The corpus callosum is a midline cerebral structure and has a unique embryological development pattern. In this article, we describe the pathophysiology and present imaging findings of various typical/atypical conditions affecting the corpus callosum. Since many of these pathologies have characteristic appearances on magnetic resonance imaging (MRI) and their therapeutic approaches are poles apart, ranging from medical to surgical, the neuroradiologist should be well aware of them.
In this paper we present a therapeutic concept for the treatment of heart failure due to muscular inability to pump properly. The basic principle of this concept triggered numerous studies, then with the aim of cardiopulmonary resuscitation, back in the 1970s. In general, it dealt with mechanical systems which led to an increase in stroke volume, systolic blood pressure, and cardiac output through the application of pressure directly to the left ventricle. After a critical appraisal of the relevant literature from technical, physical, and medical viewpoints, and our own preliminary studies on animal hearts within the framework of mock circulation experiments, we have conceived a new functional principle for direct mechanical ventricular assistance based on squeezing the left ventricle only. We have begun development of the system which has the advantages of ease of use, high biocompatibility due to lack of contact between blood and system components, the prevention of infection through complete intrathoracic implantation (long-range goal), and the fact that the patient's own heart can be supported by the system without being removed from the circulatory system (support of the residual myocardial function). Technical as well as medical prerequisites are indicated, and the materials selection and construction principles of the control, pressure generation, pressure transduction, and ventricular compression unit are described. It has proved possible to construct a prototype system to be used in animal experiments, which, through pneumatic inflation of a chamber system partially surrounding the left ventricle, should be able to augment or take over the pumping function of the left ventricle.
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