Global ETD Search

1	The study of cerebral emboli using transcranial doppler ultrasound : clinical and technical studies Cullinane, M. January 2001 (has links) No description available. 610 Embolic signals
2	Ultrastructural analysis of platelets and fibrin networks in stroke patients De Lange, Albe Carina 18 April 2011 (has links) Ischaemic stroke represent more than 80% of the total stroke instances. The location of the occlusion and the amount of brain tissue involved determines the effect of the stroke. Stroke can result in paralysis, memory loss, speech impairment and even a “lock-in” state. The amount of neuronal damage will determine whether these symptoms will be temporary or permanent. Stroke is deemed the second leading cause of death for individuals over the age of 60. According to the World Stroke Organization (WSO) every six seconds stroke claims a life, regardless of age or gender. Stroke is a global burden and the medical costs and disability related to stroke in America for 2010 was projected at almost $73.7 billion. The morphology of platelets, fibrin networks and erythrocytes as well as the differential white blood cell counts of 20 thrombo-embolic ischaemic stroke patients were investigated. Internal and external alterations were revealed in the platelets of stroke patients when compared to healthy controls. The decreased numbers of alpha granules in the platelets of the stroke patients indicated these platelets to be activated. Substances released by activated platelets promote fibrin network structure, specifically the formation of fibrin strands and accumulation of additional platelets. The fibrin network of healthy individuals consists of major, thick fibers with minor, thin fibers distributed between them. The fibrin network of stroke patients exhibited an abnormally layered and matted ultrastructure comprising of mainly thin, minor fibrin fibers packed closely together. An uncharacteristic circular morphology was also observed. These alterations in the fibrin network indicate the activated platelets to be actively involved in the thrombotic event. Neuronal damage related to stroke is also advanced by the vasoactive substances released by activated platelets. It can therefore be deduced that the morphology of the fibrin network is altered long before the concrete thrombotic event transpire. Large numbers of abnormal erythrocytes were distinguished in the blood of stroke patients. Among these abnormal forms of erythrocytes specifically codocytes, knizocytes, stomatocytes and echinocytes were identified. Abnormal erythrocyte forms were significantly increased in hypertensive patients and females independently. Alterations in the ultrastructure of erythrocytes disturb blood flow in the microcirculation and could possibly augment the ischaemic event. Inflammation is closely related to ischaemic stroke. An increased monocyte count and a reduced number of neutrophils were a significant feature among all the stroke patients of this study. Patients with hypertension as well as patients consuming aspirin on a daily basis showed the greatest influence on the observed differential white blood cell counts. These morphological alterations observed in the platelets, fibrin network and erythrocytes as well as the differential white blood cell count could be incorporated in an analysis regime that could probably indicate an impending thrombotic event. Therefore treatment could be initiated before the ischaemic event to possibly prevent the stroke. For future studies a larger study population, a more refined patient enrolment as well as the analysis of follow-up blood samples from patients could substantiate the above-mentioned findings and provide additional information concerning the thrombotic event and the effectiveness of treatment procedures. / Dissertation (MSc)--University of Pretoria, 2010. / Anatomy / Unrestricted Morphology Platelets Thrombo-embolic ischaemic stroke Fibrin UCTD
