Santiago Ramón y Cajal (; 1 May 1852 – 17 October 1934) was a Spanish neuroscientist, pathologist, and histologist specialising in neuroanatomy, and the central nervous system. He and Camillo Golgi received the Nobel Prize in Physiology or Medicine in 1906. Ramón y Cajal was the first Spaniard to win a scientific Nobel Prize. His original investigations of the microscopic structure of the brain made him a pioneer of modern neuroscience.

Hundreds of his drawings illustrating the arborization (tree-like growth) of brain cells are still in use, since the mid-20th century, for educational and training purposes.

Biography

Santiago Ramón y Cajal was born on 1 May 1852, in the town of Petilla de Aragón, Navarre, Spain. He was a keen painter, artist, and gymnast, but his father neither appreciated nor encouraged these abilities, even though these artistic talents would contribute to his success later in life. To aid his recovery, Ramón y Cajal spent time in the spa-town Panticosa in the Pyrenees mountain range.

After returning to Spain, he received his doctorate in medicine in Madrid in 1877. Two years later, he became director of the Anatomical Museum at the University of Zaragoza and married Silveria Fañanás García, with whom he would have seven daughters and five sons. Ramón y Cajal worked at the University of Zaragoza until 1883, when he was awarded the position of anatomy professor of the University of Valencia. His early work at these two universities focused on the pathology of inflammation, the microbiology of cholera, and the structure of epithelial cells and tissues.

thumb|upright=1.2|Self-portrait as a student, 1870s

In 1887 Ramón y Cajal moved to Barcelona for a professorship.

thumb|J. Harley Williams called Cajal the “Don Quixote of the microscope”.

In 1892, he became professor at Madrid. continuing to work even on his deathbed.

Political and religious views

In 1877, the 25-year-old Ramón y Cajal joined a Masonic lodge.

Nonetheless, Ramón y Cajal used the term soul "without any shame". He was said to later have regretted having left organized religion. Ultimately, he became convinced of a belief in God as a creator, as stated during his first lecture before the Spanish Royal Academy of Sciences.

Political ideology

In addition to being a regenerationist, Ramón y Cajal is considered a Spanish nationalist and centralist, and in this sense he interprets non-Spanish nationalisms, such as Catalan and Basque, describing them as separatist. Despite accepting the Statute of Núria, and, in the academic sphere, that classes could also be given in Catalan language at the university, he did not feel comfortable. And faced with a hypothetical dissolution of Spain, in 1937, <!-- RyC died ine 1934, before the Spanish Civil War started. --> in the midst of Spanish civil war, from the Gaceta de Melilla, he takes as his own the need for an "iron surgeon", implicitly positioning himself with the national-Catholic rebels against the Spanish Republic: Excited by the discoveries of Frederick C. Kenyon, he explored the insect visual nervous system with his colleague Domingo Sánchez y Sánchez. He was stunned by the variety of neuron types. He discovered the axonal growth cone, and demonstrated experimentally that the relationship between nerve cells was not continuous, or a single system as per then extant reticular theory, but rather contiguous;

He was an advocate of the existence of dendritic spines, although he did not recognize them as the site of contact from presynaptic cells. He was a proponent of polarization of nerve cell function and his student, Rafael Lorente de Nó, would continue this study of input-output systems into cable theory and some of the earliest circuit analysis of neural structures.

By producing depictions of neural structures and their connectivity and providing detailed descriptions of cell types he discovered a new type of cell, which was subsequently named after him, the interstitial cell of Cajal (ICC). This cell is found interleaved among neurons embedded within the smooth muscles lining the gut, serving as the generator and pacemaker of the slow waves of contraction which move material along the gastrointestinal tract, mediating neurotransmission from motor neurons to smooth muscle cells.

In his 1894 Croonian Lecture, Ramón y Cajal suggested (in an extended metaphor) that cortical pyramidal cells may become more elaborate with time, as a tree grows and extends its branches.

