DOCSLIB.ORG

Rudolf Carl Virchow (1821-1902) [1]

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Published on The Embryo Project Encyclopedia (https://embryo.asu.edu) Rudolf Carl Virchow (1821-1902) [1] By: Kearl, Megan Keywords: Biography [2] Cell theory [3] Rudolf Carl Virchow lived in nineteenth century Prussia, now Germany, and proposed thato mnis cellula e cellula, which translates to each cell comes from another cell, and which became a fundamental concept for cell theory. He helped found two fields, cellular pathology and comparative pathology, and he contributed to many others. Ultimately Virchow argued that disease is caused by changes in normal cells, also known as cellular pathology. Virchow was born in Schivelbein, a small town in rural Pomerania in Prussia on 13 October 1821. He was the only child of Johanna Hesse Virchow and Carl Virchow, a merchant. Virchow attended the Gymnasium in Köslin in 1835, after receiving private lessons in the classical languages. His academic prowess earned him a military scholarship to the Prussian Military Academy in 1839 to study medicine at the Friedrich-Wilhelms Institut in Berlin, Germany. There Virchow studied with two prominent professors of anatomy and medicine, Johannes Müller [4] and Johann Schönlein, who exposed him to experimental laboratory techniques and epidemiological studies. Virchow completed his medical degree at the Friedrich-Wilhelms Institut in 1843 and began work as the house officer in the Charité Hospital in Berlin, where he also studied vascular inflammation under the tutelage of Robert Froriep. He spoke at the Friedrich-Wilhelms Institut twice in 1845, and in his speeches Virchow addressed his vision of medical progress: clinical observation, animal experimentation, and pathological anatomy. After becoming a licensed doctor in 1846, he traveled to Vienna, Austria and Prague, in what is now the Czech Republic, to study methods in pathology and succeeded Froriep as prosector at the Charité Hospital. In 1847 Virchow became an instructor at the University of Berlin [5], in Berlin, Germany, where his former professor,J ohannes Müller [4], was now dean. During this time, Virchow and a colleague, Benino Reinhardt, began a new journal called Archiv für Pathologische Anatomie und Physiologie, und für die klinische Medizin (Archives for pathological Anatomy and Physiology and Clinical Medicine) now known as Virchow's Archives). After Reinhardt's death in 1852, Virchow alone edited the journal until his own death in 1902. In 1848 Virchow was among a group of physicians sent by the Prussian government to evaluate typhus outbreaks in Silesia, a poor rural area in what is now Poland. The poverty and destitution Virchow witnessed altered his priorities and helped form his political views. When Virchow returned from Silesia to Berlin in 1848, he advocated for increased education and freedom, as well as government involvement in public health. In July 1848, he helped found a weekly newspaper called Medical Reform, which advocated for social medicine, the idea that people's health could be improved by better social and economic conditions. His political activism interfered with his work, ultimately resulting in his suspension from his position as prosector for Charité Hospital in 1849. Virchow’s students and medical colleagues protested, and Virchow was partially reinstated to this position. In late 1849, Virchow left Berlin to become Germany's first chair in pathological anatomy at theU niversity of Würzburg [6], in Würzburg, Germany, where he taught students like Ernst Haeckel [7], Adolf Kussmaul, and Edwin Klebs, as well as William Welch and William Osler, two of the four physicians who later founded Johns Hopkins Hospital [8]. In 1850, Virchow married Rose Mayer, the daughter of a colleague. In 1852, Rose gave birth to the couple’s only son, Hans Virchow. Hans would later succeed his father as the professor of Anatomy at the University of Berlin [5] in 1902. Virchow’s research at Würzburg helped to establish the concept of cellular pathology, the idea that all diseases are caused by changes in normal cells. Virchow argued that life was merely the sum of the processes of cellular activities. He eventually published a six-volume series on pathology called the Handbuch der speziellen Pathologie und Therapie (Handbook of special Pathology and Therapeutics) in 1854. In 1855, he further developed his ideas by publishing his famous aphorismo mnis cellula e cellula which became a part of the foundation for cell theory. Virchow’s theory stated that just as animals are unable to arise without previously existing animals, cells are unable to arise without previously existing cells. The idea that new cells arose from pre-existing cells in both diseased and healthy tissue was not original. Robert Remak [9], a neuroscientist, had already come to this conclusion in 1852, though his publication went largely