Your search keyword '"RSOM"' showing total 9 results

1. Optoacoustic biomarkers of lipids, hemorrhage and inflammation in carotid atherosclerosis

Author

Angelos Karlas, Nikolina-Alexia Fasoula, Michael Kallmayer, Christoph Schäffer, Georgios Angelis, Nikoletta Katsouli, Mario Reidl, Felix Duelmer, Kenana Al Adem, Leontios Hadjileontiadis, Hans-Henning Eckstein, and Vasilis Ntziachristos

Subjects

MSOT, RSOM, stroke, carotid artery disease, vulnerable plaque, unstable plaque, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Imaging plays a critical role in exploring the pathophysiology and enabling the diagnostics and therapy assessment in carotid artery disease. Ultrasonography, computed tomography, magnetic resonance imaging and nuclear medicine techniques have been used to extract of known characteristics of plaque vulnerability, such as inflammation, intraplaque hemorrhage and high lipid content. Despite the plethora of available techniques, there is still a need for new modalities to better characterize the plaque and provide novel biomarkers that might help to detect the vulnerable plaque early enough and before a stroke occurs. Optoacoustics, by providing a multiscale characterization of the morphology and pathophysiology of the plaque could offer such an option. By visualizing endogenous (e.g., hemoglobin, lipids) and exogenous (e.g., injected dyes) chromophores, optoacoustic technologies have shown great capability in imaging lipids, hemoglobin and inflammation in different applications and settings. Herein, we provide an overview of the main optoacoustic systems and scales of detail that enable imaging of carotid plaques in vitro, in small animals and humans. Finally, we discuss the limitations of this novel set of techniques while investigating their potential to enable a deeper understanding of carotid plaque pathophysiology and possibly improve the diagnostics in future patients with carotid artery disease.

Published

2023

2. High-resolution label-free mapping of murine kidney vasculature by raster-scanning optoacoustic mesoscopy: an ex vivo study

Author

Colin A. Goebel, Emma Brown, Fabian B. Fahlbusch, Alexandra L. Wagner, Adrian Buehler, Thomas Raupach, Martin Hohmann, Moritz Späth, Neal Burton, Joachim Woelfle, Michael Schmidt, Andrea Hartner, Adrian P. Regensburger, and Ferdinand Knieling

Subjects

RSOM, msRSOM, Raster scanning optoacoustic mesoscopy, Optoacoustic, Photoacoustic, Ex vivo kidney imaging, Pediatrics, RJ1-570

Abstract

Abstract Background Chronic kidney disease (CKD) is a global burden affecting both children and adults. Novel imaging modalities hold great promise to visualize and quantify structural, functional, and molecular organ damage. The aim of the study was to visualize and quantify murine renal vasculature using label-free raster scanning optoacoustic mesoscopy (RSOM) in explanted organs from mice with renal injury. Material and methods For the experiments, freshly bisected kidneys of alpha 8 integrin knock-out (KO) and wildtype mice (WT) were used. A total of n=7 female (n=4 KO, n=3 WT) and n=6 male animals (n=2 KO, n=4 WT) aged 6 weeks were examined with RSOM optoacoustic imaging systems (RSOM Explorer P50 at SWL 532nm and/or ms-P50 imaging system at 532 nm, 555 nm, 579 nm, and 606 nm). Images were reconstructed using a dedicated software, analyzed for size and vascular area and compared to standard histologic sections. Results RSOM enabled mapping of murine kidney size and vascular area, revealing differences between kidney sizes of male (m) and female (f) mice (merged frequencies (MF) f vs. m: 52.42±6.24 mm2 vs. 69.18±15.96 mm2, p=0.0156) and absolute vascular area (MF f vs. m: 35.67±4.22 mm2 vs. 49.07±13.48 mm2, p=0.0036). Without respect to sex, the absolute kidney area was found to be smaller in knock-out (KO) than in wildtype (WT) mice (WT vs. KO: MF: p=0.0255) and showed a similar trend for the relative vessel area (WT vs. KO: MF p=0.0031). Also the absolute vessel areas of KO compared to WT were found significantly different (MF p=0.0089). A significant decrease in absolute vessel area was found in KO compared to WT male mice (MF WT vs. KO: 54.37±9.35 mm2 vs. 34.93±13.82 mm2, p=0.0232). In addition, multispectral RSOM allowed visualization of oxygenated and deoxygenated parenchymal regions by spectral unmixing. Conclusion This study demonstrates the capability of RSOM for label-free visualization of differences in vascular morphology in ex vivo murine renal tissue at high resolution. Due to its scalability optoacoustic imaging provides an emerging modality with potential for further preclinical and clinical imaging applications.

