Camillo Golgi's scientific biography

Born in Corteno, a tiny village in the province of Brescia, Camillo Golgi studied at the University of Pavia where he graduated in medicine in 1865 under the guidance of the psychiatrist Cesare Lombroso who sparked his vocation to study the brain. Golgi then began to learn histological techniques under the direction of the pathologist Giulio Bizzozero. In 1872 he moved to Abbiategrasso as chief of a hospital for chronic diseases. In a rudimentary laboratory he developed the silver-bichromate staining technique, the 'black reaction', which was a breakthrough for nervous tissue structure research. While in Abbiategrasso Golgi demonstrated the branching of the axons, and observed striatal and cortical lesions in a case of chorea. He returned to Pavia as Professor of Histology and General Pathology, and made a series of important discoveries that still bear his name: the Golgi tendon organ, the Golgi-Mazzoni corpuscles, another Golgi method to stain nerve cells based on the use of potassium dichromate and mercuric chloride, the canaliculi of the parietal cells of the gastric glands (Muller-Golgi tubules), the Golgi-Rezzonico myelin's annular apparatus (or Golgi-Rezzonico horny funnels), the cycle of malarian parasites (Golgi cycle), the relationship between recurrent malarian fever bouts and the multiplication of the Plasmodium in the blood (Golgi law), the relationship between the vascular pole of the Malpighian glomerulus and the distal tubule, the Golgi's pericellular nets and finally, and most importantly, the cytoplasmic 'internal reticular apparatus' (Golgi apparatus). In 1906 Golgi was awarded the Nobel prize for Medicine or Physiology. He died in Pavia on 21 January 1921.     

Camillo Golgi's Scientific Biography

Born in Corteno, a tiny village in the province of Brescia, Camillo Golgi studied at the University of Pavia where he graduated in medicine in 1865 under the guidance of the psychiatrist Cesare Lombroso who sparked his vocation to study the brain. Golgi then began to learn histological techniques under the direction of the pathologist Giulio Bizzozero. In 1872 he moved to Abbiategrasso as chief of a hospital for chronic diseases. In a rudimentary laboratory he developed the silver-bichromate staining technique, the ‘black reaction’, which was a breakthrough for nervous tissue structure research. While in Abbiategrasso Golgi demonstrated the branching of the axons, and observed striatal and cortical lesions in a case of chorea. He returned to Pavia as Professor of Histology and General Pathology, and made a series of important discoveries that still bear his name: the Golgi tendon organ, the Golgi-Mazzoni corpuscles, another Golgi method to stain nerve cells based on the use of potassium dichromate and mercuric chloride, the canaliculi of the parietal cells of the gastric glands (Müller-Golgi tubules), the Golgi-Rezzonico myelin's annular apparatus (or Golgi-Rezzonico horny funnels), the cycle of malarian parasites (Golgi cycle), the relationship between recurrent malarian fever bouts and the multiplication of the Plasmodium in the blood (Golgi law), the relationship between the vascular pole of the Malpighian glomerulus and the distal tubule, the Golgi's pericellular nets and finally, and most importantly, the cytoplasmic ‘internal reticular apparatus’ (Golgi apparatus). In 1906 Golgi was awarded the Nobel prize for Medicine or Physiology. He died in Pavia on 21 January 1921.     

Louis Muskens: a leading figure in the history of Dutch and world epileptology

In the history of Dutch neurology Muskens has a place in his own right. Elderly neurologists still attest to the special fame of Muskens. He held a strong opinion on developing the specialty of neurology independent of psychiatry. At the same time he maintained that surgery of the nervous system also should be included in the realm of neurology. These views met with considerable opposition from colleagues and led to Muskens' isolation. To the field of epileptology he contributed both clinical and experimental neurological studies. With Donath he was the co-founder of the International League Against Epilepsy in 1909. In addition he held a lifelong interest in the pathophysiology of forced movements, which he studied both in human pathology and in experimental studies throughout the vertebrate series. This resulted in his magnum opus on the supravestibular system in 1935. His scientific work was well received in scientific societies all over Europe.     

Louis Muskens: A Leading Figure in the History of Dutch and World Epileptology

In the history of Dutch neurology Muskens has a place in his own right. Elderly neurologists still attest to the special fame of Muskens. He held a strong opinion on developing the specialty of neurology independent of psychiatry. At the same time he maintained that surgery of the nervous system also should be included in the realm of neurology. These views met with considerable opposition from colleagues and led to Muskens’ isolation. To the field of epileptology he contributed both clinical and experimental neurological studies. With Donath he was the co-founder of the International League Against Epilepsy in 1909. In addition he held a lifelong interest in the pathophysiology of forced movements, which he studied both in human pathology and in experimental studies throughout the vertebrate series. This resulted in his magnum opus on the supravestibular system in 1935. His scientific work was well received in scientific societies all over Europe.     

