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![Page 1: Plaque control for the prevention of oral diseases 2nd Year First Semester D Caroline Piske de A. Mohamed.](https://reader030.fdocuments.in/reader030/viewer/2022033018/56649e535503460f94b48a83/html5/thumbnails/1.jpg)
Plaque control for the prevention of oral diseases
2nd Year First Semester D Caroline Piske de A. Mohamed
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D Caroline Mohamed 2
Objectives• At the end of this topic you should be able to
define and describe:
Chemical plaque control by:
Self care
Professional chemical plaque
control
Delivery vehicles (mouthrinses, gels, toothpastes, chewing gum and lozenges, irrigants, varnishes and slow-release devices).
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CHEMICAL PLAQUE CONTROL
• Chemical plaque control can be achieved through self-care or professionally.
• The most efficient plaque control programs are those combining mechanical and chemical methods: – self-care, – supplemented by needs-related Patient
Mechanical Plaque Control ( PMPC) and– Professional Chemical Plaque Control (PCPC).
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For example, in mechanical plaque control through selfcare, the toothpaste used usually contains not only an
• abrasive agent but also • antiplaque or antimicrobial agents, such as:
– sodium lauryl sulphate, – stannous fluoride, – triclosan plus zinc citrate, – triclosan plus copolymers, – triclosan plus pyrophosphate, or – chlorhexidine digluconale (CHX).
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Antiplaque and/or antimicrobial preparations (excluding antibiotics) suitable for self-care are available in a variety of vehicles, including
• toothpastes,
• mouthrinses,
• Irrigants,
• gels, and
• chewing gums.
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• For PCPC, several types of antiplaque and/or antimicrobial preparations are available, including:
• pocket irrigants,
Minocycline Microspheres
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• gels,
• slow-release agents (varnishes),
and
• controlled slow-release agents
(Perio-chip).
Fluoride varnish
Cervitec chlorhexidine gel
Cervitec varnish
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• Chemical plaque control should always be regarded as a needs-related supplement to, and not a substitute for, mechanical plaque control.
• The choice of agent and frequency of use for self-care and professional care should be related to the individual patient’s predicted risk for oral disease.
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Self-care
1. Agents are applied with high frequency (1-3/day), regularly or intermittently.
2.Accessibility and efficacy are good supragingivally, but very limited subgingivally and interproximaly in the molar and premolar regions, particularly for mouthrinsing.
3.The method is compliance dependent and relatively costly for regular daily use, unless the agent is incorporated in toothpaste.
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Professional chemical plaque control
l. The frequency should be needs related, and PCPC generally is more frequent during the initial intensive period to:
• arrest enamel (incipient) caries, • convert active root caries to inactive, and • heal inflamed periodontal tissue as soon as possible
And thereby reduce the Plaque Formation Rate Index (PFRI)
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2.Accessibility is high because the agent is professionally applied.
3.The duration of effect can be extended by using slow-release agents, such as CHX-thymol varnish (Cervitec) and gels, and controlled slow-release agents, such as Perio-chip (CHX).
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D Caroline Mohamed 12
Chemical Plaque controlSelf Care
Although, mechanical removal of plaque biofilm remains the most widely accepted mechanism for plaque control, the bacterial etiology of periodontal disease justifies
supportive use of antimicrobial agents.
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D Caroline Mohamed 13
How to achieve chemical control of plaque deposition?
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Goals of chemical plaque control
Chemical plaque control may be used for a variety of purposes:
1. To prevent plaque formation. 2. To reduce the plaque formation rate (PFRI). 3. To control plaque formation. 4. To reduce, disrupt, or remove existing plaque. 5. To alter the composition of the plaque flora.
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6. To exert bactericidal or bacteriostatic effects on micro flora implicated in caries and periodontal diseases.
7. To alter the surface energy of the tooth and thereby reduce plaque adherence.
8. To inhibit the release of virulence factors from plaque bacteria.
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• Although many antimicrobial agents would appear to be suitable for plaque control, few have demonstrated clinical efficacy, because of
– inherent problems in the mode of action of agents in the mouth and
– difficulties in incorporation in dental products.
