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Duchenne de Boulogne : ウィキペディア英語版
Duchenne de Boulogne

Guillaume-Benjamin-Amand Duchenne (de Boulogne) (September 17, 1806, in Boulogne-sur-Mer – September 15, 1875, in Paris) was a French neurologist who revived Galvani's research and greatly advanced the science of electrophysiology. The era of modern neurology developed from Duchenne's understanding of the conductivity of neural pathways, his revelations of the effect of lesions on these structures and his diagnostic innovations including deep tissue biopsy, nerve conduction tests (NCS), and clinical photography.
Neurology did not exist in France before Duchenne and although many medical historians regard Jean-Martin Charcot as the father of the discipline, Charcot owed much to Duchenne, often acknowledging him as, "''mon maître en neurologie''" (my teacher in neurology).〔McHenry, p. 282: "His interest in neurology, which was slow in evolving, was largely inspired by Duchenne, whom Charcot called his "master in neurology."〕
The American neurologist Dr. Joseph Collins (1866–1950) wrote that Duchenne found neurology, "a sprawling infant of unknown parentage which he succored to a lusty youth."
His greatest contributions were made in the myopathies that came to immortalize his name, Duchenne Muscular Dystrophy, Duchenne-Aran spinal muscular atrophy, Duchenne-Erb paralysis, Duchenne's disease (Tabes dorsalis), and Duchenne's paralysis (Progressive bulbar palsy). He was the first clinician to practise muscle biopsy, the harvesting of ''in vivo'' tissue samples with an invention he called, "''l'emporte-pièce''" (Duchenne's trocar).〔This device was described by Gowers as 'Duchenne's histological harpoon,' and by others as a 'miniature harpoon' - metonymy that alluded to his parentage by the sea.〕
In 1855 he formalized the diagnostic principles of electrophysiology and introduced electrotherapy in a textbook titled, ''De l'electrisation localisée et de son application à la physiologie, à la pathologie et à la thérapeutique.''
A companion atlas to this work titled, ''Album de photographies pathologiques'', was the first neurology text illustrated by photographs. Duchenne's monograph, ''Mécanisme de la physionomie humaine'' – also illustrated prominently by his photographs – was the first study on the physiology of emotion and was seminal to Darwin's later work.〔
==Biography==

Guillaume-Benjamin Duchenne was the son of a fisherman, descended from a long line of mariners who had settled in the Boulogne-sur-Mer region of France. In opposition to his father's wishes that he become a sailor, and driven by an innate love for science, Duchenne enrolled at the University of Douai where he received his Baccalauréat at the age of 19.
He then trained under a number of distinguished Paris physicians including René-Théophile-Hyacinthe Laënnec (1781–1826), Baron Guillaume Dupuytren (1777–1835), François Magendie (1783–1855), and Léon-Jean-Baptiste Cruveilhier (1791–1874).〔Garrison, p. 572.〕
He graduated in medicine in Paris in 1831 and presented his Thèse de Médecine, a monograph on burns, before returning to his native Boulogne where he opened a practice. Duchenne married in 1831, but his wife died of puerperal fever during childbirth two years later. Duchenne’s mother in law spread rumours that the death of his wife was caused by the fact that only he was present at the delivery, and after this he was kept separate from his only son by his wife’s family, only to be reunited with him towards the end of his life.
In 1835, Duchenne began experimenting with therapeutic "électropuncture" (a technique recently invented by Magendie and Jean-Baptiste Sarlandière by which electric shock was administered beneath the skin with sharp electrodes to stimulate the muscles). After a brief and unhappy second marriage, Duchenne returned to Paris in 1842 in order to continue his medical research. There, he developed a non-invasive technique of muscle stimulation that used faradic shock on the surface of the skin, which he called "''électrisation localisée''". He articulated these theories in his work, ''On Localized Electrization and its Application to Pathology and Therapy'', first published in 1855.〔 A pictorial supplement to the second edition, ''Album of Pathological Photographs'' (''Album de Photographies Pathologiques'') was published in 1862. A few months later, the first edition of his now much-discussed work, ''The Mechanism of Human Physiology'',〔''Mécanisme de la Physiologie Humaine'', Ist Edition 1862-3; 2nd Edition, published Paris, J.B. Baillière, 1876〕 was published. Were it not for this small, but remarkable, work, his next publication, the result of nearly 20 years of study, Duchenne's ''Physiology of Movements, Demonstrated with the Aid of Electrical Experimentation and Clinical Observation, and Applicable to the Study of Paralyses and Deformations'',〔''Physiologie des mouvements démontrée à l'aide de l'expérimentation électrique et de l'observation clinique, et applicable à l'étude des paralysies et des déformation'', published in 1867〕 his most important contribution to medical science, might well have gone unnoticed.
Despite his unorthodox procedures, and his often uncomfortable relations with the senior medical staff with whom he worked, Duchenne's single-mindedness and relentless and exacting research, soon obtained him an international standing as a neurologist at the forefront of his field. Moreover, he is considered as one of the developers of electro-physiology and electro-therapeutics. By electricity he also determined that smiles resulting from true happiness not only utilize the muscles of the mouth but also those of the eyes. Such "genuine" smiles are known as Duchenne smiles in his honor. He is also credited with the discovery of Duchenne muscular dystrophy. Duchenne died of haemorrhagic bleeding in 1875, after several years of illness.
Duchenne effectively used the newly invented medium of photography to capture electrically induced expressions of his subjects, but wasn't able to record the actual movement of the facial muscles, a fact he complained about in his writings.

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