Robinson C, Strafford S, Rees G, Brookes S J, Kirkham J, Shore R C, Watson P S, Wood S
Division of Oral Biology, the Dental Institute Leeds, UK.
Arch Oral Biol. 2006 Nov;51(11):1006-14. doi: 10.1016/j.archoralbio.2006.04.010. Epub 2006 Jun 27.
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 microm 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.
微生物生物膜的结构,尤其是其外层区域,对生物膜与局部环境之间的相互作用具有重要影响,特别是对物质进出生物膜隔室的通量有影响,进而影响生物膜的代谢行为。就牙菌斑生物膜而言,结构将决定包括产酸底物和治疗物质在内的营养物质进入微生物群落以及到达牙齿表面的难易程度。对这种结构进行调控可能提供一种改变物质向整个生物膜和生物量内传质的方法,并增加改善治疗物质进入的可能性。在共聚焦激光扫描显微镜反射模式观察下,对在人牙釉质上体内形成的菌斑生物膜施加多种不同化学条件。通过这种方式,对生物膜外层约50 - 100微米进行了检查。生物量的密度和分布以反射程度记录。生物膜生物量的数量和密度从菌斑 - 唾液界面向内部增加。牙菌斑生物膜具有较强的抗性,受机械操作、高离子强度或低pH值(2.5)的影响较小。然而,洗涤剂(十二烷基硫酸钠)常常似乎要么去除生物量,要么显著降低其密度。
