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17 results on '"Olofsson, Karl"'

6. Acoustic manipulation for cell and spheroid cellomics

Author

Olofsson, Karl

Subjects
Teknik och teknologier, Engineering and Technology
Abstract

Ultrasonic standing wave (USW) particle manipulation has during the last two decades matured into a valuable tool to combine with microfluidics. Acoustophoresis, migration through sound, is the result of the acoustic radiation force acting on particles suspended in an acoustic field. The acoustic radiation force magnitude is proportional to the acoustic energy density, frequency and particle size. The acoustic radiation force has successfully been implemented in particle washing, size-based separation, mechanical phenotype-based cell separation and trapping applications. The force magnitude and direction also depend on the difference between the mechanical properties of the fluid and particle. In the first part of this thesis, we show that the mechanical properties of dead cells are a function of the surrounding fluid which was used to acoustically separate dead and viable cells in a density modulated medium.The non-invasive and biocompatible acoustic radiation force has also been used in trapping applications tailored towards tissue modelling and engineering. One of the explored models is the multicellular tumor spheroid (MTCS) which is a spherical aggregate of tumor cells. The MCTS models a solid tumor and is increasingly used to replace regular 2D cell culture techniques in cancer research and drug screening pipelines. The majority of this thesis will be dedicated to the formation and culture of scaffold-free MCTSs using the acoustic radiation force in silicon and glass microwells. We have developed two multiwell microplate designs where either a 100 MCTSs in a single compartment or 576 MCTSs divided into 16 compartments can be formed in parallel using USWs. By using a sequential cell seeding method it is possible to control the MCTS structural architecture and create core-shell MCTSs. The glass bottom in the microwells in combination with efficient clearing protocols also enabled whole MCTS imaging which was utilized to characterize the cell cycle and the volumetric parameters of the nuclei within the MCTSs using image analysis. Finally, we used the 16 chamber multiwell microplate to investigate the drug response in MCTSs from 4 different cell lines simultaneously and evaluate the NK cell cytotoxic response towards MCTSs in presence of different treatments. Ultraljudsbaserad partikelmanipulation har under de senaste två decennierna utvecklats till ett värdefullt verktyg inom mikrofluidik. Akustofores, migrationgenom ljud, är resultatet av den akustiska strålningskraften som verkar på partiklar suspenderade i ett akustiskt fält. Den akustiska strålningskraftens storlek är proportionell mot den akustiska energitätheten, frekvensen samt partikelstorleken och har framgångsrikt implementerats i partikeltvätt, storleksbaserad separation, mekanisk fenotypbaserad cellseparation och aggregeringsapplikationer. Kraftens magnitud samt riktning beror även på skillnaden mellan vätskans och partikelns mekaniska egenskaper. I den första delen av denna avhandling visar vi att de mekaniska egenskaperna hos döda celler är en funktion av den omgivande vätskan. Konceptet användes för att akustiskt separera döda och levande celler i ett densitetsmodulerat medium.Den icke-invasiva och biokompatibla akustiska strålningskraften har också använts i aggregeringstillämpningar skräddarsydda för vävnadsmodellering. En av de utforskade modellerna är den multicellulära tumörsfäroiden (MCTS) som är ett sfäriskt aggregat av tumörceller. MCTSen modellerar en solid tumör och används i allt högre grad för att ersätta vanliga 2D-cellodlingstekniker i cancerforskning och läkemedelsscreening. Huvuddelen av denna avhandling kommer att ägnas åt bildandet och odlingen av MCTS:er användandes den akustiska strålningskraften i kisel- och glasmikrobrunnar. Vi har utvecklat två mikrobrunnsbaserade mikrochip där antingen 100 MCTS:er i ett enda fack eller 576 MCTS uppdelat i 16 fack kan bildas parallellt med ultraljud. Genom att använda en sekventiell cellsåddningsmetod är det möjligt att kontrollera MCTS-arkitekturen och skapa kärn-skal MCTS:er. Mikrobrunnarnas glasbotten i kombination med effektiva transparensinducerande protokoll möjliggjorde även MCTS-avbildning som användes för att karakterisera cellcykeln och de volymetriska parametrarna för cellkärnor i MCTS:er med hjälp av bildanalys. Slutligen använde vi mikrochippetmed 16 kamrar för att undersöka läkemedelsresponsen i MCTS:er från fyra olika cellinjer samt utvärdera NK-cellens cytotoxiska respons mot MCTS:er i närvaro av olika läkemedel.

