Novel Bioceramic Root Repair Materials: Review of the Literature

Brzęcka, Dagna Maria; Staniowski, Tomasz

doi:10.17219/dmp/63945

Cited by 4 publications

(3 citation statements)

References 19 publications

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“…The study demonstrated MTA's ability for apical closure induction and resolution of periapical lesions in immature teeth [129]. Nevertheless, MTA is considered to have a potential for discoloration of coronal dentine, when used as a canal sealer [132][133][134]. This brings a major esthetic concern for anterior teeth treatment.…”

Section: Discussionmentioning

confidence: 95%

“…Once this is accomplished, a mineral trioxide aggregate (MTA) cement is placed over the blood clot or scaffold to seal the root canal space, and prevent bacterial invasion [83]. MTA exhibits a bioinductive capacity, reparative properties [131], and biocompatibility to tooth tissues [103,132]. An interesting result was provided by research aimed at evaluating histologically the newly generated tissue after RET.…”

Section: Discussionmentioning

confidence: 99%

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Different Approaches to the Regeneration of Dental Tissues in Regenerative Endodontics

Krupińska

Skośkiewicz−Malinowska

Staniowski

2021

Applied Sciences

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(1) Background: The regenerative procedure has established a new approach to root canal therapy, to preserve the vital pulp of the tooth. This present review aimed to describe and sum up the different approaches to regenerative endodontic treatment conducted in the last 10 years; (2) Methods: A literature search was performed in the PubMed and Cochrane Library electronic databases, supplemented by a manual search. The search strategy included the following terms: “regenerative endodontic protocol”, “regenerative endodontic treatment”, and “regenerative endodontics” combined with “pulp revascularization”. Only studies on humans, published in the last 10 years and written in English were included; (3) Results: Three hundred and eighty-six potentially significant articles were identified. After exclusion of duplicates, and meticulous analysis, 36 case reports were selected; (4) Conclusions: The pulp revascularization procedure may bring a favorable outcome, however, the prognosis of regenerative endodontics (RET) is unpredictable. Permanent immature teeth showed greater potential for positive outcomes after the regenerative procedure. Further controlled clinical studies are required to fully understand the process of the dentin–pulp complex regeneration, and the predictability of the procedure.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Different Approaches to the Regeneration of Dental Tissues in Regenerative Endodontics

Krupińska

Skośkiewicz−Malinowska

Staniowski

2021

Applied Sciences

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“…You can use it in many situations in endodontics, such as perforations, root canal treatment, surgical treatment of apex resection. It can also be used for canal filling [166].…”

Section: Root Repair Materialsmentioning

confidence: 99%

Nanomaterials Application in Endodontics

et al. 2021

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In recent years, nanomaterials have become increasingly present in medicine, especially in dentistry. Their characteristics are proving to be very useful in clinical cases. Due to the intense research in the field of biomaterials and nanotechnology, the efficacy and possibilities of dental procedures have immensely expanded over the years. The nano size of materials allows them to exhibit properties not present in their larger-in-scale counterparts. The medical procedures in endodontics are time-consuming and mostly require several visits to be able to achieve the proper result. In this field of dentistry, there are still major issues about the removal of the mostly bacterial infection from the dental root canals. It has been confirmed that nanoparticles are much more efficient than traditional materials and appear to have superior properties when it comes to surface chemistry and bonding. Their unique antibacterial properties are also promising features in every medical procedure, especially in endodontics. High versatility of use of nanomaterials makes them a powerful tool in dental clinics, in a plethora of endodontic procedures, including pulp regeneration, drug delivery, root repair, disinfection, obturation and canal filling. This study focuses on summing up the current knowledge about the utility of nanomaterials in endodontics, their characteristics, advantages, disadvantages, and provides a number of reasons why research in this field should be continued.

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Radiopaque Crystalline, Non-Crystalline and Nanostructured Bioceramics

et al. 2022

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Radiopacity is sometimes an essential characteristic of biomaterials that can help clinicians perform follow-ups during pre- and post-interventional radiological imaging. Due to their chemical composition and structure, most bioceramics are inherently radiopaque but can still be doped/mixed with radiopacifiers to increase their visualization during or after medical procedures. The radiopacifiers are frequently heavy elements of the periodic table, such as Bi, Zr, Sr, Ba, Ta, Zn, Y, etc., or their relevant compounds that can confer enhanced radiopacity. Radiopaque bioceramics are also intriguing additives for biopolymers and hybrids, which are extensively researched and developed nowadays for various biomedical setups. The present work aims to provide an overview of radiopaque bioceramics, specifically crystalline, non-crystalline (glassy), and nanostructured bioceramics designed for applications in orthopedics, dentistry, and cancer therapy. Furthermore, the modification of the chemical, physical, and biological properties of parent ceramics/biopolymers due to the addition of radiopacifiers is critically discussed. We also point out future research lacunas in this exciting field that bioceramists can explore further.

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Novel Bioceramic Root Repair Materials: Review of the Literature

Cited by 4 publications

References 19 publications

Different Approaches to the Regeneration of Dental Tissues in Regenerative Endodontics

Different Approaches to the Regeneration of Dental Tissues in Regenerative Endodontics

Nanomaterials Application in Endodontics

Radiopaque Crystalline, Non-Crystalline and Nanostructured Bioceramics

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