1P.G student Department of Pedodontics, JSS Dental College & Hospital, JSS University, Mysuru, India
2Professor and H.O.D Department of Pedodontics, JSS Dental College & Hospital, JSS University, Mysuru, India
3Reader, Department of Pedodontics, JSS Dental College & Hospital, JSS University, Mysuru, India
Received Date: October 15, 2015; Accepted Date: November 18, 2015; Published Date: November 26, 2015
Citation: Soham B, Srilatha KT, Seema D (2015) Effects of Fluoridated Toothpaste and Mouth rinse on Salivary pH in Children- An In Vivo Study. J Oral Hyg Health 3:192. doi: 10.4172/2332-0702.1000192
Copyright: © 2015 Soham B, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Background, aims and objective
The protective function of saliva against dental caries achieved through its physico-chemical properties. The purpose of this comparative study was to estimate and to compare the pH of saliva before and after brushing and mouthrinsing with fluoridated toothpaste and Mouthwash.
Materials and method
40 study subjects were divided into two groups with 20 children each. Group A (combination of toothpaste and mouthrinse) and Group B (Toothpaste). Both the groups were told to perform oral hygiene practice and salivary pH estimation was done before and after brushing and mouthrinsing on day 1, 1st week, 2nd week, 3rd week and 4th week. The salivary pH was directly estimated using the digital pH meter calibrated using buffers of pH 4, 7 and 9. Intra group comparison was done by paired t test where as repeated measure ANOVA and Turkey’s test were used in intergroup comparison.
Results
Intra group comparison showed increase in mean salivary pH in both the groups and found to be statistically significant. In intergroup comparison showed increase in the mean difference in salivary pH in group A than Group-B and found to be statistically not significant.
Conclusion
The pH of saliva increases more after brushing and rinsing with fluoridated toothpaste and mouthrinse rather than toothpaste alone.
Dentifrice; Mouthrinse; pH; Saliva; Tooth brushing
Dental caries is the most prevalent dental disease affecting human race although the prevalence of dental caries has significantly reduced but it is still a major problem (Beck et al., 1988) [1]. Saliva is a complex fluid consisting of 99% of the water and remaining 1% of organic and inorganic molecules. It plays a major role in the demineralization and remineralization processes of the teeth. The diverse functions of the oral tissues such as the mastication, deglutition, taste sensation, speech and initial digestion of the carbohydrates would be impossible without the salivary secretions [2].
When the pH in the oral cavity decreases, the conditions become unfavorable, there is a driving force for hydroxyapatite dissolution or demineralization. When normal oral pH returns, the thermodynamic conditions become favorable and there is a driving force for hydroxyapatite precipitation or remineralization. The pH at which any particular saliva ceases to be saturated is referred to as ‘critical pH’ and below this value; the inorganic material of teeth may dissolve in it [2-4].
Dentifrices are considered agents with antibacterial potential which could have a beneficial effect on plaque control and disease prevention [2,5]. The attributes of the dentifrices which may affect their cosmetic or therapeutic effect are their physical form, chemical composition, their pH, their solubility. A mouth rinse is a chemotherapeutic agent used as an effective home care remedy to enhance oral hygiene and prevent dental caries by targeting the cariogenic bacteria. A variety of synthetic antimicrobial mouthwashes are available to prevent dental caries. It was shown to inhibit plaque formation, also reduce gingival inflammation and prevent dental caries [6-9]. There is evidence indicating that the ingredients in the formula of triclosan-containing mouthwashes, including vehicle and other active substances, may influence its antimicrobial activity, and consequently its clinical efficiency [10].
Keeping the above mentioned points in view, a clinical trial was undertaken with the objectives to estimate the pH of saliva before and after brushing with commercially available Fluoridated Toothpaste and Mouthrinse.
40 subjects based on modified Moller’s [11] criteria satisfying the inclusion criteria were selected for the study from J.S.S Residential School from the age group of 6 years to 12 years. Children free from systemic disease and are in a moderate to high caries risk group were selected for the study and children suffering from any form of systemic illness, oral infections, hospitalizations and pharmacological treatment are excluded from the study.
Before carrying out the present study the ethical clearance was obtained from the institutional ethical clearance committee. The purpose and methodology of the study was explained to each of the subject and informed consent was obtained from the Head of the institution.
