Spatial localisation in nuclear magnetic resonance imaging and spectroscopy

Champion de Crespigny, Alexander James Stephen

January 1991

No description available.

530.41

Magneto-photo-acoustic imaging

Qu, Min

25 June 2012

Cancer is a major public health problem worldwide due to its poor prognosis. Detection of cancer in the earliest stages is crucial for the success of therapeutic strategies to truly cure the disease. Molecular imaging provides the potential to diagnose and image cancers at an asymptomatic stage. In molecular imaging, the nanoparticles are designed to target the cancer cells. Molecular imaging is capable of assessing the molecular processes within the tumors by detecting the accumulated or targeted nanoparticles. However, for most molecular imaging systems, the background signal is a common problem, obscuring signals from specific probes and limiting sensitive detection. A hybrid imaging technique, entitled magneto-photo-acoustic (MPA) imaging, was developed as a non-invasive imaging tool to detect nanoparticles, which are used to target pathologies, with high sensitivity and specificity. Based on dual-contrast of both optical absorption and magnetic susceptibility, MPA imaging can significantly improve the molecular contrast specificity as well as investigate the interaction of nanoparticles with cells. Studies were performed using tissue-mimicking phantoms, ex vivo tissue sample and in vivo animal models of cancer. The results indicate that, coupled with dual-contrast agent, the molecular MPA imaging will allow not only mapping the pathologies located in the body, but also sensing the molecular and physiological processes. / text

Magneto-photo-acoustic imaging

Nanoparticle delivery

Nanoparticle endocytosis

Non-invasive imaging

Neinvazivní zobrazování kardiopulmonárního cévního řečiště / Non-invasive vascular imaging of cardiopulmonary thoracic vessels

Weichet, Jiří

January 2007

Methods of non-invasive vascular imaging of thoracic vessels are briefly introducted in the first part of the thesis. Benefits and limitations of CT angiography and MR angiography of the thoracic aorta, pulmonary vessels, great thoracic veins and cardiac vessels are discussed. The main part of the thesis is concerning to pulmonary veins imaging in cohort of patients with atrial fibrilation, who underwent radiofrequency ablation of the pulmonary veins. Aim of the study was to confirm the CT angiography as suitable method of pulmonary veins imaging, to find out frequency of atypical pulmonary veins anatomic arrangement and to measure pulmonary veins diameter in our cohort, including comparison between both sexes. The main purpose of the study was to compare the diameter of pumonary veins before and after the radiofrequency ablation and discover frequency and severity of iatrogenic pulmonary vein stenoses after the procedure. The group of patients planned for biventricular stimulation implantation is presented finally. CT angiography of coronary sinus and his branches was performed before the procedure. Aim of this work was to evaluate whether the CT angiography is proper method for cardiac venous system visualisation and wheather is it possible to choose patients suitable for implantation of left ventricle...

Neinvazivní zobrazování kardiopulmonárního cévního řečiště / Non-invasive vascular imaging of cardiopulmonary thoracic vessels

Weichet, Jiří

January 2007

Methods of non-invasive vascular imaging of thoracic vessels are briefly introducted in the first part of the thesis. Benefits and limitations of CT angiography and MR angiography of the thoracic aorta, pulmonary vessels, great thoracic veins and cardiac vessels are discussed. The main part of the thesis is concerning to pulmonary veins imaging in cohort of patients with atrial fibrilation, who underwent radiofrequency ablation of the pulmonary veins. Aim of the study was to confirm the CT angiography as suitable method of pulmonary veins imaging, to find out frequency of atypical pulmonary veins anatomic arrangement and to measure pulmonary veins diameter in our cohort, including comparison between both sexes. The main purpose of the study was to compare the diameter of pumonary veins before and after the radiofrequency ablation and discover frequency and severity of iatrogenic pulmonary vein stenoses after the procedure. The group of patients planned for biventricular stimulation implantation is presented finally. CT angiography of coronary sinus and his branches was performed before the procedure. Aim of this work was to evaluate whether the CT angiography is proper method for cardiac venous system visualisation and wheather is it possible to choose patients suitable for implantation of left ventricle...

