Your search keyword '"Robert D. Short"' showing total 6 results

1. Microplasma jet treatment of bovine serum albumin coatings for controlling enzyme and cell attachment

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Author

Endre J. Szili, Sameer A. Al-Bataineh, Stefanie Becker, Robert D. Short, Szili, Endre J, Becker, Stefanie, Short, Robert D, and Al-Bataineh, Sameer A

Subjects

bovine serum, Cell, General Physics and Astronomy, Nanotechnology, 02 engineering and technology, 01 natural sciences, enzyme or cell adherence, chemistry.chemical_compound, 0103 physical sciences, medicine, microplasma, General Materials Science, Physical and Theoretical Chemistry, Bovine serum albumin, 010302 applied physics, Cell specific, chemistry.chemical_classification, Jet (fluid), biology, Chemistry, Microplasma, 021001 nanoscience & nanotechnology, medicine.anatomical_structure, Enzyme, Cell culture, Biophysics, biology.protein, Polystyrene, 0210 nano-technology

Abstract

We investigated a new approach to control protein and cell attachment inside 96-well polystyrene plates. The wells were first coated with bovine serum albumin (BSA) to inhibit cell and protein attachment. The BSA-coated wells were then treated with a helium microplasma jet for increasing times that resulted in gradual removal of BSA from the surface. It was found that the amount of enzyme and cell attachment could be controlled in the wells where BSA was only partially removed by the microplasma jet. In addition to the surface coverage of BSA, the new surface chemistry induced by the microplasma jet treatment also had an important role in the control of enzyme and cell attachment. In summary, microplasma jet treatment of BSA-coated polystyrene wells is a simple and effective method for controlling enzyme and cell attachment. This might find use for high-throughput screening of new cell culture platforms where control over the level protein, enzyme or cell adherence is needed in order to maintain a specific cell function. Refereed/Peer-reviewed more...

Published

2017

2. Where physics meets chemistry: Thin film deposition from reactive plasmas

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Author

Andrew Michelmore, Jason D. Whittle, James W. Bradley, Robert D. Short, Michelmore, Andrew, Whittle, Jason D, Bradley, James W, and Short, Robert D

Subjects

010302 applied physics, Chemical process, plasma physics, Chemistry, polymer, General Chemical Engineering, Ionic bonding, Nanotechnology, 02 engineering and technology, Plasma, Substrate (electronics), Surface engineering, 021001 nanoscience & nanotechnology, 01 natural sciences, thin films, plasma chemistry, 0103 physical sciences, functionalization, Surface modification, Thin film, 0210 nano-technology, Plasma processing

Abstract

Functionalising surfaces using polymeric thin films is an industrially important field. One technique for achieving nanoscale, controlled surface functionalization is plasma deposition. Plasma deposition has advantages over other surface engineering processes, including that it is solvent free, substrate and geometry independent, and the surface properties of the film can be designed by judicious choice of precursor and plasma conditions. Despite the utility of this method, the mechanisms of plasma polymer growth are generally unknown, and are usually described by chemical (i.e., radical) pathways. In this review, we aim to show that plasma physics drives the chemistry of the plasma phase, and surface-plasma interactions. For example, we show that ionic species can react in the plasma to form larger ions, and also arrive at surfaces with energies greater than 1000 kJ∙mol–1 (>10 eV) and thus facilitate surface reactions that have not been taken into account previously. Thus, improving thin film deposition processes requires an understanding of both physical and chemical processes in plasma.[Figure not available: see fulltext.] Refereed/Peer-reviewed more...

Published

2016

3. Plasma polymer coatings to aid retinal pigment epithelial growth for transplantation in the treatment of age related macular degeneration

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Author

Anita Mistry, Carl Sheridan, Yamini Krishna, Rachel Williams, Victoria Kearns, Robert D. Short, Sharon Mason, Kearns, Victoria, Mistry, Anita, Mason, Sharon, Krishna, Yamini, Sheridan, Carl, Short, Robert, and Williams, Rachel L more...

