Emil von Behring: Difference between revisions

From Wikipedia, the free encyclopedia
Jump to navigation Jump to search
VisualWikitext
imported>GreenC bot
Rescued 1 archive link; reformat 1 link. Wayback Medic 2.5 per Category:All articles with dead external links
 
imported>Ser Amantio di Nicolao
 
(2 intermediate revisions by 2 users not shown)
Line 26: Line 26:
Behring was born in Hansdorf, Kreis Rosenberg, [[Province of Prussia]] (now [[Ławice]], [[Iława County]], [[Poland]]). His father was a schoolmaster; the family had 13 children.
Behring was born in Hansdorf, Kreis Rosenberg, [[Province of Prussia]] (now [[Ławice]], [[Iława County]], [[Poland]]). His father was a schoolmaster; the family had 13 children.


Between 1874 and 1878, Behring studied medicine at the Kaiser-Wilhelm-Akademie in [[Berlin]], an academy for military doctors, since his family could not afford the university.<ref>{{Cite web|url=https://www.nobelprize.org/nobel_prizes/medicine/laureates/1901/behring-bio.html|title=Emil von Behring - Biographical|website=www.nobelprize.org|access-date=2018-07-23}}</ref> As a military doctor, he studied the action of [[iodoform]]. Due to his work on Neurotomia opticociliaris (or optociliary neurotomy), Behring became a doctor from the institute and later was able to pass his exam for licensed work in his area of Marburg.<ref name=":0">{{Cite journal|last1=Grzybowski|first1=Andrzej|last2=Wilhelm|first2=Helmut|date=15 February 2012|title=Little known ophthalmic interests of Emil von Behring, the first Nobel Prize Laureate in Medicine or Physiology|journal=Acta Ophthalmologica|language=en|volume=91|issue=4|pages=381–384|doi=10.1111/j.1755-3768.2011.02343.x|pmid=22336320|s2cid=22857078|doi-access=free}}</ref> In 1878, his service required him to be sent to Poland where he focused on septic diseases. His potential was becoming well known to many. This led to his commanded return to Prussia to study with Robert Koch.<ref>{{Cite journal|date=2010-04-23|title=Sondermarken zur Ehrlich-Behring-Feier: Paul Ehrlich; Emil von Behring|url=http://dx.doi.org/10.1002/nadc.19540021309|journal=Nachrichten aus Chemie und Technik|volume=2|issue=13–14|pages=136|doi=10.1002/nadc.19540021309|issn=0027-738X}}</ref> He was employed by the military as he received his grants and money from the Prussian army. For each semester of education, he owed one year of service as a military surgeon. This accumulated to two years, from 1881 to 1883 as he served under the Second Hussar regiment.<ref name=":0" /> A lesser known part of his studies was his research in [[ophthalmology]] and how he furthered the understanding of the eye and its diseases. He wrote a paper during his time at Wicherkiewicz's hospital in [[Poznań]] from 1881 to 1883 on an eye tumor case that ended up with the patient dying from [[leukemia]], but it did allow for much needed research on treatments for the eye and what the preferred pathways for surgery would be. He learned under some of the great ophthalmologists such as Carl Ernst Schweigger and Wilhelm Uhthoff, leading to his interest in the subject and his writing his doctoral dissertation on it.<ref name=":0"/>
Between 1874 and 1878, Emil von Behring studied medicine at the [[Kaiser Wilhelm Academy]] in [[Berlin]], an institution established for the training of military physicians. His enrollment there was largely due to financial necessity, as his family could not afford a civilian university education.<ref>{{Cite web|url=https://www.nobelprize.org/nobel_prizes/medicine/laureates/1901/behring-bio.html|title=Emil von Behring - Biographical|website=www.nobelprize.org|access-date=2018-07-23}}</ref> During his studies, Behring conducted early research on the antiseptic properties of [[iodoform]], reflecting the medical preoccupation of the time with preventing infection in surgical practice.


