Often, young patients (£30 years old) present with carious lesions that progress acutely, compromising a large amount of tooth structure. In these cases, a treatment to prevent the occurrence of pulp exposure and promote remineralization of caries-affected dentin is necessary to maintain healthy dental structure and allow more conservative interventions. The approach will be different when pulp exposure occurs: The therapeutic treatments will be focused on reparative dentin formation and prevention of microorganisms penetrating the pulp organ. Due to the different possible treatments that can be performed to avoid pulp necrosis and the various materials that can be used for this purpose, professionals may have some difficulties understanding all the indications for conservative pulp treatments. The objective of this article is to describe and discuss a successful pulp capping and stepwise excavation associated with restorative treatment for deep caries lesions of anterior upper teeth.
In young patients (£30 years old), the ideal treatment for deep caries lesions is to preserve the vitality of the dentin-pulp complex through adequate protection. Pulp is responsible for the formation of the reparative dentin/mineralized barrier in teeth with carious lesions. However, dental professionals may have some confusion regarding the applicability and indications of such procedures; they need to fully understand the effects of lesion depth and the response of the pulp after the stimuli.
The first step may be the pulp-condition diagnosis, resulting in a treatment plan. Frequently the proximity of the pathological cavity with the pulp organ, especially during cavity preparation, can lead to pulp exposure. This may allow the penetration of bacteria or toxic substances originating from the restorative materials
To make the maintenance of pulp vitality possible, different conservative treatments can be used, depending of the presence or absence of remaining deep caries lesions (Table 1).
The indirect pulp capping can be indicated for deep cavities because there is no pulp ex- posure to decay. The procedure involves the application of a biocompatible material on the pulpal wall, which stimulates tertiary dentin production and sclerotic dentin, resulting in a biological seal, capable of avoiding irritant substances released from the final restorative material, especially the adhesive systems. For this purpose, the most widely used material is calcium hydroxide, due to its high biocompat- ibility, handling, and low cost. More recently, with its high success rates due to the material resilience and biological properties, mineral trioxide aggregate (MTA) is also employed. Following the application of the capping mate- rial, a protective base of glass-ionomer cement (GIC) and a final restoration, with resin composite or amalgam, has to be placed.
In some clinical situations, during deep cavity preparation and after the complete removal of the decayed dentin, pulp can be exposed accidentally and needs to be protected to guarantee the maintenance of its vitality. In these situations, calcium hydroxide powder or MTA can be used. Both materials present great hemostatic properties, resulting in pulp tissue repair due to superficial necrosis by contact. The contact between pulp tissue and the mate- rial also stimulate mineralized barrier formation after cell differentiation on the exposed area, resulting in a new biological sealing.11,12 After placement of the powder to protect the pulp-dentin complex, the restorative procedure is similar to the process for deep cavities indirect capping: calcium hydroxide cement, GIC base, and amalgam/resin composite.
Another scenario consists of the presence of decay compromising the pulp organ. These cases generate many doubts for clinicians regarding the best therapeutic approaches (Table 1). In general, conservative techniques can be an option for young patients, keeping the tooth’s pulp vitality and allowing conservative interventions in the future.
The more conservative approach, indicated in deep caries lesions with respect to minimal pulp exposure, is stepwise excavation. The goals of this tactic are to mechanically remove the infected (demineralized) dentin, reducing the amount of cariogenic microorganisms, and to seal the partially demineralized dentin by placement of calcium hydroxide paste over the remaining pulpal wall and to perform a pro- visional restoration with GIC (first intervention). The biological mechanism consists of the reduction of the cariogenic microorganisms’ action (bacteriostatic action) and stimulation of odontoblasts to form reparative and sclerotic dentin. After 45 to 90 days, the remaining carious dentin can be removed and the cavity preparation can be performed with a lower risk for pulpal exposure. In fact, this procedure has been shown to reduce pulp exposures by 98% when compared with the one-visit approach in which all carious lesions are removed; the lit- erature supports this technique to avoid more complex restorative procedures.
