Your search keyword '"von Stetten, Felix' showing total 28 results

1. Analyzing siRNA Concentration, Complexation and Stability in Cationic Dendriplexes by Stem-Loop Reverse Transcription-qPCR

Author

Maximilian Neugebauer, Clara E. Grundmann, Michael Lehnert, Felix von Stetten, Susanna M. Früh, and Regine Süss

Subjects

reverse transcription real-time polymerase chain reaction (RT-qPCR), stem-loop primer, small interfering RNA (siRNA), drug delivery, dendriplexes, nitrogen-to-phosphate (N/P) ratio, Pharmacy and materia medica, RS1-441

Abstract

RNA interference (RNAi) is a powerful therapeutic approach for messenger RNA (mRNA) level regulation in human cells. RNAi can be triggered by small interfering RNAs (siRNAs) which are delivered by non-viral carriers, e.g., dendriplexes. siRNA quantification inside carriers is essential in drug delivery system development. However, current siRNA measuring methods either are not very sensitive, only semi-quantitative or not specific towards intact target siRNA sequences. We present a novel reverse transcription real-time PCR (RT-qPCR)-based application for siRNA quantification in drug formulations. It enables specific and highly sensitive quantification of released, uncomplexed target siRNA and thus also indirect assessment of siRNA stability and concentration inside dendriplexes. We show that comparison with a dilution series allows for siRNA quantification, exclusively measuring intact target sequences. The limit of detection (LOD) was 4.2 pM (±0.2 pM) and the limit of quantification (LOQ) 77.8 pM (±13.4 pM) for uncomplexed siRNA. LOD and LOQ of dendriplex samples were 31.6 pM (±0 pM) and 44.4 pM (±9.0 pM), respectively. Unspecific non-target siRNA sequences did not decrease quantification accuracy when present in samples. As an example of use, we assessed siRNA complexation inside dendriplexes with varying nitrogen-to-phosphate ratios. Further, protection of siRNA inside dendriplexes from RNase A degradation was quantitatively compared to degradation of uncomplexed siRNA. This novel application for quantification of siRNA in drug delivery systems is an important tool for the development of new siRNA-based drugs and quality checks including drug stability measurements.

Published

2022

2. Microfluidic One-Pot Digital Droplet FISH Using LNA/DNA Molecular Beacons for Bacteria Detection and Absolute Quantification

Author

Yu-Ting Kao, Silvia Calabrese, Nadine Borst, Michael Lehnert, Yu-Kai Lai, Franziska Schlenker, Peter Juelg, Roland Zengerle, Piotr Garstecki, and Felix von Stetten

Subjects

fluorescence in situ hybridization, locked nucleic acid, molecular beacons, droplet microfluidics, amplification-free detection, digital assays, Biotechnology, TP248.13-248.65

Abstract

We demonstrate detection and quantification of bacterial load with a novel microfluidic one-pot wash-free fluorescence in situ hybridization (FISH) assay in droplets. The method offers minimal manual workload by only requiring mixing of the sample with reagents and loading it into a microfluidic cartridge. By centrifugal microfluidic step emulsification, our method partitioned the sample into 210 pL (73 µm in diameter) droplets for bacterial encapsulation followed by in situ permeabilization, hybridization, and signal detection. Employing locked nucleic acid (LNA)/DNA molecular beacons (LNA/DNA MBs) and NaCl-urea based hybridization buffer, the assay was characterized with Escherichia coli, Klebsiella pneumonia, and Proteus mirabilis. The assay performed with single-cell sensitivity, a 4-log dynamic range from a lower limit of quantification (LLOQ) at ~3 × 103 bacteria/mL to an upper limit of quantification (ULOQ) at ~3 × 107 bacteria/mL, anda linearity R2 = 0.976. The total time-to-results for detection and quantification was around 1.5 hours.

Published

2022

3. OralDisk: A Chair-Side Compatible Molecular Platform Using Whole Saliva for Monitoring Oral Health at the Dental Practice

Author

Desirée Baumgartner, Benita Johannsen, Mara Specht, Jan Lüddecke, Markus Rombach, Sebastian Hin, Nils Paust, Felix von Stetten, Roland Zengerle, Christopher Herz, Johannes R. Peham, Pune N. Paqué, Thomas Attin, Joël S. Jenzer, Philipp Körner, Patrick R. Schmidlin, Thomas Thurnheer, Florian J. Wegehaupt, Wendy E. Kaman, Andrew Stubbs, John P. Hays, Viorel Rusu, Alex Michie, Thomas Binsl, David Stejskal, Michal Karpíšek, Kai Bao, Nagihan Bostanci, Georgios N. Belibasakis, and Konstantinos Mitsakakis

Subjects

dental practice, point-of-care diagnostics, treatment monitoring, oral health, periodontitis, caries, Biotechnology, TP248.13-248.65

