VNIR–NIR hyperspectral imaging fusion targeting intraoperative brain cancer detection

Leon, Raquel; Fabelo, Himar; Ortega, Samuel; Piñeiro, Juan F.; Szołna, Adam; Hernández, María Antonia Gil; Espino, Carlos; O’Shanahan, Aruma J.; Carrera, David; Bisshopp, Sara; Sosa, Coralia; Márquez, Mariano; Morera, Jesús Pérez; Clavo, Bernardino; Callicó, Gustavo M.

doi:10.1038/s41598-021-99220-0

Cited by 27 publications

(30 citation statements)

References 44 publications

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“…Six publications ( 9 , 14 – 18 ) were found in this category that focused on tissue classification based on hyperspectral imaging ( Table 2 ). These articles focused on detecting brain tumor tissue since hyperspectral imaging facilitates non-contact, non-ionizing, and real-time data acquisition that is used for tumor diagnosis.…”

Section: Resultsmentioning

confidence: 99%

“…Extracted reports used different technologies of varying spectral wavelengths. The majority of studies used Visual and Near-Infrared (VNIR) push-broom cameras covering a 400–1,000 nm wavelength range ( 9 , 14 , 15 , 17 , 18 ). In contrast to push-broom imaging technology, Urbanos et al ( 16 ) used a VNIR snapshot camera that can be used in a surgical environment due to its smaller footprint.…”

Section: Resultsmentioning

confidence: 99%

“…However, such sensors generally deliver a narrower wavelength range, namely 655–955 nm. Leon et al ( 14 ) proposed the combination of VNIR and Near-Infrared (NIR) cameras to cover the broadband spectral range between 435 nm and 1638 nm.…”

Section: Resultsmentioning

confidence: 99%

See 2 more Smart Citations

Intraoperative tissue classification methods in orthopedic and neurological surgeries: A systematic review

Massalimova

Timmermans²,

Esfandiari³

et al. 2022

Front. Surg.

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Accurate tissue differentiation during orthopedic and neurological surgeries is critical, given that such surgeries involve operations on or in the vicinity of vital neurovascular structures and erroneous surgical maneuvers can lead to surgical complications. By now, the number of emerging technologies tackling the problem of intraoperative tissue classification methods is increasing. Therefore, this systematic review paper intends to give a general overview of existing technologies. The review was done based on the PRISMA principle and two databases: PubMed and IEEE Xplore. The screening process resulted in 60 full-text papers. The general characteristics of the methodology from extracted papers included data processing pipeline, machine learning methods if applicable, types of tissues that can be identified with them, phantom used to conduct the experiment, and evaluation results. This paper can be useful in identifying the problems in the current status of the state-of-the-art intraoperative tissue classification methods and designing new enhanced techniques.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Intraoperative tissue classification methods in orthopedic and neurological surgeries: A systematic review

Massalimova

Timmermans²,

Esfandiari³

et al. 2022

Front. Surg.

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show abstract

“…The continuous improvement of HSI systems in imaging, spatial resolution, spectral range, and resolution will enable portable and smaller HSI devices, and facilitate widespread medical applications in cerebral diagnosis. In addition, scholars have also begun to use multiple HS cameras to acquire more images in the broad spectral band, with the aim of analyzing different characteristics of different types of normal brain and tumor tissue in vivo ( Leon et al, 2021a , Leon et al, 2021b ). 3) Real-time processing of HSI video.…”

Section: Discussion and Outlookmentioning

confidence: 99%

Review on the Application of Hyperspectral Imaging Technology of the Exposed Cortex in Cerebral Surgery

Yang

et al. 2022

Front. Bioeng. Biotechnol.

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The study of brain science is vital to human health. The application of hyperspectral imaging in biomedical fields has grown dramatically in recent years due to their unique optical imaging method and multidimensional information acquisition. Hyperspectral imaging technology can acquire two-dimensional spatial information and one-dimensional spectral information of biological samples simultaneously, covering the ultraviolet, visible and infrared spectral ranges with high spectral resolution, which can provide diagnostic information about the physiological, morphological and biochemical components of tissues and organs. This technology also presents finer spectral features for brain imaging studies, and further provides more auxiliary information for cerebral disease research. This paper reviews the recent advance of hyperspectral imaging in cerebral diagnosis. Firstly, the experimental setup, image acquisition and pre-processing, and analysis methods of hyperspectral technology were introduced. Secondly, the latest research progress and applications of hyperspectral imaging in brain tissue metabolism, hemodynamics, and brain cancer diagnosis in recent years were summarized briefly. Finally, the limitations of the application of hyperspectral imaging in cerebral disease diagnosis field were analyzed, and the future development direction was proposed.

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“…In visceral surgery, it is used to assess anastomosis in the upper [25] and lower gastrointestinal tract [26][27][28]. In neurosurgery, HSI can be used for intraoperative brain cancer targeting [29][30][31]. In reconstructive surgery, HSI is feasible for identifying cutaneous perforators for microvascular surgery [32] and for perioperative perfusion monitoring of free and pedicled flaps [33,34].…”

Section: Discussionmentioning

confidence: 99%

Evaluation of Hyperspectral Imaging for Follow-Up Assessment after Revascularization in Peripheral Artery Disease

Grambow

Sandkühler

Groß

et al. 2022

JCM

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Background: Assessment of tissue oxygenation is an important aspect of detection and monitoring of patients with peripheral artery disease (PAD). Hyperspectral imaging (HSI) is a non-contact technology for assessing microcirculatory function by quantifying tissue oxygen saturation (StO2). This study investigated whether HSI can be used to monitor skin oxygenation in patients with PAD after appropriate treatment of the lower extremities. Methods: For this purpose, 37 patients with PAD were studied by means of ankle–brachial index (ABI) and HSI before and after surgical or endovascular therapy. Thereby, the oxygenation parameter StO2 and near infrared (NIR) perfusion index were quantified in seven angiosomes on the diseased lower leg and foot. In addition, the effects of skin temperature and physical activity on StO2 and the NIR perfusion index and the respective inter-operator variability of these parameters were investigated in 25 healthy volunteers. Results: In all patients, the ABI significantly increased after surgical and endovascular therapy. In parallel, HSI revealed significant changes in both StO2 and NIR perfusion index in almost all studied angiosomes depending on the performed treatment. The increase in tissue oxygenation saturation was especially pronounced after surgical treatment. Neither heat nor cold, nor physical activity, nor repeated assessments of HSI parameters by independent investigators significantly affected the results on StO2 and the NIR perfusion index. Conclusions: Tissue oxygen saturation data obtained with HSI are robust to external confounders, such as temperature and physical activity, and do not show inter-operator variability; therefore, can be used as an additional technique to established methods, such as the ABI, to monitor peripheral perfusion in patients with PAD.

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VNIR–NIR hyperspectral imaging fusion targeting intraoperative brain cancer detection

Cited by 27 publications

References 44 publications

Intraoperative tissue classification methods in orthopedic and neurological surgeries: A systematic review

Intraoperative tissue classification methods in orthopedic and neurological surgeries: A systematic review

Review on the Application of Hyperspectral Imaging Technology of the Exposed Cortex in Cerebral Surgery

Evaluation of Hyperspectral Imaging for Follow-Up Assessment after Revascularization in Peripheral Artery Disease

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