In 1890 he published an article with [[Kitasato Shibasaburō]] reporting that they had developed "antitoxins" against both [[diphtheria]] and [[tetanus]]. They had injected diphtheria and tetanus toxins into [[guinea-pig]]s, goats and horses; when these animals developed immunity, they derived antitoxins (now known to contain [[antibodies]]) from their [[Serum (blood)|serum]]. This process would be called serum therapy by him at the time as he described it as a way to induce permanent immunity or "to stimulate the body's internal disinfection".<ref>{{Cite journal|last=Raju|first=Tonse NK|date=4 July 1998|title=The Nobel Chronicles|url=http://dx.doi.org/10.1016/s0140-6736(05)79565-9|journal=The Lancet|volume=352|issue=9121|pages=75|doi=10.1016/s0140-6736(05)79565-9|pmid=9800790|s2cid=54291542|issn=0140-6736}}</ref> These antitoxins could protect against and cure the diseases in non-immunized animals. In 1892 he started the first human trials of the diphtheria antitoxin, but they were unsuccessful. Successful treatment started in 1894, after the production and quantification of antitoxin had been optimized.<ref>{{Cite journal|last=Kaufmann|first=Stefan H. E.|date=2017-03-08|title=Remembering Emil von Behring: from Tetanus Treatment to Antibody Cooperation with Phagocytes|journal=mBio|language=en|volume=8|issue=1|pages=e00117–17|pmid=28246359|pmc=5347343|doi=10.1128/mbio.00117-17}}</ref> During 1894, Behring was also awarded the [[Cameron Prize of the University of Edinburgh|Cameron Prize for Therapeutics of the University of Edinburgh]].
Following graduation, Behring earned his medical doctorate through work on neurotomia opticociliaris ([[optociliary neurotomy]]) which is a surgical procedure involving the optic nerve. Behring subsequently passed the state medical examination qualifying him to practice in the Marburg district.<ref name=":0">{{Cite journal|last1=Grzybowski|first1=Andrzej|last2=Wilhelm|first2=Helmut|date=15 February 2012|title=Little known ophthalmic interests of Emil von Behring, the first Nobel Prize Laureate in Medicine or Physiology|journal=Acta Ophthalmologica|language=en|volume=91|issue=4|pages=381–384|doi=10.1111/j.1755-3768.2011.02343.x|pmid=22336320|s2cid=22857078|doi-access=free}}</ref> In 1878, as part of his military service obligations, he was stationed in Poland, where he investigated septic diseases, an experience that deepened his understanding of infection and wound pathology. His skill and diligence attracted attention, leading to his transfer back to [[Prussia]] to work under [[Robert Koch]], whose laboratory at the [[Imperial Health Office]] was becoming a center of pioneering bacteriological research.<ref>{{Cite journal|date=2010-04-23|title=Sondermarken zur Ehrlich-Behring-Feier: Paul Ehrlich; Emil von Behring|url=http://dx.doi.org/10.1002/nadc.19540021309|journal=Nachrichten aus Chemie und Technik|volume=2|issue=13–14|pages=136|doi=10.1002/nadc.19540021309|issn=0027-738X|url-access=subscription}}</ref>


In 1895 he became Professor of [[Hygienics]] within the Faculty of Medicine at the [[University of Marburg]], a position held for the rest of his life. He and the pharmacologist [[Hans Horst Meyer]] had their laboratories in the same building, and Behring stimulated Meyer's interest in the mode of action of [[tetanus toxin]].<ref>{{cite book |first1=Wolfgang |last1=Legrum |first2=Adnan J. |last2=Al-Toma |first3=Karl J. |last3=Netter |title=125 Jahre Pharmakologisches Institut der Philipps-Universität Marburg |location=Marburg |publisher=N. G. Elwert Verlag |year=1992 |isbn=3770809858}}</ref>
Behring’s academic and professional advancement remained closely tied to his military sponsorship. For each semester of state-funded study, he was required to complete a year of military service as a surgeon this commitment that totaled two years, during which he served (1881–1883) with the [[Second Hussar Regiment]].<ref name=":0" />


