ABSTRACT
This paper reviews aspects of the life and work of Professor Louis Ranvier 140 years after the publication of Leçons sur l’histologie du système nerveux, published in 1878, and shows the importance of the histological description of myelinated fibers of the nodes of Ranvier.
Histology; peripheral nervous system diseases; Ranvier’s nodes
RESUMO
Os autores apresentam uma revisão sobre aspectos da vida e obra do Professor Louis Ranvier 140 anos após a publicação de seu livro Leçons sur l’histologie du système nerveux publicado em 1878 e mostra a importância da descrição histológica nas fibras mielínicas dos nodos de Ranvier.
Histologia; doenças do sistema nervoso periférico; nós neurofibrosos
In recent years, significant advances have been made in the knowledge of the pathophysiology of immune-mediated neuropathies, especially in the role of the nodal region, giving rise to the so-called nodopathies11. Uncini A, Kuwabara S. Nodopathies of the peripheral nerve: an emerging concept. J Neurol Neurosurg Psychiatry. 2015 Nov;86(11):1186-95. https://doi.org/10.1136/jnnp-2014-310097
https://doi.org/10.1136/jnnp-2014-310097...
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These nodopathies may point directly to the site of nerve injury; circumventing the apparent paradox that axonal lesions may be reversible and have a good prognosis. Some patients may be classified as having a demyelinating neuropathy, and others as having an axonal neuropathy; the potential reversibility in neuropathies traditionally thought to be characterized only by axonal degeneration opens a therapeutic window and stimulates research for timely targeted treatments11. Uncini A, Kuwabara S. Nodopathies of the peripheral nerve: an emerging concept. J Neurol Neurosurg Psychiatry. 2015 Nov;86(11):1186-95. https://doi.org/10.1136/jnnp-2014-310097
https://doi.org/10.1136/jnnp-2014-310097...
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This year marks 140 years on from the first description of the nodal region by French physician, physiologist and anatomist, Louis Ranvier, a student of Claude Bernard.
LOUIS ANTOINE RANVIER
Louis Antoine Ranvier was born in Lyon, in 1835, where he took up medical studies at the École Préparatoire de Médecine et de Pharmacie, then moved to Paris in 1860, after he succeeded in the highly competitive examination for internship at Parisian hospitals. During his medical training, Ranvier became acquainted with normal and pathological anatomy, and soon turned to microscopy as a means for further studies on tissues22. Barbara JG. History of neuroscience: Louis Ranvier (1835-1922). IBRO History of Neuroscience. 2007 [cited 2018 Mar 10]. Available from: http://ibro.org/wp-content/uploads/2018/07/Ranvier-Louis.pdf
http://ibro.org/wp-content/uploads/2018/...
,33. Barbara JG. Biological generality and general anatomy from Xavier Bichat to Louis Antoine Ranvier. In: Chemla K, Chorlay R, Rabouin D, editors. The Oxford handbook of generality in mathematics and the sciences. Oxford: Oxford UP; 2016. p. 359-84.,44. Barbara JG. Louis Ranvier (1835-1922): the contribution of microscopy to physiology and the renewal of French general anatomy. J Hist Neurosci. 2007 Oct-Dec;16(4):413-31. https://doi.org/10.1080/09647040600685503
https://doi.org/10.1080/0964704060068550...
,55. Barbara JG. Louis Ranvier, l’anatomie générale microscopique et les recherches sur les cellules nerveuses. In: Barbara JG, Clarac F, editors. Le cerveau au microscope: la neuroanatomie française aux XIXe et XXe siècles. Paris: Hermann; 2017. p. 71-88..
Between 1860 and 1865, Cornil and Ranvier devoted much of their time to microscopy. Besides observing tumors and other pathological tissues, Ranvier focused on bone preparations, which led him to study cartilage and bone lesions for his medical thesis. By 1865, they had started collaborating on epithelial tumors.