3	Cost-Effectiveness of Apixaban, Dabigatran, Rivaroxaban, and Warfarin for the Prevention of Stroke Prophylaxis in Atrial Fibrillation Harrington, Amanda Rose January 2012 (has links) Objective: The primary objective of this study was to estimate the long-term cost-effectiveness of stroke prevention in patients with nonvalvular atrial fibrillation (NVAF) in the United States using new anticoagulant therapies - dabigatran 150 mg, apixaban 5 mg, and rivaroxaban 20 mg - as well as the standard treatment, warfarin. Methods: A Markov decision-analysis model was constructed using data from clinical trials that evaluated the new oral anticoagulants relative to warfarin (apixaban 5 mg & ARISTOTLE, dabigatran 150 mg & RE-LY, and rivaroxaban 20 mg & ROCKET-AF) to compare the lifetime cost and quality-adjusted life expectancy. The Markov model target population was a hypothetical cohort of 70-year old patients with nonvalvular atrial fibrillation, an increased risk for stroke (CHADS₂ ≥ 1, or equivalent), a renal creatinine clearance (CrCl) of 50 or above, and no contraindication to anticoagulant therapy. Using pair-wise comparisons of each therapy, analyses were conducted to evaluate incremental cost-effectiveness ratios (ICERs), net monetary benefits (NMBs), lifetime costs, life-years, and quality-adjusted life-years (QALYs). Results: In the base case, warfarin had the lowest cost of $71,857 (95% confidence interval [CI]: $68,730, $77,452), followed by rivaroxaban 20 mg ($74,023; 95% CI: $70,943, $77,307), dabigatran 150 mg ($78,584; 95% CI: $75,277, $81,968), and apixaban 5 mg ($81,180; 95% CI: $78,642, $83,756). Apixaban 5 mg also yielded the highest QALY estimate, 8.63 (95% CI: 8.52, 8.72), followed by dabigatran 150 mg (8.55; 95% CI: 8.43, 8.67), rivaroxaban 20 mg (8.42; 95% CI: 8.31, 8.54), and warfarin (8.17; 95% CI: 8.1, 8.24). In a Monte Carlo probabilistic sensitivity analysis, apixaban 5 mg, dabigatran 150 mg, rivaroxaban 20 mg, and warfarin were cost effective in 45%, 37%, 19%, 0%, respectively, of the simulations using a willingness-to pay threshold of $50,000 per QALY gained. From the one-way sensitivity analyses, new anticoagulant (apixaban 5 mg, dabigatran 150 mg, rivaroxaban 20 mg) costs and probabilities associated with intracranial hemorrhage and stroke for patients receiving rivaroxaban 20 mg were identified as significant influential variables impacting model results. Conclusion: In patients with NVAF and an increased risk of stroke prophylaxis, apixaban 5 mg, dabigatran 150 mg, and rivaroxaban 20 mg may all be cost-effective alternatives to warfarin depending on pricing in the United States and neurologic events for rivaroxaban 20 mg. Cost-Effectiveness Embolic Stroke Markov model Pharmaceutical Sciences Anticoagulant Atrial Fibrillation
4	Outcomes of Saphenous Vein Graft Intervention With and Without Embolic Protection Device: A Comprehensive Review and Meta-Analysis Paul, Timir, Bhatheja, Samit, Panchal, Hemang, Zheng, Shimin, Banerjee, Subhash, Raso, Sunil V., Guzman, Luis, Beohar, Nirat, Zhao, David, Mehran, Roxana, Mukherjee, Debabrata 01 December 2017 (has links) Background: Current guidelines give a class I recommendation to use of embolic protection devices (EPD) for saphenous vein graft (SVG) intervention; however, studies have shown conflicting results. The objective of this meta-analysis is to compare all-cause mortality, major adverse cardiovascular events, myocardial infarction (MI), or target vessel revascularization in SVG intervention with and without EPD. Methods and Results: Literature was searched through October 2016. Eight studies (n=52 893) comparing SVG intervention performed with EPD (n=11 506) and without EPD (n=41 387) were included. There was no significant difference in all-cause mortality (odds ratio [OR], 0.79; confidence interval [CI], 0.55–1.12; P=0.19), major adverse cardiovascular events (OR, 0.73, CI, 0.51–1.05; P=0.09), target vessel revascularization (OR, 1.0; CI, 0.95–1.05; P=0.94), periprocedural MI (OR, 1.12; CI, 0.65–1.90, P=0.69), and late MI (OR, 0.80; CI, 0.52–1.23; P=0.30) between the 2 groups. Sensitivity analysis excluding CathPCI Registry study showed no difference in periprocedural MI, late MI, and target vessel revascularization; however, it favored EPD use in all-cause mortality and major adverse cardiovascular events. Further sensitivity analysis including only observational studies revealed no difference in all-cause mortality, major adverse cardiovascular events, target vessel revascularization, and late MI. Additional analysis after excluding CathPCI Registry study revealed no difference in outcomes. Conclusions: This study including 52 893 patients suggests no apparent benefit in routine use of EPD during SVG intervention in the contemporary real-world practice. Further randomized clinical trials are needed in current era to evaluate long-term outcomes in routine use of EPD, and meanwhile, current guideline recommendations on EPD use should be revisited. embolic protection meta-analysis saphenous vein graft intervention Biostatistics and Epidemiology Cardiovascular System