On the first day of study Toothpaste, Mouth washes were distributed to the respective groups and toothbrush to all the subjects. Demonstration of brushing technique [12] was given on Day1 of the study. Pocket-sized (HANNA) digital pH meter was used in the study. The salivary pH was directly estimated using the digital pH meter calibrated using buffers of pH 4, 7 and 9.
Estimation of pH of fluoridated tooth paste
Measured 2 grams of dentifrice by using digital weighing machine and add it to the labeled beaker then added 80 ml of distilled water to this beaker and stirred the dentifrice/water mixture with a stirring rod until a suspension is formed. To measure the pH of dentifrice, pH sensitive electrode was dipped into the beaker, the digital reading was allowed to stabilize for a few seconds and the pH reading was recorded.
Estimation of pH of fluoridated mouth rinse
Measured 5 ml of mouth rinse and to it added 5ml of tap water in a beaker and then stirred with a glass stirrer. To measure the pH of Mouth rinse, pH sensitive electrode was dipped into the beaker then the digital reading was allowed to stabilize for a few seconds and the pH reading was recorded.
Collection of salivary samples
Salivary samples were collected on 1st day, at the end of 1st week, 2nd week, 3rd week and 4th week. The baseline unstimulated salivary samples were collected in sterile container from the subjects in the morning before brushing and pH was assessed using digital pH meter. Then the subjects were asked to brush and rinse with the given toothpaste and mouth rinse. The was collected and salivary pH estimated again at 15, 30, 60 minutes with digital pH meter and salivary pH was estimated. The accuracy of pH meter was checked at regular intervals to ensure that readings were correct. Cleansing of sensing electrode is done with distilled water after every sample of pH estimation (Figures 1-3).
Intragroup comparison of Group-A (combination of Toothpaste and Mouth rinse)
Day 1: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.70 ± 0.1, 0.85 ± 1 and 0.86 ± 2
1st week: the mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.16 ± 0.09, 0.25 ± .09 and 0.24 ± 0.1
2nd week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.19 ± 0.09, 0.27 ± 0.1 and 0.29 ± 0.1. p<0.001.
3rd week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.18 ± 0.1, 0.22 ± 0.1 and 0.22 ± 0.1.
4th week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.2 ± 0.97, 0.23 ± 0.1 and 0.26 ± 0.1.
P <0.005 in Group-A which is statistically significant (Table 1, Graph 1).
Paired Differences | t | df | p | |||
---|---|---|---|---|---|---|
Mean | SD | |||||
Pair 1 | baseline - minutes15 | -.70500 | .16051 | -19.643 | 19 | .000 |
Pair 2 | baseline - miutes30 | -.85000 | .17622 | -21.572 | 19 | .000 |
Pair 3 | baseline - minutes60 | -.86500 | .22308 | -17.341 | 19 | .000 |
Pair 4 | baseline1stweek - w1_min15 | -.16000 | .09947 | -7.193 | 19 | .000 |
Pair 5 | baseline1stweek - w1_min30 | -.25500 | .09987 | -11.419 | 19 | .000 |
Pair 6 | baseline1stweek - w1_min60 | -.24500 | .16694 | -6.563 | 19 | .000 |
Pair 7 | baseline2ndweek - w2_minu15 | -.19500 | .09987 | -8.732 | 19 | .000 |
Pair 8 | baseline2ndweek - w2_minu30 | -.27000 | .14903 | -8.102 | 19 | .000 |
Pair 9 | baseline2ndweek - w2_minu60 | -.29500 | .16694 | -7.903 | 19 | .000 |
Pair 10 | baseline3rdweek - w3_minut15 | -.18000 | .11517 | -6.990 | 19 | .000 |
Pair 11 | baseline3rdweek - w3_minut30 | -.22500 | .13328 | -7.550 | 19 | .000 |
Pair 12 | baseline3rdweek - w3_minut60 | -.22000 | .13992 | -7.031 | 19 | .000 |
Pair 13 | baseline4thweek - w4_minue15 | -.20000 | .09733 | -9.189 | 19 | .000 |
Pair 14 | baseline4thweek - w4_minue30 | -.23500 | .10894 | -9.647 | 19 | .000 |
Pair 15 | baseline4thweek - W4_minue60 | -.26500 | .12680 | -9.346 | 19 | .000 |
Table 1: Intra Group comparison of Group-A. Paired Samples Test, p <0.001. SD: Standard Deviation; df: Degree of Freedom.