unnoticed. Virchow also discovered that bones and connective tissue were composed of cells. Virchow also studied parasitic worms [10]. He focused on Trichinella spiralis in swine, which he discovered caused the parasitic disease trichinosis when humans [11] consume raw or undercooked pork. This relationship, as well as the findings of parallel human and animal microbial pathogens by others, including Louis Pasteur and Robert Koch, led Virchow to the idea that there was a relationship between human and animal diseases which he termed zoonosis. Many credit him as a founder of comparative pathology because of this work. Virchow returned to the University of Berlin [5] in 1856 as professor of anatomy and pathology and the director of the new Pathological Institute. His work in cellular pathology culminated in his 1858 book Die Cellularpathologie (Cellular Pathology). In 1 this book, Virchow argued that the idea of spontaneous generation [12], like the theory of free cell formation that Matthias Schleiden had proposed, must be rejected in pathology. After the publication of Die Cellularpathologie, Virchow refocused on political and public health issues when he was appointed to the Berlin City Council in 1859. During his time as a council member, he helped improve Berlin’s water and sewage systems, meat inspection—because of his discovery that Trichinella spiralis in swine caused trichinosis in humans—and public hygiene. Virchow was elected in 1861 as a representative of the Deutsche Fortschrittspartei (German Progressive Party), to serve as a member of the Landtag, a section of the Prussian assembly. He was a member of theR eichstag, the Prussian parliament, from 1880 to 1893. In 1897 Virchow was honored for a half-century of service to theU niversity of Berlin [5] and the following year he was invited to lecture before the Royal Society in London. He received the Great Gold Medal of Science from Emperor Wilhelm II on his eightieth birthday for his contributions to medical science. In 1902 Virchow fractured his hip when he jumped out of a moving tram. He died a few months later in Berlin on 5 September 1902 from heart failure. Sources 1. Brown, Theodore M., and Elizabeth Fee. “Rudolf Carl Virchow: Medical Scientist, Social Reformer, Role Model.”A merican Journal of Public Health 96 (2006): 2104–5. 2. Cardiff, Robert D., Jerold M. Ward, and Stephen W. Barthold. “One medicine–one pathology: are veterinary and human pathology prepared?” Laboratory Investigation 88 (2008): 18–26. 3. Mazzarello, Paolo. “A Unifying Concept: The History of Cell Theory.” Nature Cell Biology 1 (1999): E13–E15. 4. Pearce, J. M. S. “Rudolf Ludwig Karl Virchow (1821–1892).” Journal of Neurology 249 (2002): 492–93. 5. “Prof. Virchow Honored,” New York Times, October 13, 1901. http://query.nytimes.com/gst/abstract.html? res=990CE0DD1638E033A25750C1A9669D946097D6CF [13] (Accessed March 2, 2012) 6. “Prof. Virchow is Dead,” New York Times, September 5, 1902. http://query.nytimes.com/gst/abstract.html? res=9D04EED8113DEE32A25755C0A96F9C946397D6CF [14] (Accessed March 2, 2012) 7. Risse, Guenter B. “Virchow, Rudolf Carl.” Dictionary of Scientific Biography 14: 39–42. 8. Scarani, Paolo. “Rudolf Virchow (1821–1902).” Virchows Archiv [15] 442 (2003): 95–98. 9. Schultz, Myron. “Rudolf Virchow.” Emerging Infectious Diseases (2008): 1480–1481. 10. Virchow, Rudolf. Handbuch der speziellen Pathologie und Therapie [Handbook of special Pathology and Therapeutics]. Berlin, 1854. 11. Virchow, Rudolf. Cellular Pathology: Physiological and Pathological Histology. Chance, Frank, trans. Philadelphia: J.B. Lippincott, 1863. http://www.biodiversitylibrary.org/item/77126#page/4/mode/1up [16] (Accessed March 2, 2012) Rudolf Carl Virchow lived in nineteenth century Prussia, now Germany, and proposed that omnis cellula e cellula, which translates to each cell comes from another cell, and which became and fundamental concept for cell theory. He helped found two fields, cellular pathology and comparative pathology, and he contributed to many others. Ultimately Virchow argued that disease is caused by changes in normal cells, also known as cellular pathology. Subject Virchow, Rudolf, 1821-1902 [17] Cells [18] Pathology, Cellular [19] Pathology, Comparative [20] Public health [21] Topic People [22] Publisher Arizona State University. School of Life Sciences. Center for Biology and Society. Embryo Project Encyclopedia. Rights © Arizona Board of Regents Licensed as Creative Commons Attribution-NonCommercial-Share Alike 3.0 Unported (CC BY-NC- SA 3.0) http://creativecommons.org/licenses/by-nc-sa/3.0/ Format Articles [23] Last Modified Wednesday, July 4, 2018 - 04:40 DC Date Accessioned 2 Friday, May 25, 2012 - 15:42 DC Date Available Friday,
Recommended publications
  • MALARIA Despite All Differences in Biological Detail and Clinical Manifestations, Every Parasite's Existence Is Based on the Same Simple Basic Rule

