Management of Deep Carious Lesions
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Management of Deep Carious Lesions - Falk Schwendicke
© Springer International Publishing AG 2018
Falk Schwendicke (ed.)Management of Deep Carious Lesionshttps://doi.org/10.1007/978-3-319-61370-3_1
1. Removing or Controlling?
Falk Schwendicke¹
(1)
Department of Operative and Preventive Dentistry, Charité—Universitätsmedizin Berlin, Berlin, Germany
Falk Schwendicke
Email: [email protected]
Abstract
A changing understanding of the disease dental caries has initiated a paradigm shift in the management of caries and carious lesions. Instead of merely removing the symptoms of the disease (i.e., the carious lesion), the aim of any therapy is to manage the disease. Noninvasive (biofilm control, remineralization, dietary interventions) and microinvasive strategies (sealants, caries infiltration) can either prevent new lesions or inactivate existing ones, or both. Traditionally, these strategies have been used to inactivate only non-cavitated carious lesions. New evidence shows that in some cases, they can also be applied to cavitated carious lesions. More often, for cavitated lesions, invasive strategies involving the placement of a restoration are needed. As restorations have a limited lifespan, their placement should be postponed as far as possible.
Keywords
BiofilmCariesExcavationFluoridesRestorationSealing
1.1 Options to Control Caries and Carious Lesions
Traditionally, the disease dental caries has been seen as an infectious one, with a single or only a few bacterial species, mainly streptococci (especially Streptococcus mutans), being causative in the initiation of carious lesions (specific plaque hypothesis
) [1]. Alternatively, the amount of bacteria has been found decisive for carious lesion initiation, again with bacteria being at the center of the pathogenesis of dental caries (non-specific plaque hypothesis
). Based on such understanding, dentists have strived to remove all cariogenic bacteria for more than a century in an effort to cure
caries [2]. To do so, dental hard tissues, which were presumed to harbor these bacteria, had to be removed, and afterwards the removed tissues were replaced by restorative materials.
Both the understanding of the disease caries and the management of caries and carious lesions (the signs and symptoms of the disease) have changed. Current understanding is that caries is characterized by an ecologic shift within the dental biofilm, starting with a balanced population of microorganisms, only containing limited amounts of acidogenic (acid-producing) and aciduric (acid-tolerating) bacteria (like streptococci and lactobacilli). If supplied with sufficient and regular amounts of fermentable carbohydrates via the diet, this flora changes: Acidogenic bacteria gain a competitive advantage by metabolizing carbohydrates to organic acids, mainly lactic acid, and thereby decreasing the pH. This in turn displaces non-acidogenic and non-aciduric species from the biofilm. After repeated episodes of carbohydrate availability, the biofilm eventually becomes dominated by acidogenic and aciduric species and capable of substantially decreasing the pH [3]. Only then is a lasting loss of minerals from the dental hard tissues possible; under non-pathologic conditions, a minute mineral loss is compensated by mineral gain from the saliva when there is no nutrient supply. The imbalance between de- and remineralization under pathologic conditions eventually leads to a net mineral loss within the dental hard tissues, the result being a carious lesion [4].
Based on this ecological plaque hypothesis,
simply removing carious hard tissues is unsuitable for curing
caries, as it targets the signs and symptoms of the disease (the lesion) by removing and replacing them using restorations, while the causative imbalance, driving the disease process through the dental biofilm, remains. Thus, modern therapeutic concepts for managing dental caries and carious lesions focus on the control of the caries-causing factors (via noninvasive strategies) and the imbalance of mineral gain and mineral loss (mainly via microinvasive strategies). Invasive (restorative) strategies are only used as a last resort (Fig. 1.1). These strategies are briefly presented here:
Fig. 1.1
The pathogenesis of caries and carious lesions and different management strategies, modified from [5]. Both protective (green) and pathogenic (red) factors interact in the process of caries and the associated mineral loss leading to a carious lesion. Noninvasive (blue), microinvasive (yellow), and invasive (red) strategies can be applied for managing the disease or its symptoms, supporting protective factors (+) and reducing pathogenic factors (−)
1.1.1 Noninvasive Strategies
Noninvasive strategies do not significantly modify or breach the surface of a tooth:
Noninvasive strategies include the control and restriction of dietary carbohydrates. These can be attempted using both public health (education, taxing sugar/sugary food or beverages, marketing restrictions for such dietary products) and individual-level education and behavior change strategies (counseling, motivational interviewing, coaching). Providing sugar substitutes (like xylitol) also aims to reduce the intake of cariogenic dietary carbohydrates. Dietary interventions have been evaluated by a limited number of controlled clinical trials and few are of high quality [6, 7]; the evidence is thus not very strong. In theory, however, this approach is greatly attractive, not least because restricting sugar intake is directly relevant for other diseases (including obesity and diabetes mellitus)—tackling sugar intake thus fits well with the public health efforts around the so-called common risk factor approach
to address general health problems [8–11].
