Stahnisch, Frank W. (Author)
Since the middle of the Nineteenth Century, neurophysiological researchers such as Theodor Fechner (1801-1887), Wilhelm Wundt (1832-1920), or Maximilian Ruppert Franz von Frey (1852-1932) started to analyze the causes, propagation, and perception of “pain” in the nervous system through the systematic use of experimental laboratory investigations. Particularly, Theodor Fechner’s groundbreaking works made the contemporary neurophysiologists aware of the potential inclusion of psychological and subjective perceptions as a respectable object for the experimental study in mid-nineteenth century laboratories and clinical wards. Wilhelm Wundt frequently crossed the intersections between animal and human subject research and opened up many theoretical discussions, which also incorporated pluridisciplinary perspectives. On the research side, Wundt worked with many experimental physiological methods, developed theoretical psychophysiological considerations, and provided a detailed philosophical analysis of the new experimental findings and the subjective accounts of pain perceptions in his test persons - among many other experimental and investigative approaches. While each one of these neurophysiologists’ research programs have been extensively studied in their own right, their mutual contributions to modern pain research and impact on this emerging interdisciplinary field of biomedical, psychophysiological and philosophical studies have so far not sufficiently been analyzed from a historiographical perspective. This even regards their highly sophisticated instruments and apparatuses that they applied to the study of pain, which Maximilian von Frey used further in the medical wards at the Fin de Siècle. These instruments became applied to many patients with acute or chronic pain disorders. In a way, the substantial time lag between early laboratory research and the application of these findings in the medical clinics of the time could also be explained as a process of newly defining the boundaries of the experimental instrumentation by situating the physiological apparatuses and experiments alongside the spectrum from threshold values to normal values. This hence led to the recalibration of the new field of investigations of pain phenomena. Until today, the elements of phenomenological “identification”, “evaluation” and “physical reduction”, which these pioneers had started and importantly put on the scientific map of nineteenth-century medicine and neuroscience, accompany the scientific endeavour of modern pain research.
...More
Article
Draaisma, Douwe;
De Rijcke, Sarah;
(2001)
The graphic strategy: The uses and functions of illustrations in Wundt's Grundzäge
(/isis/citation/CBB000101698/)
Chapter
Benjafield, John G.;
(2001)
The Psychology of Mathematical Beauty in the 19th Century: The Golden Section
(/isis/citation/CBB000102775/)
Book
Rieber, Robert W;
Robinson, David K.;
(2001)
Wilhelm Wundt in History: The Making of a Scientific Pyschology
(/isis/citation/CBB000101406/)
Article
Klaus Staubermann;
(2018)
Investigating Vision: Scientific Instruments as Historiographic Tools for the Understanding of the Development and Establishment of Colour, Perception and Performance Research at Edinburgh University, 1850–1950
(/isis/citation/CBB605108867/)
Thesis
Hui, Alexandra;
(2008)
Hearing Sound as Music: Psychophysical Studies of Sound Sensation and the Music Culture of Germany, 1860--1910
(/isis/citation/CBB001561163/)
Chapter
Stahnisch, F.;
Hoffmann, T.;
(2010)
Kurt Goldstein and the Neurology of Movement during the Interwar Years---Physiological Experimentation, Clinical Psychology and Early Rehabilitation
(/isis/citation/CBB001033115/)
Article
Schmidgen, Henning;
(2013)
Camera Silenta: Time Experiments, Media Networks, and the Experience of Organlessness
(/isis/citation/CBB001320388/)
Thesis
Shira Dina Shmuely;
(2017)
The Bureaucracy of Empathy: Vivisection and the Question of Animal Pain in Britain, 1876-1912
(/isis/citation/CBB762286081/)
Article
Stahnisch, Frank W.;
(2008)
Instrument Transfer as Knowledge Transfer in Neurophysiology: François Magendie's (1783--1855) Early Attempts to Measure Cerebrospinal Fluid Pressure
(/isis/citation/CBB000831388/)
Article
Wise, M. Norton;
(2007)
What Can Local Circulation Explain? The Case of Helmholtz's Frog-Drawing-Machine in Berlin
(/isis/citation/CBB000931384/)
Book
David J. Murray;
Stephen W. Link;
(2020)
The Creation of Scientific Psychology
(/isis/citation/CBB845455295/)
Article
Joshua Bauchner;
(2021)
Fechner on a Walk: Everyday Investigations of the Mind-Body Relationship
(/isis/citation/CBB085736438/)
Article
Sinatra, Maria;
(2019)
Le polemiche ottocentesche sulla percezione cromatica
(/isis/citation/CBB289416868/)
Article
Brauns, Horst-Peter;
(1990)
Fechners experimentelle Versuchsplanung in Elemente der Psychophysik im Lichte heutiger Methodenlehre des psychologischen Experiments
(/isis/citation/CBB000037793/)
Article
Masin, Sergio Cesare;
Zudini, Verena;
Antonelli, Mauro;
(2009)
Early Alternative Derivations of Fechner's Law
(/isis/citation/CBB000930200/)
Book
Brožek, Josef;
Gundlach, Horst;
(1988)
G.T. Fechner and psychology. International Gustav Theodor Fechner Symposium Passau 12 to 14 June 1987
(/isis/citation/CBB000052002/)
Chapter
Schreier, W.;
(1975)
Gustav Theodor Fechner: Begründer der Psychophysik
(/isis/citation/CBB000000433/)
Chapter
Schreier, W.;
(1977)
Fechners experimentelle Methoden in der Psychophysik
(/isis/citation/CBB000000428/)
Book
Sprung, Lothar;
Sprung, H.;
(1987)
Gustav Theodor Fechner in der Geschichte der Psychologie: Leben, Werk und Wirken in der Wissenschaftsentwicklung des 19. Jahrhunderts
(/isis/citation/CBB000055121/)
Book
Lennig, Petra;
(1994)
Von der Metaphysik zur Psychophysik: Gustav Theodor Fechner (1801-1887): Eine ergobiographische Studie
(/isis/citation/CBB000058840/)
Be the first to comment!