Direct pulp capping is another conservative treatment that involves vital pulp exposure without surrounding decayed tissue. In such cases, a direct capping with biomaterial (calcium hydroxide paste/powder or MTA) is es- sential for maintaining the pulp vitality, through the formation of a new mineralized barrier. Then, a provisional restoration may be executed with the use of a calcium hy- droxide cement and GIC. After 45 to 90 days, the mineralized barrier should be clinically checked and the same sequence described for indirect capping can be adopted.
In cases in which the pulp tissue is involved with decayed tissue, a partial pulpotomy may be performed, characterized by the superficial removal of the contaminated pulp tissue; the contaminated pulp is removed to the level of healthy tissue. Despite the described procedures, in cases in which the pulp tissue is more contaminated, the total removal of coronary pulp tissue is a more conservative choice com- pared with performing root-canal treatments. The goal of partial and total pulpotomies, stepwise excavation, and direct pulp capping is to ensure a clean surgical wound and improved interaction between the pulp and cap- ping agent, stimulating the differentiation of mesenchymal stem cells, forming a new mineralized dentin barrier, and isolating the pulp cavity. For all these approaches, the patient’s age is an important factor due to the higher capacity of pulp tissue to regenerate in young patients. The authors recommend the use of this technique for permanent teeth.
Considering the vast array of therapeutic procedures, professionals face numerous concerns. Thus, this article attempts to present the different treatment sequences for maxillary incisors with extensive carious lesions, with maintenance of the pulp vitality and restoration of teeth anatomy and function. The authors advise against using this procedure in cases in which irreversible pulpitis is diagnosed.
In cases in which the pulp tissue is involved with decayed tissue, a partial pulpotomy may be performed, characterized by the superficial removal of the contaminated pulp tissue; the contaminated pulp is removed to the level of healthy tissue. Despite the described procedures, in cases in which the pulp tissue is more contaminated, the total removal of coronary pulp tissue is a more conservative choice com- pared with performing root-canal treatments. The goal of partial and total pulpotomies, stepwise excavation, and direct pulp capping is to ensure a clean surgical wound and improved interaction between the pulp and cap- ping agent, stimulating the differentiation of mesenchymal stem cells, forming a new mineralized dentin barrier, and isolating the pulp cavity. For all these approaches, the patient’s age is an important factor due to the higher capacity of pulp tissue to regenerate in young patients. The authors recommend the use of this technique for permanent teeth.
Considering the vast array of therapeutic procedures, professionals face numerous concerns. Thus, this article attempts to present the different treatment sequences for maxillary incisors with extensive carious lesions, with maintenance of the pulp vitality and restoration of teeth anatomy and function. The authors advise against using this procedure in cases in which irreversible pulpitis is diagnosed.
Case Report
A 12-year-old male presented with exten- sive carious lesions observed on teeth Nos. 7 through 10, which were accompanied with gingivitis (Figure 1). The pulpal condition was verified through thermal sensitivity tests and vertical percussion, both being satisfactory (Figure 2). The proximity of the lesions with the pulp chamber and the absence of periapi- cal lesions, especially in the right lateral inci- sor, were observed by the radiographic examination (Figure 3).
The established treatment plan consisted of stepwise excavation in all compromised teeth and the subsequent restoration with resin composite. During the cavity preparation, the pulp of the right lateral incisor was accidentally ex- posed, so a partial pulpotomy was performed.