He studied some psychological phenomena, such as hypnotic suggestion to alleviate pain, which he used to help his wife during labor. A book he had written on these topics was lost during the Spanish Civil War.

During his studies on the optic chiasma, Cajal developed a visual map-based theory offering an evolutionary explanation for the decussation of nerve fibres and the chiasm of the optic tract.

Distinctions

thumb|upright=1.0|Ramón y Cajal's 1906 Nobel certificate; [[Museo Nacional de Ciencias Naturales, Madrid]]

Ramón y Cajal received many prizes, distinctions, and societal memberships during his scientific career, including honorary doctorates in medicine from Cambridge University and Würzburg University and an honorary doctorate in philosophy from Clark University. The most famous distinction he was awarded was the Nobel Prize in Physiology or Medicine in 1906, together with the Italian scientist Camillo Golgi "in recognition of their work on the structure of the nervous system". Before Ramón y Cajal's work, Norwegian scientist Fridtjof Nansen had established the contiguous nature of nerve cells in his study of certain marine life, which Ramón y Cajal failed to cite. Ramón y Cajal was an International Member of both the United States National Academy of Sciences and the American Philosophical Society.

In society and culture

thumb|Monument at [[Retiro Park]]

In 1906 Joaquin Sorolla y Bastida painted Cajal's official portrait celebrating his Nobel Prize win.

Cajal posed for a statue that was created by the sculptor Mariano Benlliure and was installed in 1924 in the Paraninfo building at the School of Medicine of the University of Zaragoza.

In 1931 a monument was unveiled in Madrid, Spain. This full-body statue stands 3 meters (around 10&nbsp;ft) high on a narrow pedestal and was created by Lorenzo Domínguez, a Chilean medical student.

In 1935, El Banco De España issued a 50 peseta banknote featuring a portrait of Cajal on the front and the Cajal Monument in Retiro Park on the back.

thumb|50 peseta banknote from 1935 – front side

thumb|50 peseta banknote from 1935 – reverse side

1982 a TV mini series was created in Spain titled Ramón y Cajal: Historia de una voluntad.

In 2003, the first major exhibition of Cajal's scientific drawings opened in Madrid, Spain. The exhibition featured hundreds of restored original drawings, micrographic slides, and personal photographs created by Cajal. The accompanying catalog titled Santiago Ramon y Cajal (1852–2003) Ciencia y Arte features numerous high quality reproductions of Cajal's drawings and photo essays on the restoration process. Exhibition curators and contributing authors to the catalog include: Santiago Ramón y Cajal Junquera, Miguel Ángel Freire Mallo, Paloma Esteban Leal, Pablo García, Virginia G. Marin, Ma Cruz Osuna, Isabel Argerich Fernández, Paloma Calle, Marta C. Lopera, Ricardo Martínez, Pilar Sedano Espín, Eugenia Gimeno Pascual, Sonia Tortajada, and Juan Antonio Sáez Dégano.

In 2005 the asteroid 117413 Ramonycajal was named after him by Juan Lacruz.

In 2007, sculptures of Severo Ochoa and Santiago Ramón y Cajal created by Víctor Ochoa were unveiled at the Spanish National Research Council central headquarters in Madrid, Spain.

Santiago Ramón y Cajal Museum, Ayerbe, Huesca, Spain opened in 2013 and is located in Cajal's childhood home, where he lived with his family for ten years.

In 2014, the National Institutes of Health initiated an ongoing exhibition of original Ramón y Cajal drawings in the John Porter Neuroscience Research Center, located in the NIH central campus in Bethesda, MD, USA. The exhibition concept was spearheaded by NINDS Senior Researcher Jeffery Diamond and NINDS science writer Christopher Thomas and was made possible through close collaboration with the Instituto Cajal, Madrid, Spain. The exhibition also includes contemporary artwork curated by Jeff Diamond, which was created by artists Rebecca Kamen and Dawn Hunter. Inspired by Cajal's original drawings, Kamen's and Hunter's artworks are thematically representative of Cajal's aesthetic and are on permanent display for the public at the John Porter Neuroscience Research Center. Through the award of a 2017–2018 Fulbright España Senior Research Fellowship to the Instituto Cajal, Madrid, Spain, Hunter continued to develop her creative project about Cajal by referencing original source material.