    MALARIA Despite All Differences in Biological Detail and Clinical Manifestations, Every Parasite's Existence Is Based on the Same Simple Basic Rule

    MALARIA Despite all differences in biological detail and clinical manifestations, every parasite's existence is based on the same simple basic rule: A PARASITE CAN BE CONSIDERED TO BE THE DEVICE OF A NUCLEIC ACID WHICH ALLOWS IT TO EXPLOIT THE GENE PRODUCTS OF OTHER NUCLEIC ACIDS - THE HOST ORGANISMS John Maynard Smith Today: The history of malaria The biology of malaria Host-parasite interaction Prevention and therapy About 4700 years ago, the Chinese emperor Huang-Ti ordered the compilation of a medical textbook that contained all diseases known at the time. In this book, malaria is described in great detail - the earliest written report of this disease. Collection of the University of Hongkong ts 03/07 Hawass et al., Journal of the American Medical Association 303, 2010, 638 ts 02/10 Today, malaria is considered a typical „tropical“ disease. As little as 200 years ago, this was quite different. And today it is again difficult to predict if global warming might cause a renewed expansion of malaria into the Northern hemisphere www.ch.ic.ac.uk ts 03/08 Was it prayers or was it malaria ? A pious myth relates that in the year 452, the the ardent prayers of pope Leo I prevented the conquest of Rome by the huns of king Attila. A more biological consideration might suggest that the experienced warrior king Attila was much more impressed by the information that Rome was in the grip of a devastating epidemic of which we can assume today that it was malaria. ts 03/07 In Europe, malaria was a much feared disease throughout most of European history.
  • The Spontaneous Generation Controversy (340 BCE–1870 CE)

    The Spontaneous Generation Controversy (340 BCE–1870 CE)

    270 4. Abstraction and Unification ∗ ∗ ∗ “O`uen ˆetes-vous? Que faites-vous? Il faut travailler” (on his death-bed, to his devoted pupils, watching over him). The Spontaneous Generation Controversy (340 BCE–1870 CE) “Omne vivium ex Vivo.” (Latin proverb) Although the theory of spontaneous generation (abiogenesis) can be traced back at least to the Ionian school (600 B.C.), it was Aristotle (384-322 B.C.) who presented the most complete arguments for and the clearest statement of this theory. In his “On the Origin of Animals”, Aristotle states not only that animals originate from other similar animals, but also that living things do arise and always have arisen from lifeless matter. Aristotle’s theory of sponta- neous generation was adopted by the Romans and Neo-Platonic philosophers and, through them, by the early fathers of the Christian Church. With only minor modifications, these philosophers’ ideas on the origin of life, supported by the full force of Christian dogma, dominated the mind of mankind for more that 2000 years. According to this theory, a great variety of organisms could arise from lifeless matter. For example, worms, fireflies, and other insects arose from morning dew or from decaying slime and manure, and earthworms originated from soil, rainwater, and humus. Even higher forms of life could originate spontaneously according to Aristotle. Eels and other kinds of fish came from the wet ooze, sand, slime, and rotting seaweed; frogs and salamanders came from slime. 1846 CE 271 Rather than examining the claims of spontaneous generation more closely, Aristotle’s followers concerned themselves with the production of even more remarkable recipes.
  • Causes of Delayed Immunization with Pneumococcal Vaccine and Aetiological Patterns of Pneumonia in Young Children