Abstract

Periodontitis and dental caries are two major bacterially induced, non-communicable diseases that cause the deterioration of oral health, with implications in patients’ general health. Early, precise diagnosis and personalized monitoring are essential for the efficient prevention and management of these diseases. Here, we present a disk-shaped microfluidic platform (OralDisk) compatible with chair-side use that enables analysis of non-invasively collected whole saliva samples and molecular-based detection of ten bacteria: seven periodontitis-associated (Aggregatibacter actinomycetemcomitans, Campylobacter rectus, Fusobacterium nucleatum, Prevotella intermedia, Porphyromonas gingivalis, Tannerella forsythia, Treponema denticola) and three caries-associated (oral Lactobacilli, Streptococcus mutans, Streptococcus sobrinus). Each OralDisk test required 400 µL of homogenized whole saliva. The automated workflow included bacterial DNA extraction, purification and hydrolysis probe real-time PCR detection of the target pathogens. All reagents were pre-stored within the disk and sample-to-answer processing took < 3 h using a compact, customized processing device. A technical feasibility study (25 OralDisks) was conducted using samples from healthy, periodontitis and caries patients. The comparison of the OralDisk with a lab-based reference method revealed a ~90% agreement amongst targets detected as positive and negative. This shows the OralDisk’s potential and suitability for inclusion in larger prospective implementation studies in dental care settings.

Published

2021

4. Rapid Detection of Pathogens in Wound Exudate via Nucleic Acid Lateral Flow Immunoassay

Author

Anna Brunauer, René D. Verboket, Daniel M. Kainz, Felix von Stetten, and Susanna M. Früh

Subjects

recombinase polymerase amplification, nucleic acid lateral flow immunoassay, point-of-care diagnostics, paper-based detection, nucleic acid amplification test, wound exudate, Biotechnology, TP248.13-248.65

Abstract

The rapid detection of pathogens in infected wounds can significantly improve the clinical outcome. Wound exudate, which can be collected in a non-invasive way, offers an attractive sample material for the detection of pathogens at the point-of-care (POC). Here, we report the development of a nucleic acid lateral flow immunoassay for direct detection of isothermally amplified DNA combined with fast sample preparation. The streamlined protocol was evaluated using human wound exudate spiked with the opportunistic pathogen Pseudomonas aeruginosa that cause severe health issues upon wound colonization. A detection limit of 2.1 × 105 CFU per mL of wound fluid was achieved, and no cross-reaction with other pathogens was observed. Furthermore, we integrated an internal amplification control that excludes false negative results and, in combination with the flow control, ensures the validity of the test result. The paper-based approach with only three simple hands-on steps has a turn-around time of less than 30 min and covers the complete analytical process chain from sample to answer. This newly developed workflow for wound fluid diagnostics has tremendous potential for reliable pathogen POC testing and subsequent target-oriented therapy.

Published

2021

5. Point-of-Care System for HTLV-1 Proviral Load Quantification by Digital Mediator Displacement LAMP

Author

Lisa Becherer, Jacob Friedrich Hess, Sieghard Frischmann, Mohammed Bakheit, Hans Nitschko, Silvina Stinco, Friedrich Zitz, Hannes Hofer, Giampiero Porro, Florian Hausladen, Karl Stock, Dominik Drossart, Holger Wurm, Hanna Kuhn, Dominik Huber, Tobias Hutzenlaub, Nils Paust, Mark Keller, Oliver Strohmeier, Simon Wadle, Nadine Borst, Roland Zengerle, and Felix von Stetten

Subjects

human T-cell lymphotropic virus 1, digital loop-mediated isothermal amplification, point-of-care testing, centrifugal microfluidics, proviral load measurements, Mechanical engineering and machinery, TJ1-1570

Abstract

This paper presents a universal point-of-care system for fully automated quantification of human T-cell lymphotropic virus type 1 (HTLV-1) proviral load, including genomic RNA, based on digital reverse RNA transcription and c-DNA amplification by MD LAMP (mediator displacement loop-mediated isothermal amplification). A disposable microfluidic LabDisk with pre-stored reagents performs automated nucleic acid extraction, reaction setup, emulsification, reverse transcription, digital DNA amplification, and quantitative fluorogenic endpoint detection with universal reporter molecules. Automated nucleic acid extraction from a suspension of HTLV-1-infected CD4+ T-lymphocytes (MT-2 cells) yielded 8 ± 7 viral nucleic acid copies per MT-2 cell, very similar to the manual reference extraction (7 ± 2 nucleic acid copies). Fully automated sample processing from whole blood spiked with MT-2 cells showed a comparable result of 7 ± 3 copies per MT-2 cell after a run time of two hours and 10 min.

