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249 results on '"Winlove, C. Peter"'

1. Brillouin-derived viscoelastic parameters of hydrogel tissue models

Author

Bailey, Michelle, Alunni-Cardinali, Martina, Correa, Noemi, Caponi, Silvia, Holsgrove, Timothy, Barr, Hugh, Stone, Nick, Winlove, C. Peter, Fioretto, Daniele, and Palombo, Francesca

Subjects
Physics - Biological Physics, Condensed Matter - Soft Condensed Matter
Abstract

Many problems in mechanobiology urgently require characterisation of the micromechanical properties of the fibrous proteins of cells and tissues. Brillouin light scattering has been proposed as a new optical elastography technique to meet this need, but the information contained in the Brillouin spectrum is still a matter of debate. Here we investigate this question using gelatin as a model system in which the macroscopic physical properties can be manipulated to mimic all the relevant biological states of matter, ranging from the liquid to the gel and the glassy phase. We demonstrate that Brillouin spectroscopy is a powerful tool to reveal both the elastic and viscous properties of biomaterials that are central to their biological functions., Comment: 18 pages, 4 figures

Published
2019
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11. The application of fluorescence lifetime readouts in high-throughput screening

Author

Moger, Julian, Gribbon, Philip, Sewing, Andreas, and Winlove, C. Peter

Subjects
Mathematical analysis -- Analysis, Fluorescence -- Analysis, Drugs -- Product/Service Evaluations, Biological sciences, Analysis
Abstract

Measurement of fluorescence lifetime is a well-established technique, which has recently been introduced into the portfolio of assay formats used in high-throughput screening (HTS). This investigation establishes appropriate conditions for [...]

Published
2006

12. Matrix-Bound Growth Factors are Released upon Cartilage Compression by an Aggrecan-Dependent Sodium Flux that is Lost in Osteoarthritis

Author

Keppie, Stuart J., primary, Mansfield, Jessica C., additional, Tang, Xiaodi, additional, Philp, Christopher J., additional, Graham, Helen K., additional, Önnerfjord, Patrik, additional, Wall, Alanna, additional, McLean, Celia, additional, Winlove, C. Peter, additional, Sherratt, Michael J., additional, Pavlovskaya, Galina E., additional, and Vincent, Tonia L, additional

Published
2021
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14. Matrix-Bound Growth Factors are Released upon Cartilage Compression by an Aggrecan-Dependent Sodium Flux that is Lost in Osteoarthritis

Author

Keppie, Stuart J, primary, Mansfield, Jessica C, additional, Tang, Xiaodi, additional, Philp, Christopher J, additional, Graham, Helen K, additional, Önnerfjord, Patrik, additional, Wall, Alanna, additional, McLean, Celia, additional, Winlove, C Peter, additional, Sherratt, Michael J, additional, Pavlovskaya, Galina E, additional, and Vincent, Tonia L, additional

Published
2021
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16. Biosensors and Diagnostics for Fungal Detection

Author

K. Hussain, Khalil, primary, Malavia, Dhara, additional, M. Johnson, Elizabeth, additional, Littlechild, Jennifer, additional, Winlove, C. Peter, additional, Vollmer, Frank, additional, and Gow, Neil A. R., additional

Published
2020
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21. Microstructural Characterization of Resistance Artery Remodelling in Diabetes Mellitus.

Author

Bell, James S., Adio, Aminat O., Pitt, Andrew, Hayman, Lindsay, Thorn, Clare E., Shore, Angela C., Whatmore, Jacqueline L., and Winlove, C. Peter

Subjects
VASCULAR resistance, DIABETES, VASCULAR smooth muscle, SECOND harmonic generation, ABDOMINAL adipose tissue, TYPE 2 diabetes
Abstract

