Arq Neuropsiquiatr anp Arquivos de Neuro-Psiquiatria Arq. Neuro-Psiquiatr. 0004-282X 1678-4227 Academia Brasileira de Neurologia - ABNEURO RESUMO O estudo de longa data da anatomia macroscópica experimentou um incremento considerável com o advento do microscópio no início do século 17. A personalidade representativa dessa nova era foi, certamente, Marcello Malpighi, considerado “fundador da anatomia microscópica”. Ele estudou, com um microscópio composto rudimentar, numerosos tecidos e órgãos de diversas classes de animais, assim como plantas. Descreveu, pela primeira vez, a estrutura microscópica do sistema nervoso, identificando na substância cinzenta dos vários níveis elementos de minúsculas dimensões, que denominou “glândulas”. Deve-se lembrar que o conceito de “célula” (e de “célula nervosa”) era desconhecido naquele tempo. Muitos pesquisadores seguiram realizando estudos microscópicos, mas sem resultados melhores, e o entendimento de Malpighi foi mantido até o início do século 19, quando apareceram técnicas histológicas novas de processamento e de coloração, assim como microscópios mais aprimorados. INTRODUCTION The study of anatomy has aroused the interest of innumerous researchers since the far antiquity, and gross features were revealed through dissection of varied classes of animals, and also, in some periods, of human corpses1,2. The advent of the microscope permitted to expand the anatomic findings with the study of the fine structure of tissues and organs3. Among the researchers who pioneered such studies, the name of the Italian physician, biologist, botanist, and anatomist Marcello Malpighi (1628-1694), later seen as the “founder of microscopic anatomy” (histology), must be stressed4 (Figure 1). Figure 1. Marcello Malpighi (author LC Miall). Public domain. Available at: https://commons.wikimedia.org/wiki/File:MarcelloMalphigiMiall.jpg MALPIGHI’S CAREER Malpighi obtained the degree of Philosophy and of Medicine (1653), and became successively Professor of Medicine at the Universities of Bologna, Pisa, and Messina. He was introduced to the microscope while in Pisa (1656), being apparently one of the first to use the compound instrument (objective plus ocular lenses), turning possible much of his research. He moved to Rome after accepting the invitation to be Pope Innocent XII personal physician (1691)4,5,6, where he also taught Medicine in the Papal Medical School, and continued treating patients, in person and by post6,7. He authored many important scientific contributions on the structure of animals, describing varied tissues and organs, as the liver, brain, lung and pulmonary circulation (with the discovery of the capillaries), heart, kidney, spleen, skin, tongue, and many of his findings would later carry his name. Additionally, he studied the chick embryo development, insects, and plants8. His microscopic findings on the nervous system were novel and important, and here some aspects will be highlighted. THE NERVOUS SYSTEM Malpighi’s investigations on the nervous system were first published in De Cerebro Epistola (1665)9. Next, he presented in De cerebri cortice (1666) a more detailed description of the microscopic structure of the nervous system, with emphasis on the “cortex of the cerebrum” (cerebri cortice) [cerebral cortex], apparently for the first time10,11,12. The studies were performed through sections of material of various classes of vertebrates, and the findings resulted from dissection, and microscopic examination9,10. His initial account was on the general anatomic aspects of the nervous system of “perfect animals” (higher animals [mammals]), as known at the time9,10,11. However, his main target was to know the minute composition of these structures “…to acquire a better knowledge of the smallest structures of this substance [nervous tissue] …up to now unclear…”10,12,13. He reported that the cerebral cortex was constituted by a collection of tiny “glands” (“cells” -“nerve cells”) with an oval shape, some forming obtuse angles when compressed by adjacent elements (glands). They were connected to roots of white nervous fibers, like special vessels, analogous to the excretory canals of true glands. The cortical substance (gray matter - glands) was also found inside the cerebral ventricles (basal nuclei), in the beginning of the spinal medulla (medulla oblongata) (brain stem), in the external sheet of the cerebellum, scattered in many places under the pons of Varolius, and inside the entire spinal medulla (spinal cord). He described also the already better-known fibers that formed the white matter (1666)10,12,13,14 (Table 1). Table 1. Excerpts of Malpighi’s microscopic description of the nervous system10,12,13,14. The