Multiparametric ultrasound: evaluation of greyscale, shear wave elastography and contrast-enhanced ultrasound for prostate cancer detection and localization in correlation to radical prostatectomy specimens

Mannaerts, Christophe K.; Wildeboer, Rogier R.; Postema, Arnoud W.; Hagemann, J; Budäus, Lars; Tilki, Derya; Mischi, Massimo; Wijkstra, Hessel; Salomon, Georg

doi:10.1186/s12894-018-0409-5

Cited by 33 publications

(24 citation statements)

References 48 publications

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“…Meanwhile, to investigate the feasibility of multiparametric US, machine learning by means of a Gaussian mixture model using only CEUS features already achieved a higher detection performance than individual parameters, increasing the accuracy from 73 % to 81 % [10]. Thus, in collaboration with clinical partners at the Academic Medical Centre (University of Amsterdam, Amsterdam, The Netherlands) and the Martini Klinik in Hamburg (University Hospital, Hamburg-Eppendorf, Germany), I conducted the first clinical study combining B-mode US, CEUS, its quantification, as well as shear-wave elastography [11]. A total of 50 patients referred for radical prostatectomy were enrolled in this study; my preliminary work on registration allowed me to accurately match the histopathology to the imaging planes and automatically segment the prostate.…”

Section: Resultsmentioning

confidence: 99%

EFSUMB Young Investigator Award 2019

2019

Ultraschall in Med

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Section: Resultsmentioning

confidence: 99%

EFSUMB Young Investigator Award 2019

2019

Ultraschall in Med

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“…This provides important advantages with data sets exhibiting clear spatial dependencies. In addition to the analysis of DCE-US data, combination with other (ultrasound) modalities reflecting different physical phenomena, such as B-mode acquisitions and shear wave elastography, represent a promising approach to boost the diagnostic accuracy (Brock et al 2013;Postema et al 2015;Mannaerts et al 2018Mannaerts et al , 2019Li et al 2019).…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

“…In addition to promoting the standardization of UCA injection and acquisition protocols, and of qualitative interpretation of DCE-US exams, important steps have been made in quantitative analysis, with the publication of consensus papers providing guidelines for quantification of tumor perfusion by DCE-US (Dietrich et al 2012;Leen et al 2012). Moreover, important steps to combine quantitative parameters extracted from DCE-US and other ultrasound modalities in a multiparametric fashion are also being made (Acharya et al 2011;Brock et al 2013;Postema et al 2015;Mannaerts et al 2018Mannaerts et al , 2019Theek et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Contrast-Enhanced Ultrasound Quantification: From Kinetic Modeling to Machine Learning

Turco

Frinking

Wildeboer

et al. 2020

Ultrasound in Medicine & Biology

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Ultrasound contrast agents (UCAs) have opened up immense diagnostic possibilities by combined use of indicator dilution principles and dynamic contrast-enhanced ultrasound (DCE-US) imaging. UCAs are microbubbles encapsulated in a biocompatible shell. With a rheology comparable to that of red blood cells, UCAs provide an intravascular indicator for functional imaging of the (micro)vasculature by quantitative DCE-US. Several models of the UCA intravascular kinetics have been proposed to provide functional quantitative maps, aiding diagnosis of different pathological conditions. This article is a comprehensive review of the available methods for quantitative DCE-US imaging based on temporal, spatial and spatiotemporal analysis of the UCA kinetics. The recent introduction of novel UCAs that are targeted to specific vascular receptors has advanced DCE-US to a molecular imaging modality. In parallel, new kinetic models of increased complexity have been developed. The extraction of multiple quantitative maps, reflecting complementary variables of the underlying physiological processes, requires an integrative approach to their interpretation. A probabilistic framework based on emerging machine-learning methods represents nowadays the ultimate approach, improving the diagnostic accuracy of DCE-US imaging by optimal combination of the extracted complementary information. The current value and future perspective of all these advances are critically discussed.

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“…Early diagnosis and effective treatment are the basis for ensuring a good prognosis in patients with prostate cancer [1,2]. Previous studies have shown that ultrasound molecular imaging provides new ideas for early diagnosis, treatment and efficient monitoring of prostate cancer because of its realtime dynamic imaging, therapeutic controllability and easy operation [3,4]. However, due to the poor sensitivity and specificity of conventional ultrasound diagnosis of prostate cancer, the development of a high-sensitivity contrast-enhanced ultrasound contrast agent is pertinent in ultrasound molecular imaging of prostate cancer [5].…”

Section: Introductionmentioning

confidence: 99%

Multifunctional Nanobubbles Carrying Indocyanine Green and Paclitaxel for Molecular Imaging and Treatment of Prostate Cancer

Lan

Zhu

Wang

et al. 2020

Preprint

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Background: Combining ultrasound imaging with photoacoustic imaging provides tissue imaging with high contrast and high resolution, thereby enabling rapid and direct measurement and tracking of tumor growth and metastasis. At the same time, ultrasound targeted nanobubble destruction (UTND) provides an effective way to drug accumulation; effectively increasing the content of the drug in the tumor area and reducing potential side effects, thereby contributing effectively to the treatment of the tumors.Result: In this study, we prepared multifunctional nanobubbles (NBs) carrying indocyanine green (ICG) and paclitaxel (PTX) (ICG-PTX NBs), and study their application in ultrasound imaging of prostate cancer as well as their therapeutic effect on prostate cancer when combined with ultrasound targeted nanobubble destruction (UTND). ICG-PTX NBs were prepared by mechanical oscillation method. Their particle size and Zeta potential of ICG-PTX NBs were 469.5±32.87 nm and -21.70±1.222 mV, respectively. The encapsulation efficiency and drug loading efficiency of ICG were 68% and 6.2%, respectively. In vitro imaging experiments showed that ICG-PTX NBs were highly amenable to multimodal imaging including ultrasound, photoacoustic and fluorescence imaging, and the imaging effect is positively correlated with their concentration. The imaging effect of tumor xenografts also indicated that ICG-PTX NBs were of good use for multimodal imaging. In experiments testing the growth of PC-3 cells in vitro and tumor xenografts in vivo, the ICG-PTX NBs+US group showed more significant inhibition of cell proliferation and promotion of cell apoptosis compared to the other groups (P < 0.05). Blood biochemical analysis of the six groups showed that the levels of aspartate aminotransferase (AST), phenylalanine aminotransferase (ALT), serum creatinine (CRE) and blood urea nitrogen (BUN) in the ICG-PTX NBs group and the ICG-PTX NBs+US group were significantly lower than those in the PTX group (P < 0.05). Moreover, H&E staining of tissue sections from vital organ showed no obvious abnormalities in the ICG-PTX NBs group and the ICG-PTX NBs+US group.Conclusions: ICG-PTX NBs can be used as a non-invasive, pro-apoptotic contrast agent for both diagnosis and treatment that can achieve enhanced imaging, effective inhibition and killing of prostate cancer under the guidance of multimodal imaging including ultrasound, fluorescence and photoacoustic imaging.

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Multiparametric ultrasound: evaluation of greyscale, shear wave elastography and contrast-enhanced ultrasound for prostate cancer detection and localization in correlation to radical prostatectomy specimens

Cited by 33 publications

References 48 publications

EFSUMB Young Investigator Award 2019

EFSUMB Young Investigator Award 2019

Contrast-Enhanced Ultrasound Quantification: From Kinetic Modeling to Machine Learning

Multifunctional Nanobubbles Carrying Indocyanine Green and Paclitaxel for Molecular Imaging and Treatment of Prostate Cancer

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