Preventive efficacy of silver diamine fluoride and MI Varnish on molars affected by molar incisor hypomineralization in children: A randomized controlled trial

Introduction

Molar incisor hypomineralization (MIH) is a common dental condition that affects the quality of life of children.¹ It is characterized by enamel hypomineralization and discoloration of one or more permanent first molars and incisors, resulting in increased caries and post-eruptive enamel breakdown.² This can cause a range of oral health problems, including pain and sensitivity, which can affect a child's ability to eat, sleep, and participate in daily activities.³

MIH has become an increasingly recognized problem for researchers and a challenging issue for pediatric dentists. With prevalence rates ranging from 2% to 14% across different populations and diagnostic criteria, MIH poses significant challenges in the field of pediatric dentistry (PD).⁴ This condition is believed to have a multifactorial etiology, with potential contributing factors including prenatal and perinatal influences, systemic diseases, and environmental exposures.⁵

Recent research has shed light on the high prevalence of MIH in specific populations. A noteworthy study conducted in Syria revealed a staggering prevalence rate of 39.9% among Syrian children.⁶ This finding underscores the urgency of addressing MIH and its impact on oral health in affected individuals. Understanding the prevalence of MIH in different populations provides valuable insights into the extent of the problem and emphasizes the need for effective preventive and management strategies.⁷

Despite the growing recognition of MIH as a significant public health issue, there is limited research available on effective treatments for this condition.⁸ The impact of MIH on children's quality of life highlights the need for effective treatments that can prevent or mitigate the effects of this condition.⁹

Although routine oral care practices and fluoride are effective in preventing caries, these methods may not be sufficient in managing MIH.⁸ MIH-affected teeth have altered enamel structures and are more porous, making them more prone to caries and enamel breakdown than non-affected teeth. The enamel's increased porosity allows bacteria to penetrate and initiate caries formation, leading to early cavitation and further enamel breakdown.¹⁰

The consequences of untreated MIH can range from impaired oral function and increased risk of caries, to decreased self-esteem and social isolation.¹¹ As a result, it is important to identify treatments that can effectively prevent or manage MIH and improve the oral health and quality of life of affected children.¹²

The challenges posed by MIH have led to the development of various preventive and therapeutic measures, such as the use of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) and silver diamine fluoride (SDF).¹³ MI Varnish™ is a product that contains 5% NaF and 2% CPP-ACP, which have been shown to enhance enamel remineralization and reduce sensitivity in MIH-affected teeth.¹⁴

On the other hand, SDF is a minimally invasive and cost-effective approach for arresting and preventing dental caries.¹⁵ SDF works by inducing the formation of a silver-protein complex and a calcium fluoride-like layer, which can kill cariogenic bacteria and promote remineralization.¹⁶ SDF is effective in reducing caries incidence and arresting cavitated lesions in primary and permanent teeth.^17,18 Nevertheless, the efficacy of SDF for preventing caries in MIH-affected molars remains unclear, and there is a lack of studies investigating the use of SDF as a preventive measure for MIH-affected molars.

In this context, the effectiveness of SDF and CPP-ACP in preventing or managing the outcomes of MIH has become an important area of investigation.¹⁹ While both SDF and CPP-ACP have been shown to have potential benefits in managing this condition, it is important to understand the relative efficacy of these treatments in a well-controlled, randomized clinical trial. The results of such a trial can inform the development of evidence-based guidelines for the management of MIH in children, and help to ensure that children receive the most effective, and appropriate oral health care.

Therefore, this study aimed to compare the effectiveness of SDF and MI Varnish in preventing the development and progression of caries and post-eruptive enamel breakdown in children's molars affected by MIH.

Methods

Results

A total of 100 children were enrolled in this trial (42 girls and 58 boys) with a mean age of 7.6 ± 1.4. Each child had two contralateral permanent 1^st molars affected with mild MIH.²⁴ The distribution of the molars involved in the study is summarized in Table 1.