Introduction: Microvascular remodelling is a symptom of cardiovascular disease. Despite the mechanical environment being recognized as a major contributor to the remodelling process, it is currently only understood in a rudimentary way. Objective: A morphological and mechanical evaluation of the resistance vasculature in health and diabetes mellitus. Methods: The cells and extracellular matrix of human subcutaneous resistance arteries from abdominal fat biopsies were imaged using two-photon fluorescence and second harmonic generation at varying transmural pressure. The results informed a two-layer mechanical model. Results: Diabetic resistance arteries reduced in wall area as pressure was increased. This was attributed to the presence of thick, straight collagen fibre bundles that braced the outer wall. The abnormal mechanical environment caused the internal elastic lamina and endothelial and vascular smooth muscle cell arrangements to twist. Conclusions: Our results suggest diabetic microvascular remodelling is likely to be stress-driven, comprising at least 2 stages: (1) Laying down of adventitial bracing fibres that limit outward distension, and (2) Deposition of additional collagen in the media, likely due to the significantly altered mechanical environment. This work represents a step towards elucidating the local stress environment of cells, which is crucial to build accurate models of mechanotransduction in disease. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Nanoscale organization of proteins assemblies probed by polarized label free multiphoton fluorescence

Author

Brasselet, Sophie, Winlove, C. Peter, Institut FRESNEL (FRESNEL), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), School of Physics and Astronomy [Exeter], University of Exeter, and Centre National de la Recherche Scientifique (CNRS)-École Centrale de Marseille (ECM)-Aix Marseille Université (AMU)

Subjects
[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2019

25. Collagen reorganization in cartilage under strain probed by polarization sensitive second harmonic generation microscopy

Author

Mansfield, Jessica C., Mandalia, Vipul, Toms, Andrew, Winlove, C. Peter, Brasselet, Sophie, Institut FRESNEL (FRESNEL), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-École Centrale de Marseille (ECM)-Aix Marseille Université (AMU)

Subjects
Cartilage, Articular, collagen, Microscopy, polarization, second harmonic generation, Life Sciences–Physics interface, biophysics Keywords: cartilage, Subject Category: Life Sciences -Physics interface Subject Areas: biomechanics, Extracellular Matrix, Chondrocytes, micromechanics, [SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic, Animals, Cattle, cartilage, Research Article
Abstract

International audience; Type II collagen fibril diameters in cartilage are beneath the diffraction limit of optical microscopy, which makes the assessment of collagen organization very challenging. In this work we use polarization sensitive second harmonic generation (P-SHG) imaging to map collagen organization in articular cartilage, addressing in particular its behaviour under strain and changes which occur in osteoarthritis. P-SHG yields two parameters, molecular order and orientation, which provide measures of the degree of organization both at the molecular scale (below the diffraction limit) and above a few hundred nanometres (at the image pixel size). P-SHG clearly demonstrates the zonal collagen architecture and reveals differences in the structure of the fibrils around chondrocytes. P-SHG also reveals sub-micron scale fibril reorganization in cartilage strips exposed to tensile loading, with an increase in local organization in the superficial zone which weakly correlates with tensile modulus. Finally, P-SHG is used to investigate osteoarthritic cartilage from total knee replacement surgery, and reveals widespread heterogeneity across samples both microscale fibril orientations and their sub-micron organization. By addressing col-lagen fibril structure on scales intermediate between conventional light and electron microscopy, this study provides new insights into collagen micromechanics and mechanisms of degradation.

Published
2019

27. Tissue oxygenation and perfusion in endotoxemia

Author

Sair, Mark, Etherington, Philip J., Curzen, Nicholas P., Winlove, C. Peter, and Evans, Timothy W.

Subjects
Endotoxins -- Physiological aspects, Tissue respiration -- Physiological aspects, Bacterial infections -- Physiological aspects, Muscles -- Physiological aspects, Biological sciences
Abstract

Implantable tissue electrodes were utilized on rat endotoxemia models to analyze the effects of sepsis in the impaired regulation of microvascular perfusion and oxygenation. Rat endotoxemia models exhibited significant tissue hypoxia and reduced levels of heterogeneous skeletal muscle oxygen tension. Endotoxemia-induced tissue hypoxia was caused by changes in whole body oxygen delivery. However, nutritive muscle flow remained normal in the endotoxemic rat models.

Published
1996

30. Biosensors and Diagnostics for Fungal Detection.

Author

Hussain, Khalil K., Malavia, Dhara, Johnson, Elizabeth M., Littlechild, Jennifer, Winlove, C. Peter, Vollmer, Frank, and Gow, Neil A. R.