The death of Sir Victor Horsley (1857–1916) and his burial in Amarah

Sir Victor Alexander Haden Horsley (1857–1916), the pioneering British neurological surgeon, passed away 100 years ago. He died young in his sixtieth year from the effects of heat stroke while serving as consulting military surgeon to the Mediterranean Expeditionary Force in Amarah, modern-day Iraq, and was buried in the now largely abandoned “Amara War Cemetery.” By the time of his death in 1916, Victor Horsley had established himself as one of the most eminent innovators of modern neurological surgery. His pioneering researches in cerebral physiology earned him an early reputation in the field, and his experiences with vivisection allowed him to confidently operate on the brain and spinal cord at a time when surgical intervention of the nervous system was fraught with uncertainty. Outside the operating theatre, Horsley was a proud advocate for a number of sometimes controversial sociopolitical issues; national temperance, women’s suffrage, and medical unionism particularly interested him. He brought the same courageousness to the British army during the First World War, and labored tirelessly under considerable hardships to improve the conditions for soldiers. Otherwise robust and healthy, it was only through great self-denial and overwork that Horsley suddenly succumbed to the burning heat of Mesopotamia. He died as he lived—a fearless and painstaking fighter for the common man. His was a most beautiful life of unselfish devotion to others.     

G.I. Rossolimo (1860-1928) neurologist and public benefactor

G.I. Rossolimo was attracted to neurology as a medical student in the late nineteenth century and remained affiliated with Moscow University most of his life. His training included psychiatry, neuropathology, and laboratory research in his postgraduate years. The domain of his neurological clinical interests was vast. His most enduring efforts were directed toward neurological illnesses and developmental delay. He established a children's institute for neurology and psychology that was the first of its kind in Russia. In addition he developed a neuropsychologic examination for assessing cognitive function. His sustained interests were pursued during and after revolutionary changes in his government.     

Book Review

Gustaf Retzius (1842–1919), the Swedish anatomist and anthropologist, and Camillo Golgi were contemporaries. They met on several occasions and came in closer contact when Golgi, together with Ramón y Cajal, was awarded the Nobel Prize in Physiology or Medicine in Stockholm in 1906. Retzius came from an illustrious family. His father was professor of anatomy at Karolinska Institutet and Gustaf himself made a fast career. At 35, he was appointed to a professorship in histology, especially created for him at Karolinska Institutet, and later he became professor of anatomy in the same institution. Retzius was exceedingly productive, and published more than 300 scientific papers, most of which dealt with the nervous system and sensory organs. The majority of these were included in his magnificent volumes Biologische Untersuchungen, Neue Folge (Biological Investigations, New Series), which appeared from 1890 to 1921, and in Das Gehörorgan der Wirbelthiere (“The Acoustic Organ of Vertebrates”, 1881 and 1884), which may be his internationally better known contribution. Much of his work, especially on invertebrates, was based on Ehrlich's methylene blue method, but he also used the Golgi method early on. Particularly his studies of the innervation of the sensory organs became of great importance for the support of the neuron doctrine. His standing internationally was reflected in his membership in many of the most prominent academies abroad, as well as in invitations to him to give a “Croonian Lecture” in 1908 and “The Huxley Lecture” in 1909.     

Gustaf Retzius and Camillo Golgi

Gustaf Retzius (1842-1919), the Swedish anatomist and anthropologist, and Camillo Golgi were contemporaries. They met on several occasions and came in closer contact when Golgi, together with Ramon y Cajal, was awarded the Nobel Prize in Physiology or Medicine in Stockholm in 1906. Retzius came from an illustrious family. His father was professor of anatomy at Karolinska Institutet and Gustaf himself made a fast career. At 35, he was appointed to a professorship in histology, especially created for him at Karolinska Institutet, and later he became professor of anatomy in the same institution. Retzius was exceedingly productive, and published more than 300 scientific papers, most of which dealt with the nervous system and sensory organs. The majority of these were included in his magnificent volumes Biologische Untersuchungen, Neue Folge (Biological Investigation, New Series), which appeared from 1890 to 1921, and in Das Gehororgan der Wirbelthiere ("The Acoustic Organ of Vertebrates", 1881 and 1884), which may be his internationally better know contribution. Much of his work, especially on invertebrates, was based on Ehrlich's methylene blue method, but he also used the Golgi method early on. Particularly his studies of the innervation of the sensory organs became of great importance for the support of the neuron doctrine. His standing internationally was reflected in his membership in many of the most prominent academies abroad, as well as in invitations to him to give a "Croonian Lecture" in 1908 and "The Huxley Lecture" in 1909.     