Published
2021

7. Black-box optimization of simulated light extraction efficiency from quantum dots in pyramidal gallium nitride structures

Author

Olofsson, Karl-Johan

Subjects
Radial basis functions, surrogate functions, Computational Mathematics, Beräkningsmatematik, Black-box optimization, FDTD, global optimization, light extraction efficiency, Gallium nitride, semiconductors
Abstract

Microsized hexagonal gallium nitride pyramids show promise as next generation Light Emitting Diodes (LEDs) due to certain quantum properties within the pyramids. One metric for evaluating the efficiency of a LED device is by studying its Light Extraction Efficiency (LEE). To calculate the LEE for different pyramid designs, simulations can be performed using the FDTD method. Maximizing the LEE is treated as a black-box optimization problem with an interpolation method that utilizes radial basis functions. A simple heuristic is implemented and tested for various pyramid parameters. The LEE is shown to be highly dependent on the pyramid size, the source position and the polarization. Under certain circumstances, a LEE over 17% is found above the pyramid. The results are however in some situations very sensitive to the simulation parameters, leading to results not converging properly. Establishing convergence for all simulation evaluations must be done with further care. The results imply a high LEE for the pyramids is possible, which motivates the need for further research.

Published
2019

8. Acoustic trapping based on surface displacement of resonance modesa).

Author

Hammarström, Björn, Skov, Nils R., Olofsson, Karl, Bruus, Henrik, and Wiklund, Martin

Subjects
PIEZOELECTRIC transducers, RESONANCE, ACOUSTIC transducers, CELL culture, DYNAMICAL systems, SONICATION, LAMB waves
Abstract

Acoustic trapping is a promising technique for aligning particles in two-dimensional arrays, as well as for dynamic manipulation of particles individually or in groups. The actuating principles used in current systems rely on either cavity modes in enclosures or complex arrangements for phase control. Therefore, available systems either require high power inputs and costly peripheral equipment or sacrifice flexibility. This work presents a different concept for acoustic trapping of particles and cells that enables dynamically defined trapping patterns inside a simple and inexpensive setup. Here, dynamic operation and dexterous trapping are realized through the use of a modified piezoelectric transducer in direct contact with the liquid sample. Physical modeling shows how the transducer induces an acoustic force potential where the conventional trapping in the axial direction is supplemented by surface displacement dependent lateral trapping. The lateral field is a horizontal array of pronounced potential minima with frequency-dependent locations. The resulting system enables dynamic arraying of levitated trapping sites at low power and can be manufactured at ultra-low cost, operated using low-cost electronics, and assembled in less than 5 min. We demonstrate dynamic patterning of particles and biological cells and exemplify potential uses of the technique for cell-based sample preparation and cell culture. [ABSTRACT FROM AUTHOR]

Published
2021
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9. Acoustic separation of living and dead cells using high density medium.

Author

Olofsson, Karl, Hammarström, Björn, and Wiklund, Martin

Subjects
*ACOUSTIC radiation force, *STANDING waves, *ACOUSTIC impedance, *ULTRASONIC waves, *CELL populations, *CELLS
Abstract

The acoustic radiation force, originating from ultrasonic standing waves and utilized in numerous cell oriented acoustofluidic applications, is dependent on the acoustic contrast factor which describes the relationship between the acousto-mechanical properties of a particle and its surrounding medium. The acousto-mechanical properties of a cell population are known to be heterogeneously distributed but are often assumed to be constant over time. In this paper, we use microchannel acoustophoresis to show that the cell state within a cell population, in our case living and dead cells, influences the mechanical phenotype. By investigating the trapping location of viable and dead K562, MCF-7 and A498 cells as a function of the suspension medium density, we observed that beyond a specific medium density the viable cells were driven to the pressure anti-node while the dead cells were retained in the pressure node. Using this information, we were able to calculate the effective acoustic impedance of viable K562 and MCF-7 cells. The spatial separation between viable and dead cells along the channel width demonstrates a novel acoustophoresis approach for binary separation of viable and dead cells in a cell-size independent and robust manner. [ABSTRACT FROM AUTHOR]

Published
2020
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11. Directed Migration of Natural Killer Cells by Microcontact Printing

