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Disruption of Epithelial Barriers for Molecular Delivery Enhancement or Extraction of Extracellular Fluids (2024)
Patent
Webb, K., Moradi, E., & Foss, A. (2024). Disruption of Epithelial Barriers for Molecular Delivery Enhancement or Extraction of Extracellular Fluids. WO2024009101A1. UK

The invention provides a method of delivering a payload molecule across an epithelial tissue barrier, the method comprising: applying the payload molecule to the epithelial tissue barrier, and additionally applying an agent to the epithelial tissue b... Read More about Disruption of Epithelial Barriers for Molecular Delivery Enhancement or Extraction of Extracellular Fluids.

Investigation of Exhaust Particles on Different TEM Grids: a Comparison between Graphene Oxide and Silicon Nitride Grids (2023)
Presentation / Conference Contribution
Lagana, S., Akifjevs, R., Rocca, A. L., Cairns, A., Fay, M. W., & Webb, K. F. (2023). Investigation of Exhaust Particles on Different TEM Grids: a Comparison between Graphene Oxide and Silicon Nitride Grids. SAE Technical Papers, 2023-32-0123, https://doi.org/10.4271/2023-32-0123

Two different TEM (Transmission Electron Microscopy) grids - graphene oxide (GO) and silicon nitride (SiN) - were used to capture the particulates emitted with the exhaust of a modern 1.0 L GDI (Gasoline Direct Injection) engine. One speed-load condi... Read More about Investigation of Exhaust Particles on Different TEM Grids: a Comparison between Graphene Oxide and Silicon Nitride Grids.

The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro (2022)
Journal Article
McCloskey, M. C., Kasap, P., Ahmad, S. D., Su, S., Chen, K., Mansouri, M., Ramesh, N., Nishihara, H., Belyaev, Y., Abhyankar, V. V., Begolo, S., Singer, B. H., Webb, K. F., Kurabayashi, K., Flax, J., Waugh, R. E., Engelhardt, B., & McGrath, J. L. (2022). The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro. Advanced Healthcare Materials, 11(18), Article 2200804. https://doi.org/10.1002/adhm.202200804

Advanced in vitro tissue chip models can reduce and replace animal experimentation and may eventually support "on-chip" clinical trials. To realize this potential, however, tissue chip platforms must be both mass-produced and reconfigurable to allow... Read More about The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro.

Non-invasive hydrodynamic imaging in plant roots at cellular resolution (2021)
Journal Article
Pascut, F. C., Couvreur, V., Dietrich, D., Leftley, N., Reyt, G., Boursiac, Y., …Webb, K. F. (2021). Non-invasive hydrodynamic imaging in plant roots at cellular resolution. Nature Communications, 12(1), 1-7. https://doi.org/10.1038/s41467-021-24913-z

A key impediment to studying water-related mechanisms in plants is the inability to non-invasively image water fluxes in cells at high temporal and spatial resolution. Here, we report that Raman microspectroscopy, complemented by hydrodynamic modelli... Read More about Non-invasive hydrodynamic imaging in plant roots at cellular resolution.

Picosecond ultrasonics for elasticity-based imaging and characterization of biological cells (2020)
Journal Article
Pérez-Cota, F., Fuentes-Domínguez, R., La Cavera III, S., Hardiman, W., Yao, M., Setchfield, K., …Clark, M. (2020). Picosecond ultrasonics for elasticity-based imaging and characterization of biological cells. Journal of Applied Physics, 128(16), Article 160902. https://doi.org/10.1063/5.0023744

© 2020 Author(s). Characterization of the elasticity of biological cells is growing as a new way to gain insight into cell biology. Cell mechanics are related to most aspects of cellular behavior, and applications in research and medicine are broad.... Read More about Picosecond ultrasonics for elasticity-based imaging and characterization of biological cells.

Effects of Toxoplasma gondii infection on the function and integrity of human cerebrovascular endothelial cells and the influence of Verapamil treatment in vitro (2020)
Journal Article
Harun, M., Marsh, V., Elsaied, N. A., Webb, K. F., & Elsheikha, H. M. (2020). Effects of Toxoplasma gondii infection on the function and integrity of human cerebrovascular endothelial cells and the influence of Verapamil treatment in vitro. Brain Research, 1746, Article 147002. https://doi.org/10.1016/j.brainres.2020.147002

Toxoplasma gondii can cause parasitic encephalitis, a life-threatening infection that predominately occurs in immunocompromised individuals. T. gondii has the ability to invade the brain, but the mechanisms by which this parasite crosses the blood–br... Read More about Effects of Toxoplasma gondii infection on the function and integrity of human cerebrovascular endothelial cells and the influence of Verapamil treatment in vitro.

