Applications of smart materials in minimally invasive dentistry – some research and clinical perspectives

Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal need...

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Published in:Dental materials Vol. 40; no. 11; pp. 2008 - 2016
Main Authors: Par, M., Cheng, L., Camilleri, J., Lingström, P.
Format: Journal Article
Language:English
Published: England Elsevier Inc 01.11.2024
Subjects:
Artificial Intelligence
Dental Caries - prevention & control
Dental Caries - therapy
Dental Materials - chemistry
Humans
Minimally invasive dentistry
Odontologi
Odontology
Minimally invasive dentistry
ISSN:0109-5641, 1879-0097, 1879-0097
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Abstract Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal needed and the adequacy of the materials available to restore the lost tooth structure. The current review discusses the disease process together with the contemporary management of the carious lesion and also presents substantial evidence on novel materials and techniques that make minimally invasive dentistry predictable. The written work presented shows the most relevant literature for the management of dental caries focusing on novel materials used in minimally invasive dentistry. There is still much to learn about specific antimicrobial and caries prevention mechanisms of novel materials. Materials that respond to a single or a few stimuli remain "weakly intelligent" in the face of the complex microenvironment in the oral cavity. Engineered systems that combine artificial intelligence and chemical engineering, are expected to possess higher intelligence, self-healing capabilities as well as environmental adaptability, and may be future promising research directions. The targeted approach in managing dental caries will hopefully have a better clinical outcome. The strategies discussed are alternatives to the contemporary approach and will improve the clinical management.
AbstractList Objectives: Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal needed and the adequacy of the materials available to restore the lost tooth structure. The current review discusses the disease process together with the contemporary management of the carious lesion and also presents substantial evidence on novel materials and techniques that make minimally invasive dentistry predictable. Methods: The written work presented shows the most relevant literature for the management of dental caries focusing on novel materials used in minimally invasive dentistry. Results: There is still much to learn about specific antimicrobial and caries prevention mechanisms of novel materials. Materials that respond to a single or a few stimuli remain "weakly intelligent" in the face of the complex microenvironment in the oral cavity. Engineered systems that combine artificial intelligence and chemical engineering, are expected to possess higher intelligence, self-healing capabilities as well as environmental adaptability, and may be future promising research directions. Significance: The targeted approach in managing dental caries will hopefully have a better clinical outcome. The strategies discussed are alternatives to the contemporary approach and will improve the clinical management.
Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal needed and the adequacy of the materials available to restore the lost tooth structure. The current review discusses the disease process together with the contemporary management of the carious lesion and also presents substantial evidence on novel materials and techniques that make minimally invasive dentistry predictable. The written work presented shows the most relevant literature for the management of dental caries focusing on novel materials used in minimally invasive dentistry. There is still much to learn about specific antimicrobial and caries prevention mechanisms of novel materials. Materials that respond to a single or a few stimuli remain "weakly intelligent" in the face of the complex microenvironment in the oral cavity. Engineered systems that combine artificial intelligence and chemical engineering, are expected to possess higher intelligence, self-healing capabilities as well as environmental adaptability, and may be future promising research directions. The targeted approach in managing dental caries will hopefully have a better clinical outcome. The strategies discussed are alternatives to the contemporary approach and will improve the clinical management.
Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal needed and the adequacy of the materials available to restore the lost tooth structure. The current review discusses the disease process together with the contemporary management of the carious lesion and also presents substantial evidence on novel materials and techniques that make minimally invasive dentistry predictable.OBJECTIVESDental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing and developed nations. There is substantial literature on the disease process and there is still debate on the extent of caries removal needed and the adequacy of the materials available to restore the lost tooth structure. The current review discusses the disease process together with the contemporary management of the carious lesion and also presents substantial evidence on novel materials and techniques that make minimally invasive dentistry predictable.The written work presented shows the most relevant literature for the management of dental caries focusing on novel materials used in minimally invasive dentistry.METHODSThe written work presented shows the most relevant literature for the management of dental caries focusing on novel materials used in minimally invasive dentistry.There is still much to learn about specific antimicrobial and caries prevention mechanisms of novel materials. Materials that respond to a single or a few stimuli remain "weakly intelligent" in the face of the complex microenvironment in the oral cavity. Engineered systems that combine artificial intelligence and chemical engineering, are expected to possess higher intelligence, self-healing capabilities as well as environmental adaptability, and may be future promising research directions.RESULTSThere is still much to learn about specific antimicrobial and caries prevention mechanisms of novel materials. Materials that respond to a single or a few stimuli remain "weakly intelligent" in the face of the complex microenvironment in the oral cavity. Engineered systems that combine artificial intelligence and chemical engineering, are expected to possess higher intelligence, self-healing capabilities as well as environmental adaptability, and may be future promising research directions.The targeted approach in managing dental caries will hopefully have a better clinical outcome. The strategies discussed are alternatives to the contemporary approach and will improve the clinical management.SIGNIFICANCEThe targeted approach in managing dental caries will hopefully have a better clinical outcome. The strategies discussed are alternatives to the contemporary approach and will improve the clinical management.
Author Lingström, P.
Cheng, L.
Camilleri, J.
Par, M.
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  surname: Cheng
  fullname: Cheng, L.
  organization: State Key Laboratory of Oral Diseases & National Center for Stomatology & National Clinical Research Center for Oral Diseases & West China Hospital of Stomatology, Sichuan University, Chengdu, Sichuan, China
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  organization: Department of Cariology, Institute of Odontolog, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden
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Snippet Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in both developing...
Objectives: Dental caries is one of the most prevalent bacteria-induced non-communicable diseases globally. It is known to be the top oral health burden in...
SourceID swepub
proquest
pubmed
crossref
elsevier
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
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StartPage 2008
SubjectTerms Artificial Intelligence
Dental Caries - prevention & control
Dental Caries - therapy
Dental Materials - chemistry
Humans
Minimally invasive dentistry
Odontologi
Odontology
Title Applications of smart materials in minimally invasive dentistry – some research and clinical perspectives
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0109564124002872
https://dx.doi.org/10.1016/j.dental.2024.09.017
https://www.ncbi.nlm.nih.gov/pubmed/39341720
https://www.proquest.com/docview/3110914101
https://gup.ub.gu.se/publication/343516
Volume 40
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