Intragroup comparison of Group-B (Toothpaste)
Day 1: the mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are
0.68 ± 0.1, 0.72 ± 1 and 0.79 2
1st week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.10 ± 0.1, 0.21 ± 1 and 0.29 ± 1.
2nd week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.20 ± 0.1, 0.22 ± 1 and 0.26 ± 1.
3rd week: the mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.12 ± 0.1, 0.13 ± 1 and 0.20 ± 1.
4th week: The mean pH difference from Baseline to 15 minute, baseline to 30 minute and baseline to 60 minute are 0.13 ± 0.1, 0.15 ± 1 and 0.22 ± 1.
P<0.005 in Group-B which is statistically significant (Table 2, Graph 1).
Paired Differences | t | df | p | |||
---|---|---|---|---|---|---|
Mean | SD | |||||
Pair 1 | baseline - minutes15 | -.68500 | .18994 | -16.128 | 19 | .000 |
Pair 2 | baseline - miutes30 | -.72500 | .21244 | -15.262 | 19 | .000 |
Pair 3 | baseline - minutes60 | -.79500 | .25021 | -14.209 | 19 | .000 |
Pair 4 | baseline1stweek - w1_min15 | -.10500 | .10501 | -4.472 | 19 | .000 |
Pair 5 | baseline1stweek - w1_min30 | -.21000 | .12096 | -7.764 | 19 | .000 |
Pair 6 | baseline1stweek - w1_min60 | -.29000 | .16827 | -7.707 | 19 | .000 |
Pair 7 | baseline2ndweek - w2_minu15 | -.20500 | .10501 | -8.731 | 19 | .000 |
Pair 8 | baseline2ndweek - w2_minu30 | -.22500 | .12513 | -8.041 | 19 | .000 |
Pair 9 | baseline2ndweek - w2_minu60 | -.26000 | .15009 | -7.747 | 19 | .000 |
Pair 10 | baseline3rdweek - w3_minut15 | -.12000 | .13992 | -3.835 | 19 | .001 |
Pair 11 | baseline3rdweek - w3_minut30 | -.13000 | .10809 | -5.378 | 19 | .000 |
Pair 12 | baseline3rdweek - w3_minut60 | -.20500 | .16051 | -5.712 | 19 | .000 |
Pair 13 | baseline4thweek - w4_minue15 | -.13000 | .14903 | -3.901 | 19 | .001 |
Pair 14 | baseline4thweek - w4_minue30 | -.15500 | .13169 | -5.264 | 19 | .000 |
Pair 15 | baseline4thweek - W4_minue60 | -.22000 | .17045 | -5.772 | 19 | .000 |
Table 2: Intra group comparison of Group-B, Paired Samples Test, p <0.001.
Inter Group comparison of mean difference in salivary pH at Baseline in Group-A and Group-B at Day1, end of 1st week, 2nd week, 3rd week, 4th week
The Mean difference in pH in Group –A from 15 minutes at day 1 with 15 minutes at 1 week, 15 minutes at 2 week, 15 minutes at 3rd week and 15 minutes at 4th week was found to be 0.2, 0.25, 0.33 and 0.4 respectively.
The Mean difference in pH in Group –B from 15 minutes at day 1 with 15 minutes at 1 week, 15 minutes at 2nd week, 15 minutes at 3rd week and 15 minutes at 4th week was found to be 0.09, 0.13, 0.19 and 0.23 respectively. The values showed there is a rise in pH as the duration increases and pH increase is more in Group-A than that of Group-B and the difference between the groups found to be statistically not significant (p-value = 0.06) (Table 4, Graph 1).