In Vitro, Non-Invasive Imaging and Detection of Single Living Mammalian Cells Interacting with Bio-Nano-Interfaces

Li, Qifei

01 May 2015

Understanding of bio-nano-interfaces of living mammalian cells will benefit the identification of cellular alterations (e.g. nucleic acids, amino acids, biomechanics, etc.) due to external stimuli, the design of biomaterials (e.g. nanoparticles, nanotubes) and the investigation of the interaction between cells and bio-nano-interfaces (e.g. cell differentiation on 3D nanostructured materials). Analytical techniques can be applied to evaluate the chemical, physical, and mechanical properties of mammalian cells when exposed to such bio-nano-interfaces. In this study, non-invasive advanced spectroscopy techniques including atomic force microscopy (AFM) and Raman microscopy (RM), in conjunction with traditional biological methods are utilized to elucidate specific characteristic information for biological samples and how these property changes reflect the interaction with external stimuli. The focus of this dissertation is on the biophysical, biochemical and cytotoxic detection of mammalian cells interacting with bio-nano-interfaces, and this dissertation can be classified into three topics: biomechanics/cellular biopolymers measurement, bio-interfaces and nano-interfaces studies. For the topic of biomechanics/cellular biopolymers measurement, cellular biophysical and biomechanical properties could be used as differentiation markers to classify cellular differentiation. For the bio-interfaces part, it was observed that BRMS1 expression changed cellular biochemical and biomechanical properties, and the expressions of reactive oxidative species (ROS), apoptosis and cell viability of five types of cells displayed similar patterns over doxorubicin (DOX) incubation time. Secondly, A549 cells were treated with diesel exhaust particles (DEP) and resveratrol (RES) to study the effect of RES on the DEP-induced cells, and it was found that RES can alleviate DEP intervention on cellular structure and increase DEP-induced biomechanical and inflammatory changes. For the nano-interfaces topic, first we synthesized a hybrid nanoparticle with the multimodal properties of fluorescence imaging, Surface-enhanced Raman spectroscopy (SERS) detection and photothermal therapy (PTT) for single living cell analysis of epidermal growth factor receptor (EGFR) and specifically killed cancer cells with high EGFR expression. Additionally, to increase surface area, light-heat conversion efficiency and biocompatibility, we developed a silica coated nanoparticle conjugated with anti-human epidermal growth factor receptor 2 (HER2) antibody. Finally, three-dimensional TiO2 nanotubes with Au nanoparticles coating were synthesized and used to study trophoblast-derived stem-like cells growth on such 3D nanostructures.

in vitro

non-invasive imaging

detection

single living mammalian cells

bio-nano-interfaces

Biological Engineering

Development of in vivo tumour models for non-invasive proof-of-principle investigation of novel therapeutic agents : engineering and characterisation of bioluminescent cell reporter systems for in vivo analysis of anti-cancer therapy pharmacodynamics

O'Farrell, Alice Claire

January 2011

Despite significant advances in cancer treatment, clinical response remains suboptimal and there is a continued requirement for improved chemotherapeutics. The attrition rate for new therapies is high, due principally to lack of in vivo efficacy and poor pharmacodynamics. Consequently better systems are required to determine in vivo preclinical efficiency and drug-target interactions. Engineering of cancer cells to express fluorescent or bioluminescent proteins, either endogenously or under the control of specific gene promoters, and their detection by noninvasive optical imaging has the potential to improve preclinical drug development. In this study, a panel of colorectal cancer cell lines were engineered to express fluorescent and luminescent proteins either constitutively or under control of gene-promoters for the DNA damage response gene p53 or the cell cycle regulator p21, both important pharmacodynamic sensors. These cell lines were characterised for their potential as in vivo models of primary and metastatic tumour therapy response, several showing significant potential. In addition to the development of these models, this study also addressed the pharmacokinetics of different luciferase substrates and identified optimal temporal and dose characteristics for each. Furthermore, a new application for bioluminescent imaging was developed and validated for use in preclinical evaluation of vascular disrupting agents, a new generation of cancer therapeutic. This study demonstrates that despite the dynamic and variable nature of fluorescent and bioluminescent imaging, reproducible results can be obtained if appropriate precautions are taken. The models developed herein will expedite cancer drug development whilst reducing and refining the use of animals in research.

