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Tips To Prevent Caries

Caries management by risk assessment is key to reducing the prevalence of this ubiquitous—and preventable—oral disease.

Dental caries is a transmissible bacterial disease that is frequently spread from mother to child—a process called vertical transmission.1 According to the United States Centers for Disease Control and Prevention (CDC), caries is the most common chronic disease of children ages 6 to 11 and adolescents ages 12 to 19.2 And while the prevalence of caries has been decreasing among older children, growing numbers of toddlers are presenting with decay.3 Oral health professionals are key players in the fight against caries in pediatric patients—and winning this fight hinges upon the successful implementation of an effective caries prevention strategy.

Caries management by risk assessment (CAMBRA) is an evidence-based protocol designed to prevent, reverse, and/or treat caries before the disease process causes irreversible damage to tooth structure.4,5 CAMBRA is unique because it considers the entire caries disease process, instead of just progression of the lesion itself. This protocol treats caries as a highly infectious and transmissible bacterial disease that can be effectively treated and/or reversed.1 While traditional therapy has emphasized restorative care, CAMBRA focuses on prevention and early intervention by identifying at-risk patients and implementing strategies to prevent or reduce caries development.

Since its introduction, CAMBRA has contributed to a new paradigm in caries treatment and management. Rather than isolating a single factor or condition, CAMBRA evaluates the presence of disease indicators and assesses the patient’s risk based on biological, behavioral, and medical history factors. As a result, patient care is enhanced through use of a comprehensive, long-term customized approach.5,6


Today, caries risk assessment forms are easily accessed via the American Academy of Pediatric Dentistry (AAPD), American Dental Association (ADA), and California Dental Association (Table 1). These tools provide a standardized format for assessing and documenting caries risk. Divided by age, each patient’s risk factors are noted on the form. The results are tallied, and the patient is categorized as low, moderate, or high risk. Prevention and treatment plans are implemented based on designated risk. As a result of CAMBRA’s impact, in 2014 the ADA added three distinct Current Dental Terminology diagnostic codes—D0601, D0602 and D0603, representing low, moderate, and high risk—for caries risk assessment reporting.

An important indicator of future caries risk is previous caries experience; and while this is key when treating children and adolescents, it has limitations when treating infants and toddlers.7 Caries risk factors are identified as biological (eg, susceptible host, diet, microflora levels, and socioeconomic status), and clinical (eg, plaque accumulation, white spot lesions, precavitated lesions, and caries).8–13 Additional factors include the presence of orthodontic appliances, xerostomia (disease-related or medication induced), special health care needs, bottle or nursing habits, incipient lesions (both radiographic and clinical), and caries within the first 3 years of life.14–16

The evaluation of the bacterial levels present in saliva is an important factor in caries risk assessment.9 Saliva serves many functions, including lubrication of the mucosa and helping in mastication, swallowing and speech. Saliva also protects teeth by acting as a buffer and neutralizing acids produced during the intake of foods and beverages, thus aiding in the remineralization of the tooth surface.17 The presence of Streptococcus mutans in saliva and plaque—regardless of whether caries is present—is an indicator of risk.18 A number of commercially available kits are available to help clinicians analyze the microflora present in a patient’s saliva.

The frequency of food and liquid intake, especially snacks and sugary drinks, must be evaluated, as the consumption of fermentable carbohydrates significantly contributes to the caries process. Bacteria produce acids that feed on fermentable carbohydrates, leading to enamel breakdown.14 In order to promote better oral health, oral hygiene and self-care must be assessed and appropriate instruction provided. The type of toothbrush, amount of fluoride-containing toothpaste used, frequency of brushing and flossing—as well as the use of irrigation devices and fluoride supplements and rinses—should be evaluated for each patient. Previous caries experience of patients, siblings, and their caregivers (mainly mothers) must also be considered.14


An aggressive preventive approach should be part of routine recare visits for all children—regardless of caries risk status—and may include salivary analysis, diet assessment, and patient/parent education.19–21 Dietary analysis and recommendation tools are available through the US Department of Agriculture’s website——which provides information aimed at health care professionals and consumers.22