Subjects

water contact angle measurement, acrylic acids, Plasma Gases, tissue culture polystyrenes, Retinal Pigment Epithelium, artificial substrates, Contact angle, Macular Degeneration, chemistry.chemical_compound, proliferation rate, Coated Materials, Biocompatible, Materials Testing, RPE cell, Organic chemistry, chemistry.chemical_classification, Tissue Scaffolds, hydrocarbon films, vision loss, plasma polymers, Equipment Design, Polymer, retinal pigment epithelial, synthetic substrates, plasma polymer coatings, cell types, Materials science, Biomedical Engineering, Biophysics, cell carrier, primary cells, Bioengineering, Biomaterials, octadiene, Humans, Allyl alcohol, age-related macular degeneration, Cell Proliferation, Acrylic acid, Tissue Engineering, Substrate (chemistry), Retinal, bulk properties, eye diseases, Transplantation, allyl amine, chemistry, Cell culture, developed countries, sense organs, allyl alcohols

Abstract

Subretinal transplantation of functioning retinal pigment epithelial (RPE) cells grown on a synthetic substrate is a potential treatment for age-related macular degeneration (AMD), a common cause of irreversible vision loss in developed countries. Plasma polymers give the opportunity to tailor the surface chemistry of the artificial substrate whilst maintaining the bulk properties. In this study, plasma polymers with different functionalities were investigated in terms of their effect on RPE attachment and growth. Plasma polymers of acrylic acid (AC), allyl amine (AM) and allyl alcohol (AL) were fabricated and characterised using X-ray photoelectron spectroscopy (XPS) and water contact angle measurements. Octadiene (OD) hydrocarbon films and tissue culture polystyrene were used as controls. Wettability varied from hydrophobic OD to relatively hydrophilic AC. XPS demonstrated four very different surfaces with the expected functionalities. Attachment, proliferation and morphological examination of an RPE cell line and primary RPE cells were investigated. Both cell types grew on all surfaces, with the exception of OD, although the proliferation rate of primary cells was low. Good epithelial morphology was also demonstrated. Plasma polymerised films show potential as cell carrier surfaces for RPE cells in the treatment of AMD. Refereed/Peer-reviewed more...

Published

2012

4. [Untitled]

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Author

R. Daw, Robert D. Short, M. Cambray-Deakin, A. J. Devlin, S. Kothari, Ian M. Brook, J. M. Kelly, T. O'Leary, and A. M. Scutt

Subjects

Stromal cell, Polymers and Plastics, Chemistry, Cell, General Physics and Astronomy, Plasma polymerization, Trypsinization, chemistry.chemical_compound, medicine.anatomical_structure, Biochemistry, medicine, Copolymer, Biophysics, Chemical Engineering (miscellaneous), Bone marrow, Cytoskeleton, Acrylic acid

Abstract

The plasma copolymerization of acrylic acid and methyl vinyl ketone with 1,7-octadiene is reported. A range of surfaces including hydrocarbon plasma polymer, carbonyl-containing plasma copolymer and carboxyl-containing plasma copolymers have been prepared and characterized by means of X-ray photoelectron spectroscopy. The stability of these surfaces in water has been assessed at 37°C. The influence of their functional group chemistries on the attachment and spreading of osteoblast-like (ROS 17/2.8) and bone marrow stromal cells (BMSC) has been explored. The data reported show a strong correlation between the carboxyl group and the attachment and spreading of both ROS cells and BMSC. This relationship has been explored in some detail with the ROS cells. Actin-staining by direct immunofluorescence was used to visualize changes in cytoskeleton of ROS cells with substratum chemistry. As the concentration of the carboxyl groups increased cell number and cell spreading were notably enhanced. As few as 5 carboxyls per 100 carbons were sufficient to support good attachment and with cells showing well-defined polygonal cell morphology. Although cells attached to a hydrocarbon plasma polymer surface these cells had failed to spread. The attachment and spreading of BMSC were compared on a carboxyl-containing surface and on a hydrocarbon surface. There was a more marked difference in the number of cells that had attached to these two surfaces (cf. ROS cells). The spreading on the carboxyl surface was much more typical of BMSC. Results from an extended culture using primary cultures of bone marrow cells (BMC) are reported. These cells were not trypsinized and appear to be less sensitive to differences in surface chemistry (cf. BMSC). Even so, the results at 10 days indicate much greater biosynthetic activity on the carboxyl-containing surface. more...