Published

2021

6. Versatile Tool for Droplet Generation in Standard Reaction Tubes by Centrifugal Step Emulsification

Author

Martin Schulz, Sophia Probst, Silvia Calabrese, Ana R. Homann, Nadine Borst, Marian Weiss, Felix von Stetten, Roland Zengerle, and Nils Paust

Subjects

microfluidics, centrifugal step emulsification, droplet generation, emulsification, compartmentation, digital amplification, Organic chemistry, QD241-441

Abstract

We present a versatile tool for the generation of monodisperse water-in-fluorinated-oil droplets in standard reaction tubes by centrifugal step emulsification. The microfluidic cartridge is designed as an insert into a standard 2 mL reaction tube and can be processed in standard laboratory centrifuges. It allows for droplet generation and subsequent transfer for any downstream analysis or further use, does not need any specialized device, and manufacturing is simple because it consists of two parts only: A structured substrate and a sealing foil. The design of the structured substrate is compatible to injection molding to allow manufacturing at large scale. Droplets are generated in fluorinated oil and collected in the reaction tube for subsequent analysis. For sample sizes up to 100 µL with a viscosity range of 1 mPa·s–4 mPa·s, we demonstrate stable droplet generation and transfer of more than 6 × 105 monodisperse droplets (droplet diameter 66 µm ± 3 µm, CV ≤ 4%) in less than 10 min. With two application examples, a digital droplet polymerase chain reaction (ddPCR) and digital droplet loop mediated isothermal amplification (ddLAMP), we demonstrate the compatibility of the droplet production for two main amplification techniques. Both applications show a high degree of linearity (ddPCR: R2 ≥ 0.994; ddLAMP: R2 ≥ 0.998), which demonstrates that the cartridge and the droplet generation method do not compromise assay performance.

Published

2020

7. Inkjet-Printing of Nanoparticle Gold and Silver Ink on Cyclic Olefin Copolymer for DNA-Sensing Applications

Author

Martin Trotter, Daniel Juric, Zahra Bagherian, Nadine Borst, Kerstin Gläser, Thomas Meissner, Felix von Stetten, and André Zimmermann

Subjects

inkjet-printing, gold nanoparticles, electrode integration, dna sensing, electrochemical sensors, lab-on-a-chip, Chemical technology, TP1-1185

Abstract

Inkjet technology as a maskless, direct-writing technology offers the potential for structured deposition of functional materials for the realization of electrodes for, e.g., sensing applications. In this work, electrodes were realized by inkjet-printing of commercial nanoparticle gold ink on planar substrates and, for the first time, onto the 2.5D surfaces of a 0.5 mm-deep microfluidic chamber produced in cyclic olefin copolymer (COC). The challenges of a poor wetting behavior and a low process temperature of the COC used were solved by a pretreatment with oxygen plasma and the combination of thermal (130 °C for 1 h) and photonic (955 mJ/cm²) steps for sintering. By performing the photonic curing, the resistance could be reduced by about 50% to 22.7 µΩ cm. The printed gold structures were mechanically stable (optimal cross-cut value) and porous (roughness factors between 8.6 and 24.4 for 3 and 9 inkjet-printed layers, respectively). Thiolated DNA probes were immobilized throughout the porous structure without the necessity of a surface activation step. Hybridization of labeled DNA probes resulted in specific signals comparable to signals on commercial screen-printed electrodes and could be reproduced after regeneration. The process described may facilitate the integration of electrodes in 2.5D lab-on-a-chip systems.

Published

2020

8. Centrifugal Step Emulsification can Produce Water in Oil Emulsions with Extremely High Internal Volume Fractions

Author

Friedrich Schuler, Nils Paust, Roland Zengerle, and Felix von Stetten

Subjects

droplet, high-throughput, centrifugal step emulsification, step emulsification, centrifugal microfluidics, internal phase ratio, internal volume fraction, high internal phase ratio emulsion (HIPRE), Mechanical engineering and machinery, TJ1-1570

Abstract

The high throughput preparation of emulsions with high internal volume fractions is important for many different applications, e.g., drug delivery. However, most emulsification techniques reach only low internal volume fractions and need stable flow rates that are often difficult to control. Here, we present a centrifugal high throughput step emulsification disk for the fast and easy production of emulsions with high internal volume fractions above 95%. The disk produces droplets at generation rates of up to 3700 droplets/s and, for the first time, enables the generation of emulsions with internal volume fractions of >97%. The coefficient of variation between droplet sizes is very good (4%). We apply our system to show the in situ generation of gel emulsion. In the future, the recently introduced unit operation of centrifugal step emulsification may be used for the high throughput production of droplets as reaction compartments for clinical diagnostics or as starting material for micromaterial synthesis.

