Shanghai Journal of Stomatology

Shanghai Journal of Stomatology ›› 2015, Vol. 24 ›› Issue (2): 164-169.

• Basic Study • Previous Articles     Next Articles

Biomechanical analysis on healing process of sagittal fracture of the mandibular condyle after rigid fixation

JING Jie1,QU Ai-li2,DING Xiao-mei3,HEI Yu-na3   

  1. 1.Department of Oral and Maxillofacial Surgery, General Hospital of Ningxia Medical University. Yinchuan 750004;
    2.Mechanical Engineering School of Ningxia University. Yinchuan 750021;
    3.Graduate School of Ningxia Medical University. Yinchuan 750004, Ningxia Hui Autonomous Region, China
  • Received:2014-07-07 Online:2015-04-20 Published:2015-07-24
  • Supported by:
    Scientific and Technological Project of Ningxia Hui Autonomous Region(2011)

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Abstract: PURPOSE: To analyze the biomechanical healing process on rigid fixation of sagittal fracture of the mandibular condyle (SFMC), and to provide guidelines for surgical treatment. METHODS: Three-dimensional finite element model (3D-FEAM) of mandible and condyle was established. The right condyle was simulated as SFMC with 0.1 mm space across the condyle lengthways. The 3D-FEAM of rigid fixation was established. The biomechanical factors such as stress distribution of condylar surface, displacement around fracture, stress on the plate and stress shielding were calculated during 0, 4, 8 and 12-week after rigid fixation. RESULTS: The maximum equivalent stress of normal condyle was located at the area of middle 1/3 of condylar neck. The maximum equivalent stress at 0-week after fixation was 23 times than that on normal condyle. They were located at the condylar stump and the plate near inferior punctual areas of fracture line. There were little stress on the other areas. The maximum equivalent stress at 4, 8 and 12-week was approximately 6 times than that on normal condyle. They were located at the areas same as the area at 0-week. There were little stress on the other areas at the condyle. The maximum total displacement and maximum total corner were increased 0.57~0.75 mm and 0.01~0.09° respectively during healing process. The maximum equivalent stress at 0-week on the condylar trump was 5~6 times compared with that at 4, 8, and 12-week. The maximum equivalent stress, maximum total displacement and maximum total corner on the fractured fragment were not changed significantly during healing process. The maximum equivalent stress at 0-week on the plate was 7~9 times compared with that at 4, 8, 12-week. CONCLUSIONS: The stress of the condyle and stress shielding of the plate may be the reasons of absorbing and rebuilding on the condyle in healing process of SFMC. The biomechanical parameters increase obviously at 4-week after fixation. Elastic intermaxillary traction is necessary to decrease total displacement and total corner of the condyle, and liquid diet is necessary to decrease equivalent stress within 4 weeks. Rehabilitation training should be used to recover TMJ functions after 4 weeks because the condyle and mandible have the ability to carry out normal functions.

Key words: Sagittal fracture of the mandibular condyle (SFMC), Rigid fixation, Three-dimensional finite element analysis, Biomechanics

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