    Causes of Delayed Immunization with Pneumococcal Vaccine and Aetiological Patterns of Pneumonia in Young Children

    Revista Latinoamericana de Hipertensión ISSN: 1856-4550 [email protected] Sociedad Latinoamericana de Hipertensión Venezuela Causes of delayed immunization with pneumococcal vaccine and aetiological patterns of pneumonia in young children Tukbekova, B. T.; Kizatova, S. T.; Zhanpeissova, A. A.; Dyussenova, S. B.; Serikova, G.B.; Isaeva, A.A.; Tlegenova, K.S.; Kiryanova, T.A. Causes of delayed immunization with pneumococcal vaccine and aetiological patterns of pneumonia in young children Revista Latinoamericana de Hipertensión, vol. 14, no. 3, 2019 Sociedad Latinoamericana de Hipertensión, Venezuela Available in: https://www.redalyc.org/articulo.oa?id=170263176021 Derechos reservados. Queda prohibida la reproducción total o parcial de todo el material contenido en la revista sin el consentimiento por escrito del editor en jefe. Copias de los artículos: Todo pedido de separatas deberá ser gestionado directamente con el editor en jefe, quien gestionará dicha solicitud ante la editorial encargada de la publicación. This work is licensed under Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International. PDF generated from XML JATS4R by Redalyc Project academic non-profit, developed under the open access initiative B. T. Tukbekova, et al. Causes of delayed immunization with pneumococcal vaccine and aetiological ... Artículos Causes of delayed immunization with pneumococcal vaccine and aetiological patterns of pneumonia in young children Causas de la inmunización tardía con la vacuna neumocócica y los patrones etiológicos de neumonía en niños pequeños B. T. Tukbekova Redalyc: https://www.redalyc.org/articulo.oa? Karaganda State Medical University, Department id=170263176021 of childhood diseases no. 2, Karaganda, Kazakhstan, Kazajistán [email protected] http://orcid.org/0000-0003-4279-3638 S.
  • Vaccines Through Centuries: Major Cornerstones of Global Health

    Vaccines Through Centuries: Major Cornerstones of Global Health

    REVIEW published: 26 November 2015 doi: 10.3389/fpubh.2015.00269 Vaccines Through Centuries: Major Cornerstones of Global Health Inaya Hajj Hussein 1*, Nour Chams 2, Sana Chams 2, Skye El Sayegh 2, Reina Badran 2, Mohamad Raad 2, Alice Gerges-Geagea 3, Angelo Leone 4 and Abdo Jurjus 2,3 1 Department of Biomedical Sciences, Oakland University William Beaumont School of Medicine, Rochester, MI, USA, 2 Department of Anatomy, Cell Biology and Physiology, Faculty of Medicine, American University of Beirut, Beirut, Lebanon, 3 Lebanese Health Society, Beirut, Lebanon, 4 Department of Experimental and Clinical Neurosciences, University of Palermo, Palermo, Italy Multiple cornerstones have shaped the history of vaccines, which may contain live- attenuated viruses, inactivated organisms/viruses, inactivated toxins, or merely segments of the pathogen that could elicit an immune response. The story began with Hippocrates 400 B.C. with his description of mumps and diphtheria. No further discoveries were recorded until 1100 A.D. when the smallpox vaccine was described. During the eighteenth century, vaccines for cholera and yellow fever were reported and Edward Jenner, the father of vaccination and immunology, published his work on smallpox. The nineteenth century was a major landmark, with the “Germ Theory of disease” of Louis Pasteur, the discovery of the germ tubercle bacillus for tuberculosis by Robert Koch, and the Edited by: isolation of pneumococcus organism by George Miller Sternberg. Another landmark was Saleh AlGhamdi, the discovery of diphtheria toxin by Emile Roux and its serological treatment by Emil King Saud bin Abdulaziz University for Health Sciences, Saudi Arabia Von Behring and Paul Ehrlih.
  • Redalyc.Joseph Achille Le Bel. His Life and Works

