Many histories of diagnostic ultrasound, and cardiac ultrasound in particular, have been written.1,2,3,4,5,6 They all seem to address this field from a different perspective. One can begin the history in the twentieth century, Roman times, or any of the centuries in between. It is stated that a Roman architect, Vitruvius, first coined the word echo.7 A Franciscan friar, Marin Mersenne (1588–1648), is frequently called the “father of acoustics†because he first measured the velocity of sound.7 Another early physicist, Robert Boyle (1627–1691), recognized that a medium was necessary for the propagation of sound.7 Abbe Lazzaro Spallanzani (1727–1799) is frequently referred to as the “father of ultrasound.â€8 He demonstrated that bats were blind and in fact navigated by means of echo reflection using inaudible sound. In 1842, Christian Johann Doppler (1803–1853) noted that the pitch of a sound wave varied if the source of the sound was moving.9 He worked out the mathematical relationship between the pitch and the relative motion of the source and the observer. The ability to create ultrasonic waves came in 1880 with the discovery of piezoelectricity by Curie and Curie.10,11 They noted that if certain crystalline materials are compressed, an electric charge is produced between the opposite surfaces. They then noted that the reverse was also true. If an electrical potential is applied to a crystal, it is compressed and decompressed depending on the polarity of the electric charge, and thus very high frequency sound can be produced. In 1912, a British engineer, L. F. Richardson, suggested that an echo technique could be used to de- tect underwater objects. Later during World War I, Paul Langevin was given the duty of detecting enemy submarines using sound, which culminated in the development of sonar.3 Sokolov12 described a method for using reflected sound to detect metal flaws in 1929. In 1942, Floyd Firestone,13 an American engineer, began to apply this technique and received a patent. It is this flaw detection technique that ultimately was used in medicine.
An Austrian, Karl Dussik,14 was probably the first to apply ultrasound for medical diagnosis in 1941. He initially attempted to outline the ventricles of the brain. His approach used transmission ultrasound rather than reflected ultrasound. After World War II, many of the technologies developed during that war, including sonar, were applied for peaceful and medical uses. In 1950, W. D. Keidel,15 a German investigator, used ultrasound to examine the heart. His technique was to transmit ultrasonic waves through the heart and record the effect of ultrasound on the other side of the chest. The purpose of his work was to try to determine cardiac volumes. The first effort to use pulse-reflected ultrasound, as described by Firestone, to examine the heart was initiated by Dr. Helmut Hertz of Sweden. He was familiar with Firestone's observations and in 1953 obtained a commercial ultrasonoscope, which was being used for nondestructive testing. He then collaborated with Dr. Inge Edler who was a practicing cardiologist in Lund, Sweden. The two of them began to use this commercial ultrasonoscope to examine the heart. This collaboration is commonly accepted as the beginning of clinical echocardiography as we know it today.16
The original instrument (Fig. 1.1) was quite insensitive. The only cardiac structures that they could record initially were from the back wall of the heart. In retrospect, these echoes probably came from the posterior left ventricular wall. With some modification of their instrument, they were able to record an echo from the anterior leaflet of the mitral valve. However, they did not recognize the source of this echo for several years and originally attributed the signal to the anterior left atrial wall. Only after some autopsy investigations did they recognize the echo's true origin. Edler17 went on to perform a number of ultrasonic studies of the heart. Many of the cardiac echoes currently used were first described by him. However, the principal clinical application of echocardiography developed by Edler was the detection of mitral stenosis.18 He noted that there was a difference between the pattern of motion of the anterior mitral leaflet in patients who did or did not have mitral stenosis. Thus, the early studies published in the mid-1950s and early 1960s primarily dealt with the detection of this disorder.
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