A far more common noninvasive management strategy is biofilm control. Tooth brushing, but also interdental biofilm control via interdental brushes or flossing, falls into this category. While tooth brushing has demonstrated benefits for caries prevention (not least as fluoridated toothpaste is delivered regularly) [12, 13], very few studies are available to support interdental hygiene for caries prevention [14]. For children with erupting molars, lateral brushing has been found effective. Antibacterial rinses or varnishes also fall into the category of biofilm removal; however, the evidence supporting these interventions for managing caries or caries lesions continues to be limited [15, 16].
A third noninvasive strategy is to control mineralization, i.e., to rebalance demineralization and remineralization. Topical fluoride application via tooth brushing, rinses, or varnishes are most common, promoting remineralization, inhibiting demineralization, and possibly exerting antibacterial effects (the latter is a debated issue and might have subordinate relevance). An alternative to fluoride as agent for mineralization control is casein phosphopeptide amorphous calcium phosphate (CPP-ACP). While preclinical studies initially pointed towards its benefits, the clinical evidence remains ambiguous, and so far, the additional benefit compared with fluorides has not been convincingly demonstrated [17, 18].
All noninvasive strategies aim to prevent the development of carious lesions (via controlling the disease caries), but can also be used to control the activity of existing lesions and arrest them. It is noteworthy that this distinction between prevention (disease control) and therapy (lesion control) is an artificial one, as (1) the diagnostic differentiation between sound and carious surfaces is far from perfect and very much depends on how and with which means caries detection is performed and (2) the applied strategies do not necessarily differ [19–21]. Therefore, in this book, the term management of caries and carious lesions
is used instead.
1.1.2 Microinvasive Strategies
Besides noninvasive strategies, microinvasive strategies are available to manage caries and carious lesions. These are called microinvasive, as they involve the loss of few micrometers of dental hard tissue for conditioning the tooth surface or for changing its surface properties:
Resin sealants are applied after (phosphoric) acid-etching the surface, allowing micro-retentive adhesion of the placed sealants. Glass ionomer cement sealants condition the surface via their acrylic acid component and adhere to dental hard tissues via an ionic adhesion. Both install a diffusion barrier onto the tooth surface, impeding both acid diffusion into the tooth substance and mineral loss from it; they also increase the cleansability of fissured surfaces (Fig. 1.2). Sealants can thus again be placed to manage caries (preventively) [23], but also to manage carious lesions (arrest them). Traditionally, sealants were mainly applied on occlusal surfaces [24]; more recent studies have also investigated applying them proximally [25], again to prevent mineral loss and thus prevent lesion induction or progression (Fig. 1.3).
An alternative to sealants, which are placed onto the tooth surface, is resin infiltration, with the diffusion barrier being installed within the tooth [26]. After removing the pseudo-intact surface layer of an existing carious lesion (this time using hydrochloric acid), the lesion is dried and a lowly viscous resin applied. As enamel lesions are porous, the resin infiltrates the lesion drawn by capillary forces. The resin is then light-cured and thus protected from further mineral loss, as acid diffusion into the enamel and mineral diffusion out of the enamel are impeded. Given the need for porous enamel to allow the resins to penetrate, resin infiltration cannot be performed on sound surfaces, i.e., it is only applied to manage existing carious lesions.
A third strategy which falls into the microinvasive category is the application of laser for preventing the occurrence of carious lesions. A number of in vitro and clinical studies found laser application to enhance the enamel acid-solubility resistance [27], possibly by removing carbonate impurities [28], and also alter the surface hydrophobicity and thus reduce bacterial adhesion forces [29, 30].
../images/419772_1_En_1_Chapter/419772_1_En_1_Fig2_HTML.jpgFig. 1.2
Different mechanisms of sealing, for managing caries and carious lesions, modified from [22]. The application of fissure sealants was traditionally thought to allow more effective biofilm removal from deep and invaginated fissures which cannot be cleaned using tooth brushes (left side). Based on a current understanding, a second mechanism, the installation of a diffusion barrier to impede acid diffusion into the tooth and mineral loss from tooth substances seems as or even more relevant to protect sound surfaces (right side). The same mechanism, installation of a diffusion barrier, is also used when sealing non-cavitated carious lesions: the lesion is protected from acids and further mineral loss impossible; lesion arrest is the result
../images/419772_1_En_1_Chapter/419772_1_En_1_Fig3_HTML.jpgFig. 1.3
During invasive treatment of the first upper left premolar, access could be gained for sealing a non-cavitated carious lesion on the mesial surface of the second premolar. The lesion (left side) is acid-etched with phosphoric acid for 30 s and adhesively sealed. The adhesive was then carefully polished using a strip (right side)
In this book, we will not discuss all non- or microinvasive strategies in detail. However, resin sealants will be discussed later, as they theoretically can also be used for managing deep, cavitated carious lesions.
