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National Journal of Maxillofacial Surgery
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Table of Contents
Year : 2017  |  Volume : 8  |  Issue : 2  |  Page : 106-109  

The effect of sodium bicarbonate oral rinse on salivary pH and oral microflora: A prospective cohort study

1 Department of Dentistry, Era's Lucknow Medical College, Lucknow, UP, India
2 Research Cell, Era's Lucknow Medical College, Lucknow, UP, India
3 Department of Periodontics, Career Dental College and Hospital, Lucknow, UP, India
4 Department of Trauma and Emergency, KGMU, Lucknow, UP, India
5 Department of Biochemistry, Era's Lucknow Medical College, Lucknow, UP, India

Date of Web Publication28-Dec-2017

Correspondence Address:
Dr. Siddhartha Chandel
Associate Professor, Department of Dentistry, Era's Lucknow Medical College, Lucknow
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/njms.NJMS_36_17

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Aim: Present study is designed to explore the effect of sodium bicarbonate oral rinse on salivary pH and oral micro flora.
Materials and Methods: Twenty five healthy subjects were recruited for the study in department of dentistry in Era Medical College. Subjects were abstained from tooth brushing overnight pre rinse (control) samples were collected after one hour of dinner and were asked to rinse with pre calibrated freshly prepared sodium bicarbonate solution. The salivary samples were then collected the following morning using sterile gauze in marked bottles. Aerobic bacterial culture was done by plating the sample directly from the swab on the surface of Blood agar and Mac Conkeys media respectively. The colony forming units and ph were calculated for the pre rinse and post rinse saliva sample.
Result: Results shows that salivary pH increased significantly after sodium Bicarbonate oral rinse. There was a marginal decrease in number of CFU/ml for bacteria especially Viridans Streptococci, Moraxella species.
Conclusion: Sodium Bicarbonate oral rinse may be considered as a cheap and effective alternative for chlorhexidine and alcohol based mouth wash, especially where long duration usage is required.

Keywords: Oral Microflora, salivary pH, sodium bicarbonate

How to cite this article:
Chandel S, Khan MA, Singh N, Agrawal A, Khare V. The effect of sodium bicarbonate oral rinse on salivary pH and oral microflora: A prospective cohort study. Natl J Maxillofac Surg 2017;8:106-9

How to cite this URL:
Chandel S, Khan MA, Singh N, Agrawal A, Khare V. The effect of sodium bicarbonate oral rinse on salivary pH and oral microflora: A prospective cohort study. Natl J Maxillofac Surg [serial online] 2017 [cited 2023 Feb 5];8:106-9. Available from: https://www.njms.in/text.asp?2017/8/2/106/221706

   Introduction Top

In present day practice, dental plaque has been established as the chief causative agent for dental caries. To understand the disease pathophysiology, it is considered that fermentation, which yields strong organic acids such as lactic acid along with other acids helps in promoting acidic environment that causes dissolution of the tooth enamel causing caries. Stephan in his time honored study has shown that plaque on tooth surface, when exposed to sucrose, can accelerate acid production, resulting in pH drop which could only be gradually restored to the baseline plaque pH.[1]

Till date, an array of medicated as well as nonmedicated solutions utilizing antimicrobial, anti-inflammatory properties, mucosal coating, or recent advances such as cryotherapy, lasers, and growth factors have been used, but the effectiveness of such therapies is still obscure. Moreover, cost factor of such medications is a major hindrance in their introduction in clinical practice. On the other hand, bland oral rinses such as 0.9% saline solution, sodium bicarbonate (SB) solution, or saline-SB solution have been introduced for oral health care which not only promote patient comfort but also help in maintaining moisture content of the oral epithelial barriers, and thus, also help in reduction of secondary infection risk. SB does not have any direct antimicrobial effects but has an active role as a cleansing agent because of its ability to dissolve mucus and loosen debris. However, the role of SB oral rinse in lowering the salivary pH and in turn preventing the overgrowth of aciduric bacteria needs to be confirmed. With this perspective in mind, this study is planned to unravel the association between salivary pH and SB oral rinse.

   Materials and Methods Top

Patient selection: Only healthy controls were included in the study. Patients suffering from any systemic disease, undergoing radiotherapy, chemotherapy, or using any systemic or topical medication were excluded from the study. Patients using tobacco, alcohol, or any other drugs in any form were excluded from the study.

Methodology: Collection of saliva samples

Step 1: SB solution was prepared by mixing approximately 3 g SB powder in 50 ml of water which was premeasured and marked on plastic glasses [Figure 1] and [Figure 2].
Figure 1: Half tablespoon (approximately 3 g) sodium bicarbonate powder

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Figure 2: Fifty milliliters of water/marked with blue on plastic glass

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Step 2: Instructions given to patients for the collection of saliva sample:

  1. Patients were instructed to avoid brushing in the night
  2. Patients were further instructed to collect saliva with the help of sterile cotton swab [Figure 3]
  3. Subsequent morning they were instructed to rinse with the freshly prepared SB solution
  4. Participants were requested to collect the postrinse saliva samples with the help of sterile cotton gauge [Figure 4].
Figure 3: Prerinse saliva sample bottle (with sterile cotton)

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Figure 4: Postrinse saliva sample bottle with red dot

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Step 3: Analysis of saliva sample:

For bacterial culture: Aerobic bacterial culture was done by plating the sample directly from the swab on the surface of following culture Medias. Blood agar was incubated at 37°C in 5% CO2(candle jar) for 24 h. Mac Conkey agar was incubated at 37°C for 24 h in ambient air. Reading was obtained after 24 h by counting of colony.

