术中成像动物模型血管闭塞和再灌注的实时评估--一项试点研究

IF 1.7 Q2 SURGERY Innovative Surgical Sciences Pub Date : 2024-03-26 DOI:10.1515/iss-2023-0003
Jayanth Kandukuri, Aseem Jain, Parag Karmarkar, Hrishikesh Gadagkar, Harold Aberman, Qihong Wang, Abhishek Rege
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引用次数: 0

摘要

术中血流 (BF) 监测对于指导手术决策仍然至关重要。在此,我们报告了 SurgeON™ 血流监测器 (BFM) 的使用情况,这是一种可安装在手术显微镜上的原型系统,它采用激光斑点对比成像 (LSCI),可在显微镜目镜内非侵入性地实时获取和呈现血管血流信息。 我们在两个大型动物模型中研究了 SurgeON BFM 在可逆血管闭塞过程中监测 BF 状态的能力:在六只 NZW 兔后肢中闭塞大隐静脉,以及在四只 Dorset 羊大脑半球中剪断大脑中动脉 (MCA) 分支。SurgeON BFM 采集、显示和存储基于 LSCI 的血流速度指数(BFVi)数据,并进行吲哚青绿视频血管造影(ICG-VA)以进行确证。 存储的 BFVi 数据在每个阶段进行分析:闭塞前(基线)、血管闭塞时(闭塞)和逆转闭塞后(再灌注)。在大隐静脉中,相对于基线的 BFVi 在闭塞时降至 5.2±3.7%,在再灌注时恢复到 102.9±14.9%。与 ICG-VA 不同的是,SurgeON BFM 能够监测 BFVi 的降低,并在同一血管上间隔 2-5 分钟进行的五次连续闭塞过程中有力地描述再灌注的特征。在闭塞和再灌注阶段,四条绵羊 MCA 血管的 BFVi 分别降至基线的 18.6±7.7 % 和 120.1±27.8%。 SurgeON BFM 可以无创监测血管闭塞状态,并为手术外科医生提供直观可视的实时 BF 信息。这项技术可应用于血管、整形和神经血管手术。
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Realtime assessment of vascular occlusion and reperfusion in animal models of intraoperative imaging – a pilot study
Intraoperative monitoring of blood flow (BF) remains vital to guiding surgical decisions. Here, we report the use of SurgeON™ Blood Flow Monitor (BFM), a prototype system that attaches to surgical microscopes and implements laser speckle contrast imaging (LSCI) to noninvasively obtain and present vascular BF information in real-time within the microscope’s eyepiece. The ability of SurgeON BFM to monitor BF status during reversible vascular occlusion procedures was investigated in two large animal models: occlusion of saphenous veins in six NZW rabbit hindlimbs and clipping of middle cerebral artery (MCA) branches in four Dorset sheep brain hemispheres. SurgeON BFM acquired, presented, and stored LSCI-based blood flow velocity index (BFVi) data and performed indocyanine green video angiography (ICG-VA) for corroboration. Stored BFVi data were analyzed for each phase: pre-occlusion (baseline), with the vessel occluded (occlusion), and after reversal of occlusion (re-perfusion). In saphenous veins, BFVi relative to baseline reduced to 5.2±3.7 % during occlusion and returned to 102.9±14.9 % during re-perfusion. Unlike ICG-VA, SurgeON BFM was able to monitor reduced BFVi and characterize re-perfusion robustly during five serial occlusion procedures conducted 2–5 min apart on the same vessel. Across four sheep MCA vessels, BFVi reduced to 18.6±7.7 % and returned to 120.1±27.8 % of baseline during occlusion and re-perfusion phases, respectively. SurgeON BFM can noninvasively monitor vascular occlusion status and provide intuitive visualization of BF information in real-time to an operating surgeon. This technology may find application in vascular, plastic, and neurovascular surgery.
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CiteScore
5.40
自引率
0.00%
发文量
29
审稿时长
11 weeks
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