5	Thermo-responsive Copolymers with Enzyme-dependent Lower Critical Solution Temperatures for Endovascular Embolization January 2019 (has links) abstract: Minimally invasive endovascular embolization procedures decrease surgery time, speed up recovery, and provide the possibility for more comprehensive treatment of aneurysms, arteriovenous malformations (AVMs), and hypervascular tumors. Liquid embolic agents (LEAs) are preferred over mechanical embolic agents, such as coils, because they achieve homogeneous filling of aneurysms and more complex angioarchitectures. The gold standard of commercially available LEAs is dissolved in dimethyl sulfoxide (DMSO), which has been associated with vasospasm and angiotoxicity. The aim of this study was to investigate amino acid substitution in an enzyme-degradable side group of an N-isopropylacrylamide (NIPAAm) copolymer for the development of a LEA that would be delivered in water and degrade at the rate that tissue is regenerated. NIPAAm copolymers have a lower critical solution temperature (LCST) due to their amphiphilic nature. This property enables them to be delivered as liquids through a microcatheter below their LCST and to solidify in situ above the LCST, which would result in the successful selective occlusion of blood vessels. Therefore, in this work, a series of poly(NIPAAm-co-peptide) copolymers with hydrophobic side groups containing the Ala-Pro-Gly-Leu collagenase substrate peptide sequence were synthesized as in situ forming, injectable copolymers.. The Gly-Leu peptide bond in these polypeptides is cleaved by collagenase, converting the side group into the more hydrophilic Gly-Ala-Pro-Gly-COOH (GAPG-COOH), thus increasing the LCST of the hydrogel after enzyme degradation. Enzyme degradation property and moderate mechanical stability convinces the use of these copolymers as liquid embolic agents. / Dissertation/Thesis / Masters Thesis Biomedical Engineering 2019 Biomedical engineering Chemistry Organic chemistry bioresponsive Embolic agent Enzyme-degradable NIPAAm Polymer stimuli-responsive
6	A Liquid-to-Solid Gelling Polymer System for Cerebral Aneurysm Embolization: Formulation, Characterization, and Testing January 2011 (has links) abstract: Treatment of cerebral aneurysms using non-invasive methods has existed for decades. Since the advent of modern endovascular techniques, advancements to embolic materials have largely focused on improving platinum coil technology. However, the recent development of Onyx®, a liquid-delivery precipitating polymer system, has opened the door for a new class of embolic materials--liquid-fill systems. These liquid-fill materials have the potential to provide better treatment outcomes than platinum coils. Initial clinical use of Onyx has proven promising, but not without substantial drawbacks, such as co-delivery of angiotoxic compounds and an extremely technical delivery procedure. This work focuses on formulation, characterization and testing of a novel liquid-to-solid gelling polymer system, based on poly(propylene glycol) diacrylate (PPODA) and pentaerythritol tetrakis(3-mercaptopropionate) (QT). The PPODA-QT system bypasses difficulties associated with Onyx embolization, yet still maintains non-invasive liquid delivery--exhibiting the properties of an ideal embolic material for cerebral aneurysm embolization. To allow for material visibility during clinical delivery, an embolic material must be radio-opaque. The PPODA-QT system was formulated with commercially available contrast agents and the gelling kinetics were studied, as a complete understanding of the gelling process is vital for clinical use. These PPODA-QT formulations underwent in vitro characterization of material properties including cytotoxicity, swelling, and degradation behaviors. Formulation and characterization tests led to an optimized PPODA-QT formulation that was used in subsequent in vivo testing. PPODA-QT formulated with the liquid contrast agent ConrayTM was used in the first in vivo studies. These studies employed a swine aneurysm model to assess initial biocompatibility and test different delivery strategies of PPODA-QT. Results showed good biocompatibility and a suitable delivery strategy, providing justification for further in vivo testing. PPODA-QT was then used in a small scale pilot study to gauge long-term effectiveness of the material in a clinically-relevant aneurysm model. Results from the pilot study showed that PPODA-QT has the capability to provide successful, long-term treatment of model aneurysms as well as facilitate aneurysm healing. / Dissertation/Thesis / Ph.D. Bioengineering 2011 Biomedical Engineering cerebral aneurysm cross-linking polymer system embolization endovascular liquid embolic material