First Session
For the stepwise excavation, isolation with a rubber dam was performed prior to the removal of the infected tissue in the whole extension of the surrounding walls, with the aid of Nos. 3 and 4 rounded stainless steel burs at low speed. The disorganized dentin of the axial walls was removed with manual excavators (Figure 4). A 1-mm layer of calcium hydroxide paste was ap- plied on the axial walls, and a GIC provisional restoration was performed; GIC was inserted with a syringe to avoid the incorporation of air bubbles into the material, thus, enabling bet- ter sealing. The option for a GIC relied on its good sealing properties, allowing more favor- able conditions for the pulp-repairing activity. The partial pulpotomy was performed for tooth No. 7 due to the pulp exposure during the caries removal procedures (Figure 5). The superficial contaminated pulp tissue was removed with a No. 1012 spherical diamond bur at high speed with water cooling to allow a better re- parative response. This procedure was limited to removal of the infected dentin and damaged pulp tissue, removing the injured odontoblast cell layer. During this step, the remaining pulp tissue was analyzed and found to have good consistency and abundant red bleeding (Figure 6). After the pulpotomy, a solution of calcium hydroxide was used for irrigation along with a sterile cotton pellet to achieve hemostasis and disinfection. After hemostasis, the tooth was treated with direct pulp capping: the exposed area was covered with calcium hydroxide pow- der (Figure 7) and calcium hydroxide cement (Figure 8). The cavity was provisionally restored with the use of a restorative GIC (Figure 9).
Second Session
Ninety days after the first session, clinical and radiographic examinations were performed, showing normal pulp response, absence of spontaneous pain, and no evidence of apical pathology in all teeth. Radiographic evalua- tion of tooth No. 7 showed the presence of a mineralized barrier (Figure 10).
Once the maintenance of pulp vitality was verified, esthetic restorations of the teeth were performed. Initially, the teeth color shade was selected with the aid of a commonly used shade guide. After the isolation with a rubber dam, complete removal of the decayed den- tin was performed in the teeth that received the stepwise excavation. The clinical verifica- tion of the presence of the mineralized barrier was performed in the maxillary lateral inci- sor with the aid of a disinfected gutta-percha cone, compatible with the diameter of the cavity. The authors recommend this procedure, because it allows the clinician to verify the formation of a mineralized barrier without compromising this critical area or causing a new exposure of the pulp tissue to the oral environment (Figure 11). After this, all teeth were treated with an indirect pulp capping technique. To obtain esthetics and function- ality, beveling of both buccal and lingual sur- faces was performed with No. 3118 diamond burs (Figure 12).
After the cavity preparation, calcium hy- droxide cement and a lining with resin-mod- ified GIC were employed for protection of the pulp-dentin complex (Figure 13). Then the enamel and dentin were conditioned with 37% phosphoric acid for 30 seconds and 15 seconds, respectively, followed by the application of the adhesive system according the manufacturer’s guidelines (Figure 14).
The insertion of nanohybrid composite res- in was performed with the stratified technique to mimic teeth’s different colors and shades. First, an opaque (saturated chroma) layer was employed, followed by translucent layers sim- ulating buccal and proximal enamel (Figure 15). Restoration excesses were removed with a No. 12 scalpel blade and No. 7214 multi- laminated burs, and an occlusion adjustment was made. After 7 days, final finishing and polishing were performed using abrasive discs (Figure 16), multi-laminated burs, abrasive rubber points, and, finally, a felt disk with 40-μm dia- mond paste (Figure 17 and Figure 18). The re- sults could be observed after 200 days (Figure 19), demonstrating the absence of a pathologic lesion in the apical region of the lateral incisor with an esthetic favorable condition, gingi- val health reestablishment, and pulp vitality maintenance.
First Session
For the stepwise excavation, isolation with a rubber dam was performed prior to the removal of the infected tissue in the whole extension of the surrounding walls, with the aid of Nos. 3 and 4 rounded stainless steel burs at low speed. The disorganized dentin of the axial walls was removed with manual excavators (Figure 4). A 1-mm layer of calcium hydroxide paste was ap- plied on the axial walls, and a GIC provisional restoration was performed; GIC was inserted with a syringe to avoid the incorporation of air bubbles into the material, thus, enabling bet- ter sealing. The option for a GIC relied on its good sealing properties, allowing more favor- able conditions for the pulp-repairing activity. The partial pulpotomy was performed for tooth No. 7 due to the pulp exposure during the caries removal procedures (Figure 5). The superficial contaminated pulp tissue was removed with a No. 1012 spherical diamond bur at high speed with water cooling to allow a better re- parative response. This procedure was limited to removal of the infected dentin and damaged pulp tissue, removing the injured odontoblast cell layer. During this step, the remaining pulp tissue was analyzed and found to have good consistency and abundant red bleeding (Figure 6). After the pulpotomy, a solution of calcium hydroxide was used for irrigation along with a sterile cotton pellet to achieve hemostasis and disinfection. After hemostasis, the tooth was treated with direct pulp capping: the exposed area was covered with calcium hydroxide pow- der (Figure 7) and calcium hydroxide cement (Figure 8). The cavity was provisionally restored with the use of a restorative GIC (Figure 9).
