Glass ionomer cements are a two-component hybrid material,
consisting of inorganic glass particles, surrounded by an insoluble
hydrogel matrix. They are a group of materials based on the acid/
base reaction between poly (alkenoic) acid and an ion-leachable
silicate glass. Their biocompatibility, osteoconductive behavior, and
ability to bond to bone and metals have generated interest in the
material for medical applications. GIC are widely used in dental
medicine as an obturation material in primary teeth for treatment and
prophylaxis of dental caries, because they have the ability to create
a physicochemical bond to tooth structure and to release fluoride.
They are currently frequently used in otological and neuro-otological
surgery. Apart from ossicular chain reconstruction, they are used for
repair of tegmen defects, outer ear canal reconstruction, mastoid obli
teration, and stabilization of some hearing prostheses.

Berg JH. Glass ionomer cements. Pediatr Dent. 2002; 24: 430–438.

Chen D.A, Arriaga M.A, Technical refinements and precautions during ionomeric cement reconstruction of incus erosion during revision stapedectomy. Laryngoscope. 2003; 113(5): 848–852.

Croll TP, Bar Zion Y, Segura A, et al. Clinical performance of resin-modified glass ionomer cement restorations in primary teeth: a retrospective evaluation. J Am Dent Assoc. 2001; 132: 1110–1116.

Croll TP, Nicholson JW. Glass ionomer cements in pediatric dentistry: review of the literature. Pediatr Dent. 2002; 24: 423–429.

Dental Abstracts, Volume 65, Issue 1, January-February 2020, Pages 54–57.

Dere H, Ozdogan F, Ozcan KM, Selcuk A, Ozcan I, Gokturk G, Comparison of glass ionomer cement and incus interposition in reconstruction of incus long process defects – Eur Arch Otorhinolaryngol., 268, 2011, No 11, 1565–1568.

Diaz-Arnold AM, Holmes DC, Wistrom DW, et al. Short-term fluoride release/uptake of glass ionomer restoratives. Dent Mater. 1995; 11:96–101.

Donly KJ. Enamel and dentin demineralization inhibition of fluoridereleasing materials. Am J Dent. 1994; 7: 275–278.

Donly KJ, Ingram C. An in vitro caries inhibition of photopolymerized glass ionomer liners. ASDC J Dent Child. 1997; 64: 128–130.

Donly KJ, Segura A, Kanellis M, et al. Clinical performance and caries inhibition of resin-modified glass ionomer cement and amalgam restorations. J Am Dent Assoc. 1999;130: 1459–1466.

Ewoldsen H, Herwig L. Decay-inhibiting restorative materials: past and present. Compend Contin Educ Dent. 1998; 19: 981–992.

Forsten L. Fluoride release and uptake by glass ionomers and related materials and its clinical effect. Biomaterials. 1998; 19: 503–508.

Forsten L. Resin-modified glass ionomer cements: fluoride release and uptake. Acta Odontol Scand. 1995; 53: 222–225.

Garcia-Godoy F, Jensen ME. Artificial recurrent caries in glass ionomer–lined amalgam restorations. Am J Dent. 1990; 3: 89–93.

Griffin F, Donly KJ, Erickson RC. Caries inhibition of three fluoride-releasing liners. Am J Dent. 1992; 5: 293–295.

Heys RJ, Fitzgerald M. Microleakage of three cement bases. J Dent Res. 1991; 70: 55–58.

Hicks MJ, Flaitz CM, Silverstone LM. Secondary caries formation in vitro around glass ionomer restoration. Quintessence Int. 1986; 17:527–532.

Jensen ME, Wefel JS, Hammesfahr PD. Fluoride-releasing liners: in vitro recurrent caries. Gen Dent. 1991; 39: 12–17.

Kjeldsen M, Grontved A.M, Tympanoplasty with ionomeric cement. Acta Otolaryngol Suppl. 2000; 543: 130–131.

Manders CA, Garcia-Godoy F, Barnwell GM. Effect of a copal varnish, ZOE or glass ionomer cement bases on microleakage of amalgam restorations. Am J Dent. 1990; 3: 63–66.

Milkov M, History of prostheses for ossiculoplasty made of different kinds of biomaterials – Otorhinolaryngologiya, 6, 2002, No 3, 12–15.

Milkov M, Nedev P, Vicheva D, Zenev I, Kunev K, Rouev P, Matev D, Reconstruction of the ossicular chain with prostheses made of ceromer – In 5th European Congress of Oto-Rhino-Laryngology, Head and Neck surgery. Rodos-Kos, 11 – 16.IX.2004. Abstract book, p. 140.

Mjцr IA, Dahl JE, Moorhead JE. Placement and replacement of restorations in primary teeth. Acta Odontol Scand. 2002; 60: 25–28.

Serin GM, Cam B, Derinsu U, Sari M, Iar Batman. Incus augmentation with glass ionomer cement in primary and revision stapes surgery – Ear Nose Throat J., 89, 2010, No 12, 589–593.

Skartveit L, Tveit AB, Tшtdal B, et al. In vivo fluoride uptake in enamel and dentin from fluoride-containing materials. ASDC J Dent Child. 1990; 58: 97–100.

Souto M, Donly KJ. Caries inhibition of glass ionomers. Am J Dent. 1994; 7: 122–124.

Ten Cate JM, Van Duinen RN. Hypermineralization of dentinal lesions adjacent to glass-ionomer cement restorations. J Dent Res. 1995; 74:1266–1271.

Milkov M, Nedev P, Vicheva D, Zenev I, Kunev K, Rouev P, Marev D. Reconstruciion of the ossicular cirain with prosthesis made of ceromer. 5th European Congress of Oto-Rhino-Laryngology Head and Neck Surgery, 11 – 16.X.2004, Rodos-Kos, Hellas.

Rouev P, Milkov M, Nedev P, Dimov P, Marev D. Ossicular Rekonstruktion mit bulgarischer Prothese von Ceromer. 76. Jahresversamlung DGHNOKHC, Erfurt, 4 – 8.05.2005.

Milkov M, Nedev P, Zenev I, Kunev K, Rouev P, Marev D. One Year Experience at the Restoration of the Auditory Chain with Prosthesis of Ceromer. Pro Otology 2004; 4(I): 47–48.

Pyeв П, Eдpeв Г., Милкoв M. Осикуларна реконструкция с протези от Ceromer. Международен бюлетин по оториноларингология 2005; 1(2): 21–6.

Milkov M. Dental application applications of hydroxyapatite cement – a promising challenge. Scripta Scientifica Medica, MU – Varna, Vol. 42(2), 2010, pp. 105–108, ISSN 0582-3250.