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Full-Text Articles in Medicine and Health Sciences
Heart Performance Of Lambs And Its Relation To Muscle Volume And Body Surface, Róbert Romvári, Csaba Hancz, Péter Horn, Zsolt Petrási, András Szabó, Dávid Mezöszentgyörgyi, Imre Repa
Heart Performance Of Lambs And Its Relation To Muscle Volume And Body Surface, Róbert Romvári, Csaba Hancz, Péter Horn, Zsolt Petrási, András Szabó, Dávid Mezöszentgyörgyi, Imre Repa
Turkish Journal of Veterinary & Animal Sciences
Electrocardiography-gated dynamic magnetic resonance imaging (MRI) methodology was developed for the in vivo examination of sheep heart characteristics. By combining noninvasive determination of skeletal muscle mass, we studied the relationship between total body skeletal muscle content and heart performance. Measurements were carried out on male Merino lambs using 1.5 T field strength equipment. Average left ventricular volumes were determined and stroke volume was estimated during image postprocessing. Ejection fraction was calculated (73 ± 1.8%) and the cardiac output (CO) value was estimated (2.75 ± 0.16 L/min). After measuring left ventricular wall thickness, contraction values were determined at the septum (62%), …
Low-Field Magnetic Resonance Anatomic Features Of The Neonatalfoal Thorax: An Ex Vivo Study, Alberto Arencibia, José Ángel Sandoval, Francisco Gil, José Raduán Jaber, Diego Blanco, Andrés Diz, José María Vázquez
Low-Field Magnetic Resonance Anatomic Features Of The Neonatalfoal Thorax: An Ex Vivo Study, Alberto Arencibia, José Ángel Sandoval, Francisco Gil, José Raduán Jaber, Diego Blanco, Andrés Diz, José María Vázquez
Turkish Journal of Veterinary & Animal Sciences
The purpose of this study was to describe the normal appearance of the bony and soft tissue structures of the thorax of neonatal foals by low-field magnetic resonance imaging (MRI) and the use of anatomical dissections and gross sections. Three purebred Spanish neonatal foals that died for medical reasons unrelated to thoracic disease were used to obtain T1- and T2-weighted MR images using a magnet of 0.2 Tesla. Anatomic structures on the MR images were evaluated according to characteristics of signal intensity of the different organic tissues. The bones, different associated muscles, diaphragm, trachea, main bronchi, lungs, esophagus, heart chambers, …