Introduction to noninvasive cardiac mapping.

From the dawn of the twentieth century, the electrocardiogram (ECG) has revolutionized the way clinical cardiology has been practiced, and it has become the cornerstone of modern medicine today. Driven by clinical and research needs for a more precise understanding of cardiac electrophysiology beyond traditional ECG, inverse solution electrocardiography has been developed, tested, and validated. This article outlines the important progress from ECG development, through more extensive measurement of body surface potentials, and the fundamental leap to solving the inverse problem of electrocardiography, with a focus on mathematical methods and experimental validation.

[Incursion into bioelectromagnetism]. / Incursiune în bioelectromagnetism.

The term of bioelectromagnetism include electromagnetosenzitive processes at the fundamental interaction of energetical fields with the matter. The alive matter has a dynamical, chemical and energetics structure, but above all, an intense informational activity. The bioelectromagnetism was gradually discovered and understood throughout history of humanity. J. Bernstein defined the cell's bioelectricity, Wagner calculated electrical conductivity and permeability of cells, starting from the Maxwell's field equations, others discovered "mitogenetic radiation" or "dark luminescence" or "ultraweak bioluminescence" and F. A. Popp founded the biophotons theory. On the other hand, Hirata and Nakatani finded points with different electrical conductivity on the surface of the skin and Voll invented the system of electro dermal testing. The practical applications of the bioelectromagnetism are the medical devices based on bioresonance, useful in diagnosis and treatment, as shown in the 17 studies (902 patients) published in 1999-2006.

A history of pulmonary embolism and deep venous thrombosis.

Although enormous progress has been made in understanding the physiology of pulmonary embolism, developing new diagnostic modalities and strategies, and constant refinement in the use of heparin therapy and thrombolytic therapy, venous thromboembolism remains a common and lethal process. As the history of this disease illustrates, advances continue to be made and it is anticipated that with newer diagnostic studies and anticoagulants under development, diagnosis and treatment of pulmonary embolism will continue to improve.

Historical perspectives of cardiac electrophysiology.

The diagnosis and treatment of clinical electrophysiology has a long and fascinating history. From earliest times, no clinical symptom impressed the patient (and the physician) more than an irregular heart beat. Although ancient Chinese pulse theory laid the foundation for the study of arrhythmias and clinical electrophysiology in the 5th century BC, the most significant breakthrough in the identification and treatment of cardiac arrhythmias first occurred in this century. In the last decades, our knowledge of electrophysiology and pharmacology has increased exponentially. The enormous clinical significance of cardiac rhythm disturbances has favored these advances. On the one hand, patients live longer and thus are more likely to experience arrhythmias. On the other hand, circulatory problems of the cardiac vessels have increased enormously, and this has been identified as the primary cause of cardiac rhythm disorders. Coronary heart disease has become not just the most significant disease of all, based on the statistics for cause of death. Arrhythmias are the main complication of ischemic heart disease, and they have been directly linked to the frequently arrhythmogenic sudden death syndrome, which is now presumed to be an avoidable "electrical accident" of the heart. A retrospective look--often charming in its own right--may not only make it easier to sort through the copious details of this field and so become oriented in this universe of important and less important facts: it may also provide the observer with a chronological vantage point from which to view the subject. The study of clinical electrophysiology is no dry compendium of facts and figures, but rather a dynamic field of study evolving out of the competition between various ideas, intentions and theories.

Electricity and the heart.

Understanding of cardiac rhythm requires application of physical principles governing electricity. Over a period of more than 100 years, application of the knowledge of electric current led to the gradual evolution of electrocardiogram, pacemaker, defibrillator, and ultimately electrophysiology. The discovery of electrocardiogram (ECG) by Einthoven in 1902 and that of pacing by Zoll in 1952 were two landmarks in this field.

[A historical review of the study of electrical activity of heart and origination of electrocardiography].

This paper has an overall review of the historical process of electrocardiographic development and the origination of modern electrocardiography in retrospect and also has an analysis of the scientific background, the important events and the historical effect of outstanding figures throughout the development. The experience and laws contained in the historical development are briefly summerized in this paper. At the same time the authors point out that the establishment of modern electrocardiography and the related technical development are crystallization of the wisdom and the result of the hard work of many scientists including the figures who should have been awarded Nobel Prizes.

[History of blood circulation]. / Die Geschichte des Kreislaufs.

Until the beginning of the 17th century it was assumed that the arteries carried a subtle kind of air or spirit to the organs, and the veins the nutrient blood. No one seems to have seriously considered that a backflow was necessary. The circulation of the blood was discovered in 1628 by William Harvey. Blood pressure was first measured in animals by Hales (1733). Reliable blood pressure measurements in humans were rendered possible at the beginning of the 20th century through the efforts of Mahomed, von Basch, Potain, Riva-Rocci and Korotkoff. In 1903 electrocardiography was introduced by Einthoven. In 1941 the use of venous catheterization by Cournand initiated the giant forward strides of modern cardiovascular research, diagnosis and therapy.