The mean and standard deviation of dmft and DMFT indices were 4.37 ± 1.40 and 0.30 ± 0.63, respectively. The proportion of caries-free children was 11.3%. Table 2 shows the number of molars that were affected by caries in each group and for the four studied time points (after 3, 6, 9, and 12 months). The chi-squared test showed that carious molars were less in the SDF group than in the MI group with a statistically significant difference (P-value < 0.05) in each follow-up schedule.

On the other hand, repeated measures ANOVA showed that there was no statistically significant difference in the development of caries between the four-time points in neither the SDF group nor the MI group (P-value > 0.05).

Moreover, the chi-squared test showed that the percentages of arrested caries were higher in the SDF group than in the MI group with a statistically significant difference in months 6, 9, and 12 (P-value < 0.05). This means that our findings revealed that SDF is better than MI Varnish in arresting the developed caries lesions, especially after 6 months of application (Figure 1). Additionally, repeated measures ANOVA test detected that there was a statistically significant difference between the four-time points in arresting caries in both studied groups (Table 2).

Figure 1. The difference between the percentage of active caries in both groups (SDF: Silver diamine fluoride).

Bonferroni post hoc test indicated that the difference was statistically significant between the 3 months follow-up and the other time points only.

Regarding the enamel breakdown detected in each group, the Mann-Whitney U test showed that there was no statistically significant difference between the SDF and MI groups at each time point. This means that both SDF and MI Varnish were effective in the prevention of enamel breakdown of MIH molars (Table 3).

Friedman test indicated that there was no statistically significant difference between the four-time points regarding the mean rank of enamel breakdown scores in neither the SDF group nor in the MI group (P-value= 0.513, 0.221 respectively) (Table 4).

As shown in Table 5, the Mann-Whitney U test similarly showed that there was no statistically significant difference between the SDF group and the MI group regarding the Schiff Cold Air Sensitivity Scale at each time point. However, the Friedman test indicated that the difference between the five-time points (baseline, 3 months, 6 months, 9 months, and 12 months) was statistically significant in both SDF and MI groups.

Wilcoxon Signed Rank test revealed that in both SDF and MI groups, there was a statistically significant difference between the baseline and 3 months (P-value = 0.002, 0.001, respectively), between the baseline and 6 months of application (P-value = 0.001, 0.021, respectively) and between the 3 months and 6 months of application (P-value = 0.011, 0.001, respectively). However, there was no statistically significant difference between 9 months and 12 months neither in the SDF group nor in the MI group. Figure 2 shows the change in the mean rank of SCASS between the groups and between the time points.

Figure 2. The change in the mean rank of Schiff cold air sensitivity scale SCASS between the groups and between the time points.

(SDF: Silver diamine fluoride).

Discussion

This study aimed to evaluate and compare the preventive efficacy of SDF and MI Varnish in molars affected by MIH among children aged 6–9 years. The results of this study indicate that molars treated with SDF had a significantly lower incidence of caries and a higher rate of caries arrest compared to those treated with MI Varnish. Both SDF and MI Varnish demonstrated the ability to prevent enamel breakdown and improve sensitivity, with no statistically significant difference between the two treatments.

This age group was selected based on several considerations related to the nature of MIH and the developmental stage of affected teeth.

MIH commonly manifests during the eruption of the first permanent molars, which typically occurs around the age of 6 years.²⁵ By including children within the age range of 6–9 years, the study focused on a critical period when MIH-affected molars are fully erupted and accessible for examination and treatment.

