|Year : 2021 | Volume
| Issue : 2 | Page : 97-99
Minimally invasive dentistry – A review
Shilpa Ajai1, K Mahalakshmi2
1 Dental Practitioner, Modern Dentistry Dental Clinic, Chetpet, Tamil Nadu, India
2 Public Health Dentistry, Meenakshi Ammal Dental College, Chennai, Tamil Nadu, India
|Date of Submission||04-Jan-2022|
|Date of Acceptance||17-Feb-2022|
|Date of Web Publication||26-Mar-2022|
Dr. Shilpa Ajai
Department of Public Health Dentistry, Meenakshi Ammal Dental College, Chennai, Tamil Nadu
Source of Support: None, Conflict of Interest: None
Minimal intervention dentistry initiates from the traditional surgical approach to the elimination of caries lesions seen as radiolucencies in the inner half of the enamel, at the dentin-enamel junction, and slightly into dentin, with the removal of the minimal amount of healthy tooth structure. Dental adhesives and restorative materials, changes in remineralization, caries process, and prevalence have revolutionized the caries management from G. V. Black's “extension for prevention” to “minimally invasive.”
Keywords: Caries diagnosis, minimally invasive dentistry, remineralization
|How to cite this article:|
Ajai S, Mahalakshmi K. Minimally invasive dentistry – A review. Int J Community Dent 2021;9:97-9
| Introduction|| |
Minimum invasion dentistry (MI) is defined as a philosophy of professional care, concerned with the occurrence, early detection, and earliest possible cure of disease on a microlevel, followed by minimally invasive treatment to repair irreversible damages caused by such disease. To overcome the G. V. Black's “extension for prevention” and to reduce the size of cavity preparation, the minimal intervention paradigm stresses the use of adhesive restorative materials., This article gives an overview of the concepts of minimal intervention dentistry, describes suggested techniques for a minimally invasive operative approach, and reviews clinical studies which have been carried out in this area.
| Historical Background|| |
The use of silver diamine fluoride 2 as a minimally invasive procedure in dentistry was pioneered in the early 1970s. Soon after, many innovations came forth with the objective of prevention of caries. In the 1980s, preventive resin restoration (PRR) was developed, followed by atraumatic restorative treatment (ART) in the 1980s, and chemomechanical caries removal concepts in the 1990s.
| Golden Triangle of Mid|| |
A thorough understanding and appreciation of the interplay between three critical factors is required to achieve success clinically when using a minimally invasive operative caries management strategy (MI OCMS):,
- The histology of the dental substrate being treated
- The chemistry/handling of the adhesive materials used to restore the cavity
- Consideration of the practical operative techniques available to excavate caries minimally.
| Core Minimum Intervention Principles|| |
The four core principles of MID can be summarized as follows:
- Recognition – to identify and assess any potential caries risk factors early, through lifestyle analysis, saliva testing, and using plaque diagnostic tests
- Reduction – to eliminate or minimize caries risk factors, through altering fluid balance, reducing the intake of dietary cariogenic foods, addressing lifestyle habits such as smoking, and increasing the pH of the oral environment
- Regeneration – to arrest and reverse incipient lesions, regenerating enamel subsurface lesions, and arresting root surface lesions using appropriate topical agents including fluorides and casein phosphopeptides-amorphous calcium
- Repair – when cavitation is present and surgical intervention is required, as much as possible of the tooth structure is maintained using conservative approaches to caries removal. Bioactive materials are used to restore the tooth and promote internal healing of the dentin, particularly in cases of deep dentin caries, where the risk of iatrogenic pulpal injury is high.
| Concept of Minimum Intervention|| |
The concept of minimal intervention dentistry initiates from the traditional surgical approach to the elimination of caries lesions seen as radiolucencies in the inner half of the enamel, at the dentin-enamel junction, and slightly into dentin, but with little or no evidence of cavitations. Preservation of natural tooth structure should be the guiding factor., Cavity preparation design and restorative material selection must depend on the occlusal load and wear factors.
An appropriate classification for assessing radiographic changes in proximal radiolucencies is as follows: E1 = outer half of enamel
- E2 = inner half of enamel
- D1 = outer third of dentin
- D2 = middle third of dentin
- D3 = inner third of dentin.
| The Minimal Intervention Approach|| |
- Caries diagnosis
- Early restoration
- Caries control.
| Disease Risk Assessment AND Early Caries Diagnosis|| |
- High risk – The presence of a single risk indicator in any area of the “high risk” category is sufficient to classify a child as being at “high risk”,
- Moderate risk – The presence of at least 1 “moderate risk” indicator and no “high risk” indicator results in “moderate risk” classification
- Low risk – The child does not have “moderate risk” or “high risk” indicators.
Earliest caries detection, traditionally by use of mirror and light, as well as bitewing radiographs, can now be aided by new developments in dental magnification and imaging, laser fluorescence, or quantitative light-induced fluorescence. One of the latest methods used nowadays is optical coherence tomography – it is an optical ultrasound that emits no radiation and provides detailed information to operator.
Remineralization of early lesion and reduction in cariogenic bacteria
In the non (1–5) cavitated lesion, to take advantage of the tooth's capacity to remineralize, one must first alter the oral environment, to tip the balance in favor of remineralization, and away from demineralization. This approach includes:
- Decreasing the frequency of intake of refined carbohydrates
- Ensuring optimum plaque control
- Ensuring optimum salivary flow
- Conducting patient education.
Agents such as chlorhexidine and topical fluorides can be applied to encourage remineralization. Chlorhexidine acts by reducing the number of cariogenic bacteria.,
| Adhesive Restorative Materials|| |
If the caries lesion has reached the stage of cavitation making plaque control difficult or impossible, a surgical approach is generally required. The infected tissue must be removed and replaced with a suitable restorative material, such that form and function are restored, and the patient is able to re-establish excellent plaque control. The advent of adhesive restorative materials has enabled minimal intervention principles to be applied to cavity preparation, and the materials which can be used for this purpose are described here.