Groups | Mean | SD | N | |
---|---|---|---|---|
baseline | mouthwash | 6.6600 | .17290 | 20 |
toothpaste | 6.8400 | .11425 | 20 | |
Total | 6.7500 | .17097 | 40 | |
baseline1stweek | mouthwash | 7.4650 | .17852 | 20 |
toothpaste | 7.5150 | .20333 | 20 | |
Total | 7.4900 | .19055 | 40 | |
baseline2ndweek | mouthwash | 7.4400 | .16670 | 20 |
toothpaste | 7.4500 | .19331 | 20 | |
Total | 7.4450 | .17824 | 40 | |
baseline3rdweek | mouthwash | 7.5150 | .18994 | 20 |
toothpaste | 7.5950 | .16376 | 20 | |
Total | 7.5550 | .17967 | 40 | |
baseline4thweek | mouthwash | 7.5650 | .16631 | 20 |
toothpaste | 7.6300 | .15927 | 20 | |
Total | 7.5975 | .16406 | 40 |
Tests of Within-Subjects Effects | |||||
---|---|---|---|---|---|
P=.093 | |||||
Source | Type III Sum of Squares | df | Mean Square | F | p |
change | 19.615 | 4 | 4.904 | 249.021 | .000 |
change * groups | .160 | 4 | .040 | 2.029 | .093 |
Error(change) | 2.993 | 152 | .020 |
Table 3: Inter Group comparison with relation to all baseline values. Descriptive Statistics p>0.005
Descriptive Statistics | ||||
---|---|---|---|---|
p>0.005 | ||||
Groups | Mean | SD | N | |
minutes15 | mouthwash | 7.3650 | .29429 | 20 |
toothpaste | 7.5250 | .21491 | 20 | |
Total | 7.4450 | .26694 | 40 | |
w1_min15 | mouthwash | 7.6250 | .20743 | 20 |
toothpaste | 7.6200 | .20417 | 20 | |
Total | 7.6225 | .20316 | 40 | |
w2_minu15 | mouthwash | 7.6350 | .15652 | 20 |
toothpaste | 7.6550 | .16051 | 20 | |
Total | 7.6450 | .15681 | 40 | |
w3_minut15 | mouthwash | 7.6950 | .19595 | 20 |
toothpaste | 7.7150 | .22775 | 20 | |
Total | 7.7050 | .20995 | 40 | |
w4_minue15 | mouthwash | 7.7650 | .16311 | 20 |
toothpaste | 7.7600 | .18468 | 20 | |
Total | 7.7625 | .17200 | 40 |
Tests of Within-Subjects Effects | |||||
---|---|---|---|---|---|
P=0.62 | |||||
Source | Type III Sum of Squares | df | Mean Square | F | p |
change | 2.300 | 4 | .575 | 27.390 | .000 |
change * groups | .192 | 4 | .048 | 2.290 | .062 |
Error(change) | 3.191 | 152 | .021 |
Table 4: Inter Group comparison with relation to all 15 minutes values.
Inter Group comparison of mean difference in salivary pH at 30 min in Group-A and Group-B at Day1, end of 1st week, 2nd week, 3rd week, 4th week
The Mean difference in pH in Group-A from 30 minutes at day 1 with 30 minutes at 1 week, 30 minutes at 2nd week, 30 minutes at 3rd week and 30 minutes at 4th week was found to be 0.21, 0.2, 0.23 and 0.23 respectively.
The Mean difference in pH in Group-B from 30 minutes at day 1 with 30 minutes at 1 week, 30 minutes at 2nd week, 30 minutes at 3rd week and 30 minutes at 4th week was found to be 0.16, 0.11, 0.16 and 0.22 respectively.
The values showed there is a rise in pH as the duration increases and pH increase is more in Group-A than that of Group-B and the difference between the groups found to be statistically not significant(pvalue = 0.733) (Table 5, Graph 1).