7	A Simultaneous Physically and Chemically Gelling Polymer System for Endovascular Embolization of Cerebral Aneurysms January 2012 (has links) abstract: Current treatment methods for cerebral aneurysms are providing life-saving measures for patients suffering from these blood vessel wall protrusions; however, the drawbacks present unfortunate circumstances in the invasive procedure or with efficient occlusion of the aneurysms. With the advancement of medical devices, liquid-to-solid gelling materials that could be delivered endovascularly have gained interest. The development of these systems stems from the need to circumvent surgical methods and the requirement for improved occlusion of aneurysms to prevent recanalization and potential complications. The work presented herein reports on a liquid-to-solid gelling material, which undergoes gelation via dual mechanisms. Using a temperature-responsive polymer, poly(N-isopropylacrylamide) (poly(NIPAAm), the gelling system can transition from a solution at low temperatures to a gel at body temperature (physical gelation). Additionally, by conjugating reactive functional groups onto the polymers, covalent cross-links can be formed via chemical reaction between the two moieties (chemical gelation). The advantage of this gelling system comprises of its water-based properties as well as the ability of the physical and chemical gelation to occur within physiological conditions. By developing the polymer gelling system in a ground-up approach via synthesis, its added benefit is the capability of modifying the properties of the system as needed for particular applications, in this case for embolization of cerebral aneurysms. The studies provided in this doctoral work highlight the synthesis, characterization and testing of these polymer gelling systems for occlusion of aneurysms. Conducted experiments include thermal, mechanical, structural and chemical characterization, as well as analysis of swelling, degradation, kinetics, cytotoxicity, in vitro glass models and in vivo swine study. Data on thermoresponsive poly(NIPAAm) indicated that the phase transition it undertakes comes as a result of the polymer chains associating as temperature is increased. Poly(NIPAAm) was functionalized with thiols and vinyls to provide for added chemical cross-linking. By combining both modes of gelation, physical and chemical, a gel with reduced creep flow and increased strength was developed. Being waterborne, the gels demonstrated excellent biocompatibility and were easily delivered via catheters and injected within aneurysms, without undergoing degradation. The dual gelling polymer systems demonstrated potential in use as embolic agents for cerebral aneurysm embolization. / Dissertation/Thesis / Ph.D. Bioengineering 2012 Biomedical engineering Aneurysms Chemical cross-link Embolic agent Hydrogel Polymer poly(N-isopropylacrylamide) Thermosensitive
8	The Influence of Dome Size, Parent Vessel Angle, and Coil Packing Density On Coil Embolization Treatment in Cerebral Aneurysms January 2013 (has links) abstract: A cerebral aneurysm is a bulging of a blood vessel in the brain. Aneurysmal rupture affects 25,000 people each year and is associated with a 45% mortality rate. Therefore, it is critically important to treat cerebral aneurysms effectively before they rupture. Endovascular coiling is the most effective treatment for cerebral aneurysms. During coiling process, series of metallic coils are deployed into the aneurysmal sack with the intent of reaching a sufficient packing density (PD). Coils packing can facilitate thrombus formation and help seal off the aneurysm from circulation over time. While coiling is effective, high rates of treatment failure have been associated with