Portable PET probes are a novel tool for intraoperative localization of tumor deposits.

Vivian E Strong, Charles J Galanis, Christopher C Riedl, Valerie A Longo, Farhad Daghighian, John L Humm, Steven M Larson, Yuman Fong
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引用次数: 29

Abstract

Background: Positron emission tomography (PET) identifies cancer deposits by detecting sites of gamma emissions that are released from radioactively labeled molecules targeting tumor to formulate a PET image. Correlating preoperative PET scans with intraoperative findings remains a challenge. We investigated whether high-energy gamma emissions detected by a novel hand-held PET probe would detect tumors and offer a real-time method to localize tumor intraoperatively. Furthermore, we investigated the novel beta probe, which detects emissions at a shorter range than gamma emissions, making them undetectable by PET scanners, but potentially valuable for close range intraoperative detection of tumor deposits.

Methods: Six-to-eight-week-old athymic mice were injected with one of four possible tumor cell lines: gastric, pancreas, squamous cell and breast cancer. After tumors reached at least 1 cm in size, they were euthanized and imaged with a micro-PET imager. Hand-held gamma and beta probes were then used in vivo and ex vivo to measure high-energy gamma and beta emissions.

Results: The portable PET probes detected high-energy gamma and beta emissions from all tumors evaluated. These emissions were reproducible and we established that beta emissions correlate with high-energy gamma emissions and conventional PET scans. There was a strong positive correlation (R = 0.8) between gamma and beta counts. Beta emission showed a stronger correlation than gamma emission with overall tissue radioactivity.

Conclusion: This study is the first to demonstrate that gamma emission detected by conventional PET imaging correlates with beta emissions. This study shows that compared to detection of gamma emissions, beta counts may offer superior real-time localization of tumor deposits. Intraoperative portable PET probe may become a useful way to exploit tumor biology and PET technology to guide real-time tissue characterization during surgery.

Abstract Image

Abstract Image

Abstract Image

便携式PET探针是术中定位肿瘤沉积物的新工具。
背景:正电子发射断层扫描(PET)通过检测靶向肿瘤的放射性标记分子释放的伽马射线来识别癌症沉积物,从而形成PET图像。将术前PET扫描与术中发现相关联仍然是一个挑战。我们研究了一种新型手持式PET探针检测的高能伽马射线是否能检测出肿瘤,并为术中肿瘤定位提供了一种实时方法。此外,我们研究了新型的β探针,它可以探测到比伽马发射更短的距离,使其无法被PET扫描仪检测到,但对于术中肿瘤沉积物的近距离检测具有潜在的价值。方法:给6 ~ 8周大的胸腺小鼠注射四种可能的肿瘤细胞系之一:胃癌、胰腺癌、鳞状细胞癌和乳腺癌。当肿瘤达到至少1厘米大小时,对它们实施安乐死,并用微型pet成像仪成像。然后在体内和离体中使用手持伽马和β探针来测量高能伽马和β辐射。结果:便携式PET探针检测到所有评估肿瘤的高能γ和β辐射。这些辐射是可重复的,我们确定β辐射与高能伽马辐射和传统的PET扫描相关。γ计数和β计数之间有很强的正相关(R = 0.8)。β辐射比γ辐射与整体组织放射性的相关性更强。结论:本研究首次证明了常规PET成像检测到的伽马辐射与β辐射相关。这项研究表明,与伽马辐射检测相比,β计数可能提供更好的肿瘤沉积物实时定位。术中便携式PET探针可能成为利用肿瘤生物学和PET技术指导术中实时组织表征的有效途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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