Historical postmortem studies on catatonia: Close reading and analysis of Kahlbaum's cases and scientific texts between 1800 and 1900.

In the 19th century, postmortem brain examination played a central role in the search for the neurobiological origin of psychiatric and neurological disorders. During that time, psychiatrists, neurologists, and neuropathologists examined autopsied brains from catatonic patients and postulated that catatonia is an organic brain disease. In line with this development, human postmortem studies of the 19th century became increasingly important in the conception of catatonia and might be seen as precursors of modern neuroscience. In this report, we closely examined autopsy reports of eleven catatonia patients of Karl Ludwig Kahlbaum. Further, we performed a close reading and analysis of previously (systematically) identified historical German and English texts between 1800 and 1900 for autopsy reports of catatonia patients. Two main findings emerged: (i) Kahlbaum's most important finding in catatonia patients was the opacity of the arachnoid; (ii) historical human postmortem studies of catatonia patients postulated a number of neuroanatomical abnormalities such as cerebral enlargement or atrophy, anemia, inflammation, suppuration, serous effusion, or dropsy as well as alterations of brain blood vessels such as rupture, distension or ossification in the pathogenesis of catatonia. However, the exact localization has often been missing or inaccurate, probably due to the lack of standardized subdivision/nomenclature of the respective brain areas. Nevertheless, Kahlbaum's 11 autopsy reports and the identified neuropathological studies between 1800 and 1900 made important discoveries, which still have the potential to inform and bolster modern neuroscientific research in catatonia.

Early Australian neuroscientists and the tyranny of distance.

Australian neuroscientists at the turn of the twentieth century and in the succeeding decades faced formidable obstacles to communication and supply due to their geographical isolation from centers of learning in Europe and North America. Consequently, they had to spend significant periods of their lives overseas for training and experience. The careers of six pioneers-Laura Forster, James Wilson, Grafton Elliot Smith, Alfred Campbell, Raymond Dart, and John Eccles-are presented in the form of vignettes that address their lives and most enduring scientific contributions. All six were medically trained and, although they never collaborated directly with one another, they were linked by their neuroanatomical interests and by shared mentors, who included Nobelists Ramon y Cajal and Charles Sherrington. By the 1960s, as the so-called "tyranny of distance" was overcome by advances in communication and transport technology, local collaborative groups of neuroscientists emerged in several Australian university departments that built on the individual achievements of these pioneers. This in turn led to the establishment of the Australasian Neuroscience Society in 1981.

The history of Danish neuroscience.

The history of Danish neuroscience starts with an account of impressive contributions made at the 17th century. Thomas Bartholin was the first Danish neuroscientist, and his disciple Nicolaus Steno became internationally one of the most prominent neuroscientists in this period. From the start, Danish neuroscience was linked to clinical disciplines. This continued in the 19th and first half of the 20th centuries with new initiatives linking basic neuroscience to clinical neurology and psychiatry in the same scientific environment. Subsequently, from the middle of the 20th century, basic neuroscience was developing rapidly within the preclinical university sector. Clinical neuroscience continued and was even reinforced during this period with important translational research and a close co-operation between basic and clinical neuroscience. To distinguish 'history' from 'present time' is not easy, as many historical events continue in present time. Therefore, we decided to consider 'History' as new major scientific developments in Denmark, which were launched before the end of the 20th century. With this aim, scientists mentioned will have been born, with a few exceptions, no later than the early 1960s. However, we often refer to more recent publications in documenting the developments of initiatives launched before the end of the last century. In addition, several scientists have moved to Denmark after the beginning of the present century, and they certainly are contributing to the present status of Danish neuroscience-but, again, this is not the History of Danish neuroscience.

On the history of neuroscience research in the Max Planck Society, 1948-2002-German, European, and transatlantic perspectives: Introduction.