basilar tip aneurysms (BTAs). Treatment failure may be related to geometrical features of the aneurysm. The purpose of this study was to investigate the influence of dome size, parent vessel (PV) angle, and PD on post-treatment aneurysmal hemodynamics using both computational fluid dynamics (CFD) and particle image velocimetry (PIV). Flows in four idealized BTA models with a combination of dome sizes and two different PV angles were simulated using CFD and then validated against PIV data. Percent reductions in post-treatment aneurysmal velocity and cross-neck (CN) flow as well as percent coverage of low wall shear stress (WSS) area were analyzed. In all models, aneurysmal velocity and CN flow decreased after coiling, while low WSS area increased. However, with increasing PD, further reductions were observed in aneurysmal velocity and CN flow, but minimal changes were observed in low WSS area. Overall, coil PD had the greatest impact while dome size has greater impact than PV angle on aneurysmal hemodynamics. These findings lead to a conclusion that combinations of treatment goals and geometric factor may play key roles in coil embolization treatment outcomes, and support that different treatment timing may be a critical factor in treatment optimization. / Dissertation/Thesis / M.S. Bioengineering 2013 Biomedical engineering basilar tip aneurysm CFD dome size embolic coil packing density PIV
9	The Effects of Endovascular Treatment Parameters on Cerebral Aneurysm Hemodynamics January 2013 (has links) abstract: A cerebral aneurysm is an abnormal ballooning of the blood vessel wall in the brain that occurs in approximately 6% of the general population. When a cerebral aneurysm ruptures, the subsequent damage is lethal damage in nearly 50% of cases. Over the past decade, endovascular treatment has emerged as an effective treatment option for cerebral aneurysms that is far less invasive than conventional surgical options. Nonetheless, the rate of successful treatment is as low as 50% for certain types of aneurysms. Treatment success has been correlated with favorable post-treatment hemodynamics. However, current understanding of the effects of endovascular treatment parameters on post-treatment hemodynamics is limited. This limitation is due in part to current challenges in in vivo flow measurement techniques. Improved understanding of post-treatment hemodynamics can lead to more effective treatments. However, the effects of treatment on hemodynamics may be patient-specific and thus, accurate tools that can predict hemodynamics on a case by case basis are also required for improving outcomes.Accordingly, the main objectives of this work were 1) to develop computational tools for predicting post-treatment hemodynamics and 2) to build a foundation of understanding on the effects of controllable treatment parameters on cerebral aneurysm hemodynamics. Experimental flow measurement techniques, using particle image velocimetry, were first developed for acquiring flow data in cerebral aneurysm models treated with an endovascular device. The experimental data were then used to guide the development of novel computational tools, which consider the physical properties, design specifications, and deployment mechanics of endovascular devices to simulate post-treatment hemodynamics. The effects of different endovascular treatment parameters on cerebral aneurysm hemodynamics were then characterized under controlled conditions. Lastly, application of the computational tools for interventional planning was demonstrated through the evaluation of two patient cases. / Dissertation/Thesis / Ph.D. Bioengineering 2013 Biomechanics Cerebral Aneurysm Embolic Coils Finite Element Modeling Packing Density Stents
10	Risikostratifizierung bei Patienten mit akuter Lungenembolie anhand der in der Computertomographie abgeschätzten Thrombuslast und des Verhältnisses von rechts- zu linksventrikulärem Diameter / Risk stratification in patients with acute pulmonary embolism on the basis of embolic burden and right-to-left-ventricular diameter assessed in computed tomography Reuter, Judith 25 August 2020 (has links) No description available. 610 Akute Lungenembolie Risikostratifizierung Computertomographie Thrombuslast pulmonary embolism risk stratification computed tomography embolic burden RV/LV-Ratio GOK-MEDIZIN

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