Behring won the first [[Nobel Prize in Physiology or Medicine]] in 1901 for the development of [[Antiserum|serum therapies]] against diphtheria. His research colleague [[Kitasato Shibasaburō]] with whom together von Behring had laid the foundation for this therapy in 1890, while nominated as well, was not awarded the Nobel Prize.<ref>{{Cite web |title=Nomination Archive - Nomination for Nobel Prize in Physiology or Medicine |url=https://www.nobelprize.org/nomination/archive/show.php?id=12388 |access-date=2024-09-29 |website=The Nobel Prize}}</ref>
An often overlooked aspect of Behring’s early career was his research in ophthalmology, conducted during his tenure at Wicherkiewicz’s hospital in Poznań. There, he authored a clinical paper on a case of ocular tumor, in which the patient ultimately succumbed to leukemia. Although the outcome was fatal, Behring’s detailed pathological observations contributed to contemporary discussions on surgical techniques and therapeutic strategies for ocular disease. His early ophthalmologic training under renowned specialists such as [[Carl Ernst Schweigger]] and [[Wilhelm Uhthoff]] fostered this interest and culminated in his doctoral dissertation on diseases of the eye, a field that would later inform his meticulous experimental approach to infectious disease and immunity.<ref name=":0"/>
 
In 1890 he published an article with [[Kitasato Shibasaburō]] reporting that they had developed "antitoxins" against both [[diphtheria]] and [[tetanus]]. They had injected diphtheria and tetanus toxins into [[guinea pig]]s, goats and horses; when these animals developed immunity, they derived antitoxins (now known to contain [[antibodies]]) from their [[Serum (blood)|serum]]. This process was called "serum therapy" at the time. Behring described this therapy as a way to induce permanent immunity or "to stimulate the body's internal disinfection".<ref>{{Cite journal|last=Raju|first=Tonse NK|date=4 July 1998|title=The Nobel Chronicles|url=http://dx.doi.org/10.1016/s0140-6736(05)79565-9|journal=The Lancet|volume=352|issue=9121|pages=75|doi=10.1016/s0140-6736(05)79565-9|pmid=9800790|s2cid=54291542|issn=0140-6736|url-access=subscription}}</ref> These antitoxins could protect against and cure the diseases in non-immunized animals. In 1892 he started the first human trials of the diphtheria antitoxin, but they were unsuccessful. Successful treatment started in 1894, after the production and quantification of antitoxin had been optimized.<ref>{{Cite journal|last=Kaufmann|first=Stefan H. E.|date=2017-03-08|title=Remembering Emil von Behring: from Tetanus Treatment to Antibody Cooperation with Phagocytes|journal=mBio|language=en|volume=8|issue=1|pages=e00117–17|article-number=e00117-17 |pmid=28246359|pmc=5347343|doi=10.1128/mbio.00117-17}}</ref> In 1894, Behring was also awarded the [[Cameron Prize of the University of Edinburgh|Cameron Prize for Therapeutics of the University of Edinburgh]].
 
By 1895 Behring became Professor of [[Hygienics]] within the Faculty of Medicine at the [[University of Marburg]], a position held for the rest of his life. He and the pharmacologist [[Hans Horst Meyer]] had their laboratories in the same building, and Behring stimulated Meyer's interest in the mode of action of [[tetanus toxin]].<ref>{{cite book |first1=Wolfgang |last1=Legrum |first2=Adnan J. |last2=Al-Toma |first3=Karl J. |last3=Netter |title=125 Jahre Pharmakologisches Institut der Philipps-Universität Marburg |location=Marburg |publisher=N. G. Elwert Verlag |year=1992 |isbn=3770809858}}</ref>
 