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• The effect of the agent is concentration dependent. Initially the inhibitor may briefly attain concentration levels, but subsequent desorption will reduce the concentrations.
• At sublethal levels, agents can effectively inhibit bacterial metabolism (eg, acid production and protease activity) and reduce the rate of bacterial growth.
• To increase antibacterial effectiveness, agents with complementary modes of action are being combined.
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• Long-term use of dental products containing antimicrobial agents must not:
(1) disrupt the natural balance of the oral microflora,
(2) lead to colonization by exogenous organisms, or
(3) lead to the development of microbial resistance.
Several products that satisfy these criteria are now available and are clinically effective in helping to control plaque and gingivitis.
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Factors influencing the effects and bioavailability of chemical plaque control agents
• Substantivity, • Concentration, • Penetrability, • Selectivity, and • Delivery system.
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D Caroline Mohamed 20
Substantivity
is defined as the ability of an agent to bind to tissue surfaces and be released over time, delivering an adequate dose of the active principle ingredient in the agent
Thus the agent delivers sustained activity necessary to confront bacteria attempting to colonize the tooth surfaces.
The effect of a chemical plaque control agent is generally closely correlated with its concentration.
.
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Penetrability refers to the efficiency of an agent in penetrating deeply into the formed plaque matrix.
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The concept of selectivity implies that the agent has the ability to affect specific bacteria in a mixed population.
Different delivery systems will influence the solubility, accessibility, and stability of the agent.
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Solubility Classically, an antiplaque agent must be solubilized in
its delivery vehicle to allow rapid release into the oral environment, particularly when the application time is limited.
The digluconate salt of chlorhexidine, for instance, was selected for the development of CHX mouthrinses on the basis of its high aqueous solubility.
Triclosan, which has poor aqueous solubility, is solubilized in the flavor-surfactant phase of a dentifrice, facilitating its release and retention during application.
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• An alternative means of delivery is to deposit antiplaque agent in the form of sparingly solution particles within the oral cavity so that they deliver low doses of the agent over a long period.
• This principle has been used for slow-release devices, such as the antibiotic fibers used in the treatment of certain refractory cases of periodontitis.
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Accessibility is critical for the effect of chemical plaque control agents and varies greatly for different delivery systems.
• For efficacy, the agent has to reach the site of action and be maintained at the site long enough to have a sustained effect.
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Stability
• Chemical breakdown or modification of an antiplaque agent may occur during storage, particularly at elevated temperatures.
• This may be due to the intrinsic instability of the agent in the presence of other ingredients, such as water, abrasives, or surfactants.
• Modification of an agent may also occur in the oral cavity, because of the metabolic breakdown by salivary or bacterial enzymes. In either case activation of the agent and loss of clinical efficacy ensue.
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Antiplaque effects Plaque formation may be prevented by chemical agents
by one or more of the following principles;
(1) inhibition of bacterial colonization,
(2) inhibition of bacterial growth and metabolism,
(3) disruption of mature plaque and
(4) modification of plaque biochemistry and ecology.
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• Most chemical plaque control agents used today are broad-spectrum antimicrobials that exert direct bactericidal or bacteriostatic effects.
• They bind to the bacterial membrane and interfere with
normal membrane functions, such as transport.
• This disturbs bacterial metabolism and may kill the bacteria.
• Adsorption to the bacterial membranes may also lead to alterations in permeability, resulting in leakage of intracellular components, along with protein denaturation and coagulation of cytoplasm contents.
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Vehicles for delivery of chemical agents
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Delivery vehicles
• Chemical plaque control agents may be delivered to the oral cavity by various vehicles.
• The vehicle of choice depends, first:
– on compatibility between the active agent and the constituents of the vehicle.
– For example, the early fluoride toothpastes were ineffective because of the incompatibility of fluoride with the abrasive system.
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• Second:– the vehicle should provide optimal bioavailability
of the agent at its site or action. • Third:
– patient compliance is of major importance. – Patient compliance is probably reduced with
increasing frequency of dose, length, and complexity of the treatment.
