132 research outputs found

    Spectral and Time Based Assessment of Meditative Heart Rate Signals

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    Aerospace medicine and biology: A cumulative index to the continuing bibliography of the 1973 issues

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    A cumulative index to the abstracts contained in Supplements 112 through 123 of Aerospace Medicine and Biology A Continuing Bibliography is presented. It includes three indexes: subject, personal author, and corporate source

    Characterisation of cardiac structure and function in late adolescence and modification by adiposity and other cardiovascular risk factors

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    Cardiovascular disease remains one of the leading causes of death worldwide. However, a large proportion of research in the field focuses primarily on middle- to old- age, by which time much damage to the heart and vascular system has been incurred. The rationale for this research was to gain a clearer picture of cardiovascular health in late adolescence, prior to the onset of adulthood. In this thesis I characterise the cardiac structure and function of individuals from the ALSPAC cohort (average age 17.7 years) through analysing M-Mode, two dimensional and Doppler echocardiographic measures and haemodynamic, biochemical and anthropometric measures. Adiposity, sex and genetic predisposition are considered as key exposures which impact a range of cardiovascular outcomes. I consider the relationships of fat mass and lean mass with cardiovascular outcomes and the ways in which left ventricular mass indexation is affected by adiposity, lean mass, height and body surface area. I then discuss the roles which particular haemodynamic and biochemical biomarkers have in mediating associations between fat mass and left ventricular structural and functional outcomes. Finally I consider the influence which genes associated with body mass index have on key cardiovascular measures, including cardiac structural and functional measures. Adiposity has a direct and detrimental effect on cardiovascular health. My findings provide insights into the way in which adiposity affects the development of an adverse cardiometabolic phenotype from a comparatively young age and also have interesting implications for future research. Furthermore, they serve as another important reminder of the need for adiposity to be monitored throughout the life course

    Model-based quantification of systolic and diastolic left ventricular mechanics

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    Het linker ventrikel (LV) is de meest gespierde kamer van het hart. Door het gecoördineerd samentrekken van de spiercellen in de LV-wand wordt zuurstofrijk bloed in de aorta gepompt (systolische fase). Daarna ontspannen de spiercellen zich snel waardoor het LV opnieuw met bloed wordt gevuld (diastolische fase). In de kliniek en de onderzoekswereld bestaat er een waaier van modelgebaseerde methoden en concepten om de performantie en de mechanische eigenschappen van het LV te kwantificeren. Invasief bekomen druk- en volumedata laten toe om de systolische en diastolische mechanica van het LV met grote nauwkeurigheid te kennen. In de klinische praktijk wordt echter vaker gebruik gemaakt van (Doppler-) echocardiografie, een snelle en veilige niet-invasieve beeldtechniek. In een eerste deel van dit doctoraatsonderzoek werd een originele methode voorgesteld om, op basis van echocardiografie en klassieke bloeddrukmetingen, de intrinsieke krachtontwikkeling (contractiliteit) van het LV te schatten. De methode werd toegepast bij 2524 mensen die deelnemen aan de Asklepios-studie. De onderzoeksresultaten verschaften ons nieuwe informatie over hoe de evolutie van de krachtontwikkeling verschilt tussen gezonde mannen en vrouwen. De mechanische en vloeistofdynamische fenomenen tijdens de diastole vormden het onderwerp van het tweede deel van het onderzoek. Met behulp van een hydraulisch model van het LV werd nagegaan welke factoren een belangrijke invloed uitoefenen op het gedrag van het LV tijdens de isovolumetrische ontspanningsfase. In dit deel werd eveneens een uitgebreid overzicht gegeven van de meest recente echocardiografische methoden om de diastolische LV-mechanica te begroten. Daarbij werden de bloedstroming, de wandbeweging en de interactie tussen beiden gedetailleerd behandeld

