View clinical trials related to Dental Plaque.
Filter by:Investigation of inhibitory effect of prototype toothpaste on dental plaque formation via modified gingival margin plaque index method.
The purpose of this study is to train new examiners while testing two commercial products using our standard one-day brushing study regimen by measuring gingival margin plaque index.
This clinical study was to evaluate the control of dental plaque formation after toothbrushing for 4 days with each of the 4 study toothpastes.
Clinical research study to determine anti-plaque efficacy of a prototype toothpastes for a 3 week brushing regiment.
Bacteria that live in the mouth can digest fermentable carbohydrates such as sucrose, fructose, and glucose to make acid. This acid can cause demineralization of the tooth and lead to dental caries or decay. Noncariogenic carbohydrate sweeteners, such as sugar alcohols, can be used to replace fermentable carbohydrates in foods, thereby decreasing the risk of caries. In order for a sweetener to be labeled as a noncariogenic sweetener, the FDA requires that when present in food, the food should not lower the dental plaque pH below 5.7 either during or up to 30 minutes after consumption. The purpose of this study is to determine whether a new developmental sweetener can be fermented by the bacteria in the mouth and lead to acid production. This will be done by measuring the pH of dental plaque following consumption of the sweetener.
The purpose of this study is to determine whether the use of a sonic toothbrush alone is more effective than two other toothbrushing protocols on dental plaque elimination in patients with fixed orthodontic appliances.
Chlorhexidine gluconate (CHX), as an anti plaque agent, is commonly used with a variety of products. In this study we, the investigators at Hadassah Medical Organization, intend to examine the efficacy of a single dip in CHX of provisional restoration prior to oral cementation. If the protocol is effective, we intend to calibrate it and recommend clinical use of the protocol. The examination of biofilm formation will be both with electron microscope and confocal scanning laser microscope.
Auto polymerizing poly methyl methacrylate (PMMA), and light initiated resin modified PMMAs, are commonly used for fabricating provisional restorations (PRs) during prosthetic treatment 1. Biofilm accumulated on these PRs may cause caries and inflammation of the surrounding tissue, tempering the outcome of the final restoration 2. Plaque adherence to temporary restorations was significantly increased compared with the untreated reference teeth 3. Biologic and physical properties of the various materials used as PRs were studied extensively 4-8 whereas their interaction with bacterial biofilm in vivo and ex vivo is less characterized. One improvement in provisional restorative materials is the use of liquid polish. It is claimed that these materials gives a high luster finish to provisional bis-acryl restorations and processed acrylic appliances, reduces or eliminates costly and time consuming polishing steps and can be used on all types of direct and indirect restorations and appliances.The effect of liquid polish coating or resin bonding coating on biofilm formation on PRs was not reported.
This study will explore how bacteria colonize human teeth and how this process changes over the lifetime of individuals. It will include an investigation of transmission of bacteria that initiate colonization between adults and from adults to infants. Selected NIH scientists and members of their immediate families, including infants, are eligible for this study. Participants provide a small sample of saliva and a sample of bacteria collected by rubbing a cotton swab over the surfaces of the lower four incisors. Adults collect and submit their own specimens; a dentist collects specimens from children.
This study will examine the composition of dental plaque-a naturally occurring substance that sticks to the teeth and can cause tooth decay and gum disease. A better understanding of how plaque builds up in the mouth may help in developing improved ways of controlling it. Healthy normal volunteers between the ages of 18 and 65 who work at the National Institutes of Health main campus in Bethesda, Maryland, may participate in this study. Candidates will be screened for eligibility with a medical and dental history. This study involves a maximum of five visits to the dental clinic. At the first visit, participants will have a dental examination, and a mold will be made of the mouth. To make the mold, a small plastic tray containing impression material will be placed in the volunteer's mouth and held in place for about 2 minutes to set. The tray will then be removed and a mold will be made from the impression. The mold will be used to make the mouthpiece used in study 1, described below, and the tooth fittings used in study 2, also described below. Volunteers will participate in one of these two studies. Study 1. Volunteers in study 1 will have their mouthpiece checked at the second visit, have a teeth cleaning, and have the mold put in place. The mouthpiece will be worn for up to 8 hours, during which time soft foods can be eaten. Mouthwash should not be used while the device is in place. At the volunteer's third (last) visit, the mouthpiece will be removed and the volunteer will spit into a tube to collect saliva for examination for bacteria. Study 2. Volunteers in study 2 will have their teeth cleaned at the second visit and the tooth fittings placed onto the back teeth with a dental adhesive. The fittings will be worn for up to 72 hours, during which time volunteers can eat a regular diet and brush their teeth. Mouthwash should not be used while the fittings are in place. At the third, fourth and fifth visits, some of the fittings will be removed and, if necessary, the tooth surface will be polished. The last of the fittings will be removed at the fifth visit and the volunteer will spit into a tube to collect saliva for examination for bacteria.