Published

1999

5. [Untitled]

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Author

Morgan R. Alexander, Frank R. Jones, and Robert D. Short

Subjects

Hexamethyldisiloxane, Reaction mechanism, Polymers and Plastics, Analytical chemistry, General Physics and Astronomy, Quartz crystal microbalance, Plasma, Mass spectrometry, Plasma polymerization, Secondary ion mass spectrometry, chemistry.chemical_compound, X-ray photoelectron spectroscopy, chemistry, Chemical Engineering (miscellaneous)

Abstract

This study reports on the effect of input power to hexamethyldisiloxane (HMDSO) plasmas. The power dependence of the plasma-phase species and of the surface chemistry (of the deposits) has been investigated. Neutral and positive molecular species were detected within the plasma using mass spectrometry (MS). Secondary ion mass spectrometry (SIMS) was used to probe the molecular structure of the deposits. The elemental composition of the surface was determined by XPS and the deposition rate was monitored using a vibrating quartz crystal microbalance. Neutral and cationic molecules of mass greater than HMDSO were detected in the plasma. Their formation through ion-molecule reactions is proposed. Changes in the relative concentration of plasma-phase species follow those seen in molecular species detected at the deposit surface. Thus, we believe that the molecular structure of the deposits can be related to the species present in the plasma. While traditionally the dominant mechanism in deposit formation is assumed to be free radical combinations, we propose other possibilities involving cations with the aim of putting forward a new perspective on plasma polymerization mechanisms and thereby stimulating discussion. more...

Published

1997

6. Developmental toxicity of Guthion in rats and mice

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Author

Cheng-Chun Lee, Neil Chernoff, Jan L. Minor, Ronald L. Baron, and Robert D. Short

Subjects

Litter (animal), Insecticides, Health, Toxicology and Mutagenesis, Pharmacology toxicology, Developmental toxicity, Physiology, Pharmacology, Biology, Toxicology, Bone and Bones, Lethal Dose 50, Mice, Fetus, Species Specificity, Pregnancy, Dose group, Animals, Lactation, Weaning, Reproduction, Abnormalities, Drug-Induced, General Medicine, Teratology, Rats, Teratogens, Toxicity, Gestation, Female, Azinphosmethyl

Abstract

The purpose of this study was to assess the effects of Guthion, a pesticide with anticholinesterase activity, on development in rats and mice. A preliminary toxicity study with Guthion indicated that a 35-day LD50 dose for virgin rats and a 10-day LD50 dose for virgin mice was between 4 and 8 mg/kg/day for both species. On the basis of these data, doses of 0, 1.25, 2.5, and 5.0 mg/kg/day were selected for the developmental study, which consisted of two phases. During the first phase, pregnant rats and mice were treated for 10 days starting on gestational day 6. The high dose affected maternal welfare only in rats. Guthion did not significantly increase in a dose-related manner any of the specific anomalies observed in either rats or mice. During the second phase, pregnant rats were treated from gestational day 6 to postpartum day 21. Dams in the high dose group were more sensitive to Guthion later in gestation with the result that deaths and signs of anticholinesterase toxicity increased during this time. Guthion also adversely affected maternal welfare in this group. As a result of Guthion toxicity, only one litter survived until weaning. The inability to dissociate toxicity in adult and developing animals suggests that Guthion has little primary effect on the development of rats or mice. more...

Published

1980