F Wang1, J Xiao, W Cong, A Li, T Song, F Wei, J Xu, C Zhang, Z Fan, S Wang. 1. Molecular Laboratory for Gene Therapy & Tooth Regeneration, Beijing Key Laboratory of Tooth Regeneration and Function Reconstruction, Capital Medical University School of Stomatology, Beijing, China; Department of Oral Basic Science, College of Stomatology, Dalian Medical University, Dalian, China.
Abstract
OBJECTIVE: There is little knowledge about the tooth replacement in large mammals. The aim of this study is to investigate the tooth replacement patterns in Chinese miniature pig (Sus Scrofa). MATERIALS AND METHODS: The developmental patterns of mandibular successional and additional teeth from Chinese miniature pig before and after birth were investigated by microanatomy, immunohistochemistry, and cone beam computed tomography. RESULTS: Secondary dental lamina for successional teeth was not visible until its predecessor progressed to late bell stage. Successional teeth reached early cap stage when their predecessor began to erupt. The development patterns and speed varied between anterior and posterior successional teeth. Additional molars, derived from the free end of additional dental lamina, initiated sequentially in mandible ramus, while previous additional molar progressed into late bell stage. Proliferating cells in the permanent primordium were distributed asymmetrically. CONCLUSIONS: Our findings identify the characteristic patterns about spatiotemporal morphogenesis of successional teeth in context of their predecessor and cascade initiation of additional molars in miniature pigs. Our study provides a basis toward better understanding the mechanisms underlying diphyodont replacement in human and also assists in tooth regeneration and tooth engineering in large animal.
OBJECTIVE: There is little knowledge about the tooth replacement in large mammals. The aim of this study is to investigate the tooth replacement patterns in Chinese miniature pig (Sus Scrofa). MATERIALS AND METHODS: The developmental patterns of mandibular successional and additional teeth from Chinese miniature pig before and after birth were investigated by microanatomy, immunohistochemistry, and cone beam computed tomography. RESULTS: Secondary dental lamina for successional teeth was not visible until its predecessor progressed to late bell stage. Successional teeth reached early cap stage when their predecessor began to erupt. The development patterns and speed varied between anterior and posterior successional teeth. Additional molars, derived from the free end of additional dental lamina, initiated sequentially in mandible ramus, while previous additional molar progressed into late bell stage. Proliferating cells in the permanent primordium were distributed asymmetrically. CONCLUSIONS: Our findings identify the characteristic patterns about spatiotemporal morphogenesis of successional teeth in context of their predecessor and cascade initiation of additional molars in miniature pigs. Our study provides a basis toward better understanding the mechanisms underlying diphyodont replacement in human and also assists in tooth regeneration and tooth engineering in large animal.
Authors: Ting Lu; Yingchun Zheng; Haiying Yang; Buling Wu; Jun Xiong; Cheng Huang; Yuhua Pan; Meiyi Li; Fei He; Fu Xiong Journal: Nan Fang Yi Ke Da Xue Xue Bao Date: 2019-09-30
Authors: Emily D Woodruff; Galaxy C Gutierrez; Eric Van Otterloo; Trevor Williams; Martin J Cohn Journal: Dev Biol Date: 2021-01-15 Impact factor: 3.582