Duchenne de Boulogne
Duchenne and an assistant faradize the mimetic muscles of a live subject to demonstrate the mechanics of facial expression.
Born	September 17, 1806 Boulogne
Died	September 15, 1875 Paris
Nationality	French
Fields	neurology
Known for	electro-therapeutics

Guillaume-Benjamin-Amand Duchenne de Boulogne

Guillaume-Benjamin-Amand Duchenne (de Boulogne) (born September 17, 1806 in Boulogne-sur-Mer; died September 15, 1875 in Paris) was a French neurologist who revived Galvani's research and greatly advanced the science of muscular electrophysiology. The era of modern neurology progressed from Duchenne's understanding of the conductivity of neural pathways, his revelations of the effect of lesions on these structures and his introduction of muscle biopsy. The biographer Joseph Collins wrote of Duchenne that he found neurology, "a sprawling infant of unknown parentage which he succored to a lusty youth" and although it is Jean-Martin Charcot who is now called the father of modern neurology, Charcot owed much to Duchennne, acknowledging him as, "mon maître." He was the first to practice muscle biopsy, the harvesting of living tissue samples with an invention he called, "l'emporte-pièce" (Duchenne's trocar). His book, Mécanisme de la physionomie humaine was the first neurophysiology text on emotion and established a landmark in the history of clinical medical photography. However, Duchenne's greatest contributions were made in the myopathies that now bear his name, Duchenne Muscular Dystrophy, Duchenne-Aran spinal muscular atrophy and Duchenne-Erb paralysis.

Duchenne's contemporaries appended "de Boulogne" to his name to avoid confusion with the like-sounding name of Edouard Adolphe Duchesne (1804-1869), a popular society physician.

[edit] Biography

Guillaume-Benjamin Duchenne was born into a family of fishermen in Boulogne-sur-Mer on 17 September 1806. Duchenne went to a local college at Douai, where he received his Baccalauréat at the age of 19. From 1827, aged twenty-one, he studied medicine under, among others, René-Théophile-Hyacinthe Laënnec (1781-1826), Baron Guillaume Dupuytren (1777-1835), François Magendie (1783-1855), and Léon Cruveilhier (1791-1874). He graduated in medicine in Paris during 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 near the end of his life.

During 1835, Duchenne began experimenting with therapeutic "electropuncture" (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 "electrisation localisee". He articulated these theories in his work, On Localized Electrization and its Application to Pathology and Therapy, first published during 1855^[1]. A pictorial supplement to the second edition, Album of Pathological Photographs (Album de Photographies Pathologiques) was published during 1862. A few months later, the first edition of his now much-discussed work, The Mechanism of Human Physiology^[2], 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 Deformtations^[3], 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 during 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.

[edit] The Mechanism of Human Physiognomy

It has been suggested that this article or section be merged into Mécanisme de la physionomie humaine . (Discuss)

Duchenne and his patient, an "old toothless man, with a thin face, whose features, without being absolutely ugly, approached ordinary triviality"

Influenced by the fashionable beliefs of Physiognomy of the 19th Century, Duchenne wanted to determine how the muscles in the human face produce facial expressions which he believed to be directly linked to the soul of man. He is known, in particular, for the way he triggered muscular contractions with electrical probes, recording the resulting distorted and often grotesque expressions with the recently invented camera. He published his findings during 1862, together with extraordinary photographs of the induced expressions, in the book The Mechanism of Human Physiognomy ( Mecanisme de la physionomie Humaine).

Like physiognomists and phrenologists before him, Duchenne believed that the human face was a map the features of which could be codified into universal taxonomies of inner states; he was convinced that the expressions of the human face were a gateway to the soul of man. Unlike Lavater and other physiognomists of the era, Duchenne was skeptical of the face's ability to express moral character; rather he was convinced that it was through a reading of the expressions alone (known as pathognomy) which could reveal an "accurate rendering of the soul's emotions".^[4] He believed that he could observe and capture an "idealized naturalism" in a similar (and even improved) way to that observed in Greek art. It is these notions that he sought conclusively and scientifically to chart by his experiments and photography and it led to the publishing of The Mechanism of Human Physiognomy during 1862^[5] (also entitled, The Electro-Physiological Analysis of the Expression of the Passions, Applicable to the Practice of the Plastic Arts. in French: Mécanisme de la physionomie humaine, ou Analyse électro-physiologique de l'expression des passions applicable à la pratique des arts plastiques). The work compromises a volume of text divided into three parts:

1. General Considerations,
2. A Scientific Section, and
3. An Aesthetic Section.

These sections were accompanied by an atlas of photographic plates. Believing that he was investigating a God-given language of facial signs, Duchenne writes:

In the face our creator was not concerned with mechanical necessity. He was able in his wisdom or – please pardon this manner of speaking – in pursuing a divine fantasy … to put any particular muscles into action, one alone or several muscles together, when He wished the characteristic signs of the emotions, even the most fleeting, to be written briefly on man's face. Once this language of facial expression was created, it sufficed for Him to give all human beings the instinctive faculty of always expressing their sentiments by contracting the same muscles. This rendered the language universal and immutable ^[6]

Duchenne defines the fundamental expressive gestures of the human face and associates each with a specific facial muscle or muscle group. He identifies thirteen primary emotions the expression of which is controlled by one or two muscles. He also isolates the precise contractions that result in each expression and separates them into two categories: partial and combined. To stimulate the facial muscles and capture these "idealized" expressions of his patients, Duchenne applied faradic shock through electrified metal probes pressed upon the surface of the various muscles of the face.

Duchenne was convinced that the "truth" of his pathognomic experiments could only be effectively rendered by photography, the subject's expressions being too fleeting to be drawn or painted. "Only photography," he writes, "as truthful as a mirror, could attain such desirable perfection."^[7] He worked with a talented, young photographer, Adrian Tournachon, (the brother of Felix Nadar), and also taught himself the art in order to document his experiments.^[8] From an art-historical point of view, the Mechanism of Human Physiognomy was the first publication on the expression of human emotions to be illustrated with actual photographs. Photography had only been invented recently, and there was a widespread belief that this was a medium that could capture the "truth" of any situation in a way that other mediums were unable to do.

Duchenne used six living models in the scientific section, all but one of whom were his patients. His primary model, however, was an "old toothless man, with a thin face, whose features, without being absolutely ugly, approached ordinary triviality."^[9] Through his experiments, Duchenne sought to capture the very "conditions that aesthetically constitute beauty."^[10] He reiterated this in the aesthetic section of the book where he spoke of his desire to portray the "conditions of beauty: beauty of form associated with the exactness of the facial expression, pose and gesture."^[11] Duchenne referred to these facial expressions as the "gymnastics of the soul". He replied to criticisms of his use of the old man by arguing that "every face could become spiritually beautiful through the accurate rendering of his or her emotions",^[12] and furthermore said that because the patient was suffering from an anesthetic condition of the face, he could experiment upon the muscles of his face without causing him pain.

[edit] Aesthetics and the Narrative Setting

G.-B. Duchanne de Boulogne, Synoptic plate 4 from Le Mécanisme de la Physionomie Humaine. 1862, albumen print. In the upper row and the lower two rows, patients with different expressions on either side of their faces

Whereas the scientific section was intended to exhibit the expressive lines of the face and the "truth of the expression," the aesthetic section was intended also to demonstrate that the "gesture and the pose together contribute to the expression; the trunk and the limbs must be photographed with as much care as the face so as to form an harmonious whole."^[13] For these plates Duchenne used a partially blind young woman who he claimed "had become accustomed to the unpleasant sensation of this treatment …".^[14] As in many of the plates for the scientific section, this model was also stimulated faradically to provoke a different expression on either side of her face. Duchenne advised that looking at both sides of the face simultaneously would reveal only a "mere grimace" and he urged the reader to examine each side separately and with care.

Duchenne's experiments for the aesthetic section of the Mechanism included the use of performance and narratives which may well have been influenced by gestures and poses found in the pantomime of the period. He believed that only by electroshock and in the setting of elaborately constructed theatre pieces featuring gestures and accessory symbols could he faithfully depict the complex combinatory expressions resulting from conflicting emotions and ambivalent sentiments. These melodramatic tableaux include a nun in "extremely sorrowful prayer" experiencing "saintly transports of virginal purity"; a mother feeling both pain and joy while leaning over a child's crib; a bare-shouldered coquette looking at once offended, haughty and mocking; and three scenes from Lady Macbeth expressing the "aggressive and wicked passions of hatred, of jealousy, of cruel instincts," modulated to varying degrees of contrary feelings of filial piety.^[15] This theatre of pathognomic effect dominates the aesthetic section of the Mecanisme.

[edit] Beauty and Truth

To help him locate and identify the facial muscles, Duchenne drew heavily upon the work of his contemporary colleague and anatomist, Charles Bell, although he did not share the Scottish anatomist's interest in expressions of extreme passions as found in insanity. Duchenne may have avoided photographing the passions of the insane because of photography's technical limitations at the time, however, it is more likely that he did so for aesthetic reasons – he simply did not regard the expressions of the insane as beautiful.

The exact imitation of nature was for Duchenne the sine qua non of the finest art of whatever age, and although he praised the ancient Greek sculptors for unquestionably attaining an ideal of beauty, he nevertheless criticized them for their anatomical errors and failure to attend to the emotions. Thus at the end of the scientific section, for instance, Duchenne "corrects" the expressions of three widely revered classic Greek or Roman antiquities: In no manner, argues Duchenne, do any of these countenances conform to nature as revealed by his electrophysiological research. He even questions the Greek artist Praxiteles's accuracy in sculpting the Niobe:

Would Niobe have been less beautiful if the dreadful emotion of her spirit had bulged the head of her oblique eyebrow as nature does, and if a few lines of sorrow had furrowed the median section of her forehead? On the contrary, nothing is more moving and appealing than such an expression of pain on a young forehead, which is usually so serene.^[16]

[edit] Duchenne's Influence

Figure 20 from Charles Darwin's The Expression of the Emotions in Man and Animals (1872). Caption reads "FIG. 20.—Terror, from a photograph by Dr. Duchenne"

Plate III from Charles Darwin's The Expression of the Emotions in Man and Animals. From Chapter VIII: Joy—High spirits—Love—Tender feelings—Devotion

Darwin's momentous The Origin of the Species was published during 1859. A lesser known work of his, however, The Expression of the Emotions in Man and Animals, also influenced by the widespread belief in physiognomy at the time, was published during 1872. This book further elaborated on his Theory of Evolution by looking at the human face as a conduit of animal-like inner passions. Of note, is that Darwin's text is full of illustrations drawn from Duchenne's photographs; these illustrations being drawn from Darwin's own personal copy of Duchenne's work.

Duchenne's most famous student was Jean-Martin Charcot, who became director of the insane asylum at Salpêtrière during 1862. He adopted Duchenne's procedure of photographic experiments and also believed that it was possible to attain the "truth" through direct observation. He even named an examination room at the asylum after his teacher. Like Duchenne, Charcot sought to chart the gestures and expressions of his patients, believing them to be subject to absolute, mechanistic laws. However, unlike Duchenne, who restricted his experiments to the realm of the sane, Charcot was interested almost exclusively in photographing the expressions of traumatized patients. He is also known for enabling the public to bear witness to these passions, establishing his renowned weekly "theatre of the passions" for the high society of the day to witness the expressions of the insane.

During 1981, a modern audience was exposed to Duchenne's The Mechanism of Human Physiognomy when the book and its photographs were revealed on screen in the film version of John Fowles's novel, The French Lieutenant's Woman (1969). There, the protagonist, a young scientist, who "like most men of his time, was still faintly under the influence of the Lavater's Physiognomy,"^[17] is intent on interpreting an alienated woman's true character from her expressions.

Perhaps we can best understand Duchenne's contribution to art and science by Robert Sobieszek's concluding words to his comprehensive chapter on Duchenne, in his book Ghost in the Shell^[18] where he writes:

Duchenne's ultimate legacy may be that he set the stage, as it were, for Charcot's visual theater of the passions and defined the essential dramaturgy of all the visual theaters, both scientific and artistic, that have since been conceived in the attempt to picture our psyches. … In the end, Duchenne's Mecanisme de la Physionomie Humaine and the photographic stills from its experimental theater of electroshock excitations established the modern field on which the struggle to depict and thus discern the ever-elusive meanings of our coded faces continues even now to be waged.^[19]

[edit] Other works by Duchenne

• acute poliomyelitis
• Functional electrical stimulation as a localization test in Neurological examination.
• identified progressive bulbar paralysis
• studies into lead poisoning
• identified pseudohypertrophic muscle dystrophy
• tabetic locomotor ataxia

[edit] Works

• Essai sur la brûlure (1833)
• De l'Électrisation localisée et de son application à la physiologie, à la pathologie et à la thérapeutique (1855)
• Mécanisme de la physionomie humaine, ou Analyse électro-physiologique de l'expression des passions applicable à la pratique des arts plastiques (1862)
• 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 déformations (1867)

[edit] References

1. ^ De l'Électrisation Localisée et de son Application à la Physiologie, à la Pathologie et à la Thérapeutique, published Paris, J.B. Baillière, 1855. This was followed by a second edition in 1861 and a third in 1872
2. ^ Mecanisme de la Physiologie Humaine, Ist Edition 1862-3; 2nd Edition, published Paris, J.B. Baillière, 1876
3. ^ 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 during 1867
4. ^ Duchenne, Mecanisme, part 3, 130-1, trans. Sobieszek.
5. ^ Also known as The publication history of Duchenne's Mecanisme is complex and to a degree uncertain. It was published during 1862 and possibly into 1863.
6. ^ Duchenne, Mecanisme, part I, 31; Cuthbertson trans., 19.
7. ^ Duchenne, Mecanisme, part I, 65; Cuthbertson trans., 36.
8. ^ Although Tournachon contributed some of the negatives for the scientific section, most of the photographs of this section, and all eleven plates corresponding to the aesthetic section, were done by Duchenne.
9. ^ Duchenne, Mechanism, part 2, 6; Ibid., 42
10. ^ Duchenne, Mecanisme, part 2, 8; Ibid., 43.
11. ^ Duchenne, Mecanisme, part 3, 133; Ibid., 102
12. ^ Ibid.
13. ^ Duchenne, Mecanisme, part 3, 133-5; Ibid., 102-3
14. ^ Duchenne, Mecanisme, part 3, 141; Ibid., 105
15. ^ Duchenne, Mecanisme, part 3, 169-74; Ibid., 120-2
16. ^ Duchenne, Mecanisme, part 2, 125; Ibid., 100.
17. ^ Fowles, The French Lieutenant's Woman, 119
18. ^ The book Ghost in the Shell: Photography and the Human Soul, 1850-2000, by Robert A. Sobieszek, was published in 1999 and accompanied the exhibition of the same name which took place in the Los Angeles County Museum of Art.
19. ^ Sobieszek, Ghost in the Shell, 2003, MIT Press, 79

