Wu Shuo, Wang Peiji, Xie Dielai, Zhang Jinxiu
Lin Chuang Er Bi Yan Hou Tou Jing Wai Ke Za Zhi. 2020 Oct;34(10):952-954. doi: 10.13201/j.issn.2096-7993.2020.10.021.
In recent years, the research hotspot of rhinology is looking forward to effective method for changing the anatomical structure of nasal cavity and paranasal sinus. And it will build up the optimal relationship between airflow field and biological effects in rhinology surgency. Now in precise medical treatment, we are eager to find a more reasonable and optimized surgical method before operation, with the help of information technology and big data science. It will not only achieve the greatest biological effect, but also maximize the protection of the lateral wall of the nasal cavity, in order to eliminate the potential recurrence of sinusitis. This paper mainly includes three parts: status and trends of nasal cavity modeling, biomechanics research progress and progress in evaluation of nasal surgery. It is very helpful for promoting the applying of up-to-date model in precise surgical design.
近年来,鼻科学的研究热点在于期待能找到改变鼻腔及鼻窦解剖结构的有效方法。并在鼻科手术中建立气流场与生物学效应之间的最佳关系。如今在精准医疗中,我们渴望借助信息技术和大数据科学,在术前找到一种更合理、更优化的手术方法。这不仅能实现最大的生物学效应,还能最大程度地保护鼻腔侧壁,以消除鼻窦炎潜在的复发风险。本文主要包括三个部分:鼻腔建模的现状与趋势、生物力学研究进展以及鼻科手术评估进展。这对于推动最新模型在精准手术设计中的应用非常有帮助。