studies were performed through sections of material of sanguineous perfect animals [perfectorum animalium] (higher animals [probably mammals]), larger fishes, and other classes of vertebrates. The findings resulted from dissections of cooked material, eventual pouring of ink and then lightly wiping away, and microscopic examination. Regarding the [cerebral] gray matter, he reported: “…in the brain of perfect animals the cerebral cortex is formed by a collection of tiny glands [nerve cells], found in the cerebral gyri…”. And: “They have an oval shape, but, as they are compressed by adjacent [glands], some form obtuse angles…”. Then: “Their external portion is in contact with the pia mater and its blood vessels, which penetrate from above into their substance…the interior part gives off white nervous fibers, like special vessels, analogous to the excretory canals of true glands…”. And more: “…the medullary matter [white matter] is a result of the assemblage of many kinds of small [nervous] fibers jointed together…”. Further: “These cortical glands…make up the external cerebral gyri and are connected with the medullary fibers which take their origin from them, in such a way that, wherever gyri are cut transversely, a fixed and constant mass of glands is surrounding the white matter…observed more clearly in the cerebellum…” Describing deeper structures: “…the cortical substance [gray matter] inside the cerebral ventricles [prominences of the ventricles] [basal nuclei] is of the same nature as that of outside of the brain [i.e., glands], and the same is also seen in the beginning of the spinal medulla…”. And: “Inside of the entire spinal medulla [spinal cord] the cortical matter [gray matter] already described maintain the glandular structure, and…under the pons of Varolius… such cortical glands are scattered in many places…”. Further: “This also happens in the cerebellum, where the nerves leaving the pons of Varolius, and entering inside the cerebellum, have also their origin in glands of the cortical matter found there…”. About fiber tracts: “The spinal medulla is a fascicle of nerves that on attaining the cerebrum is divided into two parts, turning smoothly to form the lateral aspects of the ventricles...they end in the cortical matter where the extremities of the roots are inserted in the small grains of its glands…”. And: “…in the cerebrum and cerebellum, white fibers are seen by which the white matter is formed…they serve as vehicles of the nervous juice (succus nervosus)…an intimate connection and continuation between these cortical glands and nervous fibers is observed...”. There is no illustration of the described nervous system in his De cerebri cortice. A drawing of the cortex, according to Malpighi’s description, may be found only in Govard Bidloo’s Anatomia humani corporis (plates drawn by Gérard de Lairesse) (1685) (Table X, Figure 2 from Bidloo's book)13,15 (Figure 2). Figure 2. Drawing of the cerebral cortex (From Bidloo G. Anatomia humani corporis, 1685 (Table X, Figure 2 from Bidloo's book)15 as described by Malpighi12,13. A: part of boiled brain; B: meninges wrapping the brain; C: Blood vessels; D: their capillary distribution & reticular plexus; E: various rows of cortical glands; F: tubules (nerve fibers or vessels) assembled in fasciculi, constituting the medulla [white matter]; G: lobular fascicles, or separations; H: complicated tubules (vessels) (nerve fibrils); I: nerves. [F+H+I= white roots of nerves]13,15. COMMENTS Malpighi provided the first microscopic description of the central nervous system of “perfect animals" (superior animals [probably mammals]). He focused on the gray matter, defined as “cortical”, in the various levels of the nervous system. There he identified microscopic discrete elements he denominated “glands” in the gray matter of the cerebral and cerebellar cortex, basal nuclei, brain stem, and spinal cord. The fibrous structures, he called “nerve fibers” (or vessels, or excretory ducts), were constituents of the already known subcortical white matter and tracts. His interpretation of the cortical elements as “glands” may be related to his admiration for Hippocrates, who regarded the brain as a glandular organ (Cerebrum inter glandulas recenset, as he wrote, based on De GIandulis), to a homology to other organs he identified as glandular (e.g., liver)12, and supporting a presumed glandular function of the cortical matter (cerebral and cerebellar cortex), responsible for filtering the blood to produce “nervous juice” (animal spirit), carried by nerve fibers (vessels) [ducts] coursing downward (to the medulla oblongata and spinal cord) (in accordance to Thomas Willis view)12,13,16. It is important to highlight