[edit] Further reading

• Sobieszek, Robert A., Ghost in the Shell, 2003, MIT Press
• Delaporte, François. Anatomy of the Passions. Stanford: Stanford University Press, 2008.
• Parent, André (August 2005). "Duchenne De Boulogne: a pioneer in neurology and medical photography". The Canadian journal of neurological sciences. Le journal canadien des sciences neurologiques 32 (3): 369–77. PMID 16225184. 
• Parent, André (November 2005). "Duchenne de Boulogne (1806-1875)". Parkinsonism Relat. Disord. 11 (7): 411–2. doi:10.1016/j.parkreldis.2005.04.004. PMID 16345141. 
• Siegel, I M (2000). "Charcot and Duchenne: of mentors, pupils, and colleagues". Perspect. Biol. Med. 43 (4): 541–7. PMID 11058990. 
• Bach, J R (April 2000). "The Duchenne de Boulogne-Meryon controversy and pseudohypertrophic muscular dystrophy". Journal of the history of medicine and allied sciences 55 (2): 158–78. doi:10.1093/jhmas/55.2.158. PMID 10820967. 
• Pearce, J M (September 1999). "Some contributions of Duchenne de Boulogne (1806-75)". J. Neurol. Neurosurg. Psychiatr. 67 (3): 322. PMID 10449553. 
• Jay, V (1998). "On a historical note: Duchenne of Boulogne". Pediatr. Dev. Pathol. 1 (3): 254–5. doi:10.1007/PL00010897. PMID 10463286. 
• George, M S (January 1994). "Reanimating the face: early writings by Duchenne and Darwin on the neurology of facial emotion expression". Journal of the history of the neurosciences 3 (1): 21–33. PMID 11618803. 
• Ostini, S (March 1993). "[Faradization according to Duchenne de Boulogne (1855)]". Revue médicale de la Suisse romande 113 (3): 245–6. PMID 8480122. 
• Borg, K (April 1992). "The man behind the syndrome: Guillaume Duchenne". Journal of the history of the neurosciences 1 (2): 145–54. PMID 11618423. 
• Borg, K (March 1991). "[The man behind the syndrome: Guillaume Duchenne. The frozen out "country bumpkin" who showed the way for research on neuromuscular diseases]". Lakartidningen 88 (12): 1091–3. PMID 2016943. 
• Reincke, H; Nelson K R (January 1990). "Duchenne de Boulogne: electrodiagnosis of poliomyelitis". Muscle Nerve 13 (1): 56–62. doi:10.1002/mus.880130111. PMID 2183045. 
• Nelson, K R; Genain C (October 1989). "Vignette. Duchenne de Boulogne and the muscle biopsy". J. Child Neurol. 4 (4): 315. doi:10.1177/088307388900400413. PMID 2677116. 
• Tayeau, F (December 1985). "[My compatriot: Guillaume Duchenne]". Bull. Acad. Natl. Med. 169 (9): 1401–12. PMID 3915439. 
• Cuthbertson, R A (1985). "Duchenne de Boulogne and human facial expression". Clinical and experimental neurology 21: 55–67. PMID 3916360. 
• Roth, N. "Duchenne and the accuracy esthetic". Medical instrumentation 13 (5): 308. PMID 388166. 
• Hueston, J T; Cuthbertson R A (July 1978). "Duchenne de Boulogne and facial expression". Annals of plastic surgery 1 (4): 411–20. PMID 365063. 
• Stillings, D. "Darwin and Duchenne". Medical instrumentation 9 (1): 37. PMID 1092967. 

[edit] External links

Wikimedia Commons has media related to: Guillaume Duchenne

• Artifacial Expression Contemporary artist working on Electro-Facial Choreography.
• Electro-Physiognomy an 1870 book review of Duchenne's monograph, Mécanisme de la Physionomie Humaine..&c.