To further our understanding of the transformations of the modern, globalized world, historical research concerning the twentieth century must acknowledge the tremendous impact that science and technology exerted and continue to exert on political, economic, military, and social developments. To better comprehend a global history of science, it is also crucial to include Germany's most prominent research organization: The Max Planck Society for the Advancement of Science (MPG). Despite the existence of numerous institute chronicles and selected anniversary editions, the overall development of the MPG-historically situated in more than 80 institutes with more than 250 research service departments (of which approximately 50 have reached into the wider field of neuroscience, behavioral science, and cognitive science)-it remains largely terra incognita from a scholarly perspective. From June 2014 to December 2022, the Research Program on the History of the Max Planck Society (GMPG) opened previously neglected vistas on contemporary history, academic politics, and economic developments of the Federal Republic of Germany and its international relations by raising questions such as these: Who were the key scientific actors? In what networks did they work? In what fields had the MPG paved the way for cutting-edge innovations? What were its successes and where did it fail? In what ways were its institutional structures connected to its scientific achievements and its historical legacies? What is specific about the MPG in comparison to other national institutions in and outside of Germany? These questions relate to the emerging interdisciplinary field of the neurosciences. They refer in part to the MPG's founding years-from the late 1940s to the mid-1960s-which faced significant challenges for a "normalization process" in biomedical research and the burgeoning field of neuroscience. This special issue of the Journal of the History of the Neurosciences is composed of an introduction, five articles, and two neuroscience history interviews. It reflects on the multifold dimensions of behavioral psychology, brain research, and cognitive science developments at the MPG since its beginning through the reopening of several former Kaiser Wilhelm Institutes. After World War II, the extra-university research society-named in honor of physicist Max Planck (1858-1947)-was eventually established in the British Occupation Zone in 1946, in the American Zone in 1948, and in 1949 in the French Zone, unifying the MPG as the successor umbrella organization of the Kaiser Wilhelm Institutes (KWIs), now transformed into Max Planck Institutes. Chronologically, the research period covered in this special issue ranges from 1948 to 2002.

Is Another kind of Biologization Possible? On Biology and the psy Sciences.

The relationship between biology and the psy disciplines (psychology, psychiatry, and psychotherapy) is a complex one. Many scholars have criticized how these disciplines have been biologized in the 20th century, especially since the emergence of psychopharmacology, neuroscience, and genetic research. However, biology is not just a laboratory-based science of chemical compounds, scanners, and DNA sequencing, but also a field science based on observations of organisms in their milieus. In this paper, we draw a contrast between laboratory-based biology with a focus on brains and genes, and an ecology-based biology with a focus on lives and niches. Our argument is philosophical in nature - building partly on Wittgenstein as a "philosopher of life" - to the effect that the psy sciences need not just less biologization of the former kind, but also more biologization of the latter kind to avoid a prevalent mentalism. Not least when it comes to an understanding of psychological distress, which can favorably be viewed situationally and coupled to human lives in ecological niches.

Pliny the Elder: Lessons from the Naturalist as an Early Neuroscientist.

Pliny the Elder was a prolific Roman author, naturalist, and military leader. Yet, his impact on modern-day neuroscience, psychiatry, and neurology has been little explored. Here, we aimed to trace the origins of our current understanding of the brain in ancient Rome through Pliny and his work, Natural History. As his magnum opus, this 37-book tome catalogs the facts and observations of natural life collected by Pliny, reflecting the knowledge of his time. Following the cephalocentric school of thought, Pliny places the brain as an agent for consciousness and details its diseases. Further, we explore Pliny's methods, which allow him to build a thorough collection of clinical descriptions and remedies. This body of work serves as an important lesson for future neuroscientists on the power of observation, the role of the humanities, and the necessity of understanding the origin of modern scientific thinking.

A modern history of neurosurgery and neurology in India: lessons for the world.

The compendia of medical knowledge of the great ancient Indian physicians Susruta, Caraka, Jivaka, and Vagbhata all attest to the practice of neurosurgery and neurology starting in the 1st millennium bce. Although a period of scientific stagnation ensued between the 12th and 20th centuries ce, Indian medical neurosciences once again flourished after India's independence from British rule in 1947. The pioneers of modern Indian neurosurgery, neurology, and their ancillary fields made numerous scientific and clinical discoveries, advancements, and innovations that proved influential on a global scale. Most importantly, the efforts of Indian neurosurgeons and neurologists were unified at the national level through the Neurological Society of India, which was established in 1951 and enabled an unprecedented degree of collaboration within the aforementioned medical specialties. