Litcius/Paper detail

Pathophysiology of Demineralization, Part II: Enamel White Spots, Cavitated Caries, and Bone Infection

W. Eugene Roberts, Jonathan E. Mangum, Paul M. Schneider

2022Current Osteoporosis Reports56 citationsDOIOpen Access PDF

Abstract

PURPOSE OF REVIEW: Compare noninfectious (part I) to infectious (part II) demineralization of bones and teeth. Evaluate similarities and differences in the expression of hard tissue degradation for the two most common chronic demineralization diseases: osteoporosis and dental caries. RECENT FINDINGS: The physiology of demineralization is similar for the sterile skeleton compared to the septic dentition. Superimposing the pathologic variable of infection reveals a unique pathophysiology for dental caries. Mineralized tissues are compromised by microdamage, demineralization, and infection. Osseous tissues remodel (turnover) to maintain structural integrity, but the heavily loaded dentition does not turnover so it is ultimately at risk of collapse. A carious tooth is a potential vector for periapical infection that may be life-threatening. Insipient caries is initiated as a subsurface decalcification in enamel that is not detectable until a depth of ~400μm when it becomes visible as a white spot. Reliable detection and remineralization of invisible caries would advance cost-effective wellness worldwide.

Topics & Concepts

DemineralizationPathophysiologyDentistryMedicineEnamel paintPathologyOral microbiology and periodontitis researchDental materials and restorationsDental Erosion and Treatment
Pathophysiology of Demineralization, Part II: Enamel White Spots, Cavitated Caries, and Bone Infection | Litcius