The image is from Wikipedia Commons
Willem Johan Kolff
Willem Johan Kolff
|Born||(1911-02-14)February 14, 1911
|Died||February 11, 2009(2009-02-11) (aged 97)
|Awards||Gairdner Foundation International Award (1966)
Harvey Prize (1972)
Wilhelm Exner Medal (1980)
Japan Prize (1986)
Willem Johan "Pim" Kolff (February 14, 1911 – February 11, 2009) was a pioneer of hemodialysis as well as in the field of artificial organs. Willem is a member of the Kolff family, an old Dutch patrician family. He made his major discoveries in the field of dialysis for kidney failure during the Second World War. He emigrated in 1950 to the United States, where he obtained US citizenship in 1955, and received a number of awards and widespread recognition for his work.
Born in Leiden, Netherlands, Kolff was the eldest of a family of 5 boys. Kolff studied medicine in his hometown at Leiden University, and continued as a resident in internal medicine at Groningen University. One of his first patients was a 22-year-old man who was slowly dying of renal failure. This prompted Kolff to perform research on artificial renal function replacement. Also during his residency, Kolff organized the first blood bank in Europe (in 1940). Kolff's first prototype dialyzer was developed in 1943, built from orange juice cans, used auto parts, and sausage casings. Over a two year span, Kolff had attempted to treat 15 people with his machine, but all had died. In 1945, Kolff successfully treated his first patient, a 67 year old woman, from renal failure using his hemodialysis machine.
During World War II, he was in Kampen, where he was active in the resistance against the German occupation. Simultaneously, Kolff developed the first functioning artificial kidney. He treated his first patient in 1943, and in 1945 he was able to save a patient's life with hemodialysis treatment. In 1946 he obtained a PhD degree summa cum laude at University of Groningen on the subject. It marks the start of a treatment that has saved the lives of millions of acute or chronic renal failure patients ever since.
When the war ended, Kolff donated his artificial kidneys to other institutions to spread familiarity with the technology. In Europe, Kolff sent machines to London, Amsterdam, and Poland. Another machine sent to Dr. Isidore Snapper at Mount Sinai Hospital in New York City was used to perform the first human dialysis in the United States on January 26, 1948 under the supervision of Drs. Alfred P. Fishman and Irving Kroop.
In 1950, Kolff left the Netherlands to seek opportunities in the US. At the Cleveland Clinic, he was involved in the development of heart-lung machines to maintain heart and pulmonary function during cardiac surgery. He also improved on his dialysis machine. At Brigham and Women's Hospital, with funding from New York real estate developer David Rose he developed the first production artificial kidney, the Kolff Brigham Artificial Kidney, manufactured by the Edward A. Olson Co. in Boston Massachusetts, and later the Travenol Twin-Coil Artificial Kidney.
He became head of the University of Utah's Division of Artificial Organs and Institute for Biomedical Engineering in 1967, where he was involved in the development of the artificial heart, the first of which was implanted in 1982 in patient Barney Clark, who survived for four months, with the heart still functioning at the time of Clark's death.
Kolff is considered to be the Father of Artificial Organs, and is regarded as one of the most important physicians of the 20th century. He obtained more than 12 honorary doctorates at universities all over the world, and more than 120 international awards, among them the Harvey Prize in 1972, AMA Scientific Achievement Award in 1982, the Japan Prize in 1986, the Albert Lasker Award for Clinical Medical Research in 2002, and the Russ Prize in 2003. In 1990 Life Magazine included him in its list of the 100 Most Important Persons of the 20th Century. He was a co-nominee with William H. Dobelle for the Nobel Prize in Physiology or Medicine in 2003. Robert Jarvik, who worked in Kolff's laboratory at the University of Utah beginning in 1971, credited Kolff with inspiring him to develop the first permanent artificial heart.
Kolff died three days short of his 98th birthday on February 11, 2009, in a care center in Philadelphia. On February 29, 2012, Yad Vashem recognized Willem Johan Kolff and his wife as Righteous Among the Nations, for their part in concealing a Jewish medical colleague and his son.
- Editor, ÖGV. (2015). Wilhelm Exner Medal. Austrian Trade Association. ÖGV. Austria.
- Cooley, Denton A. (2009). "In Memoriam". Texas Heart Institute Journal. 36 (2): 83–84. ISSN 0730-2347. PMC 2676591.
- Moore, Carrie A. "Kolff, 'father of artificial organs,' dies at 97", Deseret News, February 11, 2009. Accessed February 11, 2009.
- John Francis Maher (1 January 1989). Replacement of Renal Function by Dialysis: A Text Book of Dialysis. Springer. pp. 33–33. ISBN 978-0-89838-414-7.
- New York Times: "DAVID ROSE" July 18, 1986
- "Willem Johan Kolff (1911 - 2009)". Royal Netherlands Academy of Arts and Sciences. Retrieved 24 January 2016.
- Milestones, Time Magazine, March 2, 2009, p.18
- "Yad Vashem Web Site". Retrieved 28 July 2018.
- Paul Heiney. The Nuts and Bolts of Life: Willem Kolff and the Invention of the Kidney Machine. Sutton Publishing, 2003. ISBN 0-7509-2896-4.
- Herman Broers. Inventor for Life: The Story of W. J. Kolff, Father of Artificial Organs. B&V Media, 2007. ISBN 90-78430-01-X.
- Patrick T. McBride, Genesis of the artificial kidney. Baxter Healthcare Corp., 1987.
- Kolff's papers at the University of Utah
- Willem Kolff Stichting - Kampen, The Netherlands foundation honouring the life and work of Kolff
- Familievereniging Kolff Family Association
- W.J. Kolff Institute - Groningen, The Netherlands. Research Institute within the UMCG named after W. J. Kolff
- Obituary in the Telegraph newspaper
- Obituary in the New York Times
- This page is based on the Wikipedia article Willem Johan Kolff; it is used under the Creative Commons Attribution-ShareAlike 3.0 Unported License (CC-BY-SA). You may redistribute it, verbatim or modified, providing that you comply with the terms of the CC-BY-SA.