Ersan Mert, Kaya Burak, Özdemir Arda, Durdurur Çin Aygül, Ergün Hakan
Ankara University Faculty of Medicine, Plastic Reconstructive and Aesthetic Surgery Department, 06110, Turkiye.
Ankara University Faculty of Medicine, Department of Medical Pharmacology, 06110, Turkiye.
Heliyon. 2024 Aug 14;10(16):e36034. doi: 10.1016/j.heliyon.2024.e36034. eCollection 2024 Aug 30.
Non-invasive angiography with indocyanine green dye facilitates the assessment of flaps. Although ICG angiography has been successfully utilized in clinical settings for human beings, its application in experimental models exhibits certain limitations. This study aimed to address the encountered issues in angiography with different experimental models and introduce a novel modification to the ICG imaging of the McFarlane flap.
MATERIALS-METHODS: Rats were randomly divided into three groups: the first group received an epigastric flap (n = 4), the second group received a deep inferior epigastric perforator flap (n = 4), and the third group received a dorsal flap (n = 8). In the first group, sterile silicone background was placed under two flaps. In the second group, no background was used. In the third group, a sterile silicone or aluminum foil was placed under the flaps. Flap perfusions were assessed using fluorescent imaging after flap adaptations, at postoperative 30th minute and 3., 5. and 7. days. Necrosis calculations were performed using all images obtained from the digital camera and the fluorescent imaging. In the third group, the flow velocities were also calculated. All flaps were sent for histopathological examination.
Even with a silicone background, clear perfusion evaluation and determining the threshold value for predicting necrosis rates were challenging. Moreover, a portion of the flaps without background material survived as grafts. Using an aluminum foil background improved image quality by reducing reflection from interior organs.
The use of an aluminum foil background is beneficial in non-invasive angiography for assessing flap perfusions accurately and predicting necrosis in experimental animal models.
使用吲哚菁绿染料进行的无创血管造影有助于皮瓣评估。尽管吲哚菁绿血管造影已在人类临床环境中成功应用,但其在实验模型中的应用存在一定局限性。本研究旨在解决不同实验模型血管造影中遇到的问题,并对麦克法兰皮瓣的吲哚菁绿成像进行新的改进。
将大鼠随机分为三组:第一组接受腹壁皮瓣(n = 4),第二组接受腹壁下深动脉穿支皮瓣(n = 4),第三组接受背部皮瓣(n = 8)。在第一组中,在两个皮瓣下方放置无菌硅胶背景。在第二组中,未使用背景材料。在第三组中,在皮瓣下方放置无菌硅胶或铝箔。在皮瓣适应后、术后第30分钟以及第3、5和7天,使用荧光成像评估皮瓣灌注情况。使用从数码相机和荧光成像获得的所有图像进行坏死计算。在第三组中,还计算了血流速度。所有皮瓣均送去进行组织病理学检查。
即使有硅胶背景,清晰的灌注评估以及确定预测坏死率的阈值仍具有挑战性。此外,一部分没有背景材料的皮瓣作为移植物存活下来。使用铝箔背景可通过减少内部器官的反射来提高图像质量。
在无创血管造影中使用铝箔背景有利于准确评估实验动物模型中的皮瓣灌注并预测坏死情况。