Published

2015

9. Active Continuous-Flow Micromixer Using an External Braille Pin Actuator Array

Author

Junichi Miwa, Roland Zengerle, Felix von Stetten, and Yawar Abbas

Subjects

active micromixer, continuous-flow, chaotic advection, channel wall deflection, PDMS chip, cell sample dilution, microfluidic Braille pin actuated platform, Mechanical engineering and machinery, TJ1-1570

Abstract

We present a continuous-flow active micromixer based on channel-wall deflection in a polydimethylsiloxane (PDMS) chip for volume flows in the range up to 2 μL s−1 which is intended as a novel unit operation for the microfluidic Braille pin actuated platform. The chip design comprises a main microchannel connected to a series of side channels with dead ends aligned on the Braille pins. Computer-controlled deflection of the side-channel walls induces chaotic advection in the main-channel, which substantially accelerates mixing in low-Reynolds number flow. Sufficient mixing (mixing index MI below 0.1) of volume flows up to 0.5 μL s−1 could be achieved within residence times ~500 ms in the micromixer. As an application, continuous dilution of a yeast cell sample by a ratio down to 1:10 was successfully demonstrated. The mixer is intended to serve as a component of bio-analytical devices or as a unit operation in the microfluidic Braille pin actuated platform.

Published

2013

10. Analyzing siRNA Concentration, Complexation and Stability in Cationic Dendriplexes by Stem-Loop Reverse Transcription-qPCR

Author

Neugebauer, Maximilian, primary, Grundmann, Clara E., additional, Lehnert, Michael, additional, von Stetten, Felix, additional, Früh, Susanna M., additional, and Süss, Regine, additional

Published

2022

11. Microfluidic One-Pot Digital Droplet FISH Using LNA/DNA Molecular Beacons for Bacteria Detection and Absolute Quantification

Author

Kao, Yu-Ting, primary, Calabrese, Silvia, additional, Borst, Nadine, additional, Lehnert, Michael, additional, Lai, Yu-Kai, additional, Schlenker, Franziska, additional, Juelg, Peter, additional, Zengerle, Roland, additional, Garstecki, Piotr, additional, and von Stetten, Felix, additional

Published

2022

12. Stringent Base Specific and Optimization-Free Multiplex Mediator Probe ddPCR for the Quantification of Point Mutations in Circulating Tumor DNA

Author

Inga Höffkes, Max Deuter, Felix von Stetten, Nikolas von Bubnoff, Michael Lehnert, Julius Wehrle, Florian Scherer, Peter Juelg, Nadine Borst, Tobias Hutzenlaub, Roland Zengerle, Elena Kipf, and Franziska Schlenker

Subjects

Cancer Research, point mutations, mediator probe PCR, medicine.disease_cause, standardized universal reporter, Article, colorectal carcinoma, Multiplex polymerase chain reaction, medicine, Multiplex, Digital polymerase chain reaction, Liquid biopsy, RC254-282, Detection limit, circulating tumor DNA, Chemistry, digital PCR, Point mutation, treatment response, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, ctDNA, multiplex PCR, Molecular biology, optimization-free, genomic DNA, Oncology, KRAS

Abstract

Simple Summary Cancer treatment strategies and their follow-up monitoring are changing to personalized therapies, based on molecular genetic information from the individual person. Liquid biopsy, where this molecular information is derived from body fluids such as blood, has the potential to provide a systemic fingerprint of cancer dynamics, and, compared to tissue biopsy, is much less invasive for the patient. We used the previously published mediator probe PCR technology for liquid biopsy detection of several mutations in one reaction, so-called digital multiplex PCR. Quantification of point mutations in plasma eluates from follow-up patients using 4-plex digital assays showed a comparable performance to reference 2-plex assays. As a key feature, the presented multiplex assays require no laborious optimization as they use the same concentrations and cycling conditions for all targets. This allows for flexible design and interchangeable target panels, thus the assay is easily adaptable for individual patient monitoring and reduces sample consumption. Abstract There is an increasing demand for optimization-free multiplex assays to rapidly establish comprehensive target panels for cancer monitoring by liquid biopsy. We present the mediator probe (MP) PCR for the quantification of the seven most frequent point mutations and corresponding wild types (KRAS and BRAF) in colorectal carcinoma. Standardized parameters for the digital assay were derived using design of experiments. Without further optimization, the limit of detection (LoD) was determined through spiking experiments with synthetic mutant DNA in human genomic DNA. The limit of blank (LoB) was measured in cfDNA plasma eluates from healthy volunteers. The 2-plex and 4-plex MP ddPCR assays showed a LoB of 0 copies/mL except for 4-plex KRAS G13D (9.82 copies/mL) and 4-plex BRAF V600E (16.29 copies/mL) and allele frequencies of 0.004% ≤ LoD ≤ 0.38% with R2 ≥ 0.98. The quantification of point mutations in patient plasma eluates (18 patients) during follow-up using the 4-plex MP ddPCR showed a comparable performance to the reference assays. The presented multiplex assays need no laborious optimization, as they use the same concentrations and cycling conditions for all targets. This facilitates assay certification, allows a fast and flexible design process, and is thus easily adaptable for individual patient monitoring.

