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Expert Review of Gastroenterology &... Sep 2021: Dental erosion occurs by dissolving dental apatite when exposed to non-bacterial acids. One of the factors that predispose to dental erosion is gastroesophageal reflux...
: Dental erosion occurs by dissolving dental apatite when exposed to non-bacterial acids. One of the factors that predispose to dental erosion is gastroesophageal reflux disease (GERD) due to chronic regurgitation of gastric contents to the oropharynx. Thus, in addition to other extraesophageal symptoms, individuals with GERD may have erosive dental lesions.: The objective of this systematic review was to evaluate the association and prevalence of erosive wear in patients with GERD. The bibliographic search was performed in the Pubmed and Web of Science databases, using the descriptors 'gastroesophageal reflux disease' AND 'dental erosion', considering clinical studies recently published from 2012 to 2020.: GERD can be considered a risk factor for the development of erosive dental lesions, whose prevalence was significantly higher in this group. However, several other factors can be commonly associated with the prevalence and severity of dental erosion among the world population, such as dietary habits, lifestyle, abrasion and bruxism. Thus, the prevalence and distribution of erosive lesions among healthy and GERD subjects varied widely among studies, which denotes the etiological complexity of dental erosion and reinforces the importance of careful and detailed anamnesis in order to establish an accurate diagnosis.
Topics: Bruxism; Diet; Gastroesophageal Reflux; Humans; Life Style; Prevalence; Risk Factors; Tooth Abrasion; Tooth Erosion
PubMed: 33571021
DOI: 10.1080/17474124.2021.1890030 -
Regenerative Medicine Dec 2020To ascertain clinical effectiveness of anorganic bovine-derived hydroxyapatite matrix/cell-binding peptide (ABM/P-15) for regeneration of periodontal defects.... (Meta-Analysis)
Meta-Analysis
Clinical effectiveness of anorganic bovine-derived hydroxyapatite matrix/cell-binding peptide grafts for regeneration of periodontal defects: a systematic review and meta-analysis.
To ascertain clinical effectiveness of anorganic bovine-derived hydroxyapatite matrix/cell-binding peptide (ABM/P-15) for regeneration of periodontal defects. Electronic databases (National Library of Medicine [Medline by PubMed], Cochrane Library [Wiley], CINAHL [EBSCO] and Medline [EBSCO]) were systematically searched up to December 2019. Randomized controlled clinical trials comparing ABM/P-15 grafts to conventional surgery for intrabony and gingival recession defects were included and evaluated intrabony defects including clinical attachment level (CAL), probing depth and gingival recession. A significant gain in CAL (1.37 mm), and reduction in probing depth (1.22 mm) were shown by ABM/P-15 grafts than open flap debridement (p < 0.00001). The subgroup analysis also showed better results for ABM/P-15 grafts in CAL gain for intrabony defects. For furcation and gingival recession defects, no significant difference was seen. The adjunct use of ABM/P-15 grafts in conventional periodontal surgery is useful for periodontal regeneration of intrabony defects.
Topics: Alveolar Bone Loss; Animals; Cattle; Follow-Up Studies; Guided Tissue Regeneration, Periodontal; Hydroxyapatites; Peptides; Regeneration; Treatment Outcome
PubMed: 33356535
DOI: 10.2217/rme-2020-0113 -
Drug Metabolism Reviews May 2020Nano-hydroxyapatite (nano-HA) is a material with multiple uses due to its biocompatibility and its resemblance to the nonorganic bone structure. It is used in various...
Nano-hydroxyapatite (nano-HA) is a material with multiple uses due to its biocompatibility and its resemblance to the nonorganic bone structure. It is used in various dental domains such as implantology, surgery, periodontology, esthetics and prevention. The aim of this study is to provide a wide understanding of nano-HA and to promote treatments based on nanomaterials in dentistry. A search in two data bases, Scopus, and PubMED, was conducted over a 5 years period. We chose a 5 years period because this revealed the most recent published studies with the key words 'nano-HA' and 'dentistry'. A number of 32 studies were included in this systematic review. In implantology the main use of nano-HA was as a coating material for titanium implants and its effect was assessed in the matter of osteointegration and inflammatory response as well as antibacterial activity. In tissue engineering the use of nano-HA was directed to surgery and periodontology and this material was assessed mainly as a grafting material. In esthetics and prevention its use was mainly focused on dentinal hypersensitivity treatment, remineralizing potential and as bleaching co-agent. Nano-HA is a relatively novel material with outstanding physical, chemical, mechanical and biological properties that makes it suitable for multiple interventions. It outperformed most of the classic materials used in implantology and surgery but it should be further investigated for bone engineering and caries therapy.
Topics: Animals; Dental Materials; Dental Prosthesis; Humans; Hydroxyapatites; Nanoparticles
PubMed: 32393070
DOI: 10.1080/03602532.2020.1758713 -
The British Journal of Oral &... Jul 2020Tissue engineering is a promising alternative that may facilitate bony regeneration in small defects in compromised host tissue as well as large mandibular defects. This...