1.1.3 Invasive Strategies
A third category of treatments are invasive strategies: These involve the active breach of the surface of the dental hard tissue, mainly using burs or hand excavators, followed by the placement of a restoration. Invasive strategies are no longer aiming at controlling the disease, but controlling the local activity of the dental biofilm, as will be discussed in the next chapter.
1.2 When to Apply What? Guidance on Managing Non-Cavitated and Cavitated Lesions
Given the large and growing number of options available to manage caries and carious lesions, there is great need for guidance on how to choose the best strategy for each specific clinical indication. This book will not discuss the suitability of different strategies aiming to control the disease, but will focus on managing carious lesions.
For carious lesions, different lesion stages and activities might require a different management. These should follow a number of aims or principles, as recently stated in an expert consensus [31]:
inactivation/control of the disease process
preservation of dental hard tissue
avoidance of initiating the cycle of re-restorations
preservation of the tooth as long as possible
When considering carrying out one of the strategies described above, one should evaluate their outcomes against these aims or criteria. One main criterion for deciding whether to perform non-, micro- or invasive strategies is the surface integrity:
Smooth surface coronal lesions with an intact surface are not, or only minimally, bacterially contaminated [32]; the intact enamel prevents bacterial penetration, regardless of the mineral loss in the lesion body underlying the surface layer. Such lesions are cleansable and can be successfully managed via non- or microinvasive means. Given the above aims and criteria against which management strategies should be evaluated, non- and microinvasive strategies are better suited for managing these lesions than invasive strategies, which sacrifice dental hard tissue and initiate the restorative cycle (discussed in more detail below). This means deciding between non- and microinvasive strategies. One would intuitively prefer noninvasive strategies, as no surface conditioning is needed, i.e., hard tissue is preserved, while restorations are avoided. However, noninvasive strategies usually depend on patients’ adherence; their effectiveness might thus be limited unless successful behavior change has been achieved to alter the factors that led to disease initiation in the first place. In fact, a number of controlled studies have found noninvasive strategies to have a lower efficacy for arresting early carious lesions than microinvasive strategies, i.e., sealants or resin infiltration [24, 25].
A more difficult case is occlusal lesions which radiographically extend into dentin, but do not show any surface breach, i.e., cavitation. They are theoretically cleansable and should be treatable using both non- and microinvasive means. However, given the specific anatomy of the fissure, a clinically intact surface area often communicates with the dentin underlying the thin enamel layers, mostly via micro-cavitations. Lesions which extend into the dentin on radiographs therefore often contain large amounts of bacteria [33]. Noninvasive options, like tooth brushing and fluoride application, will not be able to control these lesions any longer. As the bacteria contaminating the dentin are dependent on the supply with dietary carbohydrates to promote mineral loss and lesion progression (as discussed above), one strategy, which is increasingly applied, is sealing these lesions: The sealant acts as a diffusion barrier again, now against carbohydrates [34], which allows even those lesions which contain bacteria to arrest (Figs. 1.4 and 1.5). We will discuss the mechanisms behind such sealing and the bacterial reaction to this environmental stress later in this book.
For clearly cavitated lesions, it is not usually possible to control the lesion using only noninvasive means: Cleansability is no longer possible, the biofilm is sheltered and cannot be fully removed, and the lesion eventually progresses. It should be noted that some cavitated lesions are nevertheless cleansable, depending on their formation (Fig. 1.6). These lesions are usually inactive and do not require any further treatments (except those which might have been applied to inactivate them, like regular fluoride varnish). In some cases, non-cleansable lesions can be easily transformed into cleansable lesions by removing overhanging enamel or dentin. If dentists then encourage effective oral hygiene practices in these areas, including regular fluoridated toothpaste use and healthy dietary practices, this non-restorative cavity control
(NRCC) approach might allow cavitated lesions to arrest and avoid invasive treatments. However, this treatment seems to be less successful than alternative strategies which will be discussed below [35]. Moreover, its application is currently restricted to primary teeth [36–38] and root surface surface