    Redalyc.Joseph Achille Le Bel. His Life and Works

    Revista CENIC. Ciencias Químicas ISSN: 1015-8553 [email protected] Centro Nacional de Investigaciones Científicas Cuba Wisniak, Jaime Joseph Achille Le Bel. His Life and Works Revista CENIC. Ciencias Químicas, vol. 33, núm. 1, enero-abril, 2002, pp. 35-43 Centro Nacional de Investigaciones Científicas La Habana, Cuba Available in: http://www.redalyc.org/articulo.oa?id=181625999008 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Revista CENIC Ciencias Químicas, Vol. 33, No. 1, 2002. RESEÑA BIOGRAFICA Joseph Achille Le Bel. His Life and Works Jaime Wisniak Department of Chemical Engineering, Ben-Gurion University of the Negev, Beer-Sheva, Israel 84105. [email protected]. Recibido: 26 de abril del 2001. Aceptado: 22 de mayo del 2001. Palabras clave: Le Bel, Química, estereoquímica, actividad óptica, cosmogonia Key words: Le Bel, Chemistry, stereoquímica, optical activity, cosmogony. RESUMEN. Joseph Achille Le Bel es un ejemplo de científicos como Réaumur The same year his father passed que investigaron muchÍsimos temas, pero solo son recordados por uno. Le Bel away and his two sisters, Marie and es un nombre bien conocido por los estudiantes de Química en general, y Emma, took charge of the family in- estereoquímica en particular. El nos dejo los principios básicos que determinan dustry and in this way allowed Le las condiciones geométricas que un compuesto de carbón debe satisfacer para Bel to continue chemical studies.
  • Chemists and the School of Nature Bernadette Bensaude Vincent, Yves Bouligand, Hervé Arribart, Clément Sanchez

    Chemists and the School of Nature Bernadette Bensaude Vincent, Yves Bouligand, Hervé Arribart, Clément Sanchez

    Chemists and the School of nature Bernadette Bensaude Vincent, Yves Bouligand, Hervé Arribart, Clément Sanchez To cite this version: Bernadette Bensaude Vincent, Yves Bouligand, Hervé Arribart, Clément Sanchez. Chemists and the School of nature. Central European Journal of Chemistry, Springer Verlag, 2002, pp.1-5. hal- 00937207 HAL Id: hal-00937207 https://hal-paris1.archives-ouvertes.fr/hal-00937207 Submitted on 30 Jan 2014 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Chemists and the school of nature B. Bensaude Vincent, Arribart, H., Bouligand, Y, Sanchez C.), New Journal of Chemistry, 26 (2002) 1-5. The term biomimicry first appeared in 1962 as a generic term including both cybernetics and bionics1. It referred to all sorts of imitation of one form of life by another one while the term "bionics" defined as "an attempt to understand sufficiently well the tricks that nature actually uses to solve her problems"2 is closer to the meaning of "biomimicry" as it has been used by material scientists since the 1980s. Biomimetism is an umbrella covering a variety of research fields ranging from the chemistry of natural products to nanocomposites, via biomaterials and supramolecular chemistry.
  • Samuel Simms Medical Collection

