Fortunato of Brescia
Fortunato of Brescia (1701–1754) was an Italian Minorite friar, mathematician, philosopher and anatomist.
Fortunato of Brescia | |
---|---|
Girolamo Ferrari | |
Born | |
Died | 11 May 1754 52) | (aged
Nationality | Italian |
Occupation(s) | Friar, mathematician, physicist, anatomist, philosopher, theologian |
Known for | the concept of tissue[1] |
Parent(s) | Giovanni Ferrari and Angela Ferrari (née Maioni) |
Academic background | |
Influences | |
Academic work | |
Influenced | Xavier Bichat |
Life
He was born at Brescia, and received the religious habit in 1718. A philosopher and theologian, Fortunato was also renowned for his studies in the natural sciences. He was secretary general of his order, and stood in high favour at the Bourbon court of Spain. He died in Madrid.
Works
He was among the first to bring together the teachings of Scholastic philosophy and the discoveries of the physical sciences. His scientific work is rendered important by his extensive use of the microscope, in which he followed the lead of Malpighi. Avoiding the then prevalent discussions on vitalism, he devoted himself to a positive study of the problems of natural science.
Convinced that a knowledge of microscopic anatomy is the key to the secrets of nature, he deemed two things to be of prime importance:
- an experimental study of the histological constitution of the various organs, to learn their functions; and
- the separation of these organs into their elements, to determine their embryological origin.
This view, clear in the works of Fortunato, has prevailed in pathology and physiology. and in this sense Fortunato was a pioneer. He confined himself to the microscopic study of the parts of the organism, and in this way succeeded in classifying tissues and organs many years before Bichat (1800). Fortunato was the first to distinguish between tissues and organs.
He established the idea of tissues, or, as he wrote, "of those organic parts which possess a definite structure visible with the microscope and characterized by their component elements". With sufficient accuracy he described connective and bony tissue. The morphological complexus of the various tissues he calls the "system of tissues"; and the physiological complexus of the various organs he calls the "system of organs".
From his many accurate descriptions, it is evident that his researches extended to many animals, and particularly to insects. He innovated in comparative anatomy, with ideas not found in Malpighi, Morgagni, Leeuwenhoek, or Haller, the path-finders in microscopic anatomy.
References
- Gemelli, A. (1906). "Un precursore della moderna morfologia comparata". Rivista di fisica, matematica e scienze naturali. VII: 355–360.
- Baldini 1997.
- Attribution
- This article incorporates text from a publication now in the public domain: Herbermann, Charles, ed. (1913). "Fortunato of Brescia". Catholic Encyclopedia. New York: Robert Appleton Company. The entry cites:
- GEMELLI, Un precursore della moderna morfologia comparata in Atti del Congresso dei Naturalisti Italiani (Milan, 1907);
- ____, P. Fortunato da Brescia in Rivista di fisica, matematica e scienze naturali (Pavia, 1908), with portrait and complete bibliography.
External links
- Baldini, Ugo (1997). "FORTUNATO da Brescia". Dizionario Biografico degli Italiani, Volume 49: Forino–Francesco da Serino (in Italian). Rome: Istituto dell'Enciclopedia Italiana. ISBN 978-8-81200032-6.
- Antonio Fappani, ed. (1981). "Fortunato da Brescia". Enciclopedia bresciana. Vol. 4. Brescia. pp. 262–263.
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