Summary
Despites dental pulp capping materials should meet the certain requirements, the available materials have one or more shortcomings—poor biocompatibility and rheological properties, fail to maintain pulp vitality and to simulate reparative dentine formation and expensive etc. Mineral trioxide aggregate (MTA) is widely used material because of its beneficial properties. However, its composition bismuth oxide, which is suspectable to toxicity, has an impact on rheological properties. This emphasizes the necessity of looking for inexpensive alternatives to materials that meet the specifications. This project's goal and novelty are to investigate the potential processing of the dental pulp capping cement, which is made of strontium silicate (SrSiO3), strontium fluoride (SrF2), piezoelectric material (PZM) and tricalcium silicate (Ca3O5Si) and its rheological properties and hemocompatibility. Because SrSiO3, SrF2, PZM and Ca3O5Si have the promising properties. This project's work packages are split into four categories based on the interdisciplinary approach since it involves the synthesis and characterization of PZM, the processing and characterization of cement, the identification of rheological parameters utilizing ISO standardizations, and hemocompatibility, and acquiring new transferrable skills. Additionally, the interactions among the selected compounds will be determined. The scientific impact of this project is comprehending the physical properties and the immune system's response to evaluate the cement's suitability as a replacement for existing materials, as well as resulting in further uses in dentistry and medicine. The societal impact is providing millions of patients in Europe with predictable and outstanding treatment outcomes each year to maintain pulp vitality and health. Eventually, it will ease the financial load on millions of patients who need dental care, will be avoiding inflated medical expenses and misuse of the patent (economic impact).
Unfold all
/
Fold all
More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101109303 |
Start date: | 01-01-2024 |
End date: | 14-02-2027 |
Total budget - Public funding: | - 283 438,00 Euro |
Cordis data
Original description
Despites dental pulp capping materials should meet the certain requirements, the available materials have one or more shortcomings—poor biocompatibility and rheological properties, fail to maintain pulp vitality and to simulate reparative dentine formation and expensive etc. Mineral trioxide aggregate (MTA) is widely used material because of its beneficial properties. However, its composition bismuth oxide, which is suspectable to toxicity, has an impact on rheological properties. This emphasizes the necessity of looking for inexpensive alternatives to materials that meet the specifications. This project's goal and novelty are to investigate the potential processing of the dental pulp capping cement, which is made of strontium silicate (SrSiO3), strontium fluoride (SrF2), piezoelectric material (PZM) and tricalcium silicate (Ca3O5Si) and its rheological properties and hemocompatibility. Because SrSiO3, SrF2, PZM and Ca3O5Si have the promising properties. This project's work packages are split into four categories based on the interdisciplinary approach since it involves the synthesis and characterization of PZM, the processing and characterization of cement, the identification of rheological parameters utilizing ISO standardizations, and hemocompatibility, and acquiring new transferrable skills. Additionally, the interactions among the selected compounds will be determined. The scientific impact of this project is comprehending the physical properties and the immune system's response to evaluate the cement's suitability as a replacement for existing materials, as well as resulting in further uses in dentistry and medicine. The societal impact is providing millions of patients in Europe with predictable and outstanding treatment outcomes each year to maintain pulp vitality and health. Eventually, it will ease the financial load on millions of patients who need dental care, will be avoiding inflated medical expenses and misuse of the patent (economic impact).Status
SIGNEDCall topic
HORIZON-MSCA-2022-PF-01-01Update Date
31-07-2023
Images
No images available.
Geographical location(s)