Furthermore, children within this age range are more likely to comply with study protocols and express their willingness to participate actively. They have a better ability to understand and cooperate during dental examinations and treatments, enhancing the feasibility of the study. Additionally, by targeting this age group, the study aimed to address the preventive needs of children at a crucial developmental stage when early intervention can have a significant impact on long-term oral health outcomes.^26,27

The utilization of the European Academy of Pediatric Dentistry (EAPD) criteria for the diagnosis and classification of MIH played a significant role in this study. The EAPD criteria have been widely accepted and recommended as the gold standard for the diagnosis and classification of MIH, providing a standardized approach to ensure consistency and comparability among studies and clinical practice.¹³

In addition, the implementation of the EAPD criteria for inclusion ensured the homogeneity of the sample and the accurate identification of participants with MIH. By applying these criteria, the researchers could confidently select children with mild MIH-affected molars, minimizing potential confounding factors and enhancing the validity of the study results.

In the context of this study, the ICDAS-II criteria were employed to detect and assess caries incidence in the molars affected by MIH. ICDAS-II is considered a widely recognized and standardized method for detecting and assessing dental caries.²⁸ It provides a comprehensive and detailed classification system that allows for the consistent evaluation and diagnosis of caries lesions based on their visual appearance.

In addition, the caries activity outcome measure was assessed using Reveal fluorescence dental loupes, and the results showed that SDF had a higher percentage of arresting caries compared to MI Varnish, and this difference was found to be statistically significant.

The use of Reveal fluorescence dental loupes for evaluating caries activity in this study provided an additional objective measure to assess the effectiveness of the preventive treatments.²⁹ These dental loupes utilize fluorescence technology to detect the presence of caries activity based on the fluorescence emission of bacterial metabolites in the oral cavity.³⁰

The inclusion of Reveal fluorescence dental loupes offered several advantages in this study. Firstly, it is a non-invasive and painless procedure, making it well-suited for use in pediatric patients. Secondly, the immediate results provided a real-time assessment of caries activity, enabling prompt decision-making regarding treatment interventions. Additionally, the qualitative nature of the fluorescence measurements contributed to more objective and standardized evaluations, reducing subjectivity in the assessment process.^29,30

The superior performance of SDF in preventing and arresting caries can be attributed to its unique mechanism of action. SDF works by inducing the formation of a silver-protein complex and a calcium fluoride-like layer, which effectively kills cariogenic bacteria and promotes remineralization.¹⁶ This antimicrobial and remineralization effect of SDF is particularly beneficial in managing caries in MIH-affected molars, where the enamel is more susceptible to demineralization and cavitation.³¹

The significant difference observed between SDF and MI Varnish suggests that SDF may be a more effective preventive treatment option for caries in MIH-affected molars. These findings align with previous studies that have demonstrated the superiority of SDF in caries prevention and arrest, particularly in primary and permanent teeth.^32,33

Despite the growing interest in the effectiveness of Casein Phosphopeptide-Amorphous Calcium Phosphate (CPP-ACP) in preventing caries development and progression, there is still ongoing research in this area. In line with previous studies, our research findings support the notion that CPP-ACP demonstrates efficacy in preventing caries. A recent systematic review and meta-analysis conducted by Sharda et al. (2020) investigated the efficacy of CPP-ACP complex and topical fluoride (TF) in managing dental caries.³⁴ The study revealed that while CPP-ACP showed superiority over TF monotherapy in remineralizing existing lesions and exhibiting a stronger antibacterial effect, it did not demonstrate greater efficacy in preventing caries incidence.

The findings of Sharda et al.'s systematic review highlight the limitations of CPP-ACP in terms of preventing the occurrence of new carious lesions. Although CPP-ACP has shown promise in remineralizing existing lesions and exerting antibacterial properties, its impact on preventing caries incidence appears to be limited.³⁴

Furthermore, a recent study showed that a single topical application of the GC Tooth mousse (CPP-ACP) does not affect increasing the salivary pH and salivary flow rate which are great factors in caries prevention.³⁵

On the other hand, both SDF and MI Varnish showed comparable performance in preventing enamel breakdown (PEB). This indicates that both materials were effective in preserving the integrity of the enamel surface and preventing further deterioration of the affected teeth. The lack of significant difference in PEB outcomes between the two groups suggests that both treatments have a similar capacity to stabilize the enamel and prevent its breakdown.

