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The porosity of concrete is a measure of the void spaces within its structure. These spaces impact its strength and durability significantly. When water and cement interact, a chemical reaction called hydration creates a semi-solid paste. This paste includes combined water, making up approximately 23% of the cement's dry mass, and gel water, which fills minuscule voids known as gel pores, accounting for about 28% of the cement gel volume.
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Related Experiment Video

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Premixed bioceramics: A novel pulp capping agent.

Nidhi Motwani1, Anuja Ikhar1, Pradnya Nikhade1

  • 1Department of Conservative Dentistry and Endodontics, Sharad Pawar Dental College and Hospital, Datta Meghe Institute of Medical Sciences (Deemed to be University), Wardha, Maharashtra, India.

Journal of Conservative Dentistry : JCD
|November 11, 2021
PubMed
Summary
This summary is machine-generated.

Premixed bioceramics offer improved handling and desirable properties for pulp capping procedures, enhancing dental pulp vitality preservation. This review explores their introduction, forms, and beneficial characteristics for clinical application.

Keywords:
BioceramicEndoSequencepremixed bioceramicpulp capping

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Area of Science:

  • Restorative Dentistry
  • Biomaterials Science
  • Dental Pulp Biology

Background:

  • Pulp capping aims to preserve dental pulp vitality after exposure from caries or iatrogenic procedures.
  • Traditional materials like MTA and Biodentine show success but have handling challenges and sensitivity to mixing ratios.
  • Advancements in biomaterials have led to the development of new agents for pulp capping.

Purpose of the Study:

  • To review the introduction and evolution of premixed bioceramics as pulp capping agents.
  • To discuss the various forms of premixed bioceramics currently available.
  • To analyze the physical, chemical, and biocompatible properties of premixed bioceramics relevant to pulp capping.

Main Methods:

  • Literature review of scientific databases focusing on pulp capping materials and bioceramics.
  • Analysis of studies evaluating the properties and clinical performance of premixed bioceramics.
  • Synthesis of information regarding handling characteristics, biocompatibility, and biological effects.

Main Results:

  • Premixed bioceramics exhibit favorable handling characteristics compared to traditional materials.
  • These materials demonstrate good biocompatibility, odontogenic potential, and antibacterial activity.
  • The premixed formulation simplifies clinical application and potentially reduces errors.

Conclusions:

  • Premixed bioceramics represent a significant advancement in pulp capping materials.
  • Their desirable properties make them a potent and clinically applicable option for preserving pulp vitality.
  • Further research may continue to refine these biomaterials for enhanced dental treatments.