The impossible interview with the man of the neuron doctrine. Interview by Edward G Jones

This paper follows the form of that by Mazzarello that precedes it (Mazzarello, 2006) and presents an imaginary interview with Santiago Ramón y Cajal in December 1906. A few days earlier Cajal had been awarded the Nobel Prize for Physiology or Medicine, an award that he shared equally with Professor Camillo Golgi. Golgi had been recognized for his work as a pioneer into investigations of the nervous system, primarily on account of his discovery of the "black reaction" of silver chromate impregnation of whole nerve cells and their processes. Cajal had been recognized for his implementation of that method and for laying with it the foundations of what was to become modern neuroanatomical science. Paradoxically, the two awardees had been led by their researches to diametrically opposed views of the organization of the nervous system. Golgi believed in a continuous network of axons that formed the basis of all the integrative properties of the nervous system, while Cajal had provided the information that led to the formulation of the neuron doctrine that saw the nervous system as being made up of chains of discontinuous cells joined by polarized functional contacts that we now call synapses. The paper takes the form of an interview with Professor Cajal in the Grand Hotel Stockholm. His responses to questions posed by the imaginary interviewer are all taken from Cajal's own writings.     

Professor Camillo Negro’s Neuropathological Films

Camillo Negro, Professor in Neurology at the University of Torino, was a pioneer of scientific film. From 1906 to 1908, with the help of his assistant Giuseppe Roasenda and in collaboration with Roberto Omegna, one of the most experienced cinematographers in Italy, he filmed some of his patients for scientific and educational purposes. During the war years, he continued his scientific film project at the Military Hospital in Torino, filming shell-shocked soldiers. In autumn 2011, the Museo Nazionale del Cinema, in partnership with the Faculty of Neurosciences of the University of Torino, presented a new critical edition of the neuropathological films directed by Negro. The Museum’s collection also includes 16 mm footage probably filmed in 1930 by Doctor Fedele Negro, Camillo’s son. One of these films is devoted to celebrating the effects of the so-called “Bulgarian cure” on Parkinson’s disease.     

Cajal's brief experimentation with hypnotic suggestion

Spanish histologist Santiago Ramón y Cajal, one of the most notable figures in Neuroscience, and winner, along with Camillo Golgi, of the 1906 Nobel Prize in Physiology or Medicine for his discoveries on the structure of the nervous system, did not escape experimenting with some of the psychiatric techniques available at the time, mainly hypnotic suggestion, albeit briefly. While a physician in his thirties, Cajal published a short article under the title, "Pains of labour considerably attenuated by hypnotic suggestion" in Gaceta Médica Catalana. That study may be Cajal's only documented case in the field of experimental psychology. We here provide an English translation of the original Spanish text, placing it historically within Cajal's involvement with some of the key scientific and philosophical issues at the time.     

Cajal's Brief Experimentation with Hypnotic Suggestion

Spanish histologist Santiago Ramón y Cajal, one of the most notable figures in Neuroscience, and winner, along with Camillo Golgi, of the 1906 Nobel Prize in Physiology or Medicine for his discoveries on the structure of the nervous system, did not escape experimenting with some of the psychiatric techniques available at the time, mainly hypnotic suggestion, albeit briefly. While a physician in his thirties, Cajal published a short article under the title, “Pains of labour considerably attenuated by hypnotic suggestion” in Gaceta Médica Catalana. That study may be Cajal's only documented case in the field of experimental psychology. We here provide an English translation of the original Spanish text, placing it historically within Cajal's involvement with some of the key scientific and philosophical issues at the time.     

The history of neurology in St. Petersburg

This article expounds the history of the formation and development of neurology in St. Petersburg and emphasizes the original character of St. Petersburg school of neurology. The authors state that many prominent neurologists of St. Petersburg dedicated their work to the development of neurological concepts and have made an important contribution to different areas of neurology, including vascular and demyelinating diseases, diseases of the peripheral nervous system, neuroinfections, epilepsy, etc.     

The Experiments of Ramón M. Termeyer SJ on the Electric Eel in the River Plate Region (c. 1760) and other Early Accounts of Electrophorus electricus

Dr. Haakon Sæthre was a leader of Norwegian neurology and psychiatry. He was resourceful, compassionate and had immense pride in his independent homeland. He described Sæthre-Chotzen syndrome (acrocephalosyndactyly type III). When Nazi Germany occupied Norway during World War II, Sæthre fearlessly and actively resisted, from revoking his medical association membership, to hiding persecuted Jews as patients in his psychiatric ward and aiding in their escape to Sweden, to managing the largest “illegal” food warehouse in Oslo with Danish humanitarian aid. As a prominent and noticeable citizen, he was arrested and executed by the Nazis in reprisal for the resistance's assassination of a hated Norwegian Nazi. His legacy lives on in Norway, where he was honored by a scholarship fund, a portrait and multiple plaques at Ullevål Hospital, and a street and memorial statue in his hometown. He was a hero and should be remembered by all who practice neurology.