that at the time, although the term “cell” was already known, due to Robert Hooke’s studies (1665), the concept of “cell” was introduced much later, by Theodor Schwann and Matthias Schleiden (1839), while the concept of “nerve cell” was yet unknown, beginning to appear only in the second half of the 19th century, mainly thanks to Jan Evangelista Purkinje, describing “ganglionic bodies” in the gray matter of the brain (1837)3,17. The microscopic findings of the cortical matter (the glands) generated adverse arguments, frequent at his time, and more recently some authors claimed, mainly in relation to the nervous system, that they represented artefacts4,13,18. Others accepted that they represented valid structures10,13,18. It should be considered that the recent criticism was mostly directed to the drawing of the cerebral cortex, and less to the original description. It must be remembered that the real author of this depiction remained undefined, and that probably it was drawn based on Malpighi’s description, and not from direct observation of the specimen under the microscope13. Curiously, such debate was only directed to the findings of the cerebral cortex, and not to the other levels, neither to the observations of other tissues and organs, studied with the same precarious methods, which were, on the contrary, praised13. It can be affirmed, without error, that Malpighi’s findings, identifying minute elements in the gray matter of the nervous system, an unshaped tissue until his time, was a large new step to elucidate its structure. Following Malpighi, many researchers performed microscopic examination of the nervous system. However, all their reports looked unremarkable compared to Malpighi's description. His view and the representation of the cerebral cortex were afterwards reproduced by many authors, until the beginning of the 19th century, when new histological processing and staining techniques appeared, as well as improved microscopes3,13. REFERENCES 1 1. Gandolfo G, Deschaux O. Histoire de la découverte du cerveau et del’évolution des méthodes d’exploration: De la Préhistoire à nos jours. Biologie Géologie; 2010 [accessed on 2020 Jun 10]. Available at: Available at: https://hal.univ-cotedazur.fr/hal-01090539/document Gandolfo G Deschaux O Histoire de la découverte du cerveau et del’évolution des méthodes d’exploration: De la Préhistoire à nos jours Biologie Géologie 2010 2020 Jun 10 Available at: https://hal.univ-cotedazur.fr/hal-01090539/document 2 2. Stahnisch FW. On the use of animal experimentation in the history of neurology. In: Finger S, Boller F, Tyler KL, editors. Handbook of Clinical Neurology, Vol. 95 (3rd series). History of Neurology. New York (NY): Elsevier; 2010. p. 129-48. Stahnisch FW On the use of animal experimentation in the history of neurology Finger S Boller F Tyler KL Handbook of Clinical Neurology 95 3rd series History of Neurology New York (NY) Elsevier 2010 129 148 3 3. Chvátal A. Discovering the structure of nerve tissue: part 1: from Marcello Malpighi to Christian Berres. J Hist Neurosci. 2015 Feb;24(3):268-91. https://doi.org/10.1080/0964704x.2014.977676 Chvátal A Discovering the structure of nerve tissue: part 1: from Marcello Malpighi to Christian Berres J Hist Neurosci 02 2015 24 3 268 291 https://doi.org/10.1080/0964704x.2014.977676 4 4. Ghosh SK, Kumar A. Marcello Malpighi (1628-1694): Pioneer of microscopic anatomy and exponent of the scientific revolution of the 17th Century. Eur J Anat. 2018 Sep;22 (5):433-9. ISSN 2340-311X. Ghosh SK Kumar A Marcello Malpighi (1628-1694): Pioneer of microscopic anatomy and exponent of the scientific revolution of the 17th Century Eur J Anat 09 2018 22 5 433 439 2340-311X 5 5. Motta PM. Marcello Malpighi and the foundations of functional microanatomy. Anat Rec. 1998 Feb;253(1):10-2. https://doi.org/10.1002/(sici)1097-0185(199802)253:1%3C10::aid-ar7%3E3.0.co;2-i Motta PM Marcello Malpighi and the foundations of functional microanatomy Anat Rec 02 1998 253 1 10 12 https://doi.org/10.1002/(sici)1097-0185(199802)253:1%3C10::aid-ar7%3E3.0.co;2-i 6 6. Portal M. Histoire de l'anatomie et de la Chirurgie. Tome III. Paris (FR): P Fr Didot; 1770. p. 114-51. Available at: http://books.google.com Portal M Histoire de l'anatomie et de la Chirurgie Tome III Paris (FR) P Fr Didot 1770 114 151 http://books.google.com 7 7. Bresadola MA. Physician and a Man of Science: Patients, Physicians, and Diseases in Marcello Malpighi's Medical Practice. Bull Hist Med. 2011 Summer;85(2):193-221. https://doi.org/10.1353/bhm.2011.0048 Bresadola MA Physician and a Man of Science: Patients, Physicians, and Diseases in Marcello Malpighi's Medical Practice Bull Hist Med Summer 2011 85 2 193 221 https://doi.org/10.1353/bhm.2011.0048 8 8. Malpighi M. Opera Omnia. London (EN): Robertum Scott; 1686. Available at: http://dx.doi.org/10.3931/e-rara-11162 Malpighi M Opera Omnia London (EN) Robertum Scott 1686 http://dx.doi.org/10.3931/e-rara-11162 9 9. Malpighi M, Fracassati C. Tetras anatomicarum epistolarum de lingua, et cérebro. Bologna (IT): Victorij Benatij. 