摘要

Objectives: Dermal filler injections are a cornerstone of aesthetic medicine, providing non-invasive solutions for facial contouring and rejuvenation. However, complications such as retrograde flow (back-flow) of filler material and subsequent product migration have emerged as significant concerns, potentially leading to unpredictable aesthetic outcomes and patient dissatisfaction. Despite its clinical importance, the mechanisms underlying retrograde flow and product migration remain under explored. Introduction: This study aims to investigate how retrograde flow during filler injection contributes to the unintended migration of the product, using high-frequency ultrasound (HFUS) to visualize and analyze these phenomena. A total of [insert sample size] patients who underwent filler treatments in regions such as the lips, nasolabial folds, and tear troughs were evaluated. Ultrasound assessments were performed immediately after injection and during follow-up periods to monitor the movement of the filler material. Materials / method: The study underscores the critical role of proper injection techniques, including low-pressure application and awareness of anatomical landmarks, in minimizing the risk of retrograde flow. HFUS proved to be an indispensable tool in detecting and tracking filler migration, offering real-time insights into the dynamics of dermal filler behavior Results: Our findings demonstrate that retrograde flow occurs primarily when excessive injection pressure is applied, particularly in areas with high vascular density or in cases where the injector fails to maintain a controlled flow rate. This back-flow can lead to filler migration along anatomical planes, such as the facial arteries or interstitial tissue, resulting in volume shifts, contour irregularities, or nodules in unintended locations. Conclusion: These results highlight the need for advanced injector training and advocate for the integration of ultrasound technology into routine aesthetic practice. By understanding the factors contributing to retrograde flow and migration, practitioners can improve safety, predictability, and patient satisfaction in dermal filler treatments.