使用近红外荧光引导成像系统对穿支皮瓣的灌注和血管损伤进行定量评估。
Quantitative assessment of perfusion and vascular compromise in perforator flaps using a near-infrared fluorescence-guided imaging system.
作者信息
Matsui Aya, Lee Bernard T, Winer Joshua H, Laurence Rita G, Frangioni John V
机构信息
Boston, Mass.; and Sapporo, Japan From the Division of Hematology/Oncology, Department of Medicine, the Department of Radiology, and the Department of Surgery, Division of Plastic and Reconstructive Surgery, Beth Israel Deaconess Medical Center; the Division of Cancer Diagnostics and Therapeutics, Hokkaido University Graduate School of Medicine; and the Department of Surgery, Brigham & Women's Hospital.
出版信息
Plast Reconstr Surg. 2009 Aug;124(2):451-460. doi: 10.1097/PRS.0b013e3181adcf7d.
BACKGROUND
Techniques currently used to determine flap perfusion are mainly subjective, with the majority of reconstructive surgeons still relying on clinical examination. In this study, the authors demonstrate the use of near-infrared fluorescence angiography to directly quantify normal and abnormal perfusion in perforator flaps.
METHODS
Indocyanine green was injected intravenously into anesthetized adult pigs (n = 38). A custom near-infrared fluorescence imaging system was used for image acquisition and quantitation. Thirty-nine flaps were designed based on identified perforators, and postoperative imaging was performed for comparison. In select flaps, isolated occlusion of the arterial and venous pedicle was performed. In select flaps, vascular spasm was induced by local irrigation of the vessels with epinephrine. The fluorescence intensities of select regions of interest were quantified. From these data, the authors defined two indices for abnormal perfusion: the Tmax ratio and the drainage ratio.
RESULTS
The authors identified a normal pattern of perfusion before flap elevation, composed of a distinct fluorescence intensity peak at maximal arterial inflow followed by a smooth drop representing venous drainage. Delay of this peak after flap elevation, as indicated by the Tmax ratio, identified vascular spasm and arterial occlusion (p < 0.0001). Abnormal fall of fluorescence intensities after this peak, as indicated by the drainage ratio, identified venous occlusion (p < 0.0001).
CONCLUSIONS
Quantitation of fluorescence intensities by near-infrared angiography accurately characterizes arterial and venous compromise. The authors' technique can assess perfusion characteristics during the intraoperative and postoperative periods and therefore complements clinically based subjective criteria now used for flap assessment.
背景
目前用于确定皮瓣灌注的技术主要是主观的,大多数重建外科医生仍依赖临床检查。在本研究中,作者展示了使用近红外荧光血管造影术直接量化穿支皮瓣的正常和异常灌注情况。
方法
将吲哚菁绿静脉注射到麻醉的成年猪(n = 38)体内。使用定制的近红外荧光成像系统进行图像采集和定量分析。根据确定的穿支设计了39个皮瓣,并进行术后成像以作比较。在选定的皮瓣中,对动脉和静脉蒂进行单独阻断。在选定的皮瓣中,通过用肾上腺素局部冲洗血管诱导血管痉挛。对选定的感兴趣区域的荧光强度进行量化。根据这些数据,作者定义了两个异常灌注指标:Tmax比值和引流比值。
结果
作者确定了皮瓣掀起前的正常灌注模式,其由最大动脉流入时明显的荧光强度峰值组成,随后是代表静脉引流的平滑下降。皮瓣掀起后该峰值延迟,如Tmax比值所示,表明存在血管痉挛和动脉阻塞(p < 0.0001)。该峰值后荧光强度异常下降,如引流比值所示,表明存在静脉阻塞(p < 0.0001)。
结论
通过近红外血管造影术对荧光强度进行定量分析可准确表征动脉和静脉受损情况。作者的技术可在术中和术后评估灌注特征,因此补充了目前用于皮瓣评估的基于临床的主观标准。
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