Exploring the Limits of Cell Adhesion under Shear Stress within Physiological Conditions and beyond on a Chip

Stamp, Melanie; Jötten, Anna Martina; Kudella, Patrick W.; Breyer, Dominik; Strobl, Florian; Geislinger, Thomas M.; Wixforth, Achim; Westerhausen, Christoph

doi:10.3390/diagnostics6040038

Cited by 25 publications

(31 citation statements)

References 47 publications

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“…, a temperature of 37°C and pH of 74) where was adhesion was favorable or detachment promoted. 192 Bussonnière et al 193 and Sivanantha et al 194 both applied this concept to use SAW-initiated cell de-adhesion as a method for cell separation and identification, with Bussonnière et al separating human embryonic kidney (HEK 293) cells from, smooth muscle cells (A7r5) in a droplet and Sivanantha et al applying the technique to healthy, treated, and malaria-infected red blood cells. The advantage with the SAW approach is that the method is inherently label-free and highly selective, without adversely affecting cell viability (Bussonnière et al measured apoptosis rates less than 5%).…”

Section: Saw-integrated Microfluidicsmentioning

confidence: 99%

Surface acoustic wave devices for chemical sensing and microfluidics: a review and perspective

et al. 2017

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Surface acoustic waves (SAWs), are electro-mechanical waves that form on the surface of piezoelectric crystals. Because they are easy to construct and operate, SAW devices have proven to be versatile and powerful platforms for either direct chemical sensing or for upstream microfluidic processing and sample preparation. This review summarizes recent advances in the development of SAW devices for chemical sensing and analysis. The use of SAW techniques for chemical detection in both gaseous and liquid media is discussed, as well as recent fabrication advances that are pointing the way for the next generation of SAW sensors. Similarly, applications and progress in using SAW devices as microfluidic platforms are covered, ranging from atomization and mixing to new approaches to lysing and cell adhesion studies. Finally, potential new directions and perspectives on the field as it moves forward are offered, with a specific focus on potential strategies for making SAW technologies for bioanalytical applications.

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Section: Saw-integrated Microfluidicsmentioning

confidence: 99%

Surface acoustic wave devices for chemical sensing and microfluidics: a review and perspective

et al. 2017

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“…2d). The HDF cell firmly adhered to RGD functionalized CS-GO substrate showed well spreading morphology and overcame dissociation with several washing steps during the fixation process prior to the SEM imaging [16,30]. In the absence of RGD, the cells did not withstand such washing force and were dissociated from the electrode, as evident from SEM images shown in Fig.…”

Section: B Rgd Assisted Enhancement Of Cell Adhesionmentioning

confidence: 94%

Chitosan-Graphene Oxide-Based Ultra-Thin and Flexible Sensor for Diabetic Wound Monitoring

et al. 2020

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This work presents a Chitosan-Graphene Oxide (CS-GO) based array of ultra-thin biosensors with gold (Au) based microgap (60µm) electrode. The cross-linked GO is shown to improve the stability of chitosan substrate in aqueous medium and compatibility with microfabrication steps. The sensor patch has been evaluated for label free monitoring by immobilizing the CS-GO surface with human dermal fibroblast (HDF) cells. The cyclic voltammetry (CV) of HDF cell immobilized CS-GO surface show quasi-reversible nature with characteristic cathodic peak at +300mV and anodic peak at-300mV. Both peaks are stable and repeatable up to 50-scan cycle without any potential shift. The device shows steady state peak enhancement (1.923-11.195nA) during the DHF cell growth period (0-96h). The redox peak enhancement correlates with the cell proliferation rates over time, indicating that it could be employed for investigation of cyto-physiological state against any endo and exogenous stimulation. In addition, the developed sensor-patch was used to detect a wide range of glucose from 1μM to 20mM in vitro with a sensitivity of 0.17µA/mM. Considering these, the presented sensor-patch has a great potential for the detection of glucose level, cell-health proliferation rate at the wound site and diabetic wound monitoring applications.

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“…On a piezoelectric LiNbO 3 substrate a radio frequency (rf) signal (frequency $160 MHz, power P ¼ 28 dBm) is applied to an interdigital transducer (IDT) with a periodicity of p ¼ 25 mm resulting in a streaming towards the top cover as described earlier. 16 The ow velocities as function of lateral and vertical position and the resulting distribution of the shear velocities were analyzed employing scanning particle image velocimetry (sPIV) based on Thielicke's time-resolved particle image velocimetry (PIV) soware. Here, latex beads (Polysciences, Inc., Polybead® polystyrene, size 3 mm) were added to the uid in the chamber, which follow the streamlines and are recorded using the high speed camera FASTCAM 1024PCI, Photron.…”

Section: Surface Acoustic Wave Driven Ow Systemmentioning

confidence: 99%

“…12,13 Within the last years, miniaturized setups to study cell adhesion phenomena using Surface Acoustic Wave (SAW) induced ow have been established. [14][15][16] Basically there exist two options to generate the ow. On the one hand, the cells, e.g.…”

Section: Introductionmentioning

confidence: 99%

“…Within a single measurement studying one ensemble of cells the complete shear force range of interest is covered. Here, we used a setup as described earlier 16 to investigate the adhesion behavior of SaOs-2 cells on medical implants under micro-uidic shear ow. The analysis capability of the setup was tremendously enhanced by the implementation of custom soware entitled 'Particle Image Velocimetry De-Adhesion Correlation' (PIVDAC) that correlates the detachment of the cells with the local shear velocity of the streaming uid.…”

Section: Introductionmentioning

confidence: 99%

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Correlation of in vitro cell adhesion, local shear flow and cell density

et al. 2019

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Exploring the Limits of Cell Adhesion under Shear Stress within Physiological Conditions and beyond on a Chip

Cited by 25 publications

References 47 publications

Surface acoustic wave devices for chemical sensing and microfluidics: a review and perspective

Surface acoustic wave devices for chemical sensing and microfluidics: a review and perspective

Chitosan-Graphene Oxide-Based Ultra-Thin and Flexible Sensor for Diabetic Wound Monitoring

Correlation of in vitro cell adhesion, local shear flow and cell density

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