Descriptive Statistics | |||||
---|---|---|---|---|---|
p>0.005 | |||||
Groups | Mean | SD | N | ||
miutes30 | mouthwash | 7.5100 | .21250 | 20 | |
toothpaste | 7.5650 | .23232 | 20 | ||
Total | 7.5375 | .22152 | 40 | ||
w1_min30 | mouthwash | 7.7200 | .21176 | 20 | |
toothpaste | 7.7250 | .19702 | 20 | ||
Total | 7.7225 | .20190 | 40 | ||
w2_minu30 | mouthwash | 7.7100 | .18325 | 20 | |
toothpaste | 7.6750 | .17733 | 20 | ||
Total | 7.6925 | .17887 | 40 | ||
w3_minut30 | mouthwash | 7.7400 | .23486 | 20 | |
toothpaste | 7.7250 | .20487 | 20 | ||
Total | 7.7325 | .21767 | 40 | ||
w4_minue30 | mouthwash | 7.8000 | .17168 | 20 | |
toothpaste | 7.7850 | .18144 | 20 | ||
Total | 7.7925 | .17451 | 40 | ||
Tests of Within-Subjects Effects | |||||
P=0.733 | |||||
Source | Type III Sum of Squares | df | Mean Square | F | p |
change | 1.459 | 4 | .365 | 15.586 | .000 |
change * groups | .047 | 4 | .012 | .504 | .733 |
Error(change) | 3.558 | 152 | .023 |
Table 5: Inter Group comparison with relation to all 30 minutes values.
Inter Group comparison of mean difference in salivary pH at 60 min in Group-A and Group-B at Day1, end of 1st week, 2nd week, 3rd week, 4th week
The Mean difference in pH in Group A from 60 minutes at day 1 with 60 minutes at 1 week, 60 minutes at 2nd week, 60 minutes at 3rd week and 60 minutes at 4th week was found to be 0.18, 0.21, 0.01 and 0.30 respectively.
The Mean difference in pH in Group-B from 60 minutes at day 1 with 60 minutes at 1 week, 60 minutes at 2nd week, 60 minutes at 3rd week and 60 minutes at 4th week was found to be 0.17, 0.07, 0.16 and 0.21 respectively. The values showed there is a rise in pH as the duration increases and pH increase is more in Group-A than that of Group-B and the difference between the groups found to be statistically not significant (p-value = 0.275) (Table 6, Graph 1).
Descriptive Statistics | ||||
---|---|---|---|---|
p>0.005 | ||||
Groups | Mean | SD | N | |
minutes60 | mouthwash | 7.5250 | .18028 | 20 |
toothpaste | 7.6350 | .27391 | 20 | |
Total | 7.5800 | .23556 | 40 | |
w1_min60 | mouthwash | 7.7100 | .26735 | 20 |
toothpaste | 7.8050 | .22821 | 20 | |
Total | 7.7575 | .25001 | 40 | |
w2_minu60 | mouthwash | 7.7350 | .18715 | 20 |
toothpaste | 7.7100 | .21981 | 20 | |
Total | 7.7225 | .20190 | 40 | |
w3_minut60 | mouthwash | 7.7350 | .23005 | 20 |
toothpaste | 7.8000 | .25955 | 20 | |
Total | 7.7675 | .24431 | 40 | |
W4_minue60 | mouthwash | 7.8300 | .19222 | 20 |
toothpaste | 7.8500 | .22361 | 20 | |
Total | 7.8400 | .20606 | 40 |
Tests of Within-Subjects Effects | |||||
---|---|---|---|---|---|
P=0.275 | |||||
Source | Type III Sum of Squares | df | Mean Square | F | p |
change | 1.470 | 4 | .368 | 15.441 | .000 |
change * groups | .123 | 4 | .031 | 1.295 | .275 |
Error(change) | 3.618 | 152 | .024 |
Table 6: Inter Group comparison with relation to all 60 minutes values.
The present study was conducted to estimate and compare the pH of saliva in 6 years to 12 years children before and after brushing and mouth rinsing with commercially available toothpaste and mouth rinse.
The salivary pH is an important biomarker for dental caries. The dentifrice and mouth rinse pH range might influence the salivary pH. In the present study we found that the pH of the dentifrice was 8.2, which is basic for given toothpaste if compared with the result obtained by Chand et al. [2]. Similar results were obtained in study by Bardal et al., who reported the pH of dentifrices to be in the range of 6.8 – 9.9 [13]. Chunhye Kim Lee also reported in his study that if mouth rinse has low pH the surface of the tooth leads to a net loss of enamel and mineral structure at the tooth’s surface [14].
The study done by Pontefract et al. reported that low pH mouth rinses cause dental erosion [15]. Similar result reported by Ankita et al. that many commercially available mouthrinse are acidic in nature and cause dental erosion [16].
In our study we estimated pH of toothpaste and mouth rinse to be 8.2 and 7.8 respectively which is alkaline and therefore the risk of erosion on teeth is eliminated as children has less thickness of enamel which erodes easily in acidic environment.