Furthermore, both SDF and MI Varnish demonstrated improvement in sensitivity, with no significant difference observed between the two groups. This indicates that both materials were effective in alleviating the sensitivity commonly associated with MIH-affected molars. The reduction in sensitivity can greatly improve the quality of life for affected children by minimizing discomfort and facilitating normal oral function.

The efficacy of CPP-ACP in preventing enamel breakdown and improving sensitivity has been investigated in several studies, allowing for a comparison of results. In our study, we found that MI Varnish demonstrated effectiveness in preventing enamel breakdown. This finding is consistent with previous research that has reported positive outcomes with the use of MI Varnish as a preventive treatment for enamel hypomineralization.

A notable investigation conducted by Bakkal et al. (2017) aimed to assess the efficacy of 10% CPP-ACP cream in enhancing the mineral content of hypomineralized enamel. The outcomes of their study demonstrated a marked improvement in mineralization, as well as enhancements in enamel morphology and reductions in porosities.³⁶ This highlights the positive impact of CPP-ACP cream on addressing the deficiencies in hypomineralized enamel.

Moreover, Cardoso-Martins et al. (2022) conducted a study that further supports these findings. Their investigation focused on evaluating the effects of CPP-ACP tooth mousse on the mineral density and organization of hypomineralized enamel. The results demonstrated significant improvements in both mineral density and the overall structural organization of the affected enamel following treatment with CPP-ACP tooth mousse.³⁷ This study reinforces the potential of CPP-ACP as a valuable therapeutic option for ameliorating the compromised enamel associated with hypomineralization.

Regarding the improvement of sensitivity, our study demonstrated that MI Varnish was effective in alleviating sensitivity associated with MIH. Similarly, a systematic review by Somani et al. (2022) analyzed multiple studies and concluded that CPP-ACP products showed promising results in reducing sensitivity in MIH-affected teeth.⁸ They reported a significant reduction in sensitivity scores following the application of MI Varnish.

Overall, the results of our study, along with the findings of previous research, support the use of MI Varnish as an effective intervention for preventing enamel breakdown and improving sensitivity in individuals with MIH.

Several limitations should be considered when interpreting the findings of this study. Firstly, the study sample was drawn from a specific population of children aged 6 to 9 years with MIH, which may restrict the generalizability of the results to other age groups or individuals with different characteristics. Further research involving diverse populations is necessary to validate the findings across a broader range of individuals affected by MIH.

In addition, the study had a relatively short follow-up period, which may limit the ability to assess the long-term effectiveness and durability of the preventive treatments. Hence, longer follow-up periods would provide valuable insights into the sustainability of the interventions over time.

An additional limitation of this study was the inability to blind the investigator who applied the intervention materials (SDF and MI Varnish) to the participants. Blinding is a methodological approach that aims to reduce bias by withholding information about the assigned treatment from the investigator. However, in this study, blinding was not feasible due to the distinct differences in the colour and texture of the intervention materials.

Conclusion

In summary, this study aimed to evaluate and compare the preventive efficacy of SDF and MI Varnish in molars affected by MIH among children aged 6 to 9 years. The results demonstrated that molars treated with SDF had a lower incidence of caries and a higher rate of caries arrest compared to those treated with MI Varnish. Both interventions showed promise in preventing enamel breakdown and improving sensitivity, with no significant difference observed between them.

The findings suggest that SDF may be a valuable preventive treatment option for managing caries in MIH-affected molars. Furthermore, the finding of this study suggests that while CPP-ACP may be beneficial for managing sensitivity and enhancing remineralization, additional preventive measures may be necessary to address the prevention of new caries formation.

However, it is important to acknowledge the limitations of this study, including the restricted sample and short follow-up period. Future research with larger and more diverse populations, as well as longer-term assessments, is needed to further validate these findings.