Behring won the first [[Nobel Prize in Physiology or Medicine]] in 1901 for the development of [[Antiserum|serum therapies]] against diphtheria. His research colleague [[Kitasato Shibasaburō]] who had performed most of the meticulous work that laid the foundation for serum therapy in 1890, while nominated as well, was not awarded the Nobel Prize as it was only given to a single awardee at the time.<ref>{{Cite web |title=Nomination Archive - Nomination for Nobel Prize in Physiology or Medicine |url=https://www.nobelprize.org/nomination/archive/show.php?id=12388 |access-date=2024-09-29 |website=The Nobel Prize | date=21 May 2024 }}</ref>


Emil von Behring was elected a Foreign Honorary Member of the [[American Academy of Arts and Sciences]] in 1902.<ref name="AAAS">{{cite web|title=Book of Members, 1780–2010: Chapter B|url=http://www.amacad.org/publications/BookofMembers/ChapterB.pdf|publisher=American Academy of Arts and Sciences|access-date=30 May 2011}}</ref>
Emil von Behring was elected a Foreign Honorary Member of the [[American Academy of Arts and Sciences]] in 1902.<ref name="AAAS">{{cite web|title=Book of Members, 1780–2010: Chapter B|url=http://www.amacad.org/publications/BookofMembers/ChapterB.pdf|publisher=American Academy of Arts and Sciences|access-date=30 May 2011}}</ref>


In 1904 he founded the Behringwerke in Marburg, a company to produce antitoxins and vaccines.
In 1904 he founded the [[Behringwerke]] in Marburg, a company to produce antitoxins and vaccines.


At the International Tuberculosis Congress in 1905 he announced that he had discovered "a substance proceeding from the virus of tuberculosis". This substance, which he designated "T C", plays the important part in the immunizing action of his "bovivaccine", which prevents [[Bovinae|bovine]] [[tuberculosis]]. He tried unsuccessfully to obtain a protective and therapeutic agents for humans.<ref>Emil von Behring [https://www.nobelprize.org/nobel_prizes/medicine/laureates/1901/behring-lecture.html Serum Therapy in Therapeutics and Medical Science]. Nobel Lecture, December 12, 1901. nobelprize.org</ref>
At the International Tuberculosis Congress in 1905 he announced that he had discovered "a substance proceeding from the virus of tuberculosis". This substance, which he designated "T C", plays the important part in the immunizing action of his "bovivaccine", which prevents [[Bovinae|bovine]] [[tuberculosis]]. He tried unsuccessfully to obtain a protective and therapeutic agents for humans.<ref>Emil von Behring [https://www.nobelprize.org/nobel_prizes/medicine/laureates/1901/behring-lecture.html Serum Therapy in Therapeutics and Medical Science]. Nobel Lecture, December 12, 1901. nobelprize.org</ref>
Line 47: Line 53:


===Controversy===
===Controversy===
Von Behring is believed to have cheated [[Paul Ehrlich]] out of recognition and financial reward in relation to collaborative research in diphtheria. The two men developed a diphtheria serum by repeatedly injecting the deadly toxin into a horse. The serum was used effectively during an epidemic in Germany. A chemical company preparing to undertake commercial production and marketing of the diphtheria serum offered a contract to both men, but von Behring manoeuvered to claim all the considerable financial rewards for himself. To add insult to injury, only Behring received the first Nobel Prize in Medicine, in 1901, for his contributions.<ref>{{cite book |author=Morton A. Meyers, M.D. |title=Happy Accidents: Serendipity in Modern Medical Breakthroughs |publisher=Arcade Publishing |url=https://archive.org/details/happyaccidentsse00meye |url-access=registration |quote=happy accidents. |year=2007 |author-link= Morton A. Meyers, M.D.|isbn=9781559708197 }}</ref> However, Ehrlich went on to win the 1908 Nobel Prize in Medicine for his contribution to immunology.<ref>{{Nobelprize|302|name=Paul Ehrlich}}</ref>
von Behring is believed to have cheated [[Paul Ehrlich]] out of recognition and financial reward in relation to collaborative research in diphtheria. The two men developed a diphtheria serum by repeatedly injecting the deadly toxin into a horse. The serum was used effectively during an epidemic in Germany. A chemical company preparing to undertake commercial production and marketing of the diphtheria serum offered a contract to both men, but von Behring manoeuvered to claim all the considerable financial rewards for himself. To add insult to injury, only Behring received the first Nobel Prize in Medicine, in 1901, for his contributions.<ref>{{cite book |author=Morton A. Meyers, M.D. |title=Happy Accidents: Serendipity in Modern Medical Breakthroughs |publisher=Arcade Publishing |url=https://archive.org/details/happyaccidentsse00meye |url-access=registration |quote=happy accidents. |year=2007 |author-link= Morton A. Meyers, M.D.|isbn=9781559708197 }}</ref> However, Ehrlich went on to win the 1908 Nobel Prize in Medicine for his contribution to immunology.<ref>{{Nobelprize|302|name=Paul Ehrlich}}</ref>