615

Development of in vivo tumour models for non-invasive proof-of-principle investigation of novel therapeutic agents. Engineering and characterisation of bioluminescent cell reporter systems for in vivo analysis of anti-cancer therapy pharmacodynamics.

O'Farrell, Alice C.

January 2011

Despite significant advances in cancer treatment, clinical response remains suboptimal and there is a continued requirement for improved chemotherapeutics. The attrition rate for new therapies is high, due principally to lack of in vivo efficacy and poor pharmacodynamics. Consequently better systems are required to determine in vivo preclinical efficiency and drug-target interactions. Engineering of cancer cells to express fluorescent or bioluminescent proteins, either endogenously or under the control of specific gene promoters, and their detection by noninvasive optical imaging has the potential to improve preclinical drug development. In this study, a panel of colorectal cancer cell lines were engineered to express fluorescent and luminescent proteins either constitutively or under control of gene-promoters for the DNA damage response gene p53 or the cell cycle regulator p21, both important pharmacodynamic sensors. These cell lines were characterised for their potential as in vivo models of primary and metastatic tumour therapy response, several showing significant potential. In addition to the development of these models, this study also addressed the pharmacokinetics of different luciferase substrates and identified optimal temporal and dose characteristics for each. Furthermore, a new application for bioluminescent imaging was developed and validated for use in preclinical evaluation of vascular disrupting agents, a new generation of cancer therapeutic. This study demonstrates that despite the dynamic and variable nature of fluorescent and bioluminescent imaging, reproducible results can be obtained if appropriate precautions are taken. The models developed herein will expedite cancer drug development whilst reducing and refining the use of animals in research.

In vivo

Bioluminescent

Cancer

Non-invasive imaging

Preclinical pharmacology

Novel therapeutic agents

Chemotherapeutics

Drug development

Colorectal cancer cell lines

Vývoj pokročilých in-vivo zobrazovacích metod pro neinvazivni studium dynamiky růstu nádorů / Development of advanced in-vivo imaging methods for non-invasive study of tumour growth dynamic

Michalčíková, Tereza

January 2019

Non-invasive imaging techniques, such as micro-CT or optical imaging, provide valuable information about tumour microstructure, size, volume and growth dynamics. Although histology is an approach capable of describing several of these characteristics, the invasiveness of this analysis remains a disadvantage. The main aim of this work is the methodological development of non-invasive imaging of the dynamics of tumour growth and progression. The preparation of a dual-reporter lentiviral vector enables non-invasive study of tumour growth and dissemination of metastasis. The same dual reporter will also be a part of a second vector designed as a construct for targeting mouse embryonic stem cells with aim to produce corresponding transgenic reporter mouse line. This reporter mouse line can be beneficial for future projects by providing a novel approach for studying the dynamics of tumour growth under various genetic conditions. In addition to optical imaging, this project will also include the use of micro-CT technology which, as a non-invasive approach, has the potential to provide information about the microstructure of tumour tissue in 3D that histology is not able to report.

Current Use and Trends in Unprotected Left Main Coronary Artery Percutaneous Intervention

Nagarajarao, Harsha S., Ojha, Chandra P., Mulukutla, Venkatachalam, Ibrahim, Ahmed, Mares, Adriana C., Paul, Timir K.