From 1866 to 1867, Cornil and Ranvier’s one-semester course in microscopy had no equivalent in France. The course was published in three parts, as an authoritative manual, two years later. It was translated into English, with notes and additions both in England and the United States. It represented a well-written and useful modern textbook for medical students interested in normal and pathological histology. Their collaboration ended when Ranvier agreed to join Claude Bernard at the Collège de France.
Ranvier was influenced by Virchow’s extension of cellular theory to pathology. In Ranvier’s introductions to studies on cartilage and bone, Virchow’s observations were emphasized. While Cornil further investigated pathological tissues, Ranvier focused on normal histology. He was not only concerned with cell theory, but also, as a student of Bernard, with the development, nutrition and functions of normal tissues.
THE NODE
In 1853, Virchow used the term myelin to refer to the large sheath mass involving some axons. The term oligodendrocyte was suggested by Pío del Río-Hortega, who observed that this cell had a shorter length and less branching when compared with astrocytes and also suggested that, like the neurolemmocyte, it formed myelin, a theory proven years later by electron microscopy66. Mendes PB, Melo SR. Origem e desenvolvimento da mielina no sistema nervoso central: um estudo de revisão. Rev Saúde Pesq. 2011 Jan-Abr.;4(1):93-9..
In 1871, from his laboratory in the College of Paris, Ranvier went further, looking for new techniques to visualize “invisible” structures and to be able to explain questions of physiological type77. Ranvier L. Contributions à l’histologie et à la physiologie des nerfs périphériques. Comptes Rendus de l’Académie des Sciences. 1871;73:1168-71.. The sciatic nerve of frogs, dissociated (nerve trunks) and fixed in osmic acid, showed visible strangulations that had already been referred to in other works, but it was Ranvier who described them for the first time. We refer to the “Ranvier nodes” as the narrowing observed in the modulated nerve fibers, at intervals of 1 mm, due to the interruption of myelination. But for Ranvier, histology did not end with technique and description, but had also to give way to the study of functions.
In 1878, he wrote in his Lessons on Histology of the Nervous System (Figure 1) that myelin acted as an electrical insulation, and was interrupted at various points along the axon88. Ranvier ML. Leçons sur l’histologie du système nerveux. Paris: Librairie F. Savy; 1878.. These interruptions were therefore called the nodes of Ranvier (Figure 2). The importance of these nodes was unraveled by two research groups during the 1940s: Tasaki and Takeuchi, in 194199. Tasaki I, Takeuchi T. Der am Ranvierschen Knoten entstehende Aktionsstrom und seine Bedeutung für die Erregungsleitung. Pflügers Archiv ges Physiol. 1941;244:696-711.; and Huxley and Stämpfli in 19491010. Huxley AF, Stämpfli R. Evidence for saltatory conduction in peripheral myelinated nerve fibers. J Physiol. 1949;108(3):315-39. https://doi.org/10.1113/jphysiol.1949.sp004335
https://doi.org/10.1113/jphysiol.1949.sp...
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In myelinated fibers, depolarization (due to ion exchange) can only occur in the nodes of Ranvier, where the dielectric envelope (myelin) is interrupted. This mode of impulse propagation in myelinated fibers was deciphered in 1925, by Lillie1111. Lillie RS. Factors affecting transmission and recovery in the passive iron nerve model. J Gen Physiol. 1925 Mar;7(4):473-507. https://doi.org/10.1085/jgp.7.4.473
https://doi.org/10.1085/jgp.7.4.473...
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In 1897, Ranvier and Balbiani founded the Archives d’anatomie microscopique, the first French journal devoted exclusively to microscopic studies.
Between 1875 and 1890, people like Malassez, Louis de Sinéty, Maurice Debove, Renaut, Babinski, William Nicati, Albarran and Suchard, among others trained in Ranvier’s laboratory.