1665 [accessed on 2020 May 20]. Available at: Available at: https://download.digitale-sammlungen.de/pdf/15917277186682bsb11269146.pdf Malpighi M Fracassati C Tetras anatomicarum epistolarum de lingua, et cérebro Bologna (IT) Victorij Benatij 1665 2020 May 20 Available at: https://download.digitale-sammlungen.de/pdf/15917277186682bsb11269146.pdf 10 10. Meyer A. Marcello Malpighi and the Dawn of Neurohistology. J Neurol Sci. 1967 Mar-Apr; 4(2):185-93. https://doi.org/10.1016/0022-510x(67)90098-6 Meyer A Marcello Malpighi and the Dawn of Neurohistology J Neurol Sci Mar-Apr 1967 4 2 185 193 https://doi.org/10.1016/0022-510x(67)90098-6 11 11. Malpighi M, Fracassati C. Epistolae anatomicae virorum clarissimorum Marcelli Malpighij et Caroli Fracassati quarum contenta pagina versa exhibet. Amsterdam (NL): Casparum Commelinum; 1669 [accessed on 2020 Jun 16]. Available at: Available at: http://www.internetculturale.it Malpighi M Fracassati C Epistolae anatomicae virorum clarissimorum Marcelli Malpighij et Caroli Fracassati quarum contenta pagina versa exhibet Amsterdam (NL) Casparum Commelinum 1669 2020 Jun 16 Available at: http://www.internetculturale.it 12 12. Malpighi M. De viscerum structura exercitatio anatomica. Bologna (IT): Ex typographia Jacobi Montij; 1666 [accessed on 2020 Jun 07]. Available at: Available at: http://books.google.com Malpighi M De viscerum structura exercitatio anatomica Bologna (IT) Ex typographia Jacobi Montij 1666 2020 Jun 07 Available at: http://books.google.com 13 13. Clarke E, Bearn JG. The brain “glands” of Malpighi elucidated by practical history. J Hist Med Allied Sci. 1968 Oct;23(4):309-30. https://doi.org/10.1093/jhmas/xxiii.4.309 Clarke E Bearn JG The brain “glands” of Malpighi elucidated by practical history J Hist Med Allied Sci 10 1968 23 4 309 330 https://doi.org/10.1093/jhmas/xxiii.4.309 14 14. Malpighi M. Discours anatomiques sur la structure des viscères, sçavoir du foye, du cerveau, des reins, de la ratte, du polype du coeur, et des poulmons. M Sauvalle trad. 2eme ed. Paris (FR): Laurent d'Houry; 1687 [accessed on 2020 Jun 12]. Available at: Available at: https://www.biusante.parisdescartes.fr/histoire/medica/resultats/index.php Malpighi M Discours anatomiques sur la structure des viscères, sçavoir du foye, du cerveau, des reins, de la ratte, du polype du coeur, et des poulmons Sauvalle M 2 Paris (FR) Laurent d'Houry 1687 2020 Jun 12 Available at: https://www.biusante.parisdescartes.fr/histoire/medica/resultats/index.php 15 15. Bidloo G. Anatomia humani corporis, centum & quinque tabulis, per artificiossis. G de Lairesse ad vivum delineatis, demonstrata, veterum recentiorumque inventis explicata plurimisque, hactenus non detectis, illustrata. Amsterdam (NL): Sumptibus viduae Joannis à Someren; 1685 [accessed on 2020 May 16]. Available at: Available at: https://ia801309.us.archive.org/8/items/gri_33125008642049/gri_33125008642049.pdf Bidloo G Anatomia humani corporis, centum & quinque tabulis, per artificiossis. G de Lairesse ad vivum delineatis, demonstrata, veterum recentiorumque inventis explicata plurimisque, hactenus non detectis, illustrata Amsterdam (NL) Sumptibus viduae Joannis à Someren 1685 2020 May 16 Available at: https://ia801309.us.archive.org/8/items/gri_33125008642049/gri_33125008642049.pdf 16 16. Willis T. Cerebri anatome, cui accessit nervorum descriptio et usus. Tho. Roycroft, London (EN): Jo. Martyn & Ja. Allestry; 1664. Available at: http://books.google.com Willis T Cerebri anatome, cui accessit nervorum descriptio et usus. Tho Roycroft, London (EN) Jo. Martyn & Ja. Allestry 1664 http://books.google.com 17 17. Chvátal A. Discovering the Structure of Nerve Tissue: Part 2: Gabriel Valentin, Robert Remak, and Jan Evangelista Purkyně. J Hist Neurosci. 2015 Feb;24(4):326-51. https://doi.org/10.1080/0964704x.2014.977677 Chvátal A Discovering the Structure of Nerve Tissue: Part 2: Gabriel Valentin, Robert Remak, and Jan Evangelista Purkyně J Hist Neurosci 02 2015 24 4 326 351 https://doi.org/10.1080/0964704x.2014.977677 18 18. North AJ. Seeing is believing? A beginners' guide to practical pitfalls in image acquisition. J Cell Biol. 2006 Jan;172(1):9-18. https://doi.org/10.1083/jcb.200507103 North AJ Seeing is believing? A beginners' guide to practical pitfalls in image acquisition J Cell Biol 01 2006 172 1 9 18 https://doi.org/10.1083/jcb.200507103