Prevention-based office visits include professional prophylaxis, topical fluoride treatment, or application of fluoride varnish.23–25 The use of pit and fissure sealants is also an effective approach.26 Sealants can be placed on noncavitated primary and permanent posterior teeth, or early noncavitated lesions on permanent posterior teeth.26 Detecting early minimal caries and placing a sealant over the lesion can inhibit pathogens and arrest lesion progression. This is key in the quest to avoid restorative care.27,28 Research into the use of silver diamine fluoride has shown it to be an effective management tool in arresting certain active caries.29 Resin-infiltration technology is another minimally invasive approach that fills and reinforces demineralized enamel in incipient lesions without the need to reduce tooth structure or provide anesthesia.30 In respect to overall caries management, CAMBRA has been embraced as a key component of minimally invasive dentistry.31

The AAPD and International Caries Detection and Assessment System (ICDAS) Foundation have published caries management protocols that embrace CAMBRA.14,32 The AAPD protocols were introduced in 2006 and the ICDAS Foundation’s system was released in 2014. Both encourage treatment to be customized for each patient. The AAPD system is divided in three distinct protocols: patients age 1 to 2, 3 to 5, and 6 and older. The ICDAS Foundation system is known as the International Caries Classification and Management System (ICCMS) and has separate protocols for primary and permanent teeth.Caries prevention strategies

The AAPD system considers patient risk as low, moderate, or high; in addition, moderate and high classifications are subdivided depending on whether a parent/caregiver is involved in supporting oral hygiene. Recommendations are based according to risk factors. The ICCMS classification is based on preservation of tooth structure and uses four components: history, classification, decision-making, and management. Management divides lesions into initial, moderate, or extensive categories. Lesions in each category are further subdivided as inactive or active. Recommended treatment protocols are determined according to the size and activity level of lesions. In addition to supporting minimally invasive dentistry, the significance of each of these systems is that they are evidence-based and incorporate multiple factors in establishing an individualized treatment plan.

Preventive therapy for patients outside of professional settings includes the recommendation of gum, hard candies, or lozenges containing polyols (such as xylitol or sorbitol) for children older than 5 years. The gum should be chewed for at least 10 minutes following meals. To maximize benefits, a dose of 5 g to 8 g per day divided over two doses or three doses must be ingested.28 Patients at low to moderate risk of caries should use over-the-counter fluoride rinses at 0.05% concentrations.

Although research shows that use of chlorhexidine-containing products is effective in preventing root caries, they may not significantly reduce coronal caries; consequently, their implementation should be on a case-by-case basis.33 Fluoride supplementation in areas without community water fluoridation should be considered.34 For individuals at high risk of caries, high-dose-fluoride prescription topical pastes or dentifrices may be helpful during self-care routines.34 Adding products that contain calcium and phosphate technologies to the self-care routine may also help support caries prevention.1,21


Substantial evidence-based data demonstrate the efficacy and usefulness of CAMBRA and other caries risk and management protocols in dental practice, yet many clinicians have yet to implement these strategies.14,35 Studies support evidence that CAMBRA is beneficial in shifting the balance of protective and pathological factors that affect caries risk and thus contributes to optimal oral health.

Successful intervention results from clinical consideration of multiple factors and preventive components, rather than implementing any single approach. Rather than simply treating conditions, the multifactorial evidence provided under CAMBRA facilitates the effective management of patients’ oral health. This demonstrates how significantly dentistry has progressed from the “cutting into the tooth for the prevention of disease” philosophy introduced by Hyatt36 nearly 100 years ago.

Undoubtedly, implementation of CAMBRA by more dental practices will lead to significant improvements in the oral health of patients—and thus contribute to positive changes in not only oral health, but quality of life, as well.


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  25. Weyant RJ, Tracy SL, Anselmo TT, et al. Topical fluoride for caries prevention: executive summary of the updated clinical recommendations and supporting systematic review. J Am Dent Assoc. 2013;144:1279–1291.
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From Dimensions of Dental Hygiene. June 2019;17(6):14,16,18.

1 Comment
  1. Amanda Hill says

    Great evidence based article on caries and CAMBRA

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