[[File:Villa Behring on Capri.jpg|thumb|Villa Behring (burgundy) on Capri]]
[[File:Villa Behring on Capri.jpg|thumb|Villa Behring (burgundy) on Capri]]
Line 53: Line 59:


==Personal life==
==Personal life==
On 29 December 1896 Behring married the then twenty-year-old Else Spinola (1876–1936), who was a daughter of {{ill|Bernhard Spinola|de}}, the director of the [[Charité]] hospital in Berlin, and a [[Jewish]]-born mother – Elise Spinola, born Bendix – who had converted to Christianity upon her marriage.<ref>Derek S. Linton, ''Emil von Behring: Infectious Disease, Immunology, Serum Therapy'', American Philosophical Society, 2005, p. 198</ref> They had six sons. They held their honeymoon at villa "Behring" on [[Capri]] 1897, where Behring owned a vacation home. In 1909–1911, the Russian writer [[Maxim Gorky]] lived at this villa.
On 29 December 1896 Behring married the then twenty-year-old Else Spinola (1876–1936), who was a daughter of {{ill|Bernhard Spinola|de}}, the director of the [[Charité]] hospital in Berlin, and a [[Jewish]]-born mother – Elise Spinola, born Bendix – who had converted to Christianity upon her marriage.<ref>Derek S. Linton, ''Emil von Behring: Infectious Disease, Immunology, Serum Therapy'', American Philosophical Society, 2005, p. 198</ref> The couple had six sons: Fritz (1898–1966), Bernhard (1900–1918, killed in action on 20 July 1918 in Cuchéry/Marne), Hans (1903–1982), Kurt (1905–1935), Emil (1906–1970), and Otto (1913–2002), two of whom, Hans and Otto von Behring, also studied medicine.
 
The couple held their honeymoon at villa "Behring" on [[Capri]] 1897, where Behring owned a vacation home. In 1909–1911, the Russian writer [[Maxim Gorky]] lived at this villa.


==Publications==
==Publications==
Line 98: Line 106:
[[Category:Nobel laureates in Physiology or Medicine]]
[[Category:Nobel laureates in Physiology or Medicine]]
[[Category:People from the Province of Prussia]]
[[Category:People from the Province of Prussia]]
[[Category:Academic staff of the University of Marburg]]
[[Category:Academic staff of Marburg University]]
[[Category:Fellows of the American Academy of Arts and Sciences]]
[[Category:Fellows of the American Academy of Arts and Sciences]]
[[Category:Physicians of the Charité]]
[[Category:Physicians of the Charité]]
[[Category:Tetanus]]
[[Category:Tetanus]]
[[Category:Diphtheria]]
[[Category:Diphtheria]]

Latest revision as of 17:18, 9 December 2025

Template:Short description Script error: No such module "redirect hatnote". Script error: No such module "Template wrapper".Script error: No such module "Check for clobbered parameters".

Emil von Behring (Script error: No such module "IPA".; Emil Adolf von Behring: born Emil Adolf Behring; 15 March 1854 – 31 March 1917), was a German physiologist who received the 1901 Nobel Prize in Physiology or Medicine, the first one awarded in that field, for his discovery of a diphtheria antitoxin. He was widely known as a "saviour of children", as diphtheria used to be a major cause of child death.[1] His work with the disease, as well as tetanus, has come to bring him most of his fame and acknowledgment.[2] He was honoured with Prussian nobility in 1901, henceforth being known by the surname "von Behring".

