Recording mitral annular motion: a discovery made while investigating the poor specificity of the mitral valve diastolic (E to F) slope

Autor: Harvey Feigenbaum
Rok vydání: 2012
Předmět:
Zdroj: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography. 25(9)
ISSN: 1097-6795
Popis: When doing research many unexpected important discoveries are made while pursuing a totally different goal. Recording mitral annular motion with M-mode echocardiography is one such discovery. When I saw my first ultrasound instrument in 1963, my immediate idea was to use this instrument to detect pericardial effusion. With the use of a Smith-Kline Instruments (Sunnyvale, CA) ultrasonoscope owned by the neurologists at Indiana University for the detection of the midline of the brain, I was able to demonstrate that diagnostic ultrasound could detect pericardial fluid. At this point I wanted to know what else was known about the use of ultrasound to examine the heart. I obtained a copy of Dr. Edler’s 1961 review article in Acta Medica Scandinavica. 1 I also learned that Dr. Joyner in Philadelphia had published an article in Circulation in 1963 duplicating Edler’s observation of mitral valve motion in patients with mitral stenosis. 2 I visited Dr. Joyner and also attended a 1965 meeting in Pittsburg on general diagnostic ultrasound. Dr. Edler was one of the speakers. From my visit to Joyner’s lab and hearing Edler’s lecture, they felt that the only useful clinical application of cardiac ultrasound was using the mitral valve diastolic E to F slope for the detection of mitral stenosis. 3 The ultrasound instrument that I had access to was an A-mode ultrasonoscope. My visit to Philadelphia had a dual purpose. One was to visit Dr. Joyner. The other was to obtain a ‘‘free’’ ‘‘Slow Sweep’’ module from Smith-Kline Instruments so that I could obtain M-mode recordings. One objective was to confirm that the E to F slope was useful to detect mitral stenosis, which was a very common problem in those days. Itdidn’t takelong todocumentthatpatientswithmitralstenosisdid indeed have a flat E to F slope. The problem was that I could also record a flat E to F slope in some patients without mitral stenosis. Thus, thatfinding alone wasnotspecific for mitralstenosis. Iwas notthefirst to recognize this lackof specificity.Unfortunately this known problem hindered the credibility of diagnostic ultrasound. Some early investigators apparently dabbled with cardiac ultrasound, ran into this problem and abandoned the technique. This credibility problem also contributed to the skepticism in the early use of diagnostic ultrasound for the detection of pericardial effusion, which had nothing to do with the EF slope. Dr. Adib Zaky, who had immigrated to the United States from Egypt, was working with me and we became curious as to why the E to F slope was reduced in patients without mitral stenosis. Our theory was that with mitral stenosis theflat E to F slope reflected the slow rate of left ventricular filling due to the narrowed mitral orifice. In patients without mitral stenosis a flat E to F slope was likely the result of abnormal mitral ring or annular motion towhichthe mitral leaflet was attached. At that time we used the term ‘‘mitral ring’’ rather than ‘‘mitral annulus’’. To test our theory, we began exploring the possibility of recording echoes from the mitral ring. With a trial and error approach, we found that if one placed the transducer at the cardiac apex, one could record the mitral annulus as a distinctly different
Databáze: OpenAIRE
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