A selection of Cajal's scientific drawings, personal photos, oil paintings, and pastel drawings were curated into the 14th Istanbul Biennial, Saltwater, that was held in Istanbul, Turkey from September 5 – November 1, 2015.

The exhibition Fisiología de los Sueños. Cajal, Tanguy, Lorca, Dalí... opened on October 5, 2015, and ended on January 16, 2016, at the University of Zaragoza, Zaragoza, Spain. Cajal's work was the centerpiece topic of the exhibition and the show explored the influence of histological drawings on Surrealism.

From January 31 – May 29, 2016, Cajal's work was featured in the inaugural exhibition for the re-opening of University of California's Berkeley Art Museum and Pacific Film Archive Architecture of Life. The catalog for the exhibition featured Cajal's drawing of the Purkinje Cell on the front cover.

The National Institutes of Health, USA, and the Instituto Cajal, Spain, held collaborative symposiums honoring Cajal on October 28, 2015, and May 24, 2017. The first symposium held at the NIH in 2015 was titled Bridging the Legacy of Santiago Ramón y Cajal, a symposium honoring the father of modern neuroscience.  Keynote speaker Dr. Rafael Yuste was honored at a reception held at the Spanish Ambassador's, Ramón Gil-Casares, home.  The second symposium titled, New Opportunities for NIH-CSIC Collaboration, was held at the Instituto Cajal in 2017.  Dawn Hunter's Cajal Inventory art project was exhibited at the symposium for the general public in the institute's library. The Cajal Inventory consists of forty-five 11” x 14” drawings in which Hunter recreated in fine detail Cajal's scientific drawings from primary source, and surreal portrait drawings of Cajal inspired by his photography.

Every year since 2001, more than two hundred postdoctoral scholarships are awarded by the Spanish Ministry of Science to middle career scholars from different fields of knowledge. They are called "Ayudas a contratos Ramón y Cajal" to honor his memory.

An exhibition called The Beautiful Brain: The Drawings of Santiago Ramón y Cajal travelled through North America, beginning 2017 in the US at the Weisman Art Museum in Minneapolis, Minnesota. The exhibition traveled to the Morris and Helen Belkin Art Gallery, University of British Columbia, Vancouver, British Columbia, Canada, Grey Art Gallery, New York University, New York City, New York, USA, MIT Museum, Massachusetts Institute of Technology Cambridge, Massachusetts, USA, and ended in April 2019 at the Ackland Art Museum in Chapel Hill, North Carolina, USA. The Beautiful Brain book, published by Abrams, New York, accompanied the exhibition.

During 2019, the University of Zaragoza, Zaragoza, Spain opened an exhibition about Cajal titled Santiago Ramón y Cajal. 150 years at the University of Zaragoza. The exhibition had an accompanying catalog that featured the same title. The exhibition opened October 2019 and closed at the end of December 2019.

A short documentary by REDES is available on YouTube.

From November 19, 2020, to December 5, 2021, the National Museum of Natural Sciences, Madrid, Spain, hosted an exhibition featuring Cajal's scientific drawings, photographs, scientific equipment and personal objects from the Legado Cajal, Instituto Cajal, Madrid, Spain.

In 2020, over 75 volunteers collaborated as part of The Cajal Embroidery Project across 6 countries to create 81 intricate, exquisite hand-stitched panels of Ramón y Cajal's images, which were then curated and displayed by Edinburgh Neuroscience at the virtual FENS 2020 Forum, and showcased by The Lancet Neurology in their front covers in 2021.