Therefore, chemical plaque control is most likely
to succeed if the delivery vehicle does not
require the establishment of new habits or if the
treatment is independent of patient compliance.
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Vehicles for delivery of chemical agents
Toothpaste- ideal vehicle- common usageMouthrinses-Spray- useful for PC in physically and mentally
groups Irrigators-adding antisepticsChewing gum- sugar free gums + toothbrushing Varnishes-chlorhexidine varnish prevention of
root caries.
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Mouthrinses • Mouthrinses are the simplest vehicles for antiplaque
agents, the most common being a water alcohol mixture to which flavor, non ionic surfactant, and humectant are added to improve cosmetic properties.
• Most “antiplaque agent" are with this vehicle, although, notably, stannous fluoride has a short shelf life in a mouth rinse because of loss of stannous ions by precipitation.
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Gels Dental gels have been used mainly as delivery vehicles for
chlorhexidine and stannous fluoride and APF.
The most common gel is a simple thickened aqueous system containing humectant but neither abrasive nor foaming agents.
As such, it is compatible with most antiplaque agents. Gels are usually applied in standard or custom-made trays to provide close contact with the agent and its site of action.
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Toothpastes• A typical toothpaste contains an abrasive and a surfactant,
which, together, are intended to remove loosely bound material, including plaque, pellicle and stains.
• In addition, flavor is added for mouth freshness and therapeutic agents, particularly fluoride, are added for anticaries efficacy.
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Chewing gums and lozenges
• The release of various chemical plaque control agents from chewing gums and lozenges has been evaluated.
• As with sustained-release devices and varnishes, the effect, will depend on release of the agent from the gum during chewing or from the lozenges as they dissolve.
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• The contact time will increase, but increased salivation will inevitably increase the clearance rate of the agent from the oral cavity.
• Such vehicles may represent effective and acceptable routes, particularly in patients with low toothbrushing compliance.
• For individuals with reduced salivation, stimulation of saliva secretion by chewing may relieve discomfort.
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Irrigants Vehicles for chemical plaque control
agents for supragingival and subgingival irrigation are of a composition similar to that of mouthrinses.
• Special devices for high-pressure
irrigation through cannulae are available.
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Varnishes and controlled slow-release devices
Devices and varnishes for sustained release and controlled slow release of chemical plaque control agents such as CHX may provide long-term contact between the agent and its site of action.
The effect will depend on the degree and rate of release of the agent from the vehicle.
CHX and CHX-thymol varnishes have been introduced and are very effective in reducing plaque formation as well as mutans streptococci.
A device for controlled slow release of CHX (Perio-chip) in diseased periodontal pockets is available.
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D Caroline Mohamed 40
Groups of agents used in the control of dental plaque
1. Antibiotics
2. Enzymes
3. Bisguanides
4. Quarternary ammonium compounds
5. Phenols and essentials oils
6. Natural products
7. Metal salts
8. Amine alcohols
9. Oxygenating agents
10.Fluorides ( next lecture )
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D Caroline Mohamed 41
Chemical Plaque Control• 1. Antibiotics• Action- Antimicrobial• There is evidence of caries and gingivitis prevention.• Antibiotics can develop bacterial resistance and
hypersensitivity reactions.
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D Caroline Mohamed 42
1. Antimicrobial Agents:• Penicillin• Vancomycin• Kanamycin• Niddamycin• Spiromycin
They SHOULD NOT be used topically or
systemically as PREVENTIVE agents against these diseases.
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2.Enzymes Action- Plaque removal. Two Groups:
1. Not truly Antimicrobial agents
They have the potential to disrupt the early plaque
matrix, thereby dislodging bacteria from the tooth surface.
Dextranase, mutanase and various protease.
2. Antimicrobial agents
Glucose Oxidase and amyloglucoxidase .
They have inhibitory effect upon bacteria( antimicrobial), particularly streptococci, to interfere with their metabolism.
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Enzymes• Protease• Lipase• Nuclease• Dextranase• Mutase• Glucose Oxidase
They have poor substantivity and have local side effects such as mucosal erosion.
