Demineralization-remineralization dynamics in teeth and bone

doi:10.2147/IJN.S107624

Review

. 2016 Sep 19:11:4743-4763.

doi: 10.2147/IJN.S107624. eCollection 2016.

Demineralization-remineralization dynamics in teeth and bone

Ensanya Ali Abou Neel¹, Anas Aljabo², Adam Strange², Salwa Ibrahim², Melanie Coathup³, Anne M Young², Laurent Bozec², Vivek Mudera³

Affiliations

¹ Division of Biomaterials, Operative Dentistry Department, Faculty of Dentistry, King Abdulaziz University, Jeddah, Saudi Arabia; Biomaterials Department, Faculty of Dentistry, Tanta University, Tanta, Egypt; Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, London, UK.
² Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, London, UK.
³ UCL Institute of Orthopaedics and Musculoskeletal Sciences, Royal National Orthopaedic Hospital, Stanmore, London, UK.

PMID: 27695330
PMCID: PMC5034904
DOI: 10.2147/IJN.S107624

Review

Demineralization-remineralization dynamics in teeth and bone

Ensanya Ali Abou Neel et al. Int J Nanomedicine. 2016.

. 2016 Sep 19:11:4743-4763.

doi: 10.2147/IJN.S107624. eCollection 2016.

Authors

Ensanya Ali Abou Neel¹, Anas Aljabo², Adam Strange², Salwa Ibrahim², Melanie Coathup³, Anne M Young², Laurent Bozec², Vivek Mudera³

Affiliations

¹ Division of Biomaterials, Operative Dentistry Department, Faculty of Dentistry, King Abdulaziz University, Jeddah, Saudi Arabia; Biomaterials Department, Faculty of Dentistry, Tanta University, Tanta, Egypt; Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, London, UK.
² Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, London, UK.
³ UCL Institute of Orthopaedics and Musculoskeletal Sciences, Royal National Orthopaedic Hospital, Stanmore, London, UK.

PMID: 27695330
PMCID: PMC5034904
DOI: 10.2147/IJN.S107624

Abstract

Biomineralization is a dynamic, complex, lifelong process by which living organisms control precipitations of inorganic nanocrystals within organic matrices to form unique hybrid biological tissues, for example, enamel, dentin, cementum, and bone. Understanding the process of mineral deposition is important for the development of treatments for mineralization-related diseases and also for the innovation and development of scaffolds. This review provides a thorough overview of the up-to-date information on the theories describing the possible mechanisms and the factors implicated as agonists and antagonists of mineralization. Then, the role of calcium and phosphate ions in the maintenance of teeth and bone health is described. Throughout the life, teeth and bone are at risk of demineralization, with particular emphasis on teeth, due to their anatomical arrangement and location. Teeth are exposed to food, drink, and the microbiota of the mouth; therefore, they have developed a high resistance to localized demineralization that is unmatched by bone. The mechanisms by which demineralization-remineralization process occurs in both teeth and bone and the new therapies/technologies that reverse demineralization or boost remineralization are also scrupulously discussed. Technologies discussed include composites with nano- and micron-sized inorganic minerals that can mimic mechanical properties of the tooth and bone in addition to promoting more natural repair of surrounding tissues. Turning these new technologies to products and practices would improve health care worldwide.

Keywords: bone and calcium phosphates; demineralization; remineralization; teeth.

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Figures

**Figure 1**
Scanning electron microscopic images showing (A) normal enamel, (B) enamel etched with phosphoric acid at the same concentration as found in drinks, and (C) the recrystallized HA after solubilization (edges of the image) compared to unetched HA (center of the image). **Abbreviation:** HA, hydroxyapatite.

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References

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1. Beniash E. Biominerals-hierarchical nanocomposites: the example of bone wires. Nanomed Nanobiotechnol. 2011;3(1):47–69. - PMC - PubMed

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[1] Gelse K, Poschl E, Aigner T. Collagens-structure, function, and biosynthesis. Adv Drug Deliv Rev. 2003;55(12):1531–1546. - PubMed

[2] Gelse K, Poschl E, Aigner T. Collagens-structure, function, and biosynthesis. Adv Drug Deliv Rev. 2003;55(12):1531–1546. - PubMed

[3] Lin C, Douglas WH, Erlandsen SL. Scanning electron microscopy of type I collagen at the dentin-enamel junction of human teeth. J Histochem Cytochem. 1993;41(3):381–388. - PubMed

[4] Lin C, Douglas WH, Erlandsen SL. Scanning electron microscopy of type I collagen at the dentin-enamel junction of human teeth. J Histochem Cytochem. 1993;41(3):381–388. - PubMed

[5] Nanci A. Ten Cate’s Oral Histology: Development, Structure, and Function. Maryland Heights, MO: Mosby; 2008.

[6] Nanci A. Ten Cate’s Oral Histology: Development, Structure, and Function. Maryland Heights, MO: Mosby; 2008.

[7] Vallet-Regí M, González-Calbet JM. Calcium phosphates as substitution of bone tissues. Prog Solid State Chem. 2004;32(1–2):1–31.

[8] Vallet-Regí M, González-Calbet JM. Calcium phosphates as substitution of bone tissues. Prog Solid State Chem. 2004;32(1–2):1–31.

[9] Beniash E. Biominerals-hierarchical nanocomposites: the example of bone wires. Nanomed Nanobiotechnol. 2011;3(1):47–69. - PMC - PubMed

[10] Beniash E. Biominerals-hierarchical nanocomposites: the example of bone wires. Nanomed Nanobiotechnol. 2011;3(1):47–69. - PMC - PubMed

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Demineralization-remineralization dynamics in teeth and bone

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