The intra group comparison of our study on day 1, end of 1st week, 2nd week, 3rd week and 4th week with respect to all baselines, at 15 minutes, 30 minutes and 60 minutes values showed an increase in pH of saliva and that the changes in mean pH difference was statistically significant i.e. p<0.001(Table 1-2, Graph 1).
Similar result were obtained in the study done by chand s et al. where he conclude that the pH of saliva increases after brushing in each commercially available dentifrice group [3]. Another study done by Advani et al., where they conclude that the pH of saliva increases after brushing with Kidodent Toothpaste [17]. Similar result obtained by Olivia lim where she concludes that the pH of saliva increases after mouth rinsing [18].
The rise in pH could be due to the contents of Toothpaste and Mouth rinse. In our study we used Kidodent Toothpaste which contains sodium monofluorophosphate and Xylitol, its fluoride content is 500 ppm. The mouth rinse we used in our study was Kidodent Mouthwash which contains sodium fluoride, xylitol and triclosan, its fluoride content is 225 ppm.
is a non-nutritive sweetener that has demonstrated effectiveness for preventing caries. Xylitol is not fermented by plaque. The nonspecific effect of xylitol is due its non-fermentability, and thus does not encourage bacterial growth.
The presence of fluoride in this mouth rinse and Toothpaste could have also contributed to the reduction of S. mutans in plaque. The effects of fluoride on streptococcal cells are partly ascribed to the inhibition of enolase, one of the series of gylcolytic enzymes. This inhibition decreases the intracellular level of phosphoenolpyruvate (PEP), and thus decreases bacterial sugar uptake via PEP-dependent phosphotransferase system (PEP-PTS) [19-21].
The other ingredient present is triclosan, a broad-spectrum antimicrobial, having an anti-plaque potential. Triclosan (2,4,4-trichloro 2-hydroxydiphenyl ether) is used to increase the ability of mouth washe and Toothpaste to bind to the oral mucosa, and thus be available for longer periods of time [19-20] Jenkins et al. compared the magnitude and duration of salivary bacterial count reductions produced by a single rinse of 0.2% triclosan, 1% sodium lauryl sulfate (SLS) and 0.2% chlorhexidine mouthwashes. They found considerable reductions in bacterial counts which remained significant for 3 hours with triclosan and for 7 hours with SLS and chlorhexidine. The use of 0.3% triclosan mouth rinse showed significant reduction in salivary mutans streptococcicount.
Hence, the significant rise in salivary pH in our study could be due to the reduction in S. mutans could be attributed to the synergistic effect of all three constituents, viz., xylitol, sodium fluoride/sodium monoflourophosphate and triclosan.
The inter group comparison in our study on day 1, end of 1st week, 2nd week, 3rd week and 4th week with respect to all baselines, at 15 minutes, 30 minutes and 60 minutes. The values show there is a rise in salivary pH as the duration increases and pH of saliva increase is more in Group-A than that of Group-B and the difference between the groups found to be statistically not significant. The result are in accordance with the Daniela Correia Cavalcante Souza et al. that three time oral hygiene practice in a day with Fluoride dentifrice did not differ from two time oral hygiene practice with two time Fluoride dentifrice and onetime Fluoride Mouth rinse, however it enhanced control when compared two time oral hygiene practice with dentifrice alone [21].
Salivary pH is the important salivary parameter affecting the carious process. Demineralization and remineralization processes of the teeth, occurring in the oral cavity are dependent on the pH of the saliva. The saliva is rich in the calcium and phosphates and is nearly always supersaturated with respect to enamel minerals and other biological appatites. The alkaline pH of the saliva neutralizes the acid produced by the plaque bacteria Further the more basic is the pH of the saliva more is the remineralization of tooth surface by the precipitation of bicarbonate ions.
Limitations and recommendations
• More measure and advancement can be done for better result.
• As the study population was a captive population restricted to children from hostel of the school institute, the results obtained were specific.
• Hence, the results cannot be generalized to the whole population for which further studies are recommended taking more advancement with wider geographical representation.
Oral hygiene practice with commercially available Fluoridated toothpaste followed by Fluoridated mouth rinse for children two times a day can be recommended in moderate to high caries group.
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