TOPICAL FLUORDES
BY-MALIK ABDUL
FINAL YR
Member of the halogen family with relative
atomic weight 19 Atomic number – 9 Fluorine derived from Latin term ‘fluore’
meaning, “to flow” Occurs in combined form such as
Fluorspar[fluorite CaF2], Fluorapatite[Ca10F2(PO4)6], Cryolite[NaAlF6]
The element Fluorine
Dr. Fredrick McKay (Colorado Springs, Colorado, USA) –
1901 saw the stains on the teeth of his pts. The local inhabitants called it the ‘Colorado stain’.
He called the stain “mottled enamel”. First systemic endeavour to investigate the lesion was
made by the Colorado springs dental society in 1902 He approached one of the America’s foremost
authorities on dental enamel, Dr. Greene Vardiman Black. Black asked him to send the mottled teeth for
examination after that he agreed to attend the Colorado state dental association meeting in 1909, and promised to spend some weeks in Colorado springs before the meeting.
HISTORY
In 1931 U.S. govt appointed Dr. Trendly H
Dean to continue the work of Mckay. Dean conducted survey in 22 cities in USA.
Canned fish products – Salmon & Sardin – 20-
40mg/kg Fish protein concentrates – 370mg/kg Jowar, banana, potatoes Rock salt (40-200ppm) Dried tea leaves (100-400ppm)
Sources of fluoride
Increase enamel resistance (or) reduction in
enamel solubility Increased rate of posteruptive maturation Remineralization of incipient lesions Interference with plaque microorganisms Modification with tooth morphology
Mechanism of action of fluorides
Fluoride inhibits demineralization in several
ways, By reducing bacterial acid production By reducing the equilibrium solubility of
apatite By the fluoridation of apatite crystal surfaces
reducing the dissolution rate whether or not there is reduced solubilty of the bulk material
Increased enamel resistance/Reduction in enamel
solubility
Importance of fluoride in maturation process
lies in its ability to increase the rate of mineralization of hypomineralized areas
Posteruptive maturation involves deposition of minerals into hypomineralized areas
Increased rate posteruptive maturation
Fluoride plays critical role in the reducing of
dental caries by enhancing remineralization. Remineralization, the deposition of minerals
into previously damaged areas of the tooth is a process that results in enamel solubility
Remineralization of incipient lesions
Fluoride has been known to inhibit bacterial
enzymatic processes involved in carbohydrate metabolism
In high conc., fluoride is bactericidal. Helps reduce plaque
In lower conc., fluoride is bacteriostatic. Helps control the growth of bacteria without destroying them.
Interferance with microorganisms
If fluoride is ingested during the tooth
development, there is some evidence to suggest the fromation of a more caries resistant tooth slightly smaller with shallow fissures.
Modification in tooth morphology
FLUORIDE DELIVERY METHODSFluoride can be delivered as…
(A) Topical Fluorides
(B) Systemic Fluorides
TOPICAL FLUORIDES SYSTEMIC FLUORIDES These are placed
directly on the teeth
Some preparations
provide high or low concentrations of fluoride over a short period of time
These circulate through the blood stream and are incorporated into developing teeth
They provide a low concentration of fluoride over a long period of time
TOPICAL FLUORIDES
By the definition the term “topically applied fluorides” is used to describe those delivery systems which provide fluoride for a local chemical reaction to exposed surfaces of the erupted dentition.
INDICATIONS Caries active individuals Children shortly after period of tooth eruption Those who take medication that decrease
salivary flow or have received radiation to head and neck
After periodontal surgery when roots of teeth have been exposed
Patients with fixed or removable prosthesis and after placement or replacement of restorations
Patients with an eating disorder or who are undergoing a change in lifestyle which may affect eating or oral hygiene habits conductive to good oral health
Mentally and physically challenged individuals
TOPICAL FLUORIDE PRODUCTS ARE DIVIDED INTO 2 CATEGORIES(A) Professionally applied Introduced by Bibby in 1942 Dispensed by dental professionals in the dental
office and usually involve the use of high fluoride concentration products ranging from 5000-19000 ppm which is equivalent to 5-9 mg F/ml
(B) Self applied Include fluoride dentifrices, mouth rinses & gels Are low fluoride concentration products ranging
from 200-1000ppm or 0.2-1 mgF/ml.