    Samuel Simms Medical Collection

    Shelfmark Title Author Publication Information Clinical lectures on diseases of the nervous system, delivered at the Infirmary of La Salpêtrière / by Charcot, J. M. (Jean London : New Sydenham Society, Simm/ RC358 CHAR Professor J.M. Charcot ; translated by Thomas Sv ill ; containing eighty-six woodcuts. Martin) 1889. Simm/ p QP101 FAUR Ars medica Italorum laus : la scoperta della circolazione del sangue è gloria italiana. Faure, Giovanni. Roma : Don Luigi Guanella" 1933 Brockbank, Edward Manchester (Eng.) : G. Falkner, Simm/ p QD22.D2 BROC John Dalton, experimental physiologist and would-be physician / by E. M. Brockbank. Mansfield, 1866- 1929. Queen's University of q Z988 QUEE Interim short-title list of Samuel Simms collection (in the Medical Library). Belfast. Library. Belfast : 1965-1972. Sepulchretum, sive, Anatomia practica : ex cadaveribus morbo denatis, proponens historias et observationes omnium humani corporis affectuum, ipsorumq : causas reconditas revelans : quo nomine, tam pathologiæ genuinæ, quà m nosocomiæ orthodoxæ fundatrix, imo medicinæ veteris Bonet, Théophile, Genevæ : Sumptibus Cramer & Simm/ f RB24 BONE ac novæ promptuarium, dici meretur : cum indicibus necessariis / Theophili Boneti. 1620-1689. Perachon, 1700. Jo. Baptistæ Morgagni P. P. P. P. De sedibus, et causis morborum per anatomen indagatis libri quinque : Dissectiones, et animadversiones, nunc primum editas, complectuntur propemodum innumeras, medicis, chirurgis, anatomicis profuturas. Multiplex præfixus est index rerum, & nominum Morgagni, Giambattista, Venetiis : Ex typographia Simm/ f RB24 MORG accuratissimus. Tomus primus (-secundus). 1682-1771. Remondiniana, MDCCLXI (1761). Ortus medicinae, id est Initia physicae inaudita : progressus medicinae nouus, in morborum vltionem Lugduni : Sumptibus Ioan. Ant. ad vitam longam / authore Ioan. Baptista Van Helmont ... ; edente authoris filio Francisco Mercurio Van Helmont, Jean Baptiste Huguetan, & Guillielmi Barbier, Simm/ f R128.7 HELM Helmont ; cum eius praefatione ex Belgico translata.
  • Cell Theory the CELL THEORY GREW out of the WORK of MANY SCIENTISTS and IMPROVEMENTS in the MICROSCOPE

    Cell Theory the CELL THEORY GREW out of the WORK of MANY SCIENTISTS and IMPROVEMENTS in the MICROSCOPE

    Cell Theory THE CELL THEORY GREW OUT OF THE WORK OF MANY SCIENTISTS AND IMPROVEMENTS IN THE MICROSCOPE. Many scientists contributed to the cell theory. ROBERT HOOKE He was the first person to look at cells and named them. He looked at cork cells which are not living. It is the bark of a tree so they are dead plant cells. They are small squares and they reminded him of the small rooms in a monastery called cells ANTON VAN LEEUWENHOEK Credited with improving the microscope. (Zacharias Janssen is credited with discovering/creating microscope). Leeuwenhoek’s microscope could magnify 200x the human eye! Today’s microscopes can magnify up to 1500! MATTHIAS SCHLEIDEN was a German botanist (scientist who studies plants.) He found that the plant parts he examined were made of cells. He made the generalization that all plants were made of cells. THEODOR SCHWANN Studied animals. His microscopic investigations of animal parts led him to generalize that all animals are made of cells After looking at Schleiden’s work ,he further proposed that all organisms are made of cells. RUDOLF VIRCHOW- OMNIS CELLULA C CELLULA”: ALL CELLS FROM CELLS (1855) German doctor that said that new plant cells arise only from existing plant cells, and new animal cells arise only from existing animal cells. Building off the work of Redi (1668) who disproved the idea of spontaneous generation in his experiments about rotting meat. LOUIS PASTEUR-GERM THEORY 1856-Used the microscope to discover that tiny, one- celled (eukaryotic) yeast created alcoholic fermentation and that other one-celled, rod-shaped organisms (prokaryotic bacteria) caused beverages to spoil.
  • Unit One – What Did People Think Caused Disease?