Second Session
Ninety days after the first session, clinical and radiographic examinations were performed, showing normal pulp response, absence of spontaneous pain, and no evidence of apical pathology in all teeth. Radiographic evalua- tion of tooth No. 7 showed the presence of a mineralized barrier (Figure 10).
Once the maintenance of pulp vitality was verified, esthetic restorations of the teeth were performed. Initially, the teeth color shade was selected with the aid of a commonly used shade guide. After the isolation with a rubber dam, complete removal of the decayed den- tin was performed in the teeth that received the stepwise excavation. The clinical verifica- tion of the presence of the mineralized barrier was performed in the maxillary lateral inci- sor with the aid of a disinfected gutta-percha cone, compatible with the diameter of the cavity. The authors recommend this procedure, because it allows the clinician to verify the formation of a mineralized barrier without compromising this critical area or causing a new exposure of the pulp tissue to the oral environment (Figure 11). After this, all teeth were treated with an indirect pulp capping technique. To obtain esthetics and function- ality, beveling of both buccal and lingual sur- faces was performed with No. 3118 diamond burs (Figure 12).
After the cavity preparation, calcium hy- droxide cement and a lining with resin-mod- ified GIC were employed for protection of the pulp-dentin complex (Figure 13). Then the enamel and dentin were conditioned with 37% phosphoric acid for 30 seconds and 15 seconds, respectively, followed by the application of the adhesive system according the manufacturer’s guidelines (Figure 14).
The insertion of nanohybrid composite res- in was performed with the stratified technique to mimic teeth’s different colors and shades. First, an opaque (saturated chroma) layer was employed, followed by translucent layers sim- ulating buccal and proximal enamel (Figure 15). Restoration excesses were removed with a No. 12 scalpel blade and No. 7214 multi- laminated burs, and an occlusion adjustment was made. After 7 days, final finishing and polishing were performed using abrasive discs (Figure 16), multi-laminated burs, abrasive rubber points, and, finally, a felt disk with 40-μm dia- mond paste (Figure 17 and Figure 18). The re- sults could be observed after 200 days (Figure 19), demonstrating the absence of a pathologic lesion in the apical region of the lateral incisor with an esthetic favorable condition, gingi- val health reestablishment, and pulp vitality maintenance.
Conclusion
This case report showed different conserva- tive approaches capable of preserving tooth vitality through removal of total or a greater part of the bacteria, their components, and breakdown products from dentin matrix, al- lowing better interaction between the mate- rial and dental pulp. The fundamental point is to recognize that there are different treatments that are depen- dent on the lesions’ depths. Thus, the philoso- phy behind such approaches is the advantages of tooth vitality associated with the absence of signs and symptoms of irreversible pulpi- tis, pulpal necrosis, and/or apical pathology. Finally, yet most importantly, adequate seal- ing of the instrumented cavity is essential in the different clinical stages to ensure main- tenance and healing of the pulp tissue, in a bacteria-free environment.
This case report showed different conserva- tive approaches capable of preserving tooth vitality through removal of total or a greater part of the bacteria, their components, and breakdown products from dentin matrix, al- lowing better interaction between the mate- rial and dental pulp. The fundamental point is to recognize that there are different treatments that are depen- dent on the lesions’ depths. Thus, the philoso- phy behind such approaches is the advantages of tooth vitality associated with the absence of signs and symptoms of irreversible pulpi- tis, pulpal necrosis, and/or apical pathology. Finally, yet most importantly, adequate seal- ing of the instrumented cavity is essential in the different clinical stages to ensure main- tenance and healing of the pulp tissue, in a bacteria-free environment.
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