Biography

Behring was born in Hansdorf, Kreis Rosenberg, Province of Prussia (now Ławice, Iława County, Poland). His father was a schoolmaster; the family had 13 children.

Between 1874 and 1878, Emil von Behring studied medicine at the Kaiser Wilhelm Academy in Berlin, an institution established for the training of military physicians. His enrollment there was largely due to financial necessity, as his family could not afford a civilian university education.[3] During his studies, Behring conducted early research on the antiseptic properties of iodoform, reflecting the medical preoccupation of the time with preventing infection in surgical practice.

Following graduation, Behring earned his medical doctorate through work on neurotomia opticociliaris (optociliary neurotomy) which is a surgical procedure involving the optic nerve. Behring subsequently passed the state medical examination qualifying him to practice in the Marburg district.[4] In 1878, as part of his military service obligations, he was stationed in Poland, where he investigated septic diseases, an experience that deepened his understanding of infection and wound pathology. His skill and diligence attracted attention, leading to his transfer back to Prussia to work under Robert Koch, whose laboratory at the Imperial Health Office was becoming a center of pioneering bacteriological research.[5]

Behring’s academic and professional advancement remained closely tied to his military sponsorship. For each semester of state-funded study, he was required to complete a year of military service as a surgeon this commitment that totaled two years, during which he served (1881–1883) with the Second Hussar Regiment.[4]

An often overlooked aspect of Behring’s early career was his research in ophthalmology, conducted during his tenure at Wicherkiewicz’s hospital in Poznań. There, he authored a clinical paper on a case of ocular tumor, in which the patient ultimately succumbed to leukemia. Although the outcome was fatal, Behring’s detailed pathological observations contributed to contemporary discussions on surgical techniques and therapeutic strategies for ocular disease. His early ophthalmologic training under renowned specialists such as Carl Ernst Schweigger and Wilhelm Uhthoff fostered this interest and culminated in his doctoral dissertation on diseases of the eye, a field that would later inform his meticulous experimental approach to infectious disease and immunity.[4]

In 1890 he published an article with Kitasato Shibasaburō reporting that they had developed "antitoxins" against both diphtheria and tetanus. They had injected diphtheria and tetanus toxins into guinea pigs, goats and horses; when these animals developed immunity, they derived antitoxins (now known to contain antibodies) from their serum. This process was called "serum therapy" at the time. Behring described this therapy as a way to induce permanent immunity or "to stimulate the body's internal disinfection".[6] These antitoxins could protect against and cure the diseases in non-immunized animals. In 1892 he started the first human trials of the diphtheria antitoxin, but they were unsuccessful. Successful treatment started in 1894, after the production and quantification of antitoxin had been optimized.[7] In 1894, Behring was also awarded the Cameron Prize for Therapeutics of the University of Edinburgh.

By 1895 Behring became Professor of Hygienics within the Faculty of Medicine at the University of Marburg, a position held for the rest of his life. He and the pharmacologist Hans Horst Meyer had their laboratories in the same building, and Behring stimulated Meyer's interest in the mode of action of tetanus toxin.[8]

Behring won the first Nobel Prize in Physiology or Medicine in 1901 for the development of serum therapies against diphtheria. His research colleague Kitasato Shibasaburō who had performed most of the meticulous work that laid the foundation for serum therapy in 1890, while nominated as well, was not awarded the Nobel Prize as it was only given to a single awardee at the time.[9]

Emil von Behring was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1902.[10]

In 1904 he founded the Behringwerke in Marburg, a company to produce antitoxins and vaccines.