Surface plasmon resonance imaging of excitable cells (2019)
Journal Article
Howe, C. L., Webb, K. F., Abayzeed, S. A., Anderson, D. J., Denning, C., & Russell, N. A. (2019). Surface plasmon resonance imaging of excitable cells. Journal of Physics D: Applied Physics, 52(10), Article 104001. https://doi.org/10.1088/1361-6463/aaf849

Surface plasmons (SPs) are surface charge density oscillations occuring at a metal/dieletric interface and are highly sensitive to refractive index variations adjacent to the surface. This sensitivity has been exploited successfully for chemical and... Read More about Surface plasmon resonance imaging of excitable cells.

Surface Plasmon Resonance Imaging of Excitable Cells (2018)
Preprint / Working Paper
Howe, C. L., Webb, K. F., Abayzeed, S. A., Anderson, D. J., Denning, C., & Russell, N. A. Surface Plasmon Resonance Imaging of Excitable Cells

Surface plasmons are highly sensitive to refractive index variations adjacent to the surface. This sensitivity has been exploited successfully for chemical and biological assays. In these systems, a surface plasmon resonance (SPR)-based sensor detect... Read More about Surface Plasmon Resonance Imaging of Excitable Cells.

TEM tomography of pores with application to computational nanoscale flows in nanoporous silicon nitride (NPN) (2018)
Journal Article
Madejski, G., Lucas, K., Pascut, F. C., Webb, K. F., & McGrath, J. L. (2018). TEM tomography of pores with application to computational nanoscale flows in nanoporous silicon nitride (NPN). Membranes, 8(2), Article 26. https://doi.org/10.3390/membranes8020026

Silicon nanomembrane technologies (NPN, pnc-Si, and others) have been used commercially as electron microscopy (EM) substrates, and as filters with nanometer-resolution size cut-offs. Combined with EM, these materials provide a platform for catching... Read More about TEM tomography of pores with application to computational nanoscale flows in nanoporous silicon nitride (NPN).

Non destructive evaluation of biological cells (2018)
Presentation / Conference Contribution
Pérez-Cota, F., Smith, R. J., Moradi, E., Webb, K. F., & Clark, M. (2019). Non destructive evaluation of biological cells. AIP Conference Proceedings, 2102, https://doi.org/10.1063/1.5099737

© 2019 Author(s). Regenerative medicine promises to be the next revolution in health care. This technology, which will be the first systematic manufacturing of biological parts for human consumption, requires non destructive evaluatioin (NDE) thechni... Read More about Non destructive evaluation of biological cells.

Rapid one-step biotinylation of biological and non-biological surfaces (2018)
Journal Article
Henry, S., Williams, E., Barr, K., Korchagina, E., Tuzikov, A., Ilyushina, N., …Bovin, N. (2018). Rapid one-step biotinylation of biological and non-biological surfaces. Scientific Reports, 8(1), Article 2845. https://doi.org/10.1038/s41598-018-21186-3

We describe a rapid one-step method to biotinylate virtually any biological or non-biological surface. Contacting a solution of biotin-spacer-lipid constructs with a surface will form a coating within seconds on non-biological surfaces or within minu... Read More about Rapid one-step biotinylation of biological and non-biological surfaces.

Dynamic functional contribution of the water channel AQP5 to the water permeability of peripheral lens fiber cells (2018)
Journal Article
Petrova, R. S., Webb, K. F., Vaghefi, E., Walker, K., Schey, K. L., & Donaldson, P. J. (2018). Dynamic functional contribution of the water channel AQP5 to the water permeability of peripheral lens fiber cells. American Journal of Physiology - Cell Physiology, 314(2), C191-C201. https://doi.org/10.1152/ajpcell.00214.2017

Although the functionality of the lens water channels aquaporin 1 (AQP1; epithelium) and AQP0 (fiber cells) is well established, less is known about the role of AQP5 in the lens. Since in other tissues AQP5 functions as a regulated water channel with... Read More about Dynamic functional contribution of the water channel AQP5 to the water permeability of peripheral lens fiber cells.

Sensitive detection of voltage transients using differential intensity surface plasmon resonance system (2017)
Journal Article
Abayzeed, S. A., Smith, R. J., Webb, K. F., Somekh, M. G., & See, C. W. (2017). Sensitive detection of voltage transients using differential intensity surface plasmon resonance system. Optics Express, 25(25), 31552-31567. https://doi.org/10.1364/OE.25.031552

This paper describes theoretical and experimental study of the fundamentals of using surface plasmon resonance (SPR) for label-free detection of voltage. Plasmonic voltage sensing relies on the capacitive properties of metal-electrolyte interface tha... Read More about Sensitive detection of voltage transients using differential intensity surface plasmon resonance system.