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D Caroline Mohamed 45
3.Bisquanides
• Action: Antimicrobial• Chlorhexidine• Alexidine• Octenidinebyspiridine
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Chlorhexidine Digluconate
Most positive antibacterial results Pronounced antiseptic properties Reduce plaque by 55% and gingivitis by 45%
It´s > effective in preventing plaque accumulation on a clean tooth surface than in reducing
preexisting plaque deposits.
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D Caroline Mohamed 47
How does it work?
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Mode of Action Inhibit the development of plaque, calculus and
gingivitis. It is a cationic compound that binds to the
hydroxiapatite and glycoprotein to prevent pellicle formation. The antiseptic binds strongly to bacterial cell membranes.
At low concentration this results in increased permeability with leakage of intracellular components including potassium.
At high concentrations, it causes precipitation of bacterial cytoplasm and cell death. It also absorbs to the bacterial surface and may interfere with cell attachment.
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CHX• Interacts with both gram-positive and gram-negative
bacteria and, by virtue of their antimicrobial properties, reduce the number of viable bacteria on the tooth surfaces or reduce the pathogenicity of established dental plaque.
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• CHX is by far the most efficient and frequently used agent, followed by heavy metal salt compounds, such as stannous fluoride and zinc citrate.
• Chx is used in all kinds of delivery systems for 2 to 3 weeks (mouthrinses, gels, toothpastes, irrigants, varnishes, and controlled slow-release agents).
• A disadvantage is brown staining of the teeth and the tongue after some weeks’ use particularly from mouthrinses.
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D Caroline Mohamed 52
Substantivity of chlorhexidine
• The ability of drugs to adsorb onto and bind to soft and hard tissues is known as substantivity.
• It is influenced by the concentration and pH of the medication, temperature and length of time of contact of the solution and the oral structures.
• This property of chx ia associate with its ability to mantain effective concentrations for a prolonged period of time.
• Chx mantains available in an active form for 8 to 12 h in the mouth.
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Use of CHX mouthrinse is not recommended immediately after use of toothpastes containing anions such as sodium laulyl sulfate and
monofluorophosphate. Sodium lauryl sulfate is the most frequently used anionic
chemical plaque control agent and is the most frequently used detergent in toothpastes and also used in mouth rinses.
Cationic agents are inactivated by anionic agents.
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4. Quartenary Ammonium Compounds• Action: Antimicrobial
• Cetylpyridinium chloride• Benzalconium chloride• Benzathonium chloride
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Cetylpyridinium chloride• It is used in a variety of antiseptics
mouthrinse either alone or in combination at a concentration of 0.05%.
• At oral pH these antiseptics are monocationic and adsorb readly and quantitatively to a greater extent, than chlorhexidine to oral surfaces.
• But the substantivity cetylpyridium chloride appears to be only 3 to 5 hours.
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5. Phenols and essential oils• Action: Antimicrobial• Listerine• Hexylresorcinol• Eucalyptol• Thymol• Triclosan
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• Listerine • Listerine mouthrinse has been used for more than
100 years by millions of consumers, particularly in the United States.
• Its effect on plaque and gingivitis, although well documented, is less potent than that of CHX (Axelsson and Lindhe, 1987).
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Triclosan• Listerine and triclosan have an antiflammatory
effect.• It is used into toothpaste and mouth rinses.• Used in a relatevely high concentration ( 0.2%) and dose
Triclosan has moderate plaque inhibitory action.• Activity enhaced by the addiction of zinc citrate or
polyvinylmethyl ether amaleic acid. ( synergistic action)
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• Triclosan, currently incorporated in commercial toothpastes and mouthrinses is now the most important chemical plaque control agent in oral hygiene products for self-care.
• Triclosan and copolymer dentifrices reduce plaque by 12 to 59% and gingivitis by 20 to 30%. However, its effect on plaque and gingivitis is less potent than that provided by CHX.
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• The substantivity of triclosan is limited. To increase the substantivity, it has to be combined with other compounds.
• The most successful combinations to date are with copolymer (Colgate) and with zinc citrate (Pepsodent).
• Both combinations are used in fluoride toothpastes. The former is also used in fluoride mouthrinses.
