstrated the accuracy in measuring lactate levels. The in vivo measurements suggested the existence of a positive correlation between ISF and blood lactate when a lag time of 10 min is considered (Pearson’s coefficient = 0.85, mean difference = 0.08 mM). The developed MN-based platform offers distinct advantages over noncontinuous blood sampling in a wide range of contexts, especially where access to laboratory services is limited or blood sampling is not suitable. Implementation of the wearable patch in healthcare could envision personalized medicine in a variety of clinical settings.

Place, publisher, year, edition, pages
American Chemical Society (ACS), 2024
National Category
Analytical Chemistry
Identifiers
urn:nbn:se:kth:diva-353060 (URN)10.1021/acssensors.4c00337 (DOI)001230325600001 ()38778463 (PubMedID)2-s2.0-85194131014 (Scopus ID)
Funder
Swedish Research Council, VR-2019-04142Carl Tryggers foundation , CTS 20:88Olle Engkvists stiftelse, 204-0214
Note

QC 20240917

Available from: 2024-09-11 Created: 2024-09-11 Last updated: 2024-09-24Bibliographically approved
4. Unveiling Potassium and Sodium Ion Dynamics in Living Plants with an In-Planta Potentiometric Microneedle Sensor
Open this publication in new window or tab >>Unveiling Potassium and Sodium Ion Dynamics in Living Plants with an In-Planta Potentiometric Microneedle Sensor
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2024 (English)In: ACS Sensors, E-ISSN 2379-3694Article in journal (Refereed) Epub ahead of print
Abstract [en]

Potassium and sodium ions (K+ and Na+) play crucial roles in influencing plant growth and health status. Unfortunately, current strategies to determine the concentrations of such ions are destructive for the plants because it is necessary to collect/extract the sap for further analysis and produce either scattered or delayed results. Here, we introduce a new potentiometric dual microneedle sensor for nondestructive, real-time, and continuous monitoring of K+ and Na+ concentrations in living plants. The developed sensors show a response time <5 s, close-to-Nernstian slope (∼55 mV dec–1), resiliency to five insertions on the stem, good repeatability (max. %RSD = 0.3%) and reversibility (max. %RSD = 3%), appropriate continuous operation for 24 h, and linear range of responses that cover expected plant physiological levels (5–50 mM for Na+ and 50–120 mM for K+). Moreover, the accuracy was successfully investigated by comparing the results provided by the microneedle sensors to those obtained by a standard reference method (e.g., ion chromatography). Finally, we demonstrate that the developed analytical device is capable of tracking K+ and Na+ transportation from the hydroponic solution to the stem within 5–10 min. This research will contribute to establishing a new generation of analytical platforms for smart agriculture offering real-time information.

Place, publisher, year, edition, pages
American Chemical Society (ACS), 2024
National Category
Analytical Chemistry
Identifiers
urn:nbn:se:kth:diva-353667 (URN)10.1021/acssensors.4c01352 (DOI)
Funder
Swedish Research Council, 2019-04142Olle Engkvists stiftelse, 204-0214
Note

QC 20240920

Available from: 2024-09-20 Created: 2024-09-20 Last updated: 2024-09-24Bibliographically approved
5. Microneedle sensors for ion monitoring in plants
Open this publication in new window or tab >>Microneedle sensors for ion monitoring in plants
(English)Manuscript (preprint) (Other academic)
National Category
Analytical Chemistry
Identifiers
urn:nbn:se:kth:diva-353714 (URN)
Note

QC 20240925

Available from: 2024-09-23 Created: 2024-09-23 Last updated: 2024-09-25Bibliographically approved

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