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Allylamine cardiotoxicity. II. Histopathology and histochemistry
P. J. Boor, T. J. Nelson, P. Chieco
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Scopus citations
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Dive into the research topics of 'Allylamine cardiotoxicity. II. Histopathology and histochemistry'. Together they form a unique fingerprint.
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Keyphrases
Histochemistry
100%
Allylamine
100%
Cardiotoxicity
100%
Monoamine Oxidase A (MAO-A)
100%
Myocardial Fibrosis
33%
Necrosis
33%
Intramyocardial
33%
Early Lesions
16%
Pathophysiologic
16%
Myocardial Ischemia
16%
Metaplasia
16%
Fibrosis
16%
Catecholamines
16%
Cell Proliferation
16%
Thrombosis
16%
High Activity
16%
Myocytes
16%
Smooth muscle
16%
Myocardial Injury
16%
Non-associated
16%
Morphological Characteristics
16%
Biochemical Measurements
16%
Focal Necrosis
16%
Vascular Alterations
16%
Early Course
16%
Fibrous Tissue
16%
Coagulative Necrosis
16%
Trabecular Bone
16%
Intima
16%
Drinking Water
16%
Intraventricular
16%
Total Occlusion
16%
Small Arteries
16%
Cardiac Lesions
16%
Mural Thrombus
16%
Myocardial Cells
16%
Early Change
16%
Cell Calcification
16%
Unusual Findings
16%
Alizarin Red S
16%
Focal Organization
16%
Cicatricial
16%
Fibroblastic
16%
Myolysis
16%
Subendocardium
16%
Medicine and Dentistry
Histopathology
100%
Allylamine
100%
Histochemistry
100%
Cardiotoxicity
100%
Amine Oxidase (Flavin Containing)
100%
Necrosis
80%
Artery
40%
Heart Muscle Necrosis
40%
Injury
20%
Morphology
20%
Fibrosis
20%
Metaplasia
20%
Catecholamine
20%
Thrombosis
20%
Smooth Muscle
20%
Heart Muscle Injury
20%
Heart Injury
20%
Thrombus
20%
Trabecula
20%
Amine Oxidase (Flavin Containing) Isoenzyme B
20%
Alizarin Red S
20%
Muscle Cell
20%