01 April 2020

Purpose of Review: To review the clinical evidence on the use of percutaneous coronary intervention (PCI) revascularization options in left main (LM) disease in comparison with coronary artery bypass graft (CABG). Coronary artery disease (CAD) involving the LM is associated with high morbidity and mortality. Though CABG remains the gold standard for complex CAD involving the LM artery, recent trials have shown a trend towards non-inferiority of the LM PCI when compared with CABG in certain subset of patients. Recent Findings: Two recent major randomized trials compared the outcomes of PCI versus CABG in the LM and multi-vessel disease with LM involvement. The NOBLE trial included patients with all range of Synergy Between Percutaneous Coronary Intervention With TAXUS and Cardiac Surgery (SYNTAX) scores and utilized biolimus drug-eluting stent (DES). The trial concluded that MACCE (major adverse cardiac and cerebrovascular event) was significantly higher with PCI (28%) when compared with CABG (18%) but overall stroke and motility were not different. EXCEL trial evaluated the same treatment option in low to intermediate SYNTAX score population with third-generation everolimus DES platform as PCI option. Results showed no significant differences in the composite primary endpoints of death, stroke, and myocardial infarction (MI) at the end of 30 days (22% versus 19.2%, p = 0.13), although repeat revascularization was higher in PCI group (16.9% versus 10%). Summary: Recent evidence suggests that PCI is an acceptable alternative to treat symptomatic LM stenosis in select group of patients. In low to medium SYNTAX score, particularly in patients without diabetes mellitus, PCI remains a viable option. Future trials focusing on evaluating subset of patients who would benefit from one particular revascularization option in comparison with other is warranted.

anti-platelet therapy

evidence-based medicine

left main coronary artery disease

mechanical circulatory support

non-invasive imaging

percutaneous coronary intervention

Internal Medicine

High-definition optical coherence tomography: Contribution to the non-invasive near infrared optical imaging techniques of the skin