In 1900, Ranvier was isolated from the scientific community and retired to Thélys, where he spent the following 22 years on activities unrelated to science. Ranvier died in Vendranges, Loire, on 22 March 1922, leaving a legacy that transcended time, still serving as an inspiration today.
Ranvier’s contributions were emphasized by Ramon y Cajal: “In my systematic explorations through the realms of microscopic anatomy […] I examined [the Nervous System] eagerly in various animals, guided by the books of Meynert, Huguenin, Luys, Schwalbe and, above all, the incomparable works of Ranvier, of whose ingenious technique I made use with conscientious determination”1212. Ramón y Cajal S. Recuerdos de mi vida, historia de mi labor científica. Madrid: Aianza Universidade; 1995..
References
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1Uncini A, Kuwabara S. Nodopathies of the peripheral nerve: an emerging concept. J Neurol Neurosurg Psychiatry. 2015 Nov;86(11):1186-95. https://doi.org/10.1136/jnnp-2014-310097
» https://doi.org/10.1136/jnnp-2014-310097 -
2Barbara JG. History of neuroscience: Louis Ranvier (1835-1922). IBRO History of Neuroscience. 2007 [cited 2018 Mar 10]. Available from: http://ibro.org/wp-content/uploads/2018/07/Ranvier-Louis.pdf
» http://ibro.org/wp-content/uploads/2018/07/Ranvier-Louis.pdf -
3Barbara JG. Biological generality and general anatomy from Xavier Bichat to Louis Antoine Ranvier. In: Chemla K, Chorlay R, Rabouin D, editors. The Oxford handbook of generality in mathematics and the sciences. Oxford: Oxford UP; 2016. p. 359-84.
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4Barbara JG. Louis Ranvier (1835-1922): the contribution of microscopy to physiology and the renewal of French general anatomy. J Hist Neurosci. 2007 Oct-Dec;16(4):413-31. https://doi.org/10.1080/09647040600685503
» https://doi.org/10.1080/09647040600685503 -
5Barbara JG. Louis Ranvier, l’anatomie générale microscopique et les recherches sur les cellules nerveuses. In: Barbara JG, Clarac F, editors. Le cerveau au microscope: la neuroanatomie française aux XIXe et XXe siècles. Paris: Hermann; 2017. p. 71-88.
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6Mendes PB, Melo SR. Origem e desenvolvimento da mielina no sistema nervoso central: um estudo de revisão. Rev Saúde Pesq. 2011 Jan-Abr.;4(1):93-9.
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7Ranvier L. Contributions à l’histologie et à la physiologie des nerfs périphériques. Comptes Rendus de l’Académie des Sciences. 1871;73:1168-71.
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8Ranvier ML. Leçons sur l’histologie du système nerveux. Paris: Librairie F. Savy; 1878.
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9Tasaki I, Takeuchi T. Der am Ranvierschen Knoten entstehende Aktionsstrom und seine Bedeutung für die Erregungsleitung. Pflügers Archiv ges Physiol. 1941;244:696-711.
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10Huxley AF, Stämpfli R. Evidence for saltatory conduction in peripheral myelinated nerve fibers. J Physiol. 1949;108(3):315-39. https://doi.org/10.1113/jphysiol.1949.sp004335
» https://doi.org/10.1113/jphysiol.1949.sp004335 -
11Lillie RS. Factors affecting transmission and recovery in the passive iron nerve model. J Gen Physiol. 1925 Mar;7(4):473-507. https://doi.org/10.1085/jgp.7.4.473
» https://doi.org/10.1085/jgp.7.4.473 -
12Ramón y Cajal S. Recuerdos de mi vida, historia de mi labor científica. Madrid: Aianza Universidade; 1995.
Publication Dates
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Publication in this collection
24 Oct 2019 -
Date of issue
Oct 2019
History
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Received
16 Nov 2018 -
Reviewed
24 June 2019 -
Accepted
28 June 2019