    Risk stratification in atherosclerotic cartoid stenosis

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    Introduction: Key trials and a Cochrane systematic review in asymptomatic carotid stenosis have highlighted the need to identify a high-risk subgroup of patients with carotid stenosis who may benefit from intervention. Traditionally, this risk stratification has considered structural imaging and clinical factors. However, using only these approaches, still a significant number of patients are missed. Biological attributes are acknowledged as key determinants of thrombo-embolic events. Functional and hybrid structural-functional imaging, and circulating biomarkers allow exploration of plaque biology non-invasively, in vivo. The importance of innate immunity in atherosclerosis is now established, with a recent interest in macrophage phenotypic polarisation in atherosclerosis supported by in vitro and experimental data, with the hypothesis of an M1 macrophage predominance associated with unstable plaques. The emergence of systems biology has been seen to facilitate understanding of biological pathways and generate hypotheses, although the utility of this approach for the examination of human atherosclerosis tissue has not been fully explored. Aims: (i) To employ functional imaging to probe carotid atherosclerosis in vivo; (ii) to assess the plaque microenvironment in determination of the balance of macrophage populations in unstable compared with stable atherosclerosis; (iii) to investigate whether late phase (LP-) contrast enhanced ultrasound (CEUS) reflects plaque biological features; (iv) to examine the utility of systems biology techniques in distinguishing symptomatic from asymptomatic carotid atherosclerosis tissue, and in hypothesis generation; and (v) to evaluate a putative biomarker for carotid atherosclerosis and plaque vulnerability. Methods: Patients with carotid stenosis, both symptomatic and asymptomatic, have undergone systematic collection of data, fresh carotid endarterectomy (CEA) specimens, and plasma. Thirty-two patients with 36 carotid stenoses underwent 11C-PK11195 PET/CT. Thirty-seven patients had dynamic (D-) and LP-CEUS carotid imaging. CEA specimens were assessed by immunohistochemical techniques, as well as atheroma cell culture with supernatant multi-analyte profiling (MAP). MAP data was subject to Ingenuity Pathway Analysis. CEA specimens were further examined using systems biology methodologies: transcriptomics with Affymetrix Human Exon 1.0 ST arrays; proteomics and lipidomics by liquid chromatography (LC) coupled to tandem triple quadrupole mass spectrometry (MS); and metabolite profiling by nuclear magnetic resonance and LC-MS. Furthermore, venous and arterial plasma was quantified for the lysozyme, a putative biomarker in carotid atherosclerosis. Results: 11C-PK11195 PET allowed the non-invasive quantification of intraplaque inflammation in patients with carotid stenoses and, when combined with CTA, provided an integrated assessment of plaque structure, composition and biological activity. 11C-PK11195 PET/CT distinguished between recently symptomatic vulnerable plaques and asymptomatic plaques with a high positive predictive value. D-CEUS and LP-CEUS (at a cut-off of zero) was able to distinguish symptomatic and asymptomatic plaques. Atheroma cell culture and supernatant MAP revealed that symptomatic human atherosclerotic carotid disease is associated with a cytokine and chemokine pattern consistent with the predominance of pro-inflammatory M1-type macrophage polarisation. Furthermore, IFNγ signatures are observed, including the novel finding of CCL20 with its significant elevation in symptomatic atherosclerosis. MAP of supernatants from patients who had undergone ipsilateral carotid LP-CEUS revealed significantly higher levels of IL6, MMP1 and MMP3, as well as greater CD68 and CD31 immunopositivity, in those with high (≥0) compared with low (<0) LP-CEUS signal. This suggests that LP-CEUS was able to reflect plaque biology. Transcriptomic analysis was able to clearly separate stenosing plaque and intimal thickening, as well as unstable and stable atherosclerosis, finding differential expression and alternative splicing of interferon regulatory factor 5 between stenosing plaque and intimal thickening. Proteomic analysis of the salt extract fraction from carotid atherosclerotic plaques identified 2,470 proteins implicated in 33 bio-molecular functions and having their origins previously described in 14 different cellular compartments. There were 159 proteins which, based upon the number of assigned spectra, were significantly different between symptomatic and asymptomatic atherosclerosis. Through lipidomic analysis, 150 lipid species from 9 different classes were identified, of which 24 were exclusive to atherosclerotic plaques. A comparison of 28 carotid endarterectomy specimens revealed differential lipid signatures of symptomatic compared with asymptomatic lesions, as well as stable and unstable plaque areas. Similarly, LC-MS metabolite profiling of organic plaque extract was able to separate symptomatic from asymptomatic atherosclerosis. Arterial and venous plasma lysozyme levels were seen to distinguish individuals with carotid atherosclerosis from matched control subjects. Furthermore, arterial plasma lysozyme levels were significantly higher in patients with symptomatic than asymptomatic carotid stenosis. Conclusions: These findings support the use of hybrid structural-functional imaging, and the utility and use of a systems biology approach in identifying significantly different and biologically relevant variations in atherosclerosis tissue, and in hypothesis generation for further study. The data presented concurs with recent reports in the literature linking the lipidic/organic component of atherosclerosis with the generation of a pro-inflammatory plaque microenvironment prone to lesion development, instability and the complications thereof. The importance of innate immunity has been highlighted with the demonstration of a predominance of M1 macrophage polarisation and evidence of Th17/IL17 signalling in unstable atherosclerosis. It is hoped that this work will contribute to the ongoing refinement of multi-factorial risk stratification in carotid atherosclerosis

    Aerospace Medicine and Biology: A continuing bibliography with indexes, supplement 267, January 1985

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    This publication is a cumulative index to the abstracts contained in the Supplements 255 through 266 of Aerospace Medicine and Biology: A Continuing Bibliography. It includes seven indexes--subject, personal author, corporate source, foreign technology, contract number, report number, and accession number