Tissue engineering is a promising alternative that may facilitate bony regeneration in small defects in compromised host tissue as well as large mandibular defects. This scoping systematic review was therefore designed to assess in vivo research on its use in the reconstruction of mandibular defects in animal models. A total of 4524 articles were initially retrieved using the search algorithm. After screening of the titles and abstracts, 269 full texts were retrieved, and a total of 72 studies included. Just two of the included studies employed osteonecrosis as the model of mandibular injury. All the rest involved the creation of a critical defect. Calcium phosphates, especially tricalcium phosphate and hydroxyapatite, were the scaffolds most widely used. All the studies that used a scaffold reported increased formation of bone when compared with negative controls. When combined with scaffolds, mesenchymal stem cells (MSC) increased the formation of new bone and improved healing. Various growth factors have been studied for their potential use in the regeneration of the maxillofacial complex. Bone morphogenic proteins (BMP) were the most popular, and all subtypes promoted significant formation of bone compared with controls. Whilst the studies published to date suggest a promising future, our review has shown that several shortfalls must be addressed before the findings can be translated into clinical practice. A greater understanding of the underlying cellular and molecular mechanisms is required to identify the optimal combination of components that are needed for predictable and feasible reconstruction or regeneration of mandibular bone. In particular, a greater understanding of the biological aspects of the regenerative triad is needed before we can to work towards widespread translation into clinical practice.
Topics: Animals; Bone Regeneration; Durapatite; Mandible; Osteogenesis; Tissue Engineering; Tissue Scaffolds
PubMed: 32247521
DOI: 10.1016/j.bjoms.2020.03.016 -
The Journal of Contemporary Dental... Aug 2019Since a long time, the preservation of the socket is emphasized for various reasons. Many studies have suggested the ridge preservation through socket grafting using... (Meta-Analysis)
Meta-Analysis
UNLABELLED
Since a long time, the preservation of the socket is emphasized for various reasons. Many studies have suggested the ridge preservation through socket grafting using various bone graft substitute materials (GSMs). But none of the studies suggested the material of choice for the grafting. So, the systematic review was planned to analyze the outcomes of synthetic hydroxyapatite (SHA) graft material for socket preservation. The review was aimed to determine the existing evidence for the use of SHA GSM for grafting and its usefulness.
MATERIALS AND METHODS
The literature search was performed for the studies published in the English language independently by all four authors (search team) in the Medline database through the PubMed search engine for the past 5 years. The study involved predetermined inclusion and exclusion criteria for the search. The final lists of clinical trials were analyzed to determine the existing evidence and suggested the mechanism of action.
REVIEW RESULTS
The search resulted in 117 titles. After application of inclusion and exclusion criteria, a total of seven studies were found eligible for this systematic review. Out of seven, two studies were found eligible for meta-analysis whereas remaining included for the systematic review.
CONCLUSION
The meta-analysis favors socket grafting compared to control in terms of preservation of existing bone height and width. The SHA grafting showed successful bone regeneration with less connective tissue component. The histomorphometric evaluation showed a good bone regeneration associated with SHA than xenograft. Within the limitations of this meta-analysis, the synthetic GSM can be used for socket grafting.
CLINICAL SIGNIFICANCE
In the wake of increasing graft materials in the market and different origin raw material sources for the preparation of graft materials, clinicians are in dilemma for selection and its use. The success of grafting depends on the selection of appropriate material with a suitable calcium/phosphate (Ca/P) ratio. The review provided available evidence for the use of SHA.
Topics: Alveolar Ridge Augmentation; Bone Regeneration; Bone Transplantation; Durapatite; Heterografts; Tooth Extraction; Tooth Socket
PubMed: 31797859
DOI: No ID Found -
Biointerphases Aug 2019In this systematic review, the authors explored the surface aspects of various titanium (Ti) or Ti alloy medical implants, examining the interface formed between the...
In this systematic review, the authors explored the surface aspects of various titanium (Ti) or Ti alloy medical implants, examining the interface formed between the implant and surrounding nonkeratinized soft tissues (periosteum, muscles, tendons, fat, cicatrix, or dura mater). A comprehensive search undertaken in July 2019 used strict keywords in relevant electronic databases to identify relevant studies. Based on the authors' inclusion criteria (restricted to in vivo studies), 19 of 651 publications qualified, all pertaining to animal models. The syrcle's risk of bias tool for animal studies was applied at study level. Given the broad nature of the reported results and the many different parameters measured, the articles under scrutiny were assigned to five research subgroups according to their surface modification types: mechanical surface modifications, oxidative processes (e.g., acid etching, anodization, microarc oxidation), sol-gel derived titania (TiO) coatings, biofunctionalized surfaces, and a subgroup for other modifications. The primary outcome was a liquid space at the interface (e.g., seroma formation) that was reported in six studies. Machining Ti implants to a roughness between R = 0.5 and 1.0 μm was shown to induce soft-tissue adhesion. Smoother surfaces, with the exception of acid polished and anodized Ti (R = 0.2 μm), prevented soft-tissue adhesion. A fibroblast growth factor 2 apatite composite coating promoted soft-tissue attachment via Sharpey-like fibers. In theory, this implant-soft tissue interface could be nearly perfect.
Topics: Alloys; Coated Materials, Biocompatible; Materials Testing; Prostheses and Implants; Surface Properties; Titanium
PubMed: 31419910
DOI: 10.1116/1.5113607