Current approaches to produce durable biomaterials: Trends in polymeric materials for restorative dentistry applications

Dent Mater. 2024 Dec;40(12):2122-2134. doi: 10.1016/j.dental.2024.10.004. Epub 2024 Oct 18.

Abstract

Dental caries continues to be a public health issue, especially more evident in underserved populations throughout the U.S. Unfortunately, especially with an aging population, hundreds of thousands of resin composite restorations are replaced each year due to recurring decay and fracture. According to several cohort studies, the average life span of this type of restoration is 10 years or less, depending on the caries risk level of the patient and the complexity of the restorative procedure. Any new material development must depart from the simple restoration of form paradigm, in which the filling is simply inert/biocompatible. This review will discuss novel antibiofilm structures, based on a targeted approach specifically against dysbiotic bacteria. Biofilm coalescence can be prevented by using glycosyl transferase - GTF inhibitors, in a non-bactericidal approach. On the tooth substrate side, MMP-inhibiting molecules can improve the stability of the collagen in the hybrid layer. This review will also discuss the importance of testing the materials in a physiologically relevant environment, mimicking the conditions in the mouth in terms of mechanical loading, bacterial challenge, and the presence of saliva. Ultimately, the goal of materials development is to achieve durable restorations, capable of adapting to the oral environment and resisting challenges that go beyond mechanical demands. That way, we can prevent the unnecessary loss of additional tooth structure that comes with every re-treatment. CLINICAL SIGNIFICANCE: While proper restorative technique and patient education in terms of diet and oral hygiene are crucial factors in increasing the longevity of esthetic direct restorations, materials better able to resist and interact with the conditions of the oral environment are still needed. Reproducing the success of dental amalgams with esthetic materials continues to be the Holy Grail of materials development.

Keywords: Acquired pellicle; Dental adhesives; Dentin collagen; Oral biofilm; Polymerization; Resin composites.

Publication types

  • Review

MeSH terms

  • Biocompatible Materials* / chemistry
  • Biofilms* / drug effects
  • Composite Resins / chemistry
  • Dental Caries / prevention & control
  • Dental Materials / chemistry
  • Dental Restoration, Permanent*
  • Humans
  • Polymers / chemistry

Substances

  • Biocompatible Materials
  • Dental Materials
  • Composite Resins
  • Polymers