10.24423/EngTrans.995.20190802
The Role of the Bone Strength on the Cyst Growth in the Mandible
References
Cox L.G.E. et al., The role of pressurized fluid in subchondral bone cyst growth, Bone, 49: 762–768, 2011.
Jedrusik-Pawłowska M., Kromka-Szydek M., Katra M., Niedzielska I., Mandibular reconstruction – Biomechanical strength analysis (FEM) based on a retrospective clinical analysis of selected patients, Acta of Bioengineering and Biomechanics, 15(2): 23–31, 2013.
Kubota Y., Yamashiro T., Oka S., Ninomiya T., Ogata S., Shirasuna K., Relation between size of odontogenic jaw cysts and the pressure of fluid within, British Journal of Oral and Maxillofacial Surgery, 42: 391–395, 2004.
Lin L.C., Lin H.Y., Chang S.H., Multi-factorial analysis of variables influencing the bone loss of an implant placed in the maxilla: Prediction using FEA and SED bone remodeling
algorithm, Journal of Biomechanics, 43: 644–651, 2010.
Miodowska J., Bielski J., Kromka-Szydek M., Callus remodelling model, AIP Conference Proceedings, Vol. 1922, 070003, 2018, doi: 10.1063/1.5019070.
Miodowska J., Bielski J., Kromka-Szydek M., A new model of bone remodeling, Engineering Transactions, 64(4): 605–611, 2016.
Sato T., Hara T., Mori S., Shirai H., Minagi S., Threshold for bone resorption induced by continuos and intermittent pressure in the rat hard palate, Journal of Dental Research, 77: 387–392, 1998.
Skaug N., Intracystic fluid pressure in non-keratinizing jaw cysts, International Journal of Oral Surgery, 5: 59–65, 1976.
Toller O.A., The osmolality of fluids from cysts of the jaws, British Dental Journal, 129: 275–278, 1970.
Weinans H., Huiskes R., Grootenboer H.J., The behavior of adaptive boneremodeling simulation models, Journal of Biomechanics, 25: 1425–1441, 1992.
Yoshiura K. et al., Morphologic analysis of odontogenic cysts with computed tomography, Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics, 83: 712–718, 1997.
DOI: 10.24423/EngTrans.995.20190802