Published

2022

3. Computer – Aided Strategic Deployment Planning and Execution Process

Author

Hrab Marius

Subjects

deployment, digitalization, rsom, expeditionary operations, planning, Military Science

Abstract

In the current politico-military context, the digitalization of processes and the use of automated tools for data collection, analysis and dissemination have an important contribution during the planning and decision-making process. In this paper, my intention is to analyze the operational forces deployment planning and executing processes, and to identify how the digitalization and the use of dedicated computer applications can enhance these activities. In order to achieve these goals, in addition to analyzing relevant documents in the field, I chose to apply the case study research method. Thus, my attention focused on the study of military operations executed by modern armies, to identify important lessons in the stated field of interest. Even though the studied operations (Iraqi Freedom and Desert Shield / Storm) were performed two, respectively three decades ago, their relevance in the field of deployment is still valuable, fact highlighted by the actual applicability of the lessons depicted from these two events.

Published

2022

4. High-resolution label-free mapping of murine kidney vasculature by raster-scanning optoacoustic mesoscopy: an ex vivo study.

Author

Goebel, Colin A., Brown, Emma, Fahlbusch, Fabian B., Wagner, Alexandra L., Buehler, Adrian, Raupach, Thomas, Hohmann, Martin, Späth, Moritz, Burton, Neal, Woelfle, Joachim, Schmidt, Michael, Hartner, Andrea, Regensburger, Adrian P., and Knieling, Ferdinand

Subjects

SCALABILITY, KIDNEYS, CHRONIC kidney failure, BLOOD vessels, IMAGING systems

Abstract

Background: Chronic kidney disease (CKD) is a global burden affecting both children and adults. Novel imaging modalities hold great promise to visualize and quantify structural, functional, and molecular organ damage. The aim of the study was to visualize and quantify murine renal vasculature using label-free raster scanning optoacoustic mesoscopy (RSOM) in explanted organs from mice with renal injury. Material and methods: For the experiments, freshly bisected kidneys of alpha 8 integrin knock-out (KO) and wildtype mice (WT) were used. A total of n=7 female (n=4 KO, n=3 WT) and n=6 male animals (n=2 KO, n=4 WT) aged 6 weeks were examined with RSOM optoacoustic imaging systems (RSOM Explorer P50 at SWL 532nm and/or ms-P50 imaging system at 532 nm, 555 nm, 579 nm, and 606 nm). Images were reconstructed using a dedicated software, analyzed for size and vascular area and compared to standard histologic sections. Results: RSOM enabled mapping of murine kidney size and vascular area, revealing differences between kidney sizes of male (m) and female (f) mice (merged frequencies (MF) f vs. m: 52.42±6.24 mm2 vs. 69.18±15.96 mm2, p=0.0156) and absolute vascular area (MF f vs. m: 35.67±4.22 mm2 vs. 49.07±13.48 mm2, p=0.0036). Without respect to sex, the absolute kidney area was found to be smaller in knock-out (KO) than in wildtype (WT) mice (WT vs. KO: MF: p=0.0255) and showed a similar trend for the relative vessel area (WT vs. KO: MF p=0.0031). Also the absolute vessel areas of KO compared to WT were found significantly different (MF p=0.0089). A significant decrease in absolute vessel area was found in KO compared to WT male mice (MF WT vs. KO: 54.37±9.35 mm2 vs. 34.93±13.82 mm2, p=0.0232). In addition, multispectral RSOM allowed visualization of oxygenated and deoxygenated parenchymal regions by spectral unmixing. Conclusion: This study demonstrates the capability of RSOM for label-free visualization of differences in vascular morphology in ex vivo murine renal tissue at high resolution. Due to its scalability optoacoustic imaging provides an emerging modality with potential for further preclinical and clinical imaging applications. [ABSTRACT FROM AUTHOR]