Published

2021

13. Stringent Base Specific and Optimization-Free Multiplex Mediator Probe ddPCR for the Quantification of Point Mutations in Circulating Tumor DNA

Author

Schlenker, Franziska, primary, Kipf, Elena, additional, Deuter, Max, additional, Höffkes, Inga, additional, Lehnert, Michael, additional, Zengerle, Roland, additional, von Stetten, Felix, additional, Scherer, Florian, additional, Wehrle, Julius, additional, von Bubnoff, Nikolas, additional, Juelg, Peter, additional, Hutzenlaub, Tobias, additional, and Borst, Nadine, additional

Published

2021

14. OralDisk: A Chair-Side Compatible Molecular Platform Using Whole Saliva for Monitoring Oral Health at the Dental Practice

Author

Baumgartner, Desirée, primary, Johannsen, Benita, additional, Specht, Mara, additional, Lüddecke, Jan, additional, Rombach, Markus, additional, Hin, Sebastian, additional, Paust, Nils, additional, von Stetten, Felix, additional, Zengerle, Roland, additional, Herz, Christopher, additional, Peham, Johannes R., additional, Paqué, Pune N., additional, Attin, Thomas, additional, Jenzer, Joël S., additional, Körner, Philipp, additional, Schmidlin, Patrick R., additional, Thurnheer, Thomas, additional, Wegehaupt, Florian J., additional, Kaman, Wendy E., additional, Stubbs, Andrew, additional, Hays, John P., additional, Rusu, Viorel, additional, Michie, Alex, additional, Binsl, Thomas, additional, Stejskal, David, additional, Karpíšek, Michal, additional, Bao, Kai, additional, Bostanci, Nagihan, additional, Belibasakis, Georgios N., additional, and Mitsakakis, Konstantinos, additional

Published

2021

15. Centrifugal Microfluidic Integration of 4-Plex ddPCR Demonstrated by the Quantification of Cancer-Associated Point Mutations

Author

Tobias Hutzenlaub, Peter Juelg, Roland Zengerle, Elena Kipf, Franziska Schlenker, Nadine Borst, Nils Paust, and Felix von Stetten

Subjects

Fluorescence-lifetime imaging microscopy, Microfluidics, microfluidics, Bioengineering, Cell analysis, digital droplet polymerase chain reaction (ddPCR), lcsh:Chemical technology, 01 natural sciences, law.invention, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, law, Chemical Engineering (miscellaneous), droplet fluorescence evaluation, lcsh:TP1-1185, Polymerase chain reaction, 030304 developmental biology, 0303 health sciences, multiplexing, droplet stability, Process Chemistry and Technology, Point mutation, 010401 analytical chemistry, Wild type, 0104 chemical sciences, Image evaluation, chemistry, lcsh:QD1-999, DNA, Biomedical engineering, centrifugal step emulsification

Abstract

We present the centrifugal microfluidic implementation of a four-plex digital droplet polymerase chain reaction (ddPCR). The platform features 12 identical ddPCR units on a LabDisk cartridge, each capable of generating droplets with a diameter of 82.7 &plusmn, 9 &micro, m. By investigating different oil&ndash, surfactant concentrations, we identified a robust process for droplet generation and stabilization. We observed high droplet stability during thermocycling and endpoint fluorescence imaging, as is required for ddPCRs. Furthermore, we introduce an automated process for four-color fluorescence imaging using a commercial cell analysis microscope, including a customized software pipeline for ddPCR image evaluation. The applicability of ddPCRs is demonstrated by the quantification of three cancer-associated KRAS point mutations (G12D, G12V and G12A) in a diagnostically relevant wild type DNA background. The four-plex assay showed high sensitivity (3.5&ndash, 35 mutant DNA copies in 15,000 wild type DNA copies) and linear performance (R&sup2, = 0.99) across all targets in the LabDisk.