At the International Tuberculosis Congress in 1905 he announced that he had discovered "a substance proceeding from the virus of tuberculosis". This substance, which he designated "T C", plays the important part in the immunizing action of his "bovivaccine", which prevents bovine tuberculosis. He tried unsuccessfully to obtain a protective and therapeutic agents for humans.[11]

File:Behring-Route (Marburg) - Wannkopfstraße (1).jpg
Laboratory of 1913 in the Wannkopfstraße in Marburg

Behring died at Marburg, Hessen-Nassau, on 31 March 1917. His name survived in the Dade Behring organisation (now part of the Siemens Healthineers), in CSL Behring, a manufacturer of plasma-derived biotherapies, in Novartis Behring and in the Emil von Behring Prize of the University of Marburg, the highest endowed medicine award in Germany.

His Nobel Prize medal is now kept on display at the International Red Cross and Red Crescent Museum in Geneva.

Controversy

von Behring is believed to have cheated Paul Ehrlich out of recognition and financial reward in relation to collaborative research in diphtheria. The two men developed a diphtheria serum by repeatedly injecting the deadly toxin into a horse. The serum was used effectively during an epidemic in Germany. A chemical company preparing to undertake commercial production and marketing of the diphtheria serum offered a contract to both men, but von Behring manoeuvered to claim all the considerable financial rewards for himself. To add insult to injury, only Behring received the first Nobel Prize in Medicine, in 1901, for his contributions.[12] However, Ehrlich went on to win the 1908 Nobel Prize in Medicine for his contribution to immunology.[13]

File:Villa Behring on Capri.jpg
Villa Behring (burgundy) on Capri
File:Behring-Mausoleum (05).jpg
Behring mausoleum in Marburg

Personal life

On 29 December 1896 Behring married the then twenty-year-old Else Spinola (1876–1936), who was a daughter of Template:Ill, the director of the Charité hospital in Berlin, and a Jewish-born mother – Elise Spinola, born Bendix – who had converted to Christianity upon her marriage.[14] The couple had six sons: Fritz (1898–1966), Bernhard (1900–1918, killed in action on 20 July 1918 in Cuchéry/Marne), Hans (1903–1982), Kurt (1905–1935), Emil (1906–1970), and Otto (1913–2002), two of whom, Hans and Otto von Behring, also studied medicine.

The couple held their honeymoon at villa "Behring" on Capri 1897, where Behring owned a vacation home. In 1909–1911, the Russian writer Maxim Gorky lived at this villa.

Publications

See also

References

  • Script error: No such module "citation/CS1".
  • Script error: No such module "citation/CS1".
  • Template:NIE
  • Ulrike Enke: Salvatore dell'Infanzia Behring and Capri
  • Christoph Hans Gerhard : Trias deutschen Forschergeistes Emil von Behring Pflaum-Verlag / Munich Naturheilpraxis 71.Jahrgang January, 2018

Notes

<templatestyles src="Reflist/styles.css" />

  1. Template:Nobelprize The Immune System: In Defence of our Lives, nobelprize.org
  2. Script error: No such module "Citation/CS1".
  3. Script error: No such module "citation/CS1".
  4. a b c Script error: No such module "Citation/CS1".
  5. Script error: No such module "Citation/CS1".
  6. Script error: No such module "Citation/CS1".
  7. Script error: No such module "Citation/CS1".
  8. Script error: No such module "citation/CS1".
  9. Script error: No such module "citation/CS1".
  10. Script error: No such module "citation/CS1".
  11. Emil von Behring Serum Therapy in Therapeutics and Medical Science. Nobel Lecture, December 12, 1901. nobelprize.org
  12. Script error: No such module "citation/CS1".
  13. Template:Nobelprize
  14. Derek S. Linton, Emil von Behring: Infectious Disease, Immunology, Serum Therapy, American Philosophical Society, 2005, p. 198

Script error: No such module "Check for unknown parameters".

External links

Template:Sister project

Template:Nobel Prize in Physiology or Medicine Laureates 1901-1925 Template:1901 Nobel Prize winners

Template:Authority control

Retrieved from "http://debianws.lexgopc.com/wiki143/index.php?title=Emil_von_Behring&oldid=4339974"