RATIONALE FOR USING TOPICAL FLUORIDE AGENTS
To speed up the rate and increase the concentration of fluoride acquisition above the level which occurs naturally
The initial caries lesion characterized by a white spot is porous and accumulates fluoride at a much higher concentration than adjacent sound enamel hence periodic application of fluoride would enable vulnerable enamel sites that are partially demineralized to accumulate fluoride
PROFESSIONALLY APPLIED FLUORIDES
FLUORIDE VEHICLES AQUEOUS SOLUTIONS AND GELS Gel adheres to the tooth surface for a considerable
amount of time and eliminates the continuous wetting of enamel surfaces when solutions are used
2 or 4 quadrants can be treated simultaneously when trays are used for gel application which results in substantial saving of time
Thyxotrophic solutions are not gels but have high viscosity under storage conditions and become fluid under high stress
Thyxotrophic solutions are more stable at lower pH and do not run off the tray as readily as conventional gels
GELS
FLUORIDATED PROPHYLACTIC PASTES If prophylaxis pastes
containing fluoride are used, the lost fluoride is replenished & there is a significant gain in the concentration of fluoride.
FOAM Developed to minimize the risk of fluoride over
dosage as well as to maintain the efficacy of topical fluoride treatment.
ADVANTAGES: Its lighter than a conventional gel & therefore
only a small amount of agent is needed for topical application
The surfactant has cleansing action by lowering surface tension, this facilitates the penetration of material into interproximal surfaces.
It doesn’t require suctioning so it offers advantages for home use
FOAM
FLUORIDE VARNISH It was first developed by Schimdt in Europe in
1964 Increasing the time of contact between enamel
surface & topical fluoride agents favors the deposition of fluorapatite & fluorhydroxyapatite.
Technique: After prophylaxis teeth are dried but not isolated
with cotton rolls since varnish sticks to cotton Total of 0.3-0.5 ml of varnish is required to cover
full dentition Application is done first done on lower arch then
upper, using single tufted small brush, starting with proximal surfaces
Patient is asked to sit with mouth open for 4 min to let Duraphat set on teeth
FLUORIDE VARNISH
Patient is asked to not rinse or drink anything for one hour and advised liquid diet till next morning
DURAPHAT: It is a first fluoride varnish developed in germany,
viscous yellow material, containing 22,600 ppm fluoride as sodium fluoride in a neutral colophonium base.
FLUORPROTECTOR: It is a clear polyurethane based product containing
7000 ppm fluoride from difluorosilane. It is dispensed in 1ml ampoules each ampoule
containing 6.21mg of fluoride.
CAREX: It has low fluoride concentration than duraphat &
has equal efficacy to that of duraphat as caries preventive agent
TOPICAL FLUORIDES USED IN PREVENTIVE DENTISTRY:
SODIUM FLUORIDE STANNOUS FLUORIDE ACIDULATED PHOSPHATE FLUORIDE AMINE FLUORIDE
1) NEUTRAL SODIUM FLUORIDE (NaF) Fluoride concentration - 9200ppm A minimum of four applications with a 2% NaF
solution gives a caries reduction of about 30%
METHOD OF PREPARATION It is prepared by dissolving 20 gms of NaF
powder in 1L of distilled water in a plastic bottle
TECHNIQUE - KNUTSON’S TECHNIQUE
At the initial appointment teeth are cleaned with pumice slurry & then isolated with cotton rolls & dried with compressed air.
Using cotton-tipped applicator sticks ,the 2% NaF is painted on air dried teeth so that all tooth surfaces are visibly wet. The solution is allowed to dry for 3-4 min.
This procedure is repeated for each of the isolated segments until all the teeth are treated.
A 2nd, 3rd and 4th fluoride application, each not preceded by a prophylaxis, is scheduled at intervals of approximately one week;
The four-visit procedure is recommended for ages 3, 7, 11 and 13 years, coinciding with the eruption of different groups of primary and permanent teeth.
