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  • Book
    by Fridon Todua, Dudana Gachechiladze.
    Summary: This book is a state of the art guide to the diagnosis of extracranial vascular pathologies with modern noninvasive neuroimaging and vascular imaging techniques. The opening sections provide a thorough introduction to arterial and venous anatomy, basic hemodynamics, and the principles of noninvasive vascular diagnostics, including by means of color Doppler ultrasound, CT and CT angiography (356- and 640-slice systems), and MRI and MR angiography (1.5 and 3 T). The main body of the book is devoted to the use of these methods to image cerebral ischemia and a wide variety of extracranial arterial and venous anomalies and pathologies. Neuroimaging and vascular imaging diagnostic criteria are clearly identified with the aid of many high-quality images, and the advantages and disadvantages of each modality for each pathology are explained. Information is also presented on etiology, pathophysiology, and other relevant aspects. A concluding section discusses the role of complementary noninvasive functional tests. The book will be a valuable resource for neurologists, angiologists, neuroradiologists, neurosurgeons, trainees, and all physicians who care for patients with cerebrovascular diseases.

    Contents:
    Introduction
    Part I
    Vascular anatomy and Basic hemodynamics
    1. Anatomy of cerebral circulation system
    2. Basic Principles of hemodynamics
    Part II
    Basic principles of non-invasive vascular diagnostic
    1. Basic principles of Ultrasound diagnostics
    2. Principles of extracranial arterial and venous ultrasound examination
    3. Principles of Computed Tomography and Computed Tomography angiography
    4. Principles of Magnetic Resonance Imaging and Magnetic Resonance angiography
    5. CTA and MRA- Postprocessing and Data Analysis
    Part III
    Cerebral ischemia
    1. Stroke (Epidemiology, Pathophysiology, Risk-factors, Types, Imaging)
    2. CT / MRI perfusion in Acute stroke--94
    Part IV
    Pathologies of extracranial vessels
    1. Atherostenosis and thrombosis of extracranial vessels
    2. Common Carotid Artery Intima-media layer changes
    3. Structural characteristics of atherosclerotic plaque
    4. Surgical treatment end endovascular revascularization of carotid stenosis
    5. Deformation of extracranial arteries
    6. Takayasu`s arteritis
    7. Subclavian steal effect
    8. Dissection of extracranial arteries
    9. Aneurism and pseudoaneurism of extracranial arteries
    10. Congenital variations of extracranial arteries
    11. Pathological findings in the jugular veins
    Part V
    Methods of non-invasive functional examination of cerebrovascular system
    1. Detection of cerebral microemboli
    2. Assessment of cerebrovascular reactivity.
    Digital Access Springer 2018
  • Article
    Nasr M, Nabih I, Burckhalter JH.
    J Med Chem. 1978 Mar;21(3):295-8.
    3-Ethylaminomethyl-2-methyl-4(1H)-quinolone (1a) and its 6-CH3, 6-OCH3, and 7-Cl derivatives were prepared by means of the Mannich reaction. Conversion to the 4-chloro derivatives and condensation with 3-chloroaniline gave the corresponding 4-(3-chloroanilino) derivatives. Cyclization of 4-(3-chloroanilino)-2,6-dimethyl-3-ethyl-aminomethylquinoline (3a) and its 6-OCH3 derivative with paraformaldehyde gave 1-(3-chlorophenyl)-3,9-dimethyl-3-ethyltetrahydropyrimido[5,4-c]quinoline (4a) and the 9-OCH3 derivative 4b. Treatment of 4b with benzaldehyde gave 1-(3-chlorophenyl)-3-ethyl-9-methoxy-5-styryltetrahydropyrimido[5,4-c]quinoline (5). 3-Benzylaminomethyl-6-methoxy-2-methyl-4(1H)-quinolone (1e) and 3,3'-(1,3-benzyliminodimethylene)di[2-methyl-4(1H)-quinolone] (6b) were also synthesized. The compounds were inactive as antimalarials.
    Digital Access Access Options