Published

2021

16. Versatile Tool for Droplet Generation in Standard Reaction Tubes by Centrifugal Step Emulsification

Author

Nadine Borst, Marian Weiss, Roland Zengerle, Martin Schulz, Felix von Stetten, Ana R. Homann, Sophia Probst, Silvia Calabrese, and Nils Paust

Subjects

Materials science, Dispersity, Microfluidics, Loop-mediated isothermal amplification, microfluidics, Pharmaceutical Science, Centrifugation, 02 engineering and technology, digital droplet polymerase chain reaction (ddPCR), 01 natural sciences, Polymerase Chain Reaction, Analytical Chemistry, Workflow, lcsh:QD241-441, Cartridge, lcsh:Organic chemistry, compartmentation, Drug Discovery, Physical and Theoretical Chemistry, FOIL method, droplet generation, Viscosity, Communication, 010401 analytical chemistry, Organic Chemistry, Linearity, emulsification, Lipid Droplets, Microfluidic Analytical Techniques, Reference Standards, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemical engineering, Chemistry (miscellaneous), Monodisperse droplets, digital droplet loop-mediated isothermal amplification (ddLAMP), Molecular Medicine, Biological Assay, Emulsions, standard devices, 0210 nano-technology, Reaction tube, digital amplification, centrifugal step emulsification

Abstract

We present a versatile tool for the generation of monodisperse water-in-fluorinated-oil droplets in standard reaction tubes by centrifugal step emulsification. The microfluidic cartridge is designed as an insert into a standard 2 mL reaction tube and can be processed in standard laboratory centrifuges. It allows for droplet generation and subsequent transfer for any downstream analysis or further use, does not need any specialized device, and manufacturing is simple because it consists of two parts only: A structured substrate and a sealing foil. The design of the structured substrate is compatible to injection molding to allow manufacturing at large scale. Droplets are generated in fluorinated oil and collected in the reaction tube for subsequent analysis. For sample sizes up to 100 µL with a viscosity range of 1 mPa·s–4 mPa·s, we demonstrate stable droplet generation and transfer of more than 6 × 105 monodisperse droplets (droplet diameter 66 µm ± 3 µm, CV ≤ 4%) in less than 10 min. With two application examples, a digital droplet polymerase chain reaction (ddPCR) and digital droplet loop mediated isothermal amplification (ddLAMP), we demonstrate the compatibility of the droplet production for two main amplification techniques. Both applications show a high degree of linearity (ddPCR: R2 ≥ 0.994; ddLAMP: R2 ≥ 0.998), which demonstrates that the cartridge and the droplet generation method do not compromise assay performance.

Published

2020

17. Inkjet-Printing of Nanoparticle Gold and Silver Ink on Cyclic Olefin Copolymer for DNA-Sensing Applications

Author

Zahra Bagherian, Martin Trotter, Thomas Meissner, Daniel Juric, Kerstin Glaser, André Zimmermann, Nadine Borst, and Felix von Stetten

Subjects

dna sensing, Silver, Materials science, Polymers, Metal Nanoparticles, Nanoparticle, Sintering, 02 engineering and technology, Cyclic olefin copolymer, 010402 general chemistry, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, law.invention, chemistry.chemical_compound, law, inkjet-printing, Lab-On-A-Chip Devices, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Curing (chemistry), lab-on-a-chip, Temperature, electrochemical sensors, DNA, Lab-on-a-chip, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Chemical engineering, Colloidal gold, gold nanoparticles, Electrode, electrode integration, Gold, Wetting, 0210 nano-technology

Abstract

Inkjet technology as a maskless, direct-writing technology offers the potential for structured deposition of functional materials for the realization of electrodes for, e.g., sensing applications. In this work, electrodes were realized by inkjet-printing of commercial nanoparticle gold ink on planar substrates and, for the first time, onto the 2.5D surfaces of a 0.5 mm-deep microfluidic chamber produced in cyclic olefin copolymer (COC). The challenges of a poor wetting behavior and a low process temperature of the COC used were solved by a pretreatment with oxygen plasma and the combination of thermal (130 &deg, C for 1 h) and photonic (955 mJ/cm&sup2, ) steps for sintering. By performing the photonic curing, the resistance could be reduced by about 50% to 22.7 &micro, Ω cm. The printed gold structures were mechanically stable (optimal cross-cut value) and porous (roughness factors between 8.6 and 24.4 for 3 and 9 inkjet-printed layers, respectively). Thiolated DNA probes were immobilized throughout the porous structure without the necessity of a surface activation step. Hybridization of labeled DNA probes resulted in specific signals comparable to signals on commercial screen-printed electrodes and could be reproduced after regeneration. The process described may facilitate the integration of electrodes in 2.5D lab-on-a-chip systems.