MECHANISM OF ACTION :
When NaF is applied on tooth surface it reacts with hydroxyapatite crystals in enamel to form Calcium fluoride (CaF2) which is the dominant product of the reaction
As thick layer of CaF2 forms, it interferes with further diffusion of fluoride from the topical fluoride solution to react with hydroxyapatite and blocks further entry of fluoride ions. This sudden stop of the entry of fluoride is termed as ‘chocking off effect’
CaF2 acts as a reservoir and fluoride slowly leeches out of it
The CaF2 formed reacts with hydroxyapatite fluoridated hydroxyapatite increases the concentration of fluoride on enamel surface prevents caries
ADVANTAGES :
It is relatively stable when kept in a plastic container; The taste is well accepted by patients; The solution is non-irritating to the gingiva; It does not cause discoloration of tooth structure; The series of treatments must be repeated only 4
times in the general age range of 3 to 13, rather than at annual or semiannual intervals.
DISADVANTAGES:
The major disadvantage of the use of sodium fluoride is that the patient must make 4 visits to the dentist within a relatively short period of time.
2) STANNOUS FLUORIDE (SnF2) Fluoride concentration-19500ppm Stannous fluoride has been used at 8% and 10%
concentrations
METHOD OF PREPARATION: Solutions of stannous fluoride are not stable. Soon after
mixing they become cloudy due to the formation of tin hydroxide.
A fresh solution of stannous fluoride be prepared for each patient.
To prepare 8% stannous fluoride solution, the content of one capsule which is 0.8 grams (‘0’ No. of gelation capsule) is dissolved in 10 ml of distilled water in a plastic container.
TECHNIQUE - MUHLER’S TECHNIQUE
Each tooth surface is cleaned with pumice or other dental cleaning agent for 5 to 10 seconds;
Unwaxed dental floss is passed between the interproximal areas;
Teeth are isolated and dried with air; Stannous fluoride is applied using the paint-on
technique and the solution is kept for 4 minutes. Repeat applications are made every 6 months or more frequently if the patient is susceptible to caries.
MECHANISM OF ACTION:
When SnF2 is applied in low concentration tinhydroxyapatite, which gets dissolved in oral tissues
At very high concentration Ca trifluorostannate forms along with tin tri-fluorophosphate
Tin trifluorophosphate is responsible for making the tooth structure more stable and less susceptible to decay
CaF2 is the end product both at low and high concentration which reacts with hydroxyapatite and a small fraction of fluorhydroxyapatite also gets formed
ADVANTAGES :
Using an 8% stannous fluoride solution at 6 to 12 months intervals conforms to the practicing dentist’s usual patient – recall system;
Administrative difficulties are avoided.
DISADVANTAGES :
In aqueous solution the material is not stable; 8% solution is quite astringent and disagreeable in
taste, its application is unpleasant; The solution occasionally causes a reversible tissue
irritation manifested by gingival blanching; Causes pigmentation of teeth which has a characteristic
light brown colour
3) ACIDULATED PHOSPHATE FLUORIDE (APF)
Fluoride concentration-12300 ppm
METHOD OF PREPARATION
An aqueous solution is acidulated phosphate fluoride is prepared by dissolving 20 grams of sodium fluoride in 1 liter of 0.1 M phosphoric acid and to this is added 50% hydrofluoric acid to adjust the pH at 3.0 and fluoride ion concentration at 1.23%. It is also called as Brudevold’s solution
For the preparation of acidulated phosphate fluoride gel, a gelling agent methylcellulose or hydroxyethyl cellulose is added to the solution.