In 2017, UNESCO (the United Nations Educational, Scientific and Cultural Organization) recognised Cajal's Legacy (which had been kept in a museum from 1945 to 1989) as a World Heritage treasure. Recognising that this cultural treasure deserves a dedicated museum, showcasing not only Cajal's but also his disciples’ legacies, there has been a call for a dedicated museum to commemorate and celebrate Ramón y Cajal's discoveries and impact on neuroscience.

Project Encephalon organised Cajal Week to celebrate his 169th birth anniversary from 1 May to 7 May 2021.

The Brain In Search Of Itself, an English language biography, was published in 2022.

Publications

He published more than 100 scientific works and articles in Spanish, French and German. Among his works were:

<gallery>

File:Cajal (1888) firt drawing of nervous system.gif|First illustration by Cajal (1888) of the nervous system. (A) First page of the article. (B) Vertical section of a cerebellar convolution of a hen. (C) Cerebellum of an adult bird. (D) Higher magnification of (C) showing Purkinje cell. (E) Dendrite of the Purkinje cell.

File:CajalHippocampus.jpeg|Drawing of the neural circuitry of the rodent hippocampus. , Vols. 1 and 2. A. Maloine. Paris. 1911

File:CajalCerebellum.jpg|Drawing of the cells of the chick cerebellum, from "", Madrid, 1905

File:SparrowTectum.jpg|Drawing of a section through the optic tectum of a sparrow, from "", Madrid, 1905

File:Cajal Retina.jpg|From "Structure of the Mammalian Retina" Madrid, 1900

File:PurkinjeCell.jpg|Drawing of Purkinje cells (A) and granule cells (B) from pigeon cerebellum by Santiago Ramón y Cajal, 1899. Instituto Santiago Ramón y Cajal, Madrid, Spain

File:Cajal-Retzius cell drawing by Cajal 1891.gif|Drawing of Cajal-Retzius cells, 1891

File:Cajal cortex drawings.png|Drawn in 1899, taken from the book "Comparative study of the sensory areas of the human cortex"

File:CajalChiasmTheory.png|alt=Drawing, showing how arrow halves are projected on the eyes' retina, crossed by the optic chiasm and mapped correctly to the visual cortex|schema of the visual map theory (1898). O=Optic chiasm; C=Visual (and motor) cortex; M, S=Decussating pathways; R, G: Sensory nerves, motor ganglia.

File:Purkinje cell by Cajal.png|alt=Purkinje cell by Cajal|Purkinje cell of the human cerebellum. Golgi method. -a, axon; b, recurrent collateral; c and d, spaces in the dendritic arborization for stellate cells, by Santiago Ramón y Cajal. (See Fig. 9 in Ref.)

</gallery>

See also

  • List of pathologists

Notes

Bibliography

Further reading

  • Wilkinson, Alec, "Illuminating the Brain's 'Utter Darkness'" (review of Benjamin Ehrlich, The Brain in Search of Itself: Santiago Ramón y Cajal and the Story of the Neuron, Farrar, Straus and Giroux, 2023, 447 pp.; and Timothy J. Jorgensen, Spark: The Life of Electricity and the Electricity of Life, Princeton University Press, 2021, 436 pp.), The New York Review of Books, vol. LXX, no. 2 (February 9, 2023), pp.&nbsp;32, 34–35.
  • (Review of the work of the 1906 Nobel Prize in Physiology or Medicine winners Camillo Golgi and Santiago Ramón y Cajal)
  • including the Nobel Lecture on December 12, 1906 The Structure and Connexions of Neurons
  • Marina Bentivoglio Life and discoveries of Cajal Nobel Prizes and Laureates, 20 April 1998
  • Cajal's Láminas ilustrativas Centro Virtual Cervantes
  • Javier de Felipe Brief overview of Ramón y Cajal's career www.psu.edu The Pennsylvania State University, 1998