Published

2020

18. Rapid Detection of Pathogens in Wound Exudate via Nucleic Acid Lateral Flow Immunoassay

Author

Brunauer, Anna, primary, Verboket, René D., additional, Kainz, Daniel M., additional, von Stetten, Felix, additional, and Früh, Susanna M., additional

Published

2021

19. Point-of-Care System for HTLV-1 Proviral Load Quantification by Digital Mediator Displacement LAMP

Author

Becherer, Lisa, primary, Hess, Jacob Friedrich, additional, Frischmann, Sieghard, additional, Bakheit, Mohammed, additional, Nitschko, Hans, additional, Stinco, Silvina, additional, Zitz, Friedrich, additional, Hofer, Hannes, additional, Porro, Giampiero, additional, Hausladen, Florian, additional, Stock, Karl, additional, Drossart, Dominik, additional, Wurm, Holger, additional, Kuhn, Hanna, additional, Huber, Dominik, additional, Hutzenlaub, Tobias, additional, Paust, Nils, additional, Keller, Mark, additional, Strohmeier, Oliver, additional, Wadle, Simon, additional, Borst, Nadine, additional, Zengerle, Roland, additional, and von Stetten, Felix, additional

Published

2021

20. Centrifugal Microfluidic Integration of 4-Plex ddPCR Demonstrated by the Quantification of Cancer-Associated Point Mutations

Author

Schlenker, Franziska, primary, Kipf, Elena, additional, Borst, Nadine, additional, Paust, Nils, additional, Zengerle, Roland, additional, von Stetten, Felix, additional, Juelg, Peter, additional, and Hutzenlaub, Tobias, additional

Published

2021

21. VectorDisk: A Microfluidic Platform Integrating Diagnostic Markers for Evidence-Based Mosquito Control

Author

Hin, Sebastian, primary, Baumgartner, Desirée, additional, Specht, Mara, additional, Lüddecke, Jan, additional, Mahmodi Arjmand, Ehsan, additional, Johannsen, Benita, additional, Schiedel, Larissa, additional, Rombach, Markus, additional, Paust, Nils, additional, von Stetten, Felix, additional, Zengerle, Roland, additional, Wipf, Nadja, additional, Müller, Pie, additional, Mavridis, Konstantinos, additional, Vontas, John, additional, and Mitsakakis, Konstantinos, additional

Published

2020

22. Versatile Tool for Droplet Generation in Standard Reaction Tubes by Centrifugal Step Emulsification

Author

Schulz, Martin, primary, Probst, Sophia, additional, Calabrese, Silvia, additional, R. Homann, Ana, additional, Borst, Nadine, additional, Weiss, Marian, additional, von Stetten, Felix, additional, Zengerle, Roland, additional, and Paust, Nils, additional

Published

2020

23. Inkjet-Printing of Nanoparticle Gold and Silver Ink on Cyclic Olefin Copolymer for DNA-Sensing Applications

Author

Trotter, Martin, primary, Juric, Daniel, additional, Bagherian, Zahra, additional, Borst, Nadine, additional, Gläser, Kerstin, additional, Meissner, Thomas, additional, von Stetten, Felix, additional, and Zimmermann, André, additional

Published

2020

24. Rapid Detection of Pathogens in Wound Exudate via Nucleic Acid Lateral Flow Immunoassay

Author

René D. Verboket, Susanna M. Früh, Daniel M. Kainz, Felix von Stetten, and Anna Brunauer

Subjects

Point-of-Care Systems, lcsh:Biotechnology, paper-based detection, Clinical Biochemistry, wound exudate, Recombinase Polymerase Amplification, Biosensing Techniques, medicine.disease_cause, 01 natural sciences, Article, Microbiology, 03 medical and health sciences, Limit of Detection, Nucleic Acids, lcsh:TP248.13-248.65, ddc:570, medicine, Humans, Sample preparation, recombinase polymerase amplification, ddc:610, Pathogen, 030304 developmental biology, Immunoassay, Detection limit, 0303 health sciences, nucleic acid amplification test, Pseudomonas aeruginosa, Chemistry, Wound.exudate, 010401 analytical chemistry, Exudates and Transudates, nucleic acid lateral flow immunoassay, General Medicine, 0104 chemical sciences, Nucleic acid, Wounds and Injuries, wound infection, point-of-care diagnostics, Nucleic Acid Amplification Techniques, Lateral flow immunoassay

Abstract

The rapid detection of pathogens in infected wounds can significantly improve the clinical outcome. Wound exudate, which can be collected in a non-invasive way, offers an attractive sample material for the detection of pathogens at the point-of-care (POC). Here, we report the development of a nucleic acid lateral flow immunoassay for direct detection of isothermally amplified DNA combined with fast sample preparation. The streamlined protocol was evaluated using human wound exudate spiked with the opportunistic pathogen Pseudomonas aeruginosa that cause severe health issues upon wound colonization. A detection limit of 2.1 × 105 CFU per mL of wound fluid was achieved, and no cross-reaction with other pathogens was observed. Furthermore, we integrated an internal amplification control that excludes false negative results and, in combination with the flow control, ensures the validity of the test result. The paper-based approach with only three simple hands-on steps has a turn-around time of less than 30 min and covers the complete analytical process chain from sample to answer. This newly developed workflow for wound fluid diagnostics has tremendous potential for reliable pathogen POC testing and subsequent target-oriented therapy.