Boone, Marc

05 July 2016

Background. The development of non-invasive imaging techniques has been stimulated by the shortcomings of histopathology. Currently the only valid diagnostic technique in dermatology is skin biopsy which remains a painful, invasive intervention for the patient. Moreover, this approach is not always convenient for monitoring and follow-up of a skin disease. Optical imaging technologies could solve these shortcomings as they are fast, precise, repeatable and painless. There are four established non-invasive skin imaging techniques used in daily practice: dermoscopy, high-frequency ultrasound, reflectance confocal microscopy (RCM) and conventional optical coherence tomography (C-OCT). In imaging there is a trade-off between resolution and penetration depth. The former permits the visualization of cells, if the resolution is at least 3 µm. The latter enables the recognition of patterns and structures in deeper layers of the skin if the penetration depth is deeper than 150 µm. New non-invasive techniques using infrared light sources have been developed recently. The technique used in this work is a high-definition optical coherence tomography (HD-OCT).Objectives. The overall aims of this thesis were the feasibility of HD-OCT to visualize in/ex vivo, in real time and in 3-D the cellular and structural morphology of the skin, secondly the assessment of the capability of this technology to measure in vivo and real time the cutaneous optical properties, and finally the determination of the contribution of this technique to the non-invasive near-infrared imaging technologies. Five specific objectives have been established: i) could cells be observed in their 3-D microenvironment in normal and diseased skin, ii) could we describe morphologic features of cells and structures in normal and diseased skin (m_HD-OCT), iii) could these morphologic features be quantified by optical property analysis (o_HD-OCT), iv) was it possible to perform accurate thickness measurements in normal and diseased skin, and finally v) what was the diagnostic potential of this technique?Methodology. HD-OCT uses a combination of parallel time-domain interferometry, high power tungsten lamp (with Gaussian filter, very low lateral coherence and ultra-high bandwidth (1300 nm +/- 100 nm)), and last but not least, full field illumination with real time focus tracking. A constant homogeneous resolution of 3 µm resolution in all three dimensions is obtained up to a depth of 570 µm. Hence, the system is capable of capturing real time full 3-D images. Moreover, the in vivo assessment of optical properties of the skin is only applicable to OCT when operating in focus-tracking mode, which is the case for HD-OCT. The means to obtain answers to the five specific questions were the comparison of en face HD-OCT images with RCM and HD-OCT cross-sectional images with histopathology and C-OCT. Results. At least 160 line pares were observed by imaging a high resolution phantom with HD-OCT. This suggested a 3 µm lateral resolution. The presence of cells such as keratinocytes, melanocytes, inflammatory cells, fibroblasts and melanophages in their 3-D cutaneous microenvironment in vivo as well as ex vivo has been demonstrated .A qualitative description of structures and patterns in normal and diseased skin could be performed by HD-OCT. Clear structural changes of the epidermis, dermo-epidermal junction, papillary dermis and reticular dermis related to intrinsic skin ageing could be observed. Lobulated structures, surrounded by stretched stromal fibers and arborizing vessels, could be demonstrated in nodular basal cell carcinoma (BCC). The o_HD-OCT of normal and diseased skin could be assessed in vivo. This approach permitted the quantitative assessment of the OCT signal attenuation profiles of normal healthy skin, actinic keratosis (AK) and squamous cell carcinoma (SCC). Differences in signal attenuation profiles could be demonstrated between these three groups. These differences were also observed between BCC subtypes. The slope of the exponential attenuation of the signal in the upper part of the epidermis was very high in benign nevi. The more malignant the lesion the lower the slope. Thickness measurements of epidermis and papillary dermis could be performed by m_HD-OCT, based on a cross-sectional images and their corresponding en face image. More accurate measurements of epidermal and papillary dermal thickness could be performed based on the optical analysis of a skin volume by o_HD-OCT. The diagnostic potential of HD-OCT in comparison with dermoscopy, RCM and C-OCT could be assessed regarding i) melanoma, ii) BCC differentiation from BCC imitators and BCC sub-differentiation and iii) SCC differentiation from AK. A much higher diagnostic potential could be demonstrated for o_HD-OCT in comparison with m_HD-OCT concerning melanoma detection. The diagnostic potential of HD-OCT to discriminate BCC from clinical BCC imitators was moderate. However, HD-OCT seemed to have high potential in sub-differentiation of BCC subtypes: i) it seemed to be the best technique to include and exclude a superficial BCC, ii) the technique appeared to be the best approach to exclude nodular BCC, and iii) HD-OCT looked to be the best technique to include an infiltrative BCC. Finally, HD-OCT has proven to be a powerful method to discriminate AK from SCC.Conclusions. HD-OCT is able to capture real time 3-D imaging with a sufficiently high optical resolution and penetration depth to allow the visualization of cells in and ex vivo in their micro-architectural context. At the same time, HD-OCT permits the recognition of patterns and structures in a sufficiently large volume of skin (1.5 mm³). HD-OCT closes therefore the gap between RCM with a high resolution but low penetration depth and C-OCT with a low resolution but high penetration depth. Moreover, HD-OCT permits, in contrast to RCM and C-OCT, the real time in vivo analysis of optical properties of the skin. HD-OCT seems to be a promising tool for early diagnosis of melanoma, BCC sub-differentiation and differentiation between SCC and AK.Future perspectives. Multicenter validation studies are needed to determine the diagnostic performance of this promising new technology, especially in other clinical settings combining both morphological and optical property analysis. This combined analysis could be a valuable method not only for diagnosis, monitoring and therapeutic guidance of dermatologic diseases but it could also be helpful in the management of non-dermatologic conditions such as diabetic micro-angiopathy, infantile cystinosis or even osteoporosis. / Doctorat en Sciences médicales (Santé Publique) / info:eu-repo/semantics/nonPublished

Dermatologie

Anatomopathologie

Cancérologie

Allergie et immunopathologie

Gériatrie - gérontologie

Reflectance confocal microscopy

Dermoscopy

Near infrared

Non-invasive imaging

Melanoma

Non melanoma skin cancer

Optical properties

Skin ageing

Inflammation

Human acellular dermal matrices