Subjects
BIOSENSORS, MEDICAL mycology, POINT-of-care testing, ENCAPSULATION (Catalysis), FUNGAL growth
Abstract

Early detection is critical to the successful treatment of life-threatening infections caused by fungal pathogens, as late diagnosis of systemic infection almost always equates with a poor prognosis. The field of fungal diagnostics has some tests that are relatively simple, rapid to perform and are potentially suitable at the point of care. However, there are also more complex high-technology methodologies that offer new opportunities regarding the scale and precision of fungal diagnosis, but may be more limited in their portability and affordability. Future developments in this field are increasingly incorporating new technologies provided by the use of new format biosensors. This overview provides a critical review of current fungal diagnostics and the development of new biophysical technologies that are being applied for selective new sensitive fungal biosensors to augment traditional diagnostic methodologies. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Novel hemodynamic structures in the human glomerulus

Author

Neal, Christopher R., primary, Arkill, Kenton P., additional, Bell, James S., additional, Betteridge, Kai B., additional, Bates, David O., additional, Winlove, C. Peter, additional, Salmon, Andrew H. J., additional, and Harper, Steven J., additional

Published
2018
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36. Three-dimensional arrangement of elastic fibers in the human corneal stroma

Author

Lewis, Philip, White, Tomas, Young, Robert David, Bell, James Stephen, Winlove, C. Peter, and Meek, Keith Michael Andrew

Subjects
genetic structures, RE, sense organs, eye diseases
Abstract

The cornea is the main refracting lens in the eye. As part of the outer tunic it has to be resilient, a property conferred by the organisation of the constituent collagen. It also has to be sufficiently elastic to regain its exact shape when deformed, in order not to distort the retinal image. The basis of this elasticity is not fully understood. The purpose of this study was to characterise in three dimensions the arrangement and distribution of elastic fibers in the human corneal stroma, using serial block face scanning electron microscopy. We have demonstrated that there exists a complex network of elastic fibers that appear to originate in the sclera or limbus. These appear as elastic sheets in the limbus and peripheral cornea immediately above the trabecular meshwork which itself appears to extend above Descemet's membrane in the peripheral stroma. From these sheets, elastic fibers extend into the cornea; moving centrally they bifurcate and trifurcate into narrower fibers and are concentrated in the posterior stroma immediately above Descemet's membrane. We contend that elastic sheets will play an important role in the biomechanical deformation and recovery of the peripheral cornea. The network may also have practical implications for understanding the structural basis behind a number of corneal surgeries.

Published
2016

37. Red Blood Cell Susceptibility to Pneumolysin: CORRELATION WITH MEMBRANE BIOCHEMICAL AND PHYSICAL PROPERTIES*

Author

Bokori-Brown, Monika, Petrov, Peter G., Khafaji, Mawya A., Mughal, Muhammad K., Naylor, Claire E., Shore, Angela C., Gooding, Kim M., Casanova, Francesco, Mitchell, Tim J., Titball, Richard W., and Winlove, C. Peter

Subjects
Male, Bacterial Toxins, Erythrocyte Membrane, respiratory system, Membrane Potentials, Hemolysin Proteins, Oxidative Stress, Streptococcus pneumoniae, Bacterial Proteins, Membrane Biology, Streptolysins, Diabetes Mellitus, Humans, Female
Abstract

This study investigated the effect of the biochemical and biophysical properties of the plasma membrane as well as membrane morphology on the susceptibility of human red blood cells to the cholesterol-dependent cytolysin pneumolysin, a key virulence factor of Streptococcus pneumoniae, using single cell studies. We show a correlation between the physical properties of the membrane (bending rigidity and surface and dipole electrostatic potentials) and the susceptibility of red blood cells to pneumolysin-induced hemolysis. We demonstrate that biochemical modifications of the membrane induced by oxidative stress, lipid scrambling, and artificial cell aging modulate the cell response to the toxin. We provide evidence that the diversity of response to pneumolysin in diabetic red blood cells correlates with levels of glycated hemoglobin and that the mechanical properties of the red blood cell plasma membrane are altered in diabetes. Finally, we show that diabetic red blood cells are more resistant to pneumolysin and the related toxin perfringolysin O relative to healthy red blood cells. Taken together, these studies indicate that the diversity of cell response to pneumolysin within a population of human red blood cells is influenced by the biophysical and biochemical status of the plasma membrane and the chemical and/or oxidative stress pre-history of the cell.

