Comparison of platelet ultrastructure and elastic properties in thrombo-embolic ischemic stroke and smoking using atomic force and scanning electron microscopy

Thrombo-embolic ischemic stroke is a serious and debilitating disease, and it remains the second most common cause of death worldwide. Tobacco smoke exposure continues to be responsible for preventable deaths around the world, and is a major risk factor for stroke. Platelets play a fundamental role...

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Veröffentlicht in:	PloS one 2013-07, Vol.8 (7), p.e69774-e69774
Hauptverfasser:	Du Plooy, Jeanette Noel, Buys, Antoinette, Duim, Wiebren, Pretorius, Etheresia
Format:	Artikel
Sprache:	eng
Schlagworte:	Atomic force microscopy Biochemistry Biology Blood platelets Blood Platelets - drug effects Blood Platelets - physiology Blood Platelets - ultrastructure Cell adhesion & migration Cell division Cell size Clotting Coagulation Comparative analysis Cytoskeleton Elastic Modulus - physiology Elastic properties Electron microscopy Health aspects Health risks Health sciences Humans Ischemia Mechanical properties Medical imaging Medical research Medical treatment Medicine Microscopy, Atomic Force Microscopy, Electron, Scanning Modulus of elasticity Patients Physics Physiology Platelets Preventable deaths Proteins Risk factors Scanning electron microscopy Smoke Smokers Smoking Smoking - adverse effects Stroke Stroke - physiopathology Stroke patients Studies Thrombosis Tobacco Tobacco smoke Ultrastructure
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description	Thrombo-embolic ischemic stroke is a serious and debilitating disease, and it remains the second most common cause of death worldwide. Tobacco smoke exposure continues to be responsible for preventable deaths around the world, and is a major risk factor for stroke. Platelets play a fundamental role in clotting, and their pathophysiological functioning is present in smokers and stroke patients, resulting in a pro-thrombotic state. In the current manuscript, atomic force and scanning electron microscopy were used to compare the platelets of smokers, stroke patients and healthy individuals. Results showed that the elastic modulus of stroke platelets is decreased by up to 40%, whereas there is an elasticity decrease of up to 20% in smokers' platelets. This indicates a biophysical alteration of the platelets. Ultrastructurally, both the stroke patients and smokers' platelets are more activated than the healthy control group, with prominent cytoskeletal rearrangement involved; but to a more severe extent in the stroke group than in the smokers. Importantly, this is a confirmation of the extent of smoking as risk factor for stroke. We conclude by suggesting that the combined AFM and SEM analyses of platelets might give valuable information about the disease status of patients. Efficacy of treatment regimes on the integrity, cell shape, roughness and health status of platelets may be tracked, as this cell's health status is crucial in the over-activated coagulation system of conditions like stroke.
doi_str_mv	10.1371/journal.pone.0069774
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Tobacco smoke exposure continues to be responsible for preventable deaths around the world, and is a major risk factor for stroke. Platelets play a fundamental role in clotting, and their pathophysiological functioning is present in smokers and stroke patients, resulting in a pro-thrombotic state. In the current manuscript, atomic force and scanning electron microscopy were used to compare the platelets of smokers, stroke patients and healthy individuals. Results showed that the elastic modulus of stroke platelets is decreased by up to 40%, whereas there is an elasticity decrease of up to 20% in smokers' platelets. This indicates a biophysical alteration of the platelets. Ultrastructurally, both the stroke patients and smokers' platelets are more activated than the healthy control group, with prominent cytoskeletal rearrangement involved; but to a more severe extent in the stroke group than in the smokers. Importantly, this is a confirmation of the extent of smoking as risk factor for stroke. We conclude by suggesting that the combined AFM and SEM analyses of platelets might give valuable information about the disease status of patients. 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Importantly, this is a confirmation of the extent of smoking as risk factor for stroke. We conclude by suggesting that the combined AFM and SEM analyses of platelets might give valuable information about the disease status of patients. Efficacy of treatment regimes on the integrity, cell shape, roughness and health status of platelets may be tracked, as this cell's health status is crucial in the over-activated coagulation system of conditions like stroke.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23874998</pmid><doi>10.1371/journal.pone.0069774</doi><tpages>e69774</tpages><oa>free_for_read</oa></addata></record>
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subjects	Atomic force microscopy Biochemistry Biology Blood platelets Blood Platelets - drug effects Blood Platelets - physiology Blood Platelets - ultrastructure Cell adhesion & migration Cell division Cell size Clotting Coagulation Comparative analysis Cytoskeleton Elastic Modulus - physiology Elastic properties Electron microscopy Health aspects Health risks Health sciences Humans Ischemia Mechanical properties Medical imaging Medical research Medical treatment Medicine Microscopy, Atomic Force Microscopy, Electron, Scanning Modulus of elasticity Patients Physics Physiology Platelets Preventable deaths Proteins Risk factors Scanning electron microscopy Smoke Smokers Smoking Smoking - adverse effects Stroke Stroke - physiopathology Stroke patients Studies Thrombosis Tobacco Tobacco smoke Ultrastructure
title	Comparison of platelet ultrastructure and elastic properties in thrombo-embolic ischemic stroke and smoking using atomic force and scanning electron microscopy
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