    Myocardial Steatosis and Left Ventricular Function in Type 2 Diabetes Mellitus : Assessed with Magnetic Resonance Imaging and Spectroscopy

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    The aim of the thesis was to provide more insight into the influence of myocardial steatosis on left ventricular function in healthy volunteers and in patients with type 2 diabetes mellitus. Therefore we developed a reproducible proton magnetic resonance (MR) spectroscopic technique with respiratory motion compensation to study myocardial steatosis. Using these technique, combined with MR imaging to study myocardial function, correlations between myocardial steatosis and left ventricular function were shown in several (patho)physiological conditions. Furthermore, we showed that myocardial triglyceride content is increased in patients with type 2 diabetes mellitus and is an independent predictor of left ventricular diastolic dysfunction. In addition, differential, tissue-specific partitioning of triglycerides and/or fatty acids among non-adipose organs during various diets was shown. Given the obesity and type 2 diabetes mellitus pandemic and the increasing evidence indicating that lipid oversupply to cardiomyocytes plays a role in the development of diabetic cardiomyopathy, therapeutic strategies that target reduction of cardiac lipid overexposure might be beneficial to prevent diabetic cardiomyopathy.UBL - phd migration 201

    Coronary Angiography

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    In the intervening 10 years tremendous advances in the field of cardiac computed tomography have occurred. We now can legitimately claim that computed tomography angiography (CTA) of the coronary arteries is available. In the evaluation of patients with suspected coronary artery disease (CAD), many guidelines today consider CTA an alternative to stress testing. The use of CTA in primary prevention patients is more controversial in considering diagnostic test interpretation in populations with a low prevalence to disease. However the nuclear technique most frequently used by cardiologists is myocardial perfusion imaging (MPI). The combination of a nuclear camera with CTA allows for the attainment of coronary anatomic, cardiac function and MPI from one piece of equipment. PET/SPECT cameras can now assess perfusion, function, and metabolism. Assessing cardiac viability is now fairly routine with these enhancements to cardiac imaging. This issue is full of important information that every cardiologist needs to now

    Automated Vascular Smooth Muscle Segmentation, Reconstruction, Classification and Simulation on Whole-Slide Histology

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    Histology of the microvasculature depicts detailed characteristics relevant to tissue perfusion. One important histologic feature is the smooth muscle component of the microvessel wall, which is responsible for controlling vessel caliber. Abnormalities can cause disease and organ failure, as seen in hypertensive retinopathy, diabetic ischemia, Alzheimer’s disease and improper cardiovascular development. However, assessments of smooth muscle cell content are conventionally performed on selected fields of view on 2D sections, which may lead to measurement bias. We have developed a software platform for automated (1) 3D vascular reconstruction, (2) detection and segmentation of muscularized microvessels, (3) classification of vascular subtypes, and (4) simulation of function through blood flow modeling. Vessels were stained for α-actin using 3,3\u27-Diaminobenzidine, assessing both normal (n=9 mice) and regenerated vasculature (n=5 at day 14, n=4 at day 28). 2D locally adaptive segmentation involved vessel detection, skeletonization, and fragment connection. 3D reconstruction was performed using our novel nucleus landmark-based registration. Arterioles and venules were categorized using supervised machine learning based on texture and morphometry. Simulation of blood flow for the normal and regenerated vasculature was performed at baseline and during demand based on the structural measures obtained from the above tools. Vessel medial area and vessel wall thickness were found to be greater in the normal vasculature as compared to the regenerated vasculature (p\u3c0.001) and a higher density of arterioles was found in the regenerated tissue (p\u3c0.05). Validation showed: a Dice coefficient of 0.88 (compared to manual) for the segmentations, a 3D reconstruction target registration error of 4 μm, and area under the receiver operator curve of 0.89 for vessel classification. We found 89% and 67% decreases in the blood flow through the network for the regenerated vasculature during increased oxygen demand as compared to the normal vasculature, respectively for 14 and 28 days post-ischemia. We developed a software platform for automated vasculature histology analysis involving 3D reconstruction, segmentation, and arteriole vs. venule classification. This advanced the knowledge of conventional histology sampling compared to whole slide analysis, the morphological and density differences in the regenerated vasculature, and the effect of the differences on blood flow and function

    Imaging Sensors and Applications

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    In past decades, various sensor technologies have been used in all areas of our lives, thus improving our quality of life. In particular, imaging sensors have been widely applied in the development of various imaging approaches such as optical imaging, ultrasound imaging, X-ray imaging, and nuclear imaging, and contributed to achieve high sensitivity, miniaturization, and real-time imaging. These advanced image sensing technologies play an important role not only in the medical field but also in the industrial field. This Special Issue covers broad topics on imaging sensors and applications. The scope range of imaging sensors can be extended to novel imaging sensors and diverse imaging systems, including hardware and software advancements. Additionally, biomedical and nondestructive sensing applications are welcome
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