Jacob Fidelis Ackermann

Jacob Fidelis Ackermann (23 April 1765 – 28 October 1815) was a German professor of anatomy and surgery.

Ackermann was born in Rüdesheim am Rhein. He began his studies at Würzburg and earned his doctorate in Mainz in 1787. After extensive research travel he was promoted to private lecturer for forensic medicine in 1789. He acquired the regular professorship in botanics and later in anatomy when Samuel Thomas von Sömmering resigned his office.

In 1798 the university was dissolved. Ackermann became president and first professor of a newly founded special school of medicine. In 1804 he accepted a call as professor of anatomy and chirurgy at Jena, succeeding Justus Christian Loder. In the following year, he became professor of anatomy and physiology at Heidelberg.

In Heidelberg, Ackermann made himself a name as founder and developer of different institutes such as the Anatomical Theatre and the polyclinic.

At the end of the summer semester of 1815, Ackermann traveled to his small manor in the surroundings of Rüdesheim, as was his wont. There he fell ill with nephritis and died soon after.

Ackermann was described by his contemporaries as a very literate person, but also as a very corpulent one. Although he weighed 300 pounds (136 kg), he was said to be able to hop long distances on one leg while whistling cheerfully.

Apart from his publications, the city of Heidelberg conserves a special rarity from the hands of Jacob Ackermann: the dissected skeleton of rogue chieftain Schinderhannes, well known through the novels of Carl Zuckmayer.

Publications
  • Über die Kreuzung der Sehnerven, Blumbach's medical bibliography, 1788, III. 307. 706.
  • Gustus organi novissime detecti prodromus, Mainz, 1790
  • Über den Cretinismus, Gotha, 1790
  • Darstellung der Lebenskräfte, 2 volumes, Frankfurt am Main, 1797, 1800
  • Über die Erleichterung schwerer Geburten, Jena, 1804
  • Kritik an der Gall'schen Schädel- und Organlehre, Heidelberg, 1806
  • De febribus epitome, Heidelberg, 1809
  • Über die Natur des Gewächses, 1812
  • Commentarii de nervei systematis primordiis, Mannheim, 1813

Sources
gollark: Also, they can ionise things without stopping.
gollark: My physics knowledge is obviously not really that complete, and you're not being very specific, but it's probably that they can only go through a bit of matter, or at least are *sometimes* absorbed and sometimes go through.
gollark: It seems harder to shield humans and the weird biological processes which get affected against radiation than computers, where it basically just boils down to more redundancy and possibly better materials/processes.
gollark: (there's ECC support in RAM and SSDs and stuff, but as far as I know they just put radiation shielding on for CPUs)
gollark: Stuff is generally not designed for an environment where bits might be flipped randomly at some point, though.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.