Author

Olofsson, Karl and Stenbom, Gustav

Subjects
Teknik och teknologier, Engineering and Technology
Abstract

NK cells are large granular lymphocytes that patrol the body for defect or virally infected cells. The migration of natural killer (NK) cells is critical for the detection and elimination of aberrant cells such as tumor- and virally infected cells. If a NK cell stumbles upon a target, i.e. an aberrant or stressed cell, the NK cell has the ability to kill the target cell. Limitations in the efficiency of NK cells, such as limited migration speed, and the finite number of target cells that can be killed by one NK cell, leaves the immune system vulnerable to diseases. However it has been shown that NK cell populations are heterogeneous, and from one host to another the overall efficiency of NK cells may vary. If the most efficient NK cells could be isolated from a cell population and cultivated, great numbers of high performing NK cells could then possibly be reintroduced to a body and be used to fight maladies such as cancer and HIV. In an attempt to bring us closer to these possibilities, and further examine the characteristics of NK cells, a high quality master was manufactured and used for microcontact printing. This project has focused on how NK cell migration is affected by cell structure and whether NK cells can be directed along a pattern to provide a situation where NK cell migration speed can be measured rigorously. This was done by using microcontact printing to create micro patterns of proteins that mimics the geometry of the NK cells migrating phenotype. This report will give a description of the master fabrication process and it will be shown that NK cells can be influenced to move straighter by interacting with a microcontact printed pattern of proteins. Furthermore our results will conclude that NK cell migration speed is not affected significantly by the microcontact printed proteins.

Published
2014

12. Secondary and university students’ understandings of physical and technical phenomena : informing pedagogy and practice

Author

Popov, Oleg, Zackrisson, Ingegerd, and Olofsson, Karl-Uno

Abstract

This paper presents some findings from the piloting phase of our research on students’ thinking about physical processes imbedded in a number of technical and natural phenomena. We mean by “thinking physics” how students use language of physics, i.e. appropriate terminology, concepts and modelling tools.

Published
2000

13. Microchip screening Platform for single cell assessment of nK cell cytotoxicity.

Author

Guldevall, Karolin, Brandt, Ludwig, Olofsson, Karl, Frisk, Thomas W., Olofsson, Per E., Gustafsson, Karin, Manneberg, Otto, Vanherberghen, Bruno, Brismar, Hjalmar, Forslund, Elin, Önfelt, Björn, Kärre, Klas, Uhlin, Michael, Solana, Rafael, and Gross, Catharina C.

Subjects
KILLER cells, CELL-mediated cytotoxicity, IMAGE analysis
Abstract

Here, we report a screening platform for assessment of the cytotoxic potential of individual natural killer (NK) cells within larger populations. Human primary NK cells were distributed across a silicon-glass microchip containing 32,400 individual microwells loaded with target cells. Through fluorescence screening and automated image analysis, the numbers of NK and live or dead target cells in each well could be assessed at different time points after initial mixing. Cytotoxicity was also studied by time-lapse live-cell imaging in microwells quantifying the killing potential of individual NK cells. Although most resting NK cells (≈75%) were non-cytotoxic against the leukemia cell line K562, some NK cells were able to kill several (≥3) target cells within the 12-h long experiment. In addition, the screening approach was adapted to increase the chance to find and evaluate serial killing NK cells. Even if the cytotoxic potential varied between donors, it was evident that a small fraction of highly cytotoxic NK cells were responsible for a substantial portion of the killing. We demonstrate multiple assays where our platform can be used to enumerate and characterize cytotoxic cells, such as NK or T cells. This approach could find use in clinical applications, e.g., in the selection of donors for stem cell transplantation or generation of highly specific and cytotoxic cells for adoptive immunotherapy. [ABSTRACT FROM AUTHOR]

Published
2016
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14. Measuring the Compressibility of Cellulose Nanofiber-Stabilized Microdroplets Using Acoustophoresis.

Author

Loskutova, Ksenia, Olofsson, Karl, Hammarström, Björn, Wiklund, Martin, Svagan, Anna J., and Grishenkov, Dmitry

Subjects
COMPRESSIBILITY, CELLULOSE fibers, MICROBUBBLES, MICRODROPLETS, CELLULOSE, SOUND pressure, BULK modulus, ULTRASONIC imaging
Abstract

Droplets with a liquid perfluoropentane core and a cellulose nanofiber shell have the potential to be used as drug carriers in ultrasound-mediated drug delivery. However, it is necessary to understand their mechanical properties to develop ultrasound imaging sequences that enable in vivo imaging of the vaporization process to ensure optimized drug delivery. In this work, the compressibility of droplets stabilized with cellulose nanofibers was estimated using acoustophoresis at three different acoustic pressures. Polyamide particles of known size and material properties were used for calibration. The droplet compressibility was then used to estimate the cellulose nanofiber bulk modulus and compare it to experimentally determined values. The results showed that the acoustic contrast factor for these droplets was negative, as the droplets relocated to pressure antinodes during ultrasonic actuation. The droplet compressibility was 6.6–6.8 × 10 − 10 Pa − 1 , which is higher than for water ( 4.4 × 10 − 10 Pa − 1 ) but lower than for pure perfluoropentane ( 2.7 × 10 − 9 Pa − 1 ). The compressibility was constant across different droplet diameters, which was consistent with the idea that the shell thickness depends on the droplet size, rather than being constant. [ABSTRACT FROM AUTHOR]

Published
2021
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15. Ultrasound-Based Scaffold-Free Core-Shell Multicellular Tumor Spheroid Formation.

