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Theodor Schwann (December 7, 1810 - January 11, 1882) was a German physiologist, histologist and cytologist. Among his many contributions to biology there were the cell theory, the discovery of Schwann cells in the nervous system, the discovery and study of pepsin, the discovery of the organic nature of yeast and the invention of the term metabolism.
Life
Schwann's father was a man of great mechanical talent; at first a goldsmith, he afterwards founded an important printing establishment. Schwann inherited his fathers tastes, and the leisure of his boyhood was largely spent in constructing little machines of all kinds. He studied at the Jesuits college in Cologne and afterwards at Bonn, where he met Johannes Muller, in whose physiological experiments he soon came to assist. He next went to Würzburg to continue his medical studies, and thence to Berlin to graduate in 1834. Here he again met Muller, who had been meanwhile translated to Berlin, and who finally persuaded him to enter on a scientific career and appointed him assistant at the anatomical museum. In 1828 Schwann was called to the chair of anatomy at the Roman Catholic University of Louvain, in Louvain, Belgium, where he remained nine years. In 1847 he went as professor to Liège, where he remained till his death in 1882. He was of a peculiarly gentle and amiable character, and remained a devout Catholic throughout his life.
Works
It was during the four years spent under the influence of Muller at Berlin that all Schwann's really valuable work was done. Muller was at this time preparing his great book on physiology, and Schwann assisted him in the experimental work required. His attention being thus directed to the nervous and muscular tissues, besides making such histological discoveries as that of the envelope of the nerve fibers which now bears his name, he initiated those researches in muscular contractility since so elaborately worked out by Du Bois-Reymond and others. He was thus the first of Mullers pupils who broke with the traditional vitalism and worked towards a physico-chemical explanation of life.
Muller also directed his attention to the process of digestion, which Schwann showed in 1836 to depend essentially on the presence of a ferment called by him pepsin. Schwann also examined the question of spontaneous generation, which he greatly aided to disprove, and in the course of his experiments discovered the organic nature of yeast. In fact the whole germ theory of Pasteur, as well as its antiseptic applications by Lister, is traceable to his influence.
Once when he was dining with Schleiden in 1837, the conversation turned on the nuclei of vegetable cells. Schwann remembered having seen similar structures in the cells of the notochord (as had been shown by Muller) and instantly realized the importance of connecting the two phenomena. The resemblance was confirmed without delay by both observers, and the results soon appeared in his famous Microscopic Investigations on the Accordance in the Structure and Growth of Plants and Animals (Berlin, 1839; trans. Sydenham Society, 1847). The cell theory was thus definitely constituted. In the course of his verifications of the cell theory, in which he traversed the whole field of histology, he proved the cellular origin and development of the most highly differentiated tissues, nails, feathers, enamels, &c. His generalization became the foundation of modern histology, and in the hands of Rudolf Virchow (whose cellular pathology was an inevitable deduction from Schwann) afforded the means of placing modern pathology on a truly scientific basis.
Schwann also studied sugar and starch fermentation as biological processes and coined the term metabolism for the chemical processes in a biological organism. He was one of the founders of embryology, studying the development of a single egg cell into a complete organism.
See also
Source
This article incorporates text from the public domain 1911 Encyclopædia Britannica.
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