OBJECTIVE: To verify the hypothesis that appropriate acquisition of masticatory function and normal growth of the mandible are modified by malocclusion. MATERIALS AND METHODS: Eighteen Jcl:ICR mice were divided into two groups. In one group we shifted the mandible laterally using an occlusal guidance appliance, creating a posterior crossbite at 5 weeks of age. The other group served as control. After 10 weeks, three-dimensional jaw movements and muscle activities were recorded simultaneously during mastication. Microcomputed tomography scans were obtained in vivo to evaluate morphometric changes in the mandible. RESULTS: (1) The jaw movement pattern in the sagittal plane showed significantly less anteroposterior excursion in the malocclusion group during the late-closing phase (power phase). (2) Electromyography showed significantly less masseter activity in the malocclusion group. (3) The condylar width and mandibular bone mineral density (BMD) were significantly reduced in the malocclusion mice compared to the normal mice. CONCLUSIONS: These findings suggest that optimization of the chewing pattern and acquisition of appropriate masticatory function is impeded by malocclusion. Altered mechanical loading to the mandible may cause significant reduction of condylar width and mandibular BMD.
OBJECTIVE: To verify the hypothesis that appropriate acquisition of masticatory function and normal growth of the mandible are modified by malocclusion. MATERIALS AND METHODS: Eighteen Jcl:ICR mice were divided into two groups. In one group we shifted the mandible laterally using an occlusal guidance appliance, creating a posterior crossbite at 5 weeks of age. The other group served as control. After 10 weeks, three-dimensional jaw movements and muscle activities were recorded simultaneously during mastication. Microcomputed tomography scans were obtained in vivo to evaluate morphometric changes in the mandible. RESULTS: (1) The jaw movement pattern in the sagittal plane showed significantly less anteroposterior excursion in the malocclusion group during the late-closing phase (power phase). (2) Electromyography showed significantly less masseter activity in the malocclusion group. (3) The condylar width and mandibular bone mineral density (BMD) were significantly reduced in the malocclusion mice compared to the normal mice. CONCLUSIONS: These findings suggest that optimization of the chewing pattern and acquisition of appropriate masticatory function is impeded by malocclusion. Altered mechanical loading to the mandible may cause significant reduction of condylar width and mandibular BMD.
Authors: Shannon Owens; Peter H Buschang; Gaylord S Throckmorton; Leslea Palmer; Jeryl English Journal: Am J Orthod Dentofacial Orthop Date: 2002-06 Impact factor: 2.650
Authors: Shamima E Nishi; Norma Ab Rahman; Rehana Basri; Mohammad K Alam; Nor Farid M Noor; Siti Aishah Zainal; Adam Husein Journal: Biomed Res Int Date: 2021-04-21 Impact factor: 3.411