Parametric Multi-Scale Modeling of the Zygomaticus Major and Minor: Implications for Facial Reanimation

Facial paralysis can severely impact functionality and mental health. Facial reanimation surgery can improve facial symmetry and movement. Zygomaticus minor (Zmin) and zygomaticus major (Zmaj) are 2 important perioral muscles, that function to elevate the upper lip, contributing to the formation of a smile. The objective of this study was to analyze the morphology in three-dimensional (3D) and quantify architectural parameters of Zmin and Zmaj. In ten formalin-embalmed specimens, Zmin and Zmaj were serially dissected and digitized at the fiber bundle level. The 2 muscles were modeled in 3D to construct high fidelity models. The 3D models were used to assess muscle morphology and quantify architectural parameters including mean fiber bundle length, physiological cross-sectional area, and line of action. Zygomaticus minor fiber bundles were oriented horizontally or slightly obliquely and had a muscular attachment to the medial modiolus. Zygomaticus minor was found to either have no partitions or medial and lateral partitions. Specimens with partitions were divided into type 1 and type 2. Type 1 consisted of a medial partition with fiber bundles attaching to the zygomatic bone at the inferior margin of the orbit. The type 2 medial partition attached to the lateral margin of the orbit to attach to the zygomatic bone. Zygomaticus major had obliquely oriented fiber bundles with most specimens having inferior and superior partitions attaching to the inferior aspect of the zygomatic bone. Zygomaticus major was found to have a greater mean fiber bundle length and physiological cross-sectional area than Zmin. The direction of the line of action of Zmin and Zmaj was closely related to fiber bundle arrangement. Detailed 3D anatomical understanding of Zmin and Zmaj, at the fiber bundle level, is critical for reconstructive surgeons performing dynamic facial reanimation. This data can be used to assist with selecting the ideal donor site for reconstruction.

Automated summary

Facial paralysis can have a significant impact on functionality and mental health. Facial reanimation surgery is a solution to improve facial symmetry and movement. This study focused on analyzing the morphology and quantifying architectural parameters of two important perioral muscles, Zygomaticus minor (Zmin) and Zygomaticus major (Zmaj), using three-dimensional models. The findings revealed differences in fiber bundle orientation and partitions of the two muscles, with Zmaj having greater mean fiber bundle length and physiological cross-sectional area than Zmin. The knowledge gained from this study is crucial for reconstructive surgeons to perform dynamic facial reanimation and assist in selecting the most suitable donor site for reconstruction.