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6. Natural Products Sanguinarine • Action. Antimicrobial.• Interfere with bacterial glycolisis
and bind to plaque to prevent adherence of microorganisms.
• It is less active than Clhorhexidine.• Increase the likelihood of oral
precancerous lesions almost 10 folds after cessation of mouthrinse use.
Mascarenhas A.Ana Karina MascarenhasJournal of Public Health DentistryMascarenhas, A. K., Allen, C. M. and Moeschberger, M. L. (2002),
Bloodroot (Sanguinaria canadensis)
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7. Metal Salts• Action- Antimicrobial• Zinc• Cooper• Tin• Plaque inhibitory effect when combined with other
antiseptics as triclosan or sanguinarine. Alone needs high concentrations when taste and toxicity problems may occur.
• Cooper isn´t used in oral hygiene products ( stainning)
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8. Amine Alcohol• Action. Plaque matrix inhibition/ reduces gingivitis
Octapinol ( toxic)
Delmopinol 0.1 , 0.2%• Mechanism of action
Inhibition in formation or disruption of the matrix of early plaque forming bacteria. Interferes with biofilm formation, making the plaque deposit loosely adherent, so it is easier to remove5,7
• Side effects
Tooth discoloration, transient numbness of the
mucosa ( tongue) and burning sensation of the
mouth.
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9. Oxygenating Agents
• Hydrogen Peroxide and buffered sodium peroxyborate have a beneficial effect on acute ulcerative gingivitis.
• No beneficial effects on reduction in bacterial plaque and gingivitis.
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Mechanism of action
• It has the ability to alter membrane permeability. Hydrogen peroxide breaks down to form oxygen and hydrogen.
• When applied to tissue, protective enzyme such as peroxidase and catalase act on the material, causing rapid decomposition with resulting effervescence.
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Side effects
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• 3% hydrogen peroxide increases the degree of the injury to damage tissue, thus delaying wound healing.
• Carcinogenisis, tissue damage, hyperkeratosis, oral ulceration and hyperplasia.
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Combination agents• As mentioned earlier, plaque is a complex aggregation of
various bacterial species. It is therefore unlikely that one single agent can be effective against the complete flora.
• Combining two or more agents with complementary inhibiting modes of action may enhance the efficacy and reduce adverse effects of chemical plaque control agents, offering promising prospects for new and more effective chemical plaque control agents.
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• Examples of improvement by combinations of agents are:– heavy metal ions (Zn++) plus CHX or
sodium lauryl sulfate; – triclosan plus copolymer or zinc citrate;
and – stannous fluoride plus amine fluoride.
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Professional chemical plaque control
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• Clorhexidine varnish• Clorhexidine chips• Anti microbial injections / irrigation on the
gingival sulcus or pocket• Tetracycline fibers• Acrylic strips• Hollow• Films• Fluoride Gel application• Fluoride varnish
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Slow-release devices
• Subtypes:
1. “Sustained release devices”, delivering the drug for less than 24 h/ Varnish
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Chlorhexidine varnish• Eficacy related to its concentration and
frequency of use.• Effective. Improve plaque accumulation and
bleeding levels and reduce gingival index.
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Topical varnish containing strontium in a sustained-release device as treatment for
dentin hypersensitivity.
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2. “Controlled delivery devices” (CDDs), releasing the agent over an extended period
of time.
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Tetracyclines• Tetracyclines have been
incorporated into a variety of delivery systems for insertion into periodontal pockets. These include:
Hollow fibers Ethylene vinyl acetate
copolymer fibers Ethyl cellulose fibers Acrylic strips Collagen preparations
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Minocycline hydrochloride
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It should be considered in the adjunctive management of periodontal and peri-implant disease.
Xylitol delivered via the use of an adhering and time-release disk
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Fluoride sustained slow-releasing device
• This device is very helpful in reducing dental decay where compliance is impaired such as in patients with special needs.
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Activity
• Do a research about bacterial resistance.• You should buy and use 3 different types of
mouthwashes and bring to the next class a report comparing the advantages and disadvantages of the different characteristics of each mouth wash regarding taste, smell, appearance, ease of use, feeling of freshness after use, effectiveness, prices and general satisfaction with it.
