Outcomes of Zygomatic Fractures: Cross- Sectional Study (ZY-PROM)

1. INTRODUCTION AND RATIONALE

   Facial trauma represents a significant event in a patient's life, often resulting in physical deformities and potential psychological consequences (1, 2). In facial trauma cases, fractures occurring in the zygomatic bone area are prevalent due to the distinctive shape and positioning within the face (3, 4). These fractures can disrupt the facial symmetry, which plays a role in the perceived aesthetics and functionality of the human face, impacting not only physical appearance but also psychological well-being and social interactions (5).

   The zygomatic bone, a critical component of the midfacial skeleton, contributes to the contour and width of the face, supports the orbit and has a functional role as the origin of one of the masticatory muscles, the masseter muscle (6). Therefore, fractures in this region can lead to a variety of complications including diplopia, enophthalmos, sensory disturbances and mastication problems (7). Treatment aims not only to restore function and aesthetics but also to prevent long-term deformities.

   Despite advancements in surgical techniques and imaging modalities (8), postoperative complications such as residual deformity, asymmetry of hard and soft tissue, and dissatisfaction with facial appearance remain remain concerns that warrant further investigation. Even when bone symmetry is achieved, patients may still report perceived asymmetry (9). Current literature, primarily focused on hard tissue symmetry, indicates the necessity of including both soft and hard tissues in future symmetry analyses (10).

   This study aims to create a detailed database of patients treated for zygomatic fractures at Erasmus MC from 2008 to June 2023. By leveraging data from electronic patient records, we intend to gather extensive demographic, clinical, and treatment-related information. Following this, patients will be invited to undergo additional evaluations including Cone Beam Computed Tomography (CBCT) scans, which offer precise imaging to assess for any residual displacement and asymmetry. For soft tissue, 3D facial photography will be used to objectively measure facial asymmetry, offering a comprehensive view of both functional and aesthetic results post-recovery. Patient satisfaction and quality of life post-treatment will be assessed through validated questionnaires (FACE-Q), providing insights into the psychological and social impacts of these injuries. Functional tests will be conducted to evaluate ocular motility and cutaneous sensory function.

   Through this multifaceted approach, the study aims to identify factors contributing to optimal outcomes and those that may predispose patients to poorer prognoses. The findings will not only enhance understanding of zygomatic fractures but also inform future clinical practices, ensuring improved patient care and satisfaction through better expectation management.

2. OBJECTIVES

Primary Objective:

The primary objective of this study is to evaluate the long-term outcomes of patients treated for zygomatic fractures at Erasmus MC from 2008 to 2023. Specifically, to assess patient satisfaction with facial appearance and overall quality of life post-treatment using validated questionnaires. This will provide insights into the psychological and social impacts of zygomatic fractures and their treatment.

Secondary Objective(s):

• Residual displacement and asymmetry A secondary objective is to assess the degree of residual displacement and asymmetry in both hard and soft tissues using Cone Beam Computed Tomography (CBCT) scans and 3D facial photography. This evaluation will determine the effectiveness of current surgical techniques in restoring facial symmetry and function.
• Functional Outcomes:

To evaluate the functional outcomes of the surgical treatment, including ocular motility, range of motion/mouthopening, cutaneous sensory function. These tests will help determine the success of the treatment in restoring normal facial function.