Your search keyword '"P.S. Watson"' showing total 4 results

1. Plaque biofilms: The effect of chemical environment on natural human plaque biofilm architecture

Author

Jennifer Kirkham, S.M. Strafford, P.S. Watson, R.C. Shore, Steven J. Brookes, Colin Robinson, S. R. Wood, and Gareth D. Rees

Subjects

Dental Plaque, Biomass, Sodium Chloride, Dental plaque, Microbiology, Surface-Active Agents, Confocal laser scanning microscopy, medicine, Humans, Dental Enamel, General Dentistry, Microbial Biofilms, Microscopy, Confocal, Enamel paint, Chemistry, Biofilm, Sodium Dodecyl Sulfate, Tooth surface, Cell Biology, General Medicine, Hydrogen-Ion Concentration, biochemical phenomena, metabolism, and nutrition, medicine.disease, Molar, Biomechanical Phenomena, Otorhinolaryngology, Biofilms, visual_art, visual_art.visual_art_medium, Biophysics, Local environment

Abstract

Summary The architecture of microbial biofilms especially the outer regions have an important influence on the interaction between biofilm and local environment particularly on the flux of materials into and out of biofilm compartments and as a consequence, biofilm metabolic behaviour. In the case of dental plaque biofilms, architecture will determine access of nutrients including acidogenic substrates and therapeutic materials to the microbial biomass and to the underlying tooth surface. Manipulation of this architecture may offer a means of altering mass transfer into the whole biofilm and biomass and raises the possibility of improving access of therapeutics. Plaque biofilms formed in vivo on human enamel were subjected to a number of different chemical conditions while under observation by confocal laser scanning microscopy in reflection mode. In this way the outer 50–100 μm or so of the biofilms was examined. Density and distribution of biomass were recorded as degree of reflectance. The amount and density of biofilm biomass increased from the plaque saliva interface towards the interior. Plaque biofilms were robust and little affected by mechanical manipulation, high ionic strength or low pH (2.5). Detergent (SLS), however, often appeared to either remove biomass and/or dramatically reduce its density.

Published

2006

2. Penetration of fluoride into natural plaque biofilms

Author

H.A. Pontefract, Colin Robinson, Brian Nattress, P.S. Watson, Deirdre A. Devine, Jennifer Kirkham, and R.C. Shore

Subjects

Saliva, Time Factors, Plaque removal, Dental Plaque, Dentistry, Dental Caries, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Humans, Fluorides, Topical, Dental Enamel, General Dentistry, Enamel paint, business.industry, 010401 analytical chemistry, Radiochemistry, Biofilm, 030206 dentistry, Penetration (firestop), Cariostatic Agents, 0104 chemical sciences, chemistry, visual_art, Biofilms, visual_art.visual_art_medium, Sodium Fluoride, business, Fluoride, Ion-Selective Electrodes

Abstract

Caries occurs at inaccessible stagnation sites where plaque removal is difficult. Here, the penetration through plaque of protective components, such as fluoride, is likely to be crucial in caries inhibition. We hypothesized that topically applied fluoride would readily penetrate such plaque deposits. In this study, plaque biofilms generated in vivo on natural enamel surfaces were exposed to NaF (1000 ppm F−) for 30 or 120 sec (equivalent to toothbrushing) or for 30 min. Biofilms were then sectioned throughout their depth, and the fluoride content of each section was determined with the use of a fluoride electrode. Exposure to NaF for 30 or 120 sec increased plaque fluoride concentrations near the saliva interface, while concentrations near the enamel surface remained low. Fluoride penetration increased with duration of NaF exposure. Removal of exogenous fluoride resulted in fluoride loss and redistribution. Penetration of fluoride into plaque biofilms during brief topical exposure is restricted, which may limit anti-caries efficacy.

Published

2005

3. Minimizing prion risk without compromising the microbial composition of biofilms grown in vivo in a human plaque model

Author

C.H. Sissons, Colin Robinson, Jennifer Kirkham, Brian Nattress, Deirdre A. Devine, P.S. Watson, R.C. Shore, and Philip Marsh

Subjects

Dental Instruments, Colony Count, Microbial, Dental Plaque, Hypochlorite, Biology, Dental plaque, Applied Microbiology and Biotechnology, Microbiology, Prion Diseases, chemistry.chemical_compound, In vivo, medicine, Humans, Dental Enamel, Enamel paint, Bacteria, Biofilm, Nucleic Acid Hybridization, Sterilization, Microbial composition, Sterilization (microbiology), medicine.disease, Oxidants, In vitro, Hypochlorous Acid, Disinfection, chemistry, visual_art, Biofilms, visual_art.visual_art_medium

Abstract

Aims: To determine whether the stringency of sterilization procedures for biological components of in vivo dental plaque-generating devices based on enamel can be increased to minimize prion risk without compromising natural biofilm composition. Methods and Results: The composition of in vitro biofilms, grown on hypochlorite-treated and untreated autoclaved enamel surfaces, was determined using culture-based methods and checkerboard DNA: DNA hybridization analysis. No differences were found between biofilms recovered from either substrate. Significance: Several in situ models allow generation of plaque in the oral cavity, followed by recovery of intact biofilms for experimentation. Approaches allowing plaque formation on natural tooth surfaces are most valuable, but present a possible infection risk to volunteers wearing plaque-collecting devices, particularly with respect to prions. Hypochlorite treatment of biological material, as an adjunct to autoclaving, reduces infection risk without compromising biofilm composition and should be adopted in all future studies using plaque-generating devices incorporating enamel, where there is a potential prion threat, and further investigated in other biological hard tissues.

Published

2004

4. DEATH FROM POSTMATURITY OR INDUCTION OF LABOUR?

Author

R.B. Parker and P.S. Watson

Subjects

General Medicine, Biology

Published

1958