Published

2021

25. Point-of-Care System for HTLV-1 Proviral Load Quantification by Digital Mediator Displacement LAMP

Author

Friedrich Zitz, Hans Nitschko, Mohammed A. Bakheit, Karl Stock, Florian Hausladen, Dominik Drossart, Nils Paust, Giampiero Porro, Oliver Strohmeier, Roland Zengerle, Felix von Stetten, Nadine Borst, Hannes Hofer, Silvina Stinco, Mark Keller, Holger Wurm, Lisa Becherer, Dominik Huber, Simon Wadle, Sieghard Frischmann, Hanna Kuhn, Jacob Friedrich Hess, and Tobias Hutzenlaub

Subjects

T-Lymphozyt, Viral nucleic acid, lcsh:Mechanical engineering and machinery, Cell, human T-cell lymphotropic virus 1, Loop-mediated isothermal amplification, digital loop-mediated isothermal amplification, 02 engineering and technology, 01 natural sciences, Article, DDC 570 / Life sciences, Mediator, ddc:570, proviral load measurements, medicine, lcsh:TJ1-1570, ddc:610, Electrical and Electronic Engineering, Whole blood, Point of care, Human T-lymphotropic virus 1, Chemistry, Mechanical Engineering, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Molecular biology, Reverse transcriptase, 0104 chemical sciences, Point-of-care testing, medicine.anatomical_structure, Control and Systems Engineering, centrifugal microfluidics, Nucleic acid, 0210 nano-technology, DDC 610 / Medicine & health

Abstract

This paper presents a universal point-of-care system for fully automated quantification of human T-cell lymphotropic virus type 1 (HTLV-1) proviral load, including genomic RNA, based on digital reverse RNA transcription and c-DNA amplification by MD LAMP (mediator displacement loop-mediated isothermal amplification). A disposable microfluidic LabDisk with pre-stored reagents performs automated nucleic acid extraction, reaction setup, emulsification, reverse transcription, digital DNA amplification, and quantitative fluorogenic endpoint detection with universal reporter molecules. Automated nucleic acid extraction from a suspension of HTLV-1-infected CD4+ T-lymphocytes (MT-2 cells) yielded 8 ± 7 viral nucleic acid copies per MT-2 cell, very similar to the manual reference extraction (7 ± 2 nucleic acid copies). Fully automated sample processing from whole blood spiked with MT-2 cells showed a comparable result of 7 ± 3 copies per MT-2 cell after a run time of two hours and 10 min.

Published

2021

26. Active Continuous-Flow Micromixer Using an External Braille Pin Actuator Array

Author

Yawar Abbas, Roland Zengerle, Felix von Stetten, and Junichi Miwa

Subjects

Engineering, active micromixer, lcsh:Mechanical engineering and machinery, Microfluidics, Micromixer, 02 engineering and technology, 01 natural sciences, PDMS chip, chemistry.chemical_compound, Deflection (engineering), Electronic engineering, lcsh:TJ1-1570, Electrical and Electronic Engineering, continuous-flow, chaotic advection, channel wall deflection, cell sample dilution, microfluidic Braille pin actuated platform, Microchannel, Polydimethylsiloxane, business.industry, Mechanical Engineering, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Chip, Braille, 6. Clean water, 0104 chemical sciences, chemistry, Control and Systems Engineering, Optoelectronics, 0210 nano-technology, Actuator, business

Abstract

We present a continuous-flow active micromixer based on channel-wall deflection in a polydimethylsiloxane (PDMS) chip for volume flows in the range up to 2 μL s −1 which is intended as a novel unit operation for the microfluidic Braille pin actuated platform. The chip design comprises a main microchannel connected to a series of side channels with dead ends aligned on the Braille pins. Computer-controlled deflection of the side-channel walls induces chaotic advection in the main-channel, which substantially accelerates mixing in low-Reynolds number flow. Sufficient mixing (mixing index MI below 0.1) of volume flows up to 0.5 μL s −1 could be achieved within residence times ~500 ms in the micromixer. As an application, continuous dilution of a yeast cell sample by a ratio down to 1:10 was successfully demonstrated. The mixer is intended to serve as a component of bio-analytical devices or as a unit operation in the microfluidic Braille pin actuated platform.

Published

2013

27. Centrifugal Step Emulsification can Produce Water in Oil Emulsions with Extremely High Internal Volume Fractions

Author

Schuler, Friedrich, primary, Paust, Nils, additional, Zengerle, Roland, additional, and von Stetten, Felix, additional

Published

2015

28. Active Continuous-Flow Micromixer Using an External Braille Pin Actuator Array

Author

Abbas, Yawar, primary, Miwa, Junichi, additional, Zengerle, Roland, additional, and von Stetten, Felix, additional

Published

2013