They are classified as:
- Passive smart materials
- Glass ionomer cement (GIC)
- Resin-modified GIC
- Composite adhesive resin
- Active smart materials
- Ariston pHc alkaline glass restorative
- Amorphous calcium phosphate composite EQUIA restorative system-It includes a high viscosity GIC (EQUIA Fil or Fuji IX GP Extra) with a highly-filled, light curing varnish (EQUIA Coat or G-Coat Plus)-It has advantages of high-viscosity GIC (self-adhesion, bulk application, improved mechanical properties) and protective resin coating which increases its fracture toughness and reduces microleakage-indication-cost effective, mercury free and Aesthetic tooth restoration.
Preventive resin restoration
PRR is indicated in teeth with minimal teeth and fissures decay. In this, minimal cavity preparation is required to prevent unnecessary removal of healthy tooth structures for retention. If the decay is limited to enamel, then no local analgesia is required. After etching, rinsing, and drying, the cavity is condensed with a normal composite or GIC.
Atraumatic restorative technique
ART approach involves the removal of only soft, demineralized tooth tissue with hand instruments, followed by filling the cleaned cavity and associated pits and fissures with adhesive restorative materials.
This involves the application of a chemical solution to the caries, selectively softening the carious dentin, facilitating its removal with mechanical hand instruments, and without affecting sound noncarious dentin (Morrow et al., 2000; Ericson et al., 1999). The most efficient system available is Carisolv™ (Mediteam Dental, Gothenburg, Sweden). Carisolv can be used solely or in combination with other methods that may be required to gain access to the lesion. This method is particularly suitable for root surface caries and large cavitated coronal cavities. It has the advantage of not usually requiring the use of local anesthesia.
Sonic tooth preparation
This utilizes the vibrational energy of ultrasonically vibrated metal tips, rather than rotation. It allows precise minimal cutting preparation using diamond-coated tips.,
This utilizes a stream of 27.5-micron aluminum oxide particles under air pressure to remove tooth substances by brittle fracture. It produces less heat, sound, or vibration compared to high-speed instrumentation and does not induce microfractures.
The mechanism of hard tissue removal is basically an explosive subsurface expansion of the interstitially trapped water, with the rapid ejection of tooth particles in the opposite direction to the incoming laser beam. As carious tooth structure has a higher water content than sound tooth, it is rapidly and effectively removed by the laser energy.
Cavity Designs for Minimal Invasion Dentistry
Cavity design principles
- Gaining access to the body of the lesion without being destructive
- Removal of tooth structure that is infected and incapable of regeneration
- Avoiding the exposure of dentin unaffected by the caries process
- Retaining and reinforcing sound, but undermined enamel
- Reducing perimeter of the restoration
- Keeping the margins of the restoration away from the gingiva
- Reducing occlusal stress on the final restoration.
Designs of cavity preparations
Specific designs for approximal lesions:
- Tunnel preparation
- Microchip cavity preparation
- Minibox cavity preparation
- Full box cavity preparation.
| Advantages of Minimum Intervention Dentistry|| |
Minimal intervention applies a more conservative approach to caries treatment and simultaneously offers patients less invasive, health-oriented treatment options. The benefit for patients from MI lies in better oral health, minimizing the restoration cycle, and reducing the patient dental anxieties. MI includes clinical procedures such as assessment of caries risk, early detection of the disease, followed by restoration of fissure caries with maximum retention.
| Conclusion|| |
In the 21st century, greater emphasis must be placed on assessing caries risk, shifting patients to a low caries risk status, remineralizing noncavitated lesions, abandoning the surgical approach to caries management, and repairing rather than replacing defective restorations. There is a clear need for research to improve the sensitivity of diagnostic methods, to develop site-specific indicators of future caries risk, and to establish clear guidelines on the management of caries as an infectious disease.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Walsh LJ, Brostek AM. Minimum intervention dentistry principles and objectives. Aust Dent J 2013;58 Suppl 1:3-16.
Meyers IA. Minimum intervention dentistry and the management of tooth wear in general practice. Aust Dent J 2013;58:60-5.
Haynes S. A perspective from the dental industry on minimum intervention dentistry. Aust Dent J 2013;58:66-9.
Banerjee A. The role of glass-ionomer cements in minimum intervention (mi) caries management. Glass Ionomers Dent 2016:81-96.
Hallett KB. The application of caries risk assessment in minimum intervention dentistry. Aust Dent J 2013;58:26-34.
Hayes M, Allen E, da Mata C, McKenna G, Burke F. Minimal intervention dentistry and older patients part 2: Minimally invasive operative interventions. Dent Update 2014;41:500-5.
Green D, Mackenzie L, Banerjee A. Minimally invasive long-term management of direct restorations: The “5 Rs.” Dent Update 2015;42:413-6, 419-21, 423-6.
Ericson D. The concept of minimally invasive dentistry. Dent Update 2007;34:9-18.
Alam BF, Najmi MA, Qasim SB, Almulhim KS, Ali S. A bibliometric analysis of minimally invasive dentistry: A review of the literature from 1994 to 2021. J Prosthet Dent 2021. [doi: 10.1016/j.prosdent. 2021.09.023].
Torres PJ, Phan HT, Bojorquez AK, Garcia-Godoy F, Pinzon LM. Minimally invasive techniques used for caries management in dentistry. A review. J Clin Pediatr Dent 2021;45:224-32.
Mm J, Nk B, A P. Minimal intervention dentistry – A new frontier in clinical dentistry. J Clin Diagn Res 2014;8:E04-8.