Comparing platelet function and ultrastructure in smoking and thrombo-embolic ischemic stroke

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dc.contributor.advisor Pretorius, Etheresia
dc.contributor.postgraduate Du Plooy, Jeanette Noel
dc.date.accessioned 2014-01-28T14:26:18Z
dc.date.available 2014-01-28T14:26:18Z
dc.date.created 2013-09-06
dc.date.issued 2013
dc.description Dissertation (MSc)--University of Pretoria, 2013. en_US
dc.description.abstract Stroke is serious neurological disease and is a major cause of death as well as disability throughout the globe. Stroke has a complex pathophysiology that involves inflammatory pathways, excitotoxicity mechanisms, oxidative damage, apoptosis, ionic imbalances, angiogenesis and neuroprotection. 85% of strokes are ischemic and occurs when a cerebral vessel, or any vessel supplying the brain, narrows or loses pressure resulting in subsequent brain ischemia and infarction downstream to the site of obstruction depriving tissues of vital oxygen and nutrients. This may be caused by either atherosclerotic thrombi or distant emboli defined as a mass of clotted blood or other material. It is estimated that over a billion people currently smoke cigarettes or use other tobacco products, seeing as smoking is a major risk factor for stroke this is of major concern. Platelets are hematopoietic cells produced by bone marrow megakaryocytes. Platelets play a role in the development of ischemic stroke primarily by means of their participation in the formation of thromboemboli, the presence of abnormal platelet function may predispose patients to a pro-thrombotic, pro-inflammatory state. The reorganization of the cytoskeleton in platelets is an important factor in the complex mechanisms found in thrombosis and haemostasis. The platelet membrane contains a large number of receptors which specifically bind agonists that stimulate the physiological platelet response. Oxidative stress is one of the mechanisms involved in the neuronal damage of stroke. Oxidative stress is a state of imbalance between free radical production, in particular, reactive oxygen species (ROS), and the ability of the organism to neutralize them, leading to progressive oxidative damage. Smoking is known to result in the generation of various free radicals. Flow cytometric analysis of the platelets of thrombo-embolic ischemic stroke patients and smokers revealed that the membranes of the two groups were altered in some form as well as an increased activation in both groups when compared to healthy individuals. Superoxide levels in the platelets were higher in smokers when compared to stroke patients, while hydrogen peroxide levels were elevated in the platelets of both groups. Superoxide was elevated in the whole blood samples of both groups. The production and subsequent reactions of reactive oxygen species appear to be influential in stroke and smoking and may likely be a crucial factor in the development of a pro-thrombotic, pro-inflammatory state which may prove to be a hallmark in the pathophysiology of stroke and smoking. Confocal microscopy and Scanning electron microscopy showed that platelets of stroke patients and smokers appear to be more activated and more prone to form tight clots. Furthermore an increased amount of superoxide is present in the platelets of stroke patients and smokers, specifically in the centre of clots. This may be an indication that once platelets have aggregated and started to fuse together, the mitochondria are expelled from the platelets and “trapped” within the clot. Atomic force microscopy also indicated both the stroke patients and smoker‟s platelets appear to be in a more activated state than the control group. Here it is apparent that some form of cytoskeletal rearrangement takes place to a more severe extent in the stroke group than in the smokers. Necrosis may be present in the platelets of stroke patients while neither apoptosis nor necrosis can be identified in the platelets of smokers however some form of membrane alteration is likely present. All the techniques used showed an increase in platelet activation in stroke patients and smokers, necrotic platelets may be present in the stroke patients while the platelet membrane of smokers seems to be altered. ROS is present and alters the platelet function of smokers and stroke patients in some way. It appears as if thrombo-embolic ischemic stroke patients and smokers‟ platelets have similar trends in activation but the processes involved to achieve this differ as there are structural differences present. These differences may prove a useful tool to further understand the pathophysiology behind thrombo-embolic ischemic stroke as well as to discover new therapeutic pathways. en_US
dc.description.availability Unrestricted en_US
dc.description.department Physiology en_US
dc.description.librarian gm2014 en_US
dc.identifier.citation Du Plooy, JN 2013, Comparing platelet function and ultrastructure in smoking and thrombo-embolic ischemic stroke, MSc dissertation, University of Pretoria, Pretoria, viewed yymmdd <http://hdl.handle.net/2263/33160> en_US
dc.identifier.other E13/9/939 en_US
dc.identifier.uri http://hdl.handle.net/2263/33160
dc.language.iso en en_US
dc.publisher University of Pretoria
dc.rights © 2013 University of Pretoria. All rights reserved. The copyright in this work vests in the University of Pretoria. No part of this work may be reproduced or transmitted in any form or by any means, without the prior written permission of the University of Pretoria. en_US
dc.subject Stroke en_US
dc.subject Inflammatory en_US
dc.subject Neurological disease en_US
dc.subject Excitotoxicity mechanisms en_US
dc.subject Oxidative damage en_US
dc.subject Apoptosis en_US
dc.subject Ionic imbalances en_US
dc.subject Angiogenesis en_US
dc.subject Neuroprotection en_US
dc.subject Cerebral vessel en_US
dc.subject UCTD
dc.title Comparing platelet function and ultrastructure in smoking and thrombo-embolic ischemic stroke en_US
dc.type Dissertation en_US


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