Published

2022

5. THE PLACE AND ROLE OF MULTINATIONAL LOGISTICS SOLUTIONS IN THE DEPLOYMENT PROCESS.

Author

HRAB, Marius and MINCULETE, Gheorghe

Abstract

Addressing the new strategic threats generated by globalization of both economic and geo-political environments, force projection and multinational approaches of conflicts are the way that nations are protecting their values. Corroborating deployment, as a required process for force projection, and multinationality, as a basic feature of modern social activities, the aim of this paper is to highlight the instruments that nations may use nowadays considering both of these two elements. Focused on the capabilities that can be generated by employing different multinational solutions, the subject was approached using literature review as a main research method; furthermore, analyzing cases from the past and projects for the future, we exemplified the aimed concepts and the way they are linked in the deployment process. [ABSTRACT FROM AUTHOR]

Published

2022

6. APPROACHES TO THE ROLE OF THE HOST NATION SUPPORT IN STRATEGIC DEPLOYMENT.

Author

HRAB, Marius and MINCULETE, Gheorghe

Subjects

*LEGISLATIVE amendments

Abstract

The structural changes determined by the increasingly dynamic and volatile evolution of the security environment, the new elements in the command and force structure at national and allied level, have led to legislative amendments accordingly. This paper aims to analyze the host nation from the perspective of the forces deploying on its territory by determining how regulations have evolved in this area and highlighting the main capabilities whose development at the host nation level can support the deployment. We have chosen to analyze the documents governing the addressed areas at NATO and US level and to conduct a case study relevant to the subject. [ABSTRACT FROM AUTHOR]

Published

2022

7. Optoacoustic Imaging in Inflammation

Author

Adrian P. Regensburger, Emma Brown, Gerhard Krönke, Maximilian J. Waldner, and Ferdinand Knieling

Subjects

optoacoustics, photoacoustics, imaging inflammation, MSOT, RSOM, PAI, Biology (General), QH301-705.5

Abstract

Optoacoustic or photoacoustic imaging (OAI/PAI) is a technology which enables non-invasive visualization of laser-illuminated tissue by the detection of acoustic signals. The combination of “light in” and “sound out” offers unprecedented scalability with a high penetration depth and resolution. The wide range of biomedical applications makes this technology a versatile tool for preclinical and clinical research. Particularly when imaging inflammation, the technology offers advantages over current clinical methods to diagnose, stage, and monitor physiological and pathophysiological processes. This review discusses the clinical perspective of using OAI in the context of imaging inflammation as well as in current and emerging translational applications.

Published

2021

8. A KATONAI LOGISZTIKA ALAPKÉPZÉSI SZAK RSOM FELKÉSZÍTÉS TAPASZTALATAI.

Author

HORVÁTH, Attila

Abstract

Copyright of Military Engineer / Hadmérnök is the property of National University of Public Service and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

9. Optoacoustic Imaging in Inflammation.

Author

Regensburger, Adrian P., Brown, Emma, Krönke, Gerhard, Waldner, Maximilian J., Knieling, Ferdinand, and Wildgruber, Moritz

Subjects

ACOUSTIC imaging, MEDICAL research, INFLAMMATION, SIGNAL detection, PATIENT monitoring

Abstract

Optoacoustic or photoacoustic imaging (OAI/PAI) is a technology which enables non-invasive visualization of laser-illuminated tissue by the detection of acoustic signals. The combination of "light in" and "sound out" offers unprecedented scalability with a high penetration depth and resolution. The wide range of biomedical applications makes this technology a versatile tool for preclinical and clinical research. Particularly when imaging inflammation, the technology offers advantages over current clinical methods to diagnose, stage, and monitor physiological and pathophysiological processes. This review discusses the clinical perspective of using OAI in the context of imaging inflammation as well as in current and emerging translational applications. [ABSTRACT FROM AUTHOR]

Published

2021