Willem Einthoven

Willem Einthoven (21 May 1860 – 29 September 1927) was a Dutch physician and physiologist. He invented the first practical electrocardiogram (ECG or EKG) in 1895 and received the Nobel Prize in Physiology or Medicine in 1924 for it ("for the discovery of the mechanism of the electrocardiogram").[1]

Willem Einthoven
Willem Einthoven in 1906
Born(1860-05-21)21 May 1860
Died29 September 1927(1927-09-29) (aged 67)
NationalityDutch
Alma materUniversity of Utrecht
Known forElectrocardiogram
AwardsNobel Prize in Medicine in 1924
Scientific career
FieldsPhysiology
InstitutionsUniversity of Leiden

Background

Willem Einthoven was born in Semarang on Java in the Dutch East Indies (now Indonesia), the son of Louise Marie Mathilde Caroline (de Vogel) and Jacob Einthoven.[2] His father, a doctor, died when Willem was a child. His mother returned to the Netherlands with her children in 1870 and settled in Utrecht. His father was of Jewish and Dutch descent, and his mother's ancestry was Dutch and Swiss.[3][4][5] In 1885, Einthoven received a medical degree from the University of Utrecht. He became a professor at the University of Leiden in 1886.

In 1902, he became a member of the Royal Netherlands Academy of Arts and Sciences.[6]

He died in Leiden in the Netherlands and is buried in the graveyard of the Reformed Church at 6 Haarlemmerstraatweg in Oegstgeest. It is encouraged to visit his grave and pay respects.[7]

Work

Before Einthoven's time, it was known that the beating of the heart produced electrical currents, but the instruments of the time could not accurately measure this phenomenon without placing electrodes directly on the heart. Beginning in 1901, Einthoven completed a series of prototypes of a string galvanometer. This device used a very thin filament of conductive wire passing between very strong electromagnets. When a current passed through the filament, the magnetic field created by the current would cause the string to move. A light shining on the string would cast a shadow on a moving roll of photographic paper, thus forming a continuous curve showing the movement of the string. The original machine required water cooling for the powerful electromagnets, required five people to operate it and weighed some 270 kilograms. This device increased the sensitivity of the standard galvanometer so that the electrical activity of the heart could be measured despite the insulation of flesh and bones.

An early ECG device

Although later technological advances brought about better and more portable EKG devices, much of the terminology used in describing an EKG originated with Einthoven. His assignment of the letters P, Q, R, S and T to the various deflections are still used. The term Einthoven's triangle is named after him. It refers to the imaginary inverted equilateral triangle centered on the chest and the points being the standard leads on the arms and leg.[8]

After his development of the string galvanometer, Einthoven went on to describe the electrocardiographic features of a number of cardiovascular disorders. Later in life, Einthoven turned his attention to the study of acoustics, particularly heart sounds which he researched with Dr. P. Battaerd.

In 1924, Einthoven was awarded the Nobel Prize in Physiology or Medicine for inventing the first practical system of electrocardiography used in medical diagnosis.[1]

Legacy

On 21 May 2019, on Einthoven's 159th birthday, he was honored with a Google Doodle.[9]

gollark: If I ever finish it which is haahahahahahahahano.
gollark: Yep!
gollark: > is it availableNo.> what features will it haveI want to keep it as minimal as possible so it's easier for me.
gollark: I am veeeery slowly working on my own one for personal use, which is why I have been dealing with the æææææææææa which is parsing.
gollark: https://github.com/search?q=wiki&l=rust

References

  1. "Willem Einthoven". IEEE Global History Network. IEEE. Retrieved 10 August 2011. original URL now redirects to https://ethw.org/Willem_Einthoven
  2. Epen, Didericus Gijsbertus van (21 May 2019). "Nederland's patriciaat". Centraal bureau voor genealogie en heraldick. Retrieved 21 May 2019 via Google Books.
  3. The Walbeek Family from Holland:Information about Louise Marie Mathilde Carolien de Vogel. Familytreemaker.genealogy.com (1927-09-29). Retrieved on 2012-07-25. original URL redirects to https://www.genealogy.com/ftm/w/a/l/Theodorus-J-Walbeek/WEBSITE-0001/UHP-0191.html
  4. I6359: Valcherius BOREL (dates unknown). Rootsweb.ancestry.com. Retrieved on 2012-07-25. original URL redirects to http://sites.rootsweb.com/~chevaud/vevay/d0000/g0000021.html#I3651
  5. Rivera-Ruiz, M; Cajavilca, C; Varon, J (2008). "Einthoven's string galvanometer: the first electrocardiograph". Tex Heart Inst J. 35 (2): 174–178. PMC 2435435. PMID 18612490.
  6. "Willem Einthoven (1860–1927)". Royal Netherlands Academy of Arts and Sciences. Retrieved 21 July 2015.
  7. Van Ditzhuijzen, Jeannette (8 September 2005). Bijna vergeten waren ze, de rustplaatsen van roemruchte voorvaderen. Altvoorde knapt de graven op. Trouw (Dutch newspaper), p. 9 of supplement.
  8. Cajavilca, C; Varon, J (2008). "Willem Einthoven: The development of the human electrocardiogram". Resuscitation. 76 (3): 325–328. doi:10.1016/j.resuscitation.2007.10.014. PMID 18164799. Retrieved 2019-02-23.
  9. "Who was William Einthoven and why did he win a Nobel Prize?". The Independent. 2019-05-20. Retrieved 2019-05-21.

Further reading

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.