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Highly recommended
• ADA Guidelines for Infection Control Second Edition in: http://www.ada.org.au/app_cmslib/media/lib/1203/m356702_v1_infection%20control%20guidelines%202012.pdf
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References• Mascarenhas, A. K., Allen, C. M. and Moeschberger, M. L. (2002), The Association Between Viadent® Use and Oral Leukoplakia—Results of a Matched Case-control
Study. Journal of Public Health Dentistry, 62: 158–162. 62: 158–162. doi: 10.1111/j.1752-7325.2002.tb03437.x• . Lang et al. Plaque formation and gingivitis after supervised mouthrinsing with 0.2% delmopinol hydrochloride, 0.2% chlorhexidine digluconate and placebo for 6
months. Oral Diseases 1998;4:105-113. 2. Addy et al. Meta-analyses of studies of 0.2% delmopinol mouth rinse as an adjunct to gingival health and plaque control measures. J Clin Periodontol 2007;34:58-65. 3. Hase et al. 6-month use of 0.2% delmopinol hydrochloride in comparison with 0.2% chlorhexidine digluconate and placebo. (I) Effect on plaque formation and gingivitis. J Clin Periodontol 1998;25:746-753.
• 4. Claydon et al. A 6-month home usage trial of 0.1% and 0.2% delmopinol mouthwashes. (I) Effects on plaque, gingivitis, supragingival calculus and tooth staining. J Clin Periodontol 1996;23:220-228. 5. Rundegren et al. Effect of delmopinol on the viscosity of extracellular glucans produced by Streptococcus mutans. Caries Res 1992;26:281-285. 6. Steinberg et al. The effect of delmopinol on glucosyltransferase adsorbed on to saliva-coated hydroxyapatite. Archs Oral Biol 1992 (37);1:33-38. 7. Klinge et al. Effect of local application of delmopinol hydrochloride on developing and early established supragingival plaque in humans. J Clin Periodontol 1996;23:543-547. 8. Rundegren et al. Delmopinol interactions with cell walls of gram-negative and gram-positive oral bacteria. Oral Microbiol Immunol 1995;10:102-109. 9. Data on file. *Study for safety and efficacy available for up to one year. 10. Plaque Index 2-3 on a scale from 0, for no plaque, to 3, for abundance of soft matter within gingival pocket and tooth surface. 11. Krasse et al. Decreased gum bleeding and reduced gingivitis by probiotic Lactobacillus reuteri. Swed Dent J 2006; 30: 55-60. 12. Data on file. Note 28 day results from uncontrolled extension of the 14-day clinical study as referenced in footnote 2.
• ©2012 Sunstar Americas, Inc.• . Drisko CL, Cobb CM, Killoy WJ, Michalowicz BS, Pihlstrom BL, Lowenguth RA et• al. Evaluation of periodontal treatment using controlled release tetracycline• fibers: clinical response. J Periodontol. 1995; 66: 692-9.• 2. Slots J, Rams TE. Antibiotics in periodontal therapy: Advantages and• disadvantages. J Clin Periodontol. 1990; 17: 479-95• 3. Cetin EO, Buduneli N, Atlihan E, Kirilmaz L. In vitro studies on controlled-release• cellulose acetate films for local delivery of chlorhexidine, indomethacin, and• meloxicam. J Clin Periodontol. 2004; 31: 1117-21.• 4. Kaner D, Bernimoulin J-P, Hopfenmuller W, Kleber B-M, Friedmann A.• Controlled-delivery chlorhexidine chip versus amoxicillin/ metronidazole as• adjunctive antimicrobial therapy for generalized aggressive periodontitis: a• randomized controlled clinical trial. J Clin Periodontol. 2007; 34: 880-91.• 5. Addy M, Rawle L, Handley R, Newman HN, Coventry JF. The development and• in-vitro evaluation of acrylic strips and dialysis tubing for local drug delivery.• J Periodontol. 1982; 53: 693-9.• 6. Goodson JM. Pharmacokinetic principles controlling efficacy of oral therapy. J• Dent Res.. 1989; 68: 1625-32.