TECHNIQUE
APF is recommended for application at 6 or 12 months interval
Oral prophylaxis is done Teeth to be treated are completely isolated and
thoroughly dried with air Application of gel is done using trays;
disposable foam lined trays are preferred It is reapplied every 15-30sec so as to keep the
teeth moist with the fluoride solution throughout the four min period
The patient is instructed to eat, drink or rinse his mouth for atleast 30 min
FLUORIDE TRAYS
MECHANISM OF ACTION
When APF is applied to teeth it initially leads to dehydration and shrinkage in the vol of hydroxyapatite crystals which on hydrolysis forms an intermediate product called Dicalcium phosphate dihydrate(DCPD)
DCPD is highly reactive and starts forming immediately after APF is applied
Fluoride penetrates into the crystals more deeply through the openings produced by shrinkage and forms fluorapatite
For the conversion of whole DCPD formed into fluorapatite, a deeper penetration and continuous supply of fluoride is required. Because of this reason APF is applied every 30 sec and the teeth have to be kept wet for 4 min
ADVANTAGES
Requires only 2 application in a year; The gel preparation can be self applied and
thus the cost of application also gets reduced; It has the ability to deposit fluoride in enamel to
a deeper depth;
DISADVANTAGES :
Practical difficulties like the teeth should be kept wet for for 4 minutes;
It is acidic, sour and bitter in taste; It cannot be stored in glass containers.
4) AMINE FLUORIDE
They are cariostatic agents Some of them are surface active agents i.e. they
have an affinity for enamel and thus will hold the fluoride for a longer time against the tooth
They also have anti bacterial properties. Reduced plaque formation and anti glycolytic activity is also reported with these compounds
Amine fluorides have been tested in dentifrices, mouthrinses and topical gels where they are either brushed on teeth or applied with a tray but it is not known if they are superior to the other currently available fluoride agents
Characteristics Sodium fluoride
Stannous fluoride
Apf
Percentage 2% 8% 1.23%
Fluoride concentration (ppm)
9200 19500 12300
ph neutral 2.4-2.8 3.0
Frequency of application
4 at weekly intervals 3,7,11 & 13 yrs
biannually biannually
Adverse effects
no Tooth pigmentationGingival irritation
no
Caries reduction
30% 32% 28%
RECOMMENDATIONS FOR TOPICAL APPLICATION
No more than 2 g of gel per tray or approximately 40% of tray capacity.
Pt. may have the need to swallow during the 4min procedure, saliva ejector is recommended.
After the procedure the pt. be instructed to expectorate thorougly for from 30sec to 1min.
SELF APPLIED TOPICAL FLUORIDES
Dentifrices Mouth rinses Gels
DENTIFRICES The first clinical trial of fluoride dentifrice was
initiated by Bibby in 1942 The various compounds used in dentifrice are
sodium fluoride, stannous fluoride, monofluorophosphate and amine fluoride
A 200g tube of Colgate contains 1000ppm of fluoride with the fluoride compound as Monofluorophosphate
A single brushing with a full ribbon of paste on a brush head provides about one gram of toothpaste and will expose the individual to approximately 1mgF
For young children non fluoridated and non abrasive toothpaste is recommended till the child is 4 years of age
After 6 years of age fluoridated toothpaste should be used
The amount should be pea sized and the paste should be pressed into the bristles and not on top of the brush
MOUTHRINSES
Fluoride mouthrinsing is one of the most widely used caries preventive public health methods
Caries preventive agents used are Neutral sodium fluoride, Acidulated phosphate fluoride and Stannous fluoride
Sodium fluoride mouthrinses
Formulated at concentrations of 0.2%(900 ppm F) for weekly use0.05%(225 ppm F) for daily use These are used by forcefully swishing 10ml of the liquid
around the mouth for 60 sec before expectorating it
Recommendations for fluoride mouthrinses
Rinse and expectorate technique used for patients in fluoride deficient communities
In patients with increased caries risk e.g. those undergoing orthodontic treatment or radiotherapy
FLUORIDE GELS
Fluoride gel products include neutral sodium fluoride and acidulated phosphate fluoride with a fluoride concentration of 5000 ppm and stannous fluoride with a concentration of 1000 ppm
The gels are either applied in trays or brushed on teeth
Professionally applied – given twice a year
Self applied – once a day or more Home fluoride gels are not
recommended for children below 6 yrs and younger
Limitations of fluoride gels
They violate the principle of delivering low concentration of fluoride at regular intervals
Toxicity hazard Tedious to use on daily basis
Conclusion Fluoridation is universally accepted by the
dentists and other medical professionals as being useful in preventing tooth decay
They can be used in areas where there are no central water supplies, where the fluoride conc. of well water is low
Topically applied fluoride has more effect compared to systemic fluorides
Topical fluorides are more economical. But cannot be done on a large basis