Ultra-low-dose intraoperative X-ray imager for minimally invasive surgery: a pilot imaging study

Park, Haewook; Han, Kook Nam; Choi, Byoung Ho; Yoon, Hyunsuk; An, Hyun Joon; Lee, Jae Sung; Kim, Hyun Koo

doi:10.21037/tlcr-21-909

Cited by 4 publications

(4 citation statements)

References 42 publications

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“…In minimally invasive surgery (MIS), the challenge deepens since access through the incision port limits visual inspection and restricts direct finger palpation and indirect palpation through a medical instrument. Besides, these methods are rarely sufficient to assess the location of the resection margins or they are still at the experimental stage [12,13].…”

Section: Introductionmentioning

confidence: 99%

“…What would be the potential benefits of integrating these concepts into radiation detectors that are directly attached to the organs? In the specific application of nuclear imaging, we hypothesise that bringing a radiation detector closer to the source would improve the signal-to-noise ratio (SNR), thereby reducing the radiation dose required to obtain high-quality images [13,20]. This would also extend the imaging while providing instantaneous feedback during surgery.…”

Section: Introductionmentioning

confidence: 99%

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Imaging skins: stretchable and conformable on-organ beta particle detectors for radioguided surgery

et al. 2023

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While radioguided surgery traditionally relied on detecting gamma rays, direct detection of beta particles could facilitate the detection of tumour margins intraoperatively by reducing radiation noise emanating from distant organs, thereby improving the signal-to-noise ratio (SNR) of the imaging technique. In addition, most existing beta detectors do not offer surface sensing or imaging capabilities.Therefore, in this article, we explore the concept of a stretchable scintillator to detect beta-particles emitting radiotracers that would be directly deployed on the targetted organ. Such detectors, which we refer to as imaging skins, would work as indirect radiation detectors made of light-emitting agents and biocompatible stretchable material. Our vision is to detect scintillation using standard endoscopes routinely employed in minimally invasive surgery (MIS). Moreover, surgical robotic systems would ideally be used to apply the imaging skins, allowing for precise control of each component, thereby improving positioning and task repeatability. While still in the exploratory stages, this innovative approach has the potential to improve the detection of tumour margins during radioguided surgery by enabling real-time imaging, ultimately improving surgical outcomes.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Imaging skins: stretchable and conformable on-organ beta particle detectors for radioguided surgery

et al. 2023

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“…Park et al described the use of an ultra-low-dose X-ray imager to identify lung nodules intraoperatively (16). This device is a hand-held, clamp-shaped endoscopic instrument that employs a carbon nanotube, which allows a compact design.…”

mentioning

confidence: 99%

“…The second issue with the ultra-low-dose X-ray imager is that Park et al identified lesions containing contrast media (16). In clinical practice, the insertion of a contrast agent into a lesion involves an extra procedure, which involves additional radiation exposure and procedural risks.…”

mentioning

confidence: 99%

Will the ultra-low-dose intraoperative X-ray imager change thoracoscopic surgery?

Yamauchi

2022

Transl Lung Cancer Res

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Novel locally nebulized indocyanine green for simultaneous identification of tumor margin and intersegmental plane

Jeon,

Kim,

Kim

et al. 2024

International Journal of Surgery

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Background: Segmentectomy, recommended for early-stage lung cancer or compromised lung function, demands precise tumor detection and intersegmental plane identification. While Indocyanine green (ICG) commonly aids in these aspects using near-infrared (NIR) imaging, its separate administrations through different routes and times can lead to complications and patient anxiety. This study aims to develop a lung-specific delivery method by nebulizing low-dose ICG to targeted lung segments, allowing simultaneous detection of lung tumors and intersegmental planes across diverse animal models. Methods: To optimizing the dose of ICG for lung tumor and interlobar fissure detection, different doses of ICG (0.25, 0.1 and 0.05 mg/kg) were nebulized to rabbit lung tumor models. The distribution of locally nebulized ICG in targeted segments was studied to evaluate the feasibility of detecting lung tumor and intersegmental planes in canine lung pseudotumor models. Results: NIR fluorescence imaging demonstrated clear visualization of lung tumor margin and interlobar fissure using local nebulization of 0.1 mg/kg ICG for only 4 min during surgery in the rabbit models. In the canine model, the local nebulization of 0.05 mg/kg of ICG into the target segment enabled clear visualization of pseudotumor and intersegmental planes for 30 min. Conclusions: This innovative approach achieves a reduction in ICG dose and prolonged the visualization time of the intersegmental plane and effectively eliminates the need for the hurried marking of tumors and intersegmental planes. We anticipate that lung specific delivery of ICG will prove valuable for image-guided limited resection of lung tumors in clinical practice.

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Ultra-low-dose intraoperative X-ray imager for minimally invasive surgery: a pilot imaging study

Cited by 4 publications

References 42 publications

Imaging skins: stretchable and conformable on-organ beta particle detectors for radioguided surgery

Imaging skins: stretchable and conformable on-organ beta particle detectors for radioguided surgery

Will the ultra-low-dose intraoperative X-ray imager change thoracoscopic surgery?

Novel locally nebulized indocyanine green for simultaneous identification of tumor margin and intersegmental plane

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