    Unit One – What Did People Think Caused Disease?

    Unit One – What did people think caused disease? Medieval beliefs about causes Renaissance beliefs about causes 1 Hippocrates An Ancient Greek philosopher who came up with theory of the 10 Four Blood, Phlegm, Black Bile, Yellow Bile – Four elements which Four Humours. Humours medieval people believed all humans had and could cause disease if they were not balanced. 2 Four Humours Blood, Phlegm, Black Bile, Yellow Bile – Four elements which 11 Theory of Galen’s theory that diseases were caused by the Four medieval people believed all humans had and could cause Opposites Humours being in‐balanced. Treated by re‐balancing the disease if they were not balanced. Four Humours. 3 Four elements Earth, fire, water, air – the four earthly elements that the four 12 Divine The belief that diseases were caused by God as punishment humours were based on. causes for sins people had committed. 4 Galen A Roman doctor who built on Hippocrates’ idea, the Four 13 Supernatural The belief that diseases are caused by magic or witchcraft Humours. causes 5 Theory of Galen’s theory that diseases were caused by the Four Humours 14 Miasma The belief that diseases are caused by bad smells / ‘foul Opposites being in‐balanced. Treated by re‐balancing the Four Humours. smelling air’. 6 Divine causes The belief that diseases were caused by God as punishment for 15 William Discovered the heart was a pump (pumped blood around the sins people had committed. Harvey body) important new ideas about causes in later periods. 7 Sins A religious belief that any bad things you do in your life are 16 The Plague – During the Great Plague 1665, many stayed indoors to avoid sinful and you will be punished by God for them.
  • Spontaneous Generation & Origin of Life Concepts from Antiquity to The

    Spontaneous Generation & Origin of Life Concepts from Antiquity to The

    SIMB News News magazine of the Society for Industrial Microbiology and Biotechnology April/May/June 2019 V.69 N.2 • www.simbhq.org Spontaneous Generation & Origin of Life Concepts from Antiquity to the Present :ŽƵƌŶĂůŽĨ/ŶĚƵƐƚƌŝĂůDŝĐƌŽďŝŽůŽŐLJΘŝŽƚĞĐŚŶŽůŽŐLJ Impact Factor 3.103 The Journal of Industrial Microbiology and Biotechnology is an international journal which publishes papers in metabolic engineering & synthetic biology; biocatalysis; fermentation & cell culture; natural products discovery & biosynthesis; bioenergy/biofuels/biochemicals; environmental microbiology; biotechnology methods; applied genomics & systems biotechnology; and food biotechnology & probiotics Editor-in-Chief Ramon Gonzalez, University of South Florida, Tampa FL, USA Editors Special Issue ^LJŶƚŚĞƚŝĐŝŽůŽŐLJ; July 2018 S. Bagley, Michigan Tech, Houghton, MI, USA R. H. Baltz, CognoGen Biotech. Consult., Sarasota, FL, USA Impact Factor 3.500 T. W. Jeffries, University of Wisconsin, Madison, WI, USA 3.000 T. D. Leathers, USDA ARS, Peoria, IL, USA 2.500 M. J. López López, University of Almeria, Almeria, Spain C. D. Maranas, Pennsylvania State Univ., Univ. Park, PA, USA 2.000 2.505 2.439 2.745 2.810 3.103 S. Park, UNIST, Ulsan, Korea 1.500 J. L. Revuelta, University of Salamanca, Salamanca, Spain 1.000 B. Shen, Scripps Research Institute, Jupiter, FL, USA 500 D. K. Solaiman, USDA ARS, Wyndmoor, PA, USA Y. Tang, University of California, Los Angeles, CA, USA E. J. Vandamme, Ghent University, Ghent, Belgium H. Zhao, University of Illinois, Urbana, IL, USA 10 Most Cited Articles Published in 2016 (Data from Web of Science: October 15, 2018) Senior Author(s) Title Citations L. Katz, R. Baltz Natural product discovery: past, present, and future 103 Genetic manipulation of secondary metabolite biosynthesis for improved production in Streptomyces and R.
  • Antoine Paul Nicolas Franchimont 1844-1919 (Leiden) and Charles Adolphe Wurtz 1817-1884 (Strasbourg) Barrett Honors College Chemistry 113 Footnote 18 Project Pamela T

