The biomechanical role of periodontal ligament in bonded and replanted vertically fractured teeth under cyclic biting forces

Ya-Nan Zhu , Wei-Dong Yang , Paul V Abbott , Nicolas Martin , Wen-Jia Wei , Jing-Jing Li , Zhi Chen , Wen-Mei Wang

International Journal of Oral Science ›› 2015, Vol. 7 ›› Issue (2) : 125 -130.

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International Journal of Oral Science ›› 2015, Vol. 7 ›› Issue (2) : 125 -130. DOI: 10.1038/ijos.2014.51
Article

The biomechanical role of periodontal ligament in bonded and replanted vertically fractured teeth under cyclic biting forces

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Abstract

The success of replanting vertically fractured teeth depends on crown restoration and healthy periodontal tissues. Using 40 upper first premolar teeth that had been extracted from adolescents for orthodontic reasons, a team led by Wen-Mei Wang from Nanjing University Medical School, China, split each tooth in two, creating vertical fractures. The researchers rejoined the halves with a bonding resin and applied metal crowns to half the teeth. To simulate the two kinds of replantation that can occur, they either attached a layer of silicone rubber to mimic periodontal ligaments or attached epoxy resin as a stand-in for bone. The researchers then applied cyclic forces to reproduce the repeated stress of chewing and found that crown restoration and repaired periodontal fibers are both important for the long-term health of vertically fractured teeth.

Keywords

ankylosis / fatigue test / periodontal ligament healing / replantation / vertically fractured teeth

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Ya-Nan Zhu, Wei-Dong Yang, Paul V Abbott, Nicolas Martin, Wen-Jia Wei, Jing-Jing Li, Zhi Chen, Wen-Mei Wang. The biomechanical role of periodontal ligament in bonded and replanted vertically fractured teeth under cyclic biting forces. International Journal of Oral Science, 2015, 7(2): 125-130 DOI:10.1038/ijos.2014.51

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References

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[1]

Hayashi M, Kinomoto Y, Takeshige F. Prognosis of intentional replantation of vertically fractured roots reconstructed with dentin-bonded resin. J Endod, 2004, 30(3): 145-148.

[2]

Hayashi M, Kinomoto Y, Miura M. Short-term evaluation of intentional replantation of vertically fractured roots reconstructed with dentin-bonded resin. J Endod, 2002, 28(2): 120-124.

[3]

Eichelsbacher F, Denner W, Klaiber B. Periodontal status of teeth with crown-root fractures: results two years after adhesive fragment reattachment. J Clin Periodontol, 2009, 36(10): 905-911.

[4]

Lynch CD, Burke FM. Incomplete tooth fracture following root-canal treatment: a case report. Int Endod J, 2002, 35(7): 642-646.

[5]

Vinckier F, Peumans M, Declerck D. Definitive injuries to the teeth. Lesions of hard tissue and pulp. Rev Belge Med Dent (1984), 1998, 53(2): 29-91.
[6]

Majid ZA, Zain RB. The cracked tooth syndrome—crown root vertical fracture. Singapore Dent J, 1988, 13(1): 44-46.
[7]

Yokoyama K, Matsumoto K, Kinoshita J. Treatment of maxillary molars with vertical fractures. Endod Dent Traumatol, 1998, 14(6): 287-289.

[8]

Takatsu T, Sano H, Burrow MF. Treatment and prognosis of a vertically fractured maxillary molar with widely separated segments: a case report. Quintessence Int, 1995, 26(7): 479-484.
[9]

Trope M, Rosenberg ES. Multidisciplinary approach to the repair of vertically fractured teeth. J Endod, 1992, 18(9): 460-463.

[10]

Kawai K, Masaka N. Vertical root fracture treated by bonding fragments and rotational replantation. Dent Traumatol, 2002, 18(1): 42-45.

[11]

Kudou Y, Kubota M. Replantation with intentional rotation of a complete vertically fractured root using adhesive resin cement. Dent Traumatol, 2003, 19(2): 115-117.

[12]

Fariniuk LF, Ferreira EL, Soresini GC. Intentional replantation with 180 degrees rotation of a crown-root fracture: a case report. Dent Traumatol, 2003, 19(6): 321-325.

[13]

Masaka N. Long-term observation of fractured tooth roots preserved by adhesion. Adhesion Dent, 1995, 13: 156-170.
[14]

Andreasen JO, Hjorting-Hansen E. Replantation of teeth. II. Histological study of 22 replanted anterior teeth in humans. Acta Odontol Scand, 1966, 24(3): 287-306.

[15]

Andreasen JO, Borum MK, Jacobsen HL. Replantation of 400 avulsed permanent incisors. 4. Factors related to periodontal ligament healing. Endod Dent Traumatol, 1995, 11(2): 76-89.

[16]

Sugaya T, Kawanami M, Noguchi H. Periodontal healing after bonding treatment of vertical root fracture. Dent Traumatol, 2001, 17(4): 174-179.

[17]

de Munck J, van Landuyt KL, Coutinho E. Fatigue resistance of dentin/composite interfaces with an additional intermediate elastic layer. Eur J Oral Sci, 2005, 113(1): 77-82.

[18]

Kishen A. Periapical biomechanics and the role of cyclic biting force in apical retrograde fluid movement. Int Endod J, 2005, 38(9): 597-603.

[19]

Kishen A, Ramamurty U, Asundi A. Experimental studies on the nature of property gradients in the human dentine. J Biomed Mater Res, 2000, 51(4): 650-659.

[20]

Cohen BI, Deutsch AS, Musikant BL. Cyclic fatigue testing of six endodontic post systems. J Prosthodont, 1993, 2(1): 28-32.

[21]

Gerdolle DA, Mortier E, Loos-Ayav C. In vitro evaluation of microleakage of indirect composite inlays cemented with four luting agents. J Prosthet Dent, 2005, 93(6): 563-570.

[22]

Yu WJ, Kwon TY, Kyung HM. An evaluation of localized debonding between fibre post and root canal wall by finite element simulation. Int Endod J, 2006, 39(12): 959-967.

[23]

Andreasen JO, Paulsen HU, Yu Z. A long-term study of 370 autotransplanted premolars. Part III. Periodontal healing subsequent to transplantation. Eur J Orthod, 1990, 12(1): 25-37.

[24]

Pohl Y, Filippi A, Kirschner H. Results after replantation of avulsed permanent teeth. II. Periodontal healing and the role of physiologic storage and antiresorptive-regenerative therapy. Dent Traumatol, 2005, 21(2): 93-101.

[25]

Dean JA, Bullard G, Long RW. Dental fracture fragment attachment: fracture model and luting agent comparisons. J Indiana Dent Assoc, 2004, 83(1): 7-12.
[26]

Yang B, Ludwig K, Adelung R. Micro-tensile bond strength of three luting resins to human regional dentin. Dent Mater, 2006, 22(1): 45-56.

[27]

Tanaka S, Sugaya T, Kawanami M. Hybrid layer seals the cementum/4-META/MMA-TBB resin interface. J Biomed Mater Res Part B Appl Biomater, 2007, 80(1): 140-145.

[28]

Borcic J, Anic I, Smojver I. 3D finite element model and cervical lesion formation in normal occlusion and in malocclusion. J Oral Rehabil, 2005, 32(7): 504-510.

[29]

Sano H, Takatsu T, Ciucchi B. Nanoleakage: leakage within the hybrid layer. Oper Dent, 1995, 20(1): 18-25.
[30]

Sano H, Yoshiyama M, Ebisu S. Comparative SEM and TEM observations of nanoleakage within the hybrid layer. Oper Dent, 1995, 20(4): 160-167.
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