Step 4: pH was measured using pH strips.

   Result Top

Result show that salivary pH increased significantly post - SB rinse [Figure 5]. This increase in pH is statistically significant and sufficient in restricting enamel demineralization. Number of CFU/ml of saliva also decreased for bacteria especially viridans streptococci,  Moraxella More Details spps, but this decrease was not statistically significant. Moreover, the substantivity of SB in the oral environment remains to be explored [Table 1] and [Table 2].
Figure 5: Graphical representation of pre- and post-rinse pH values

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Table 1: No of CFU/ml pre and post SB rinse

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Table 2: Paired sample T test

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   Discussion Top

It is well established by various studies in literature that high sugar content in diet can result in increased acid production especially lactic acid which results in acidic environment which in turn promotes increase caries activity. High incidence of caries activity was proved in Vipeholm study where he showed that high frequency of sugar intake or diet rich in easily fermentable sugar can result in increased caries activity.[2] Similarly, Walsh conducted a study which confirmed that incidence of dental caries can be decreased by restricting sugar intake in between meals.[3]

In normal conditions acids produced by acidogenic bacteria, for example, Streptococcus mutans is buffered by salivary bicarbonate ions, organic acids, peptides, and proteins. It is only when acid produced by acidogenic bacteria increases beyond the buffering capacity of saliva, dissolution of enamel and dentin takes place initiating carious process. Based on this property, an experiment was conducted by Shellis and Dibdin where it was shown that SB incorporated in mouth rinses can increase the buffering capacity of saliva and can buffer acids produced in plaque effectively, resulting in a reduction of acidic environment.[4]

Marco et al. incorporated SB along with xylitol and excipients in a mucoadhesive spray, which was further applied on oral mucosa. He tried to evaluate that whether sodium bi carbonate in this form can counteract the drop in salivary pH after a glucose rinse and can, in turn, support the buffering capacity of saliva. This study opened doors for a new approach which could help in counteracting salivary pH drop after a glucose rinse, simply by enhancing or supporting inherent salivary buffering capacity.[5] The product tested in Marco et al. study significantly increased the salivary pH taking it above the threshold values needed for dental enamel demineralization. Moreover, this study gave a new approach where it was concluded that supporting the buffering capacity of saliva can help in the prevention of caries, dental erosions and treatment of xerostomia and dental hypersensitivity.

Based on these evidence, the present study was designed to check the effect of sodium bicarbonate rinse in altering the bacterial count and salivary pH in patients. This study showed that role of SB rinse was limited on reducing bacterial count postrinse. It was seen that though for bacteria, no of CFU/ml decreased postrinse this decrease was not statistically significant. Moreover, the substantivity of SB rinse still has to be explored. On the other hand, affect of SB rinse on salivary pH was significant. SB, when used in the form of oral rinse, was successful in increasing salivary pH above the threshold level and thus aided in the prevention of enamel demineralization. Studies also support that in addition to its role in increasing the salivary pH, SB can also play a role in changing or decreasing the virulence of bacteria that play a pivotal role in causing caries.[6] Animal studies have shown that dentifrices containing SB reduce the amount of both Streptococcus sobrinus and S. mutans, and this may reduce caries.[7]

   Conclusion Top

From this study, we can conclude that SB mouth rinse is effective in increasing salivary pH above the threshold level needed for prevention of enamel demineralization and enhancing remineralization. This positive finding concluded from our study definitely indicates that SB rinse which is low in cost, bland in taste and associated with no side effect can be used as an adjunct to oral hygiene measures for long periods with more patient comfort during the maintenance phase. This oral rinse can have better acceptance in patients with mouth ulcers, a patient undergoing chemotherapy because of its bland taste. Moreover, patients from very remote places where the availability of modern mouthwashes are limited and cost plays an important determinant in their usage; SB mouth rinse can be an effective tool.

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Conflicts of interest

There are no conflicts of interest.

   References Top

Stephen RM. Changes in hydrogen ion concentration on tooth surface and in carious lesions. J Am Dent Assoc 1940;27:718-23.  Back to cited text no. 1
Krasse B. The vipeholm dental caries study: Recollections and reflections 50 years later. J Dent Res 2001;80:1785-8.  Back to cited text no. 2
Walsh LJ. Fifteen strategies for caries prevention: Towards target zero.ADA News Bull 2000B; 278:17-20.  Back to cited text no. 3
Shellis RP, Dibdin GH. Analysis of the buffering systems in dental plaque. J Dent Res 1988;67:438-46.  Back to cited text no. 4
Marco G, Giada Colangelo A, Levrini L. 2013;9. Available from: http://www.ariesdue.IT.  Back to cited text no. 5
Choi SE, Kim HS. Sodium bicarbonate solution versus chlorhexidine mouthwash in oral care of acute leukemia patients undergoing induction chemotherapy: A randomized controlled trial. Asian Nurs Res (Korean Soc Nurs Sci) 2012;6:60-6.  Back to cited text no. 6
Legier-Vargas K, Mundorff-Shrestha SA, Featherstone JD, Gwinner LM. Effects of sodium bicarbonate dentifrices on the levels of cariogenic bacteria in human saliva. Caries Res 1995;29:143-7.  Back to cited text no. 7


  [Figure 1], [Figure 2], [Figure 3], [Figure 4], [Figure 5]

  [Table 1], [Table 2]

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