    Antoine Paul Nicolas Franchimont 1844-1919 (Leiden) and Charles Adolphe Wurtz 1817-1884 (Strasbourg) Barrett Honors College Chemistry 113 Footnote 18 Project Pamela T

    Antoine Paul Nicolas Franchimont 1844-1919 (Leiden) and Charles Adolphe Wurtz 1817-1884 (Strasbourg) Barrett Honors College Chemistry 113 Footnote 18 Project Pamela T. Hoang November 21, 2003 Antoine Paul Nicolas Franchimont (1844-1919) was appointed to the position of professor of chemistry at The Leiden Institute of Chemistry in 1874 along with J.M. van Bemmelen (Driessen). The Leiden University has boasted a proud, venerable reputation of chemistry since it was founded in 1575. Approximately 300 years later, Franchimont became the first chair of organic chemistry in Europe at Leiden. He received his Ph.D. in 1871 at the young age of 27. Three years later, Franchimont was promised a “new laboratory, but he had to wait twenty-seven years before he could move into a new building in the Hugo de Grootstraat” (Driessen). After the new laboratory opened in 1918, Franchimont unfortunately died a year later; however, chemistry flourished in the laboratories in the centre of Leiden for approximately seventy years. The number of students increased from one or two per year to about one hundred in the late 1960’s (Driessen). Franchimont is also credited with co-discovering triphenylmethane and anthraquinone. In addition, he also studied the acylation of sugars and cellulose, nitroamino compounds, and the chemistry of hydrogen azide, urea, urethanes, nitric acid, and oxalic acid (Bachas). Lastly he is attributed to discovering "tetryl," which was a widely, popular explosive in the early 1900s (Bachas). Charles Adolphe Wurtz (1817-1884) 2 It was once said, “Chemistry has perhaps the most intricate, most fascinating, and certainly most romantic history of all the sciences” by Dr.
  • Louis Pasteur

    Louis Pasteur

    LOUIS PASTEUR WFk .K',* ' ? *An exhibit presented by the National Library of Medicine in observance of the sesquicentennial of the birth of Louis Pasteur, scientist and benefactor of humanity. S600 ROCKVILLE PIKE BETHE8DA, MO. 20014 On December 27, 1822, Louis Pasteur, son of a tanner and former sergeant in the armies of Napoleon, was born in obscurity at Dole, France. Today his name is known and honored throughout the world for his contributions to the welfare of humanity. A great scientist, above all a great experimentalist, he was also a crusader who became the nineteenth century's greatest symbol of triumphant science. As a young student, Pasteur was noted chief ly for some pastel portraits of his parents and friends. At the Ecole Normale Superieure, he was fired with the joy of discovery under the guidance of two influential teachers, Jean Baptiste Dumas and Antoine Jerome Balard. Trained as a chemist, Pasteur in his first re search discovered why sodium-ammonium Pastel of Pasteur's father. tartrate rotated the plane of a beam of polar ized light while the corresponding paratartrate holic fermentation and of other micro did not. This brought him the attention and organisms in other forms of fermentation. The support of the outstanding French physicist need to convince the led him to stud Jean Baptiste Biot. The work also demon skeptical ies of so-called At the strated his independence of mind in question spontaneous generation. urgent request of others he studied the causes ing a leading scientist, his ability to select signi of "diseases" in wine and and also in ficant problems, and his experimental genius in vinegar silkworms.