Cell imaging by phonon microscopy: sub-optical wavelength ultrasound for non-invasive imaging (2017)
Journal Article
Perez-Cota, F., Smith, R. J., Moradi, E., Leija, A. L., Velickovic, K., Marques, L., …Clark, M. (2017). Cell imaging by phonon microscopy: sub-optical wavelength ultrasound for non-invasive imaging

The mechanical properties of cells play an important role in cell function and behavior. This paper presents recent developments that have enabled the use of laser-generated phonons (ultrasound) with sub-optical wavelengths to look inside living cell... Read More about Cell imaging by phonon microscopy: sub-optical wavelength ultrasound for non-invasive imaging.

High resolution 3D imaging of living cells with sub-optical wavelength phonons (2016)
Journal Article
Perez-Cota, F., Smith, R. J., Moradi, E., Marques, L., Webb, K. F., & Clark, M. (2016). High resolution 3D imaging of living cells with sub-optical wavelength phonons. Scientific Reports, 6, Article 39326. https://doi.org/10.1038/srep39326

Label-free imaging of living cells below the optical diffraction limit poses great challenges for optical microscopy. Biologically relevant structural information remains below the Rayleigh limit and beyond the reach of conventional microscopes. Supe... Read More about High resolution 3D imaging of living cells with sub-optical wavelength phonons.

Responsivity of the differential-intensity surface plasmon resonance instrument (2016)
Journal Article
Abayzeed, S. A., Smith, R. J., Webb, K. F., Somekh, M. G., & See, C. W. (2016). Responsivity of the differential-intensity surface plasmon resonance instrument. Sensors and Actuators B: Chemical, 235, 627-635. https://doi.org/10.1016/j.snb.2016.05.117

Surface plasmon resonance is used for the sensitive measurement of minute concentrations of bio-analytes and probing of electrochemical processes. Typical refractive index sensitivity, for the intensity approach, is around 10−6 refractive index units... Read More about Responsivity of the differential-intensity surface plasmon resonance instrument.

Cell imaging using sub-optical wavelength ultrasonics (2015)
Presentation / Conference Contribution
Clark, M., Marques, L., Moradi, E., Perez-Cota, F., Smith, R. J., & Webb, K. F. (2015). Cell imaging using sub-optical wavelength ultrasonics. In Proceedings Asia Communications and Photonics Conference 2015. https://doi.org/10.1364/acpc.2015.asu5h.1

At GHz frequencies the wavelength of ultrasound becomes comparable or smaller than the wavelength of light and so offers an intriguing way to image at the small scale. In this paper we report on new developments in pico-second laser ultrasonics that... Read More about Cell imaging using sub-optical wavelength ultrasonics.

Thin-film transducers for the detection and imaging of Brillouin oscillations in transmission on cultured cells (2015)
Journal Article
Perez-Cota, F., Smith, R. J., Moradi, E., Webb, K. F., & Clark, M. (in press). Thin-film transducers for the detection and imaging of Brillouin oscillations in transmission on cultured cells. Journal of Physics: Conference Series, 684(1), https://doi.org/10.1088/1742-6596/684/1/012003

Mechanical imaging and characterisation of biological cells has been a subject of interest for the last twenty years. Ultrasonic imaging based on the scanning acoustic microscope (SAM) and mechanical probing have been extensively reported. Large acou... Read More about Thin-film transducers for the detection and imaging of Brillouin oscillations in transmission on cultured cells.

Thin-film optoacoustic transducers for the subcellular Brillouin oscillation imaging of individual biological cells (2015)
Journal Article
Perez-Cota, F., Smith, R. J., Moradi, E., Marques, L., Webb, K. F., & Clark, M. (2015). Thin-film optoacoustic transducers for the subcellular Brillouin oscillation imaging of individual biological cells. Applied Optics, 54(28), https://doi.org/10.1364/AO.54.008388

Mechanical characterisation and imaging of biological tissue has piqued interest in the applicability to cell and tissue biology. One method, based on detection of Brillouin oscillations, has already lead to demonstrations on biological cells using u... Read More about Thin-film optoacoustic transducers for the subcellular Brillouin oscillation imaging of individual biological cells.

Optically excited nanoscale ultrasonic transducers (2015)
Journal Article
Smith, R. J., Cota, F. P., Marques, L., Chen, X., Arca, A., Webb, K., …Clark, M. (2015). Optically excited nanoscale ultrasonic transducers. Journal of the Acoustical Society of America, 137(1), 219-227. https://doi.org/10.1121/1.4904487

© 2015 Acoustical Society of America. In order to work at higher ultrasonic frequencies, for instance, to increase the resolution, it is necessary to fabricate smaller and higher frequency transducers. This paper presents an ultrasonic transducer cap... Read More about Optically excited nanoscale ultrasonic transducers.