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Fundamental Principles

  • Wilhelm Schäberle
Chapter

Abstract

The potential for using the reflection of ultrasound in the visualization of the internal organs of the human body was recognized about 80 years ago. The first attempts at using ultrasound in medical diagnosis were made in the late 1930s by the Austrian neurologist K.T. Dussik. He developed what he referred to as hyperphonography, a sonographic transmission technique for the visualization of the cerebral ventricles. Also in the 1940s, American scientists began experimenting with ultrasound reflection to examine biological objects. Among the early pioneers were Ludwig and Struthers, who used this new technique for detecting gallstones. Other important milestones in the history of diagnostic ultrasound were the development of B-mode imaging by Howry and Bliss and the introduction of the echo pulse method by Leksell in Sweden, which he used to determine the position of midline brain structures in the intact skull, thus marking the start of echoencephalography. In 1954, Edler and Herz presented the first description of M-mode echocardiography.

References

  1. Ranke C, Rieder M, Creutzig A, Alexander K (1995) A nomogram of duplex ultrasound quantification of peripheral arterial stenoses. Studies of the cardiovascular model and in angiography patients. Med Klin(Munich) 90:72–77Google Scholar
  2. Schäberle W, Seitz K (1991) Duplexsonographische Blutflußmessung in der Arteria mesenterica superior. Ultraschall Med 12:277–282CrossRefPubMedGoogle Scholar
  3. Seidel G, Cangür H, Meyer-Wiethe K et al (2006) On the ability of ultrasound parametric perfusion imaging to predict the area of infarction in acute ischemic stroke. Ultraschall Med 27:543–548CrossRefPubMedGoogle Scholar
  4. Seitz K, Kubale R (1988) Duplexsonographie der abdominellen und retroperitonealen Gefäße. Weinheim, VCHGoogle Scholar
  5. Steinke W, Kloetzsch C, Hennerici M (1990) Carotid artery disease assessed by color Doppler flow imaging: correlation with standard Doppler sonography and angiography. Am J Roentgenol 154:1061–1068CrossRefGoogle Scholar
  6. Strauss AL, Scheffler A, Rieger H (1990) Dopplersonographische Bestimmung des Druckabfalls über peripheren Modell-arterienstenosen. Vasa 19:207–211PubMedGoogle Scholar
  7. Strauss AL, Roth F-J, Rieger H (1993) Noninvasive assessment of pressure gradients across iliac artery stenoses: duplex and catheter correlative study. J Ultrasound Med 12:17–22CrossRefPubMedGoogle Scholar
  8. Weber G, Strauss AL, Rieger H, Scheffler A, Eisenhoffer J (1992) Validation of Doppler measurement of pressure gradients across peripheral model arterial stenosis. J Vasc Surg 16:10–16CrossRefPubMedGoogle Scholar
  9. Widder B (1999) Doppler- und Duplexsonographie der hirnversorgenden Arterien. Springer, Berlin/Heidelberg/New York/TokyoCrossRefGoogle Scholar
  10. Widder B, Görtler M (2004) Doppler- und Duplexsonographie der hinversorgenden Arterien. Springer, HeidelbergCrossRefGoogle Scholar
  11. Wolf KJ, Fobbe F (1993) Farbkodierte Duplexsonographie. Thieme, StuttgartGoogle Scholar
  12. Claudon M, Plouin PF, Baxter GM et al. for the Levovist Renal Artery Stenosis Study Group (2000) Renal arteries in patients at risk of renal arterial stenosis: multicenter evaluation of the echo-enhancer SHU 508 A at color and spectral Doppler US. Radiology 214:739–746Google Scholar
  13. Claudon M, Cosgrove D, Albrecht T et al (2008) Guidelines and good clinical practice recommendations for contrast enhanced ultrasound (CEUS) – Update 2008. Ultraschall Med 29:28–44CrossRefPubMedGoogle Scholar
  14. Correas J-M, Hélénon O, Pourcelot L, Moreau J-F (1997) Ultrasound contrast agents. Acta Radiol 38(suppl 412):101–112Google Scholar
  15. Dietrich CF, Averkiou MA, Correas JM (2012) An EFSUMB introduction into Dynamic Contrast-Enhanced Ultrasound (DCE-US) for quantification of tumour perfusion. Ultraschall Med 33:344–351CrossRefPubMedGoogle Scholar
  16. Ferrer EJM, Samso J, Serrando R et al (2000) Use of ultrasound in the diagnosis of carotid artery occlusion. J Vasc Surg 31:736–741CrossRefPubMedGoogle Scholar
  17. Fürst G, Saleh A, Wenserski F et al (1999) Reliability and validity of noninvasive imaging of internal carotid artery pseudo-occlusion. Stroke 30:1450–1455CrossRefGoogle Scholar
  18. Kaps M, Seidel G (1999) Echokontrastverstärkung in der neurologischen Ultraschalldiagnostik. Dt Ärztebl 96:A 276–A 280Google Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  • Wilhelm Schäberle
    • 1
  1. 1.Department of Visceral, Vascular, Thoracic, and Pediatric SurgeryAlb Fils KlinikenGöppingenGermany

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