Published
2016

41. Red Blood Cell Susceptibility to Pneumolysin

Author

Bokori-Brown, Monika, primary, Petrov, Peter G., additional, Khafaji, Mawya A., additional, Mughal, Muhammad K., additional, Naylor, Claire E., additional, Shore, Angela C., additional, Gooding, Kim M., additional, Casanova, Francesco, additional, Mitchell, Tim J., additional, Titball, Richard W., additional, and Winlove, C. Peter, additional

Published
2016
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44. Novel hemodynamic structures in the human glomerulus.

Author

Neal, Christopher R., Arkill, Kenton P., Bell, James S., Betteridge, Kai B., Bates, David O., Winlove, C. Peter, Salmon, Andrew H. J., and Harper, Steven J.

Abstract

To investigate human glomerular structure under conditions of physiological perfusion, we have analyzed fresh and perfusion-fixed normal human glomeruli at physiological hydrostatic and oncotic pressures using serial resin section reconstruction, confocal, multiphoton, and electron microscope imaging. Afferent and efferent arterioles (21.5 ± 1.2 µm and 15.9 ± 1.2 µm diameter), recognized from vascular origins, lead into previously undescribed wider regions (43.2 ± 2.8 µm and 38.4 ± 4.9 µm diameter) we have termed vascular chambers (VCs) embedded in the mesangium of the vascular pole. Afferent VC (AVC) volume was 1.6-fold greater than efferent VC (EVC) volume. From the AVC, long nonbranching high-capacity conduit vessels (n = 7) (Con; 15.9 ± 0.7 µm diameter) led to the glomerular edge, where branching was more frequent. Conduit vessels have fewer podocytes than filtration capillaries. VCs were confirmed in fixed and unfixed specimens with a layer of banded collagen identified in AVC walls by multiphoton and electron microscopy. Thirteen highly branched efferent first-order vessels (E1; 9.9 ± 0.4 µm diameter) converge on the EVC, draining into the efferent arteriole (15.9 ± 1.2 µm diameter). Banded collagen was scarce around EVCs. This previously undescribed branching topology does not conform to the branching of minimum energy expenditure (Murray’s law), suggesting that even distribution of pressure/flow to the filtration capillaries is more important than maintaining the minimum work required for blood flow. We propose that AVCs act as plenum manifolds possibly aided by vortical flow in distributing and balancing blood flow/pressure to conduit vessels supplying glomerular lobules. These major adaptations to glomerular capillary structure could regulate hemodynamic pressure and flow in human glomerular capillaries. [ABSTRACT FROM AUTHOR]

Published
2018
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46. Boron‐Doped Diamond Dual‐Plate Deep‐Microtrench Device for Generator‐Collector Sulfide Sensing

Author

Harvey, Harriet M., primary, Gross, Andrew J., additional, Brooksby, Paula, additional, Downard, Alison J., additional, Green, Stephen J., additional, Winlove, C. Peter, additional, Benjamin, Nigel, additional, Winyard, Paul G., additional, Whiteman, Matthew, additional, Hammond, Jules L., additional, Estrela, Pedro, additional, and Marken, Frank, additional

Published
2015
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47. Cysteine-Cystine Redox Cycling in a Gold–Gold Dual-Plate Generator-Collector Microtrench Sensor

Author

Universidad de Alicante. Departamento de Química Física, Universidad de Alicante. Instituto Universitario de Electroquímica, Hammond, Jules L., Gross, Andrew J., Estrela, Pedro, Iniesta, Jesus, Green, Stephen J., Winlove, C. Peter, Winyard, Paul G., Benjamin, Nigel, Marken, Frank, Universidad de Alicante. Departamento de Química Física, Universidad de Alicante. Instituto Universitario de Electroquímica, Hammond, Jules L., Gross, Andrew J., Estrela, Pedro, Iniesta, Jesus, Green, Stephen J., Winlove, C. Peter, Winyard, Paul G., Benjamin, Nigel, and Marken, Frank

Abstract

Thiols and disulfides are ubiquitous and important analytical targets. However, their redox properties, in particular on gold sensor electrodes, are complex and obscured by strong adsorption. Here, a gold–gold dual-plate microtrench dual-electrode sensor with feedback signal amplification is demonstrated to give well-defined (but kinetically limited) steady-state voltammetric current responses for the cysteine-cystine redox cycle in nondegassed aqueous buffer media at pH 7 down to micromolar concentration levels.

Published
2014

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