Yi Kyu-Ho, Wan Jovian, Song Jong Keun, Swift Arthur, Ascher Benjamin
Division in Anatomy and Developmental Biology, Department of Oral Biology, Human Identification Research Institute, BK21FOUR Project, Yonsei University College of Dentistry, Seoul, Korea.
You and I Clinic, Seoul, Korea.
J Cosmet Dermatol. 2025 Aug;24(8):e70379. doi: 10.1111/jocd.70379.
Micro-computed tomography (micro-CT) offers exceptional three-dimensional resolution for studying facial anatomy, capturing intricate structural relationships with isotropic resolutions as fine as 4-10 μm. However, its use is limited to ex vivo specimens, precluding real-time or functional evaluation.
To highlight the complementary value of high-frequency ultrasound in facial anatomical assessment and procedural guidance, particularly in the clinical context.
We discuss the limitations of micro-CT for dynamic applications and explore the clinical advantages of ultrasound, including Doppler capabilities and real-time observation of soft tissue structures.
High-frequency ultrasound (30-70 μm resolution) enables in vivo, dynamic imaging of vascular flow, muscle activity, and filler placement. It is non-invasive, repeatable, and applicable at the point of care. Finger-mounted devices, such as those used in Safe Injection By Ultrasound (SIBUS) protocols, provide sufficient resolution for guiding aesthetic procedures involving superficial facial anatomy. Doppler integration further enhances procedural safety.
While micro-CT remains ideal for high-resolution anatomical research and educational modeling, ultrasound uniquely enables functional, real-time assessment essential for safe clinical practice. Together, these modalities serve complementary roles in advancing both anatomical understanding and patient care in aesthetic medicine.
微型计算机断层扫描(micro-CT)在研究面部解剖结构方面具有出色的三维分辨率,能够以低至4-10μm的各向同性分辨率捕捉复杂的结构关系。然而,其应用仅限于离体标本,无法进行实时或功能评估。
强调高频超声在面部解剖评估和手术指导中的补充价值,尤其是在临床环境中。
我们讨论了micro-CT在动态应用方面的局限性,并探讨了超声的临床优势,包括多普勒功能和对软组织结构的实时观察。
高频超声(分辨率为30-70μm)能够对血管血流、肌肉活动和填充物植入进行体内动态成像。它具有非侵入性、可重复性,且适用于床边检查。手指式设备,如超声安全注射(SIBUS)方案中使用的设备,可为涉及面部浅表解剖结构的美容手术提供足够的分辨率以进行指导。多普勒集成进一步提高了手术安全性。
虽然micro-CT仍然是高分辨率解剖学研究和教育建模的理想选择,但超声独特地实现了安全临床实践所必需的功能实时评估。总之,这些模式在推进美容医学中的解剖学理解和患者护理方面发挥着互补作用。