Author

Olofsson, Karl, Carannante, Valentina, Takai, Madoka, Önfelt, Björn, Wiklund, Martin, Sethu, Palaniappan, and Selvaganapathy, P. Ravi

Subjects
INTERNAL migration, STROMAL cells, OVARIAN cancer, TUMORS, IMAGE analysis
Abstract

In cancer research and drug screening, multicellular tumor spheroids (MCTSs) are a popular model to bridge the gap between in vitro and in vivo. However, the current techniques to culture mixed co-culture MCTSs do not mimic the structural architecture and cellular spatial distribution in solid tumors. In this study we present an acoustic trapping-based core-shell MCTSs culture method using sequential seeding of the core and shell cells into microwells coated with a protein repellent coating. Scaffold-free core-shell ovarian cancer OVCAR-8 cell line MCTSs were cultured, stained, cleared and confocally imaged on-chip. Image analysis techniques were used to quantify the shell thickness (23.2 ± 1.8 µm) and shell coverage percentage (91.2 ± 2.8%). We also show that the shell thickness was evenly distributed over the MCTS cores with the exception of being slightly thinner close to the microwell bottom. This scaffold-free core-shell MCTSs formation technique and the analysis tools presented herein could be used as an internal migration assay within the MCTS or to form core-shell MCTS co-cultures to study therapy response or the interaction between tumor and stromal cells. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Ultrasonic Based Tissue Modelling and Engineering.

Author

Olofsson, Karl, Hammarström, Björn, and Wiklund, Martin

Subjects
TISSUE engineering, ULTRASONICS, MICROFLUIDICS
Abstract

Systems and devices for in vitro tissue modelling and engineering are valuable tools, which combine the strength between the controlled laboratory environment and the complex tissue organization and environment in vivo. Device-based tissue engineering is also a possible avenue for future explant culture in regenerative medicine. The most fundamental requirements on platforms intended for tissue modelling and engineering are their ability to shape and maintain cell aggregates over long-term culture. An emerging technology for tissue shaping and culture is ultrasonic standing wave (USW) particle manipulation, which offers label-free and gentle positioning and aggregation of cells. The pressure nodes defined by the USW, where cells are trapped in most cases, are stable over time and can be both static and dynamic depending on actuation schemes. In this review article, we highlight the potential of USW cell manipulation as a tool for tissue modelling and engineering. [ABSTRACT FROM AUTHOR]

Published
2018
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17. Unravelling the Acoustic and Thermal Responses of Perfluorocarbon Liquid Droplets Stabilized with Cellulose Nanofibers.

Author

Ghorbani M, Olofsson K, Benjamins JW, Loskutova K, Paulraj T, Wiklund M, Grishenkov D, and Svagan AJ

Abstract

The attractive colloidal and physicochemical properties of cellulose nanofibers (CNFs) at interfaces have recently been exploited in the facile production of a number of environmentally benign materials, e.g. foams, emulsions, and capsules. Herein, these unique properties are exploited in a new type of CNF-stabilized perfluoropentane droplets produced via a straightforward and simple mixing protocol. Droplets with a comparatively narrow size distribution (ca. 1-5 μm in diameter) were fabricated, and their potential in the acoustic droplet vaporization process was evaluated. For this, the particle-stabilized droplets were assessed in three independent experimental examinations, namely temperature, acoustic, and ultrasonic standing wave tests. During the acoustic droplet vaporization (ADV) process, droplets were converted to gas-filled microbubbles, offering enhanced visualization by ultrasound. The acoustic pressure threshold of about 0.62 MPa was identified for the cellulose-stabilized droplets. A phase transition temperature of about 22 °C was observed, at which a significant fraction of larger droplets (above ca. 3 μm in diameter) were converted into bubbles, whereas a large part of the population of smaller droplets were stable up to higher temperatures (temperatures up to 45 °C tested). Moreover, under ultrasound standing wave conditions, droplets were relocated to antinodes demonstrating the behavior associated with the negative contrast particles. The combined results make the CNF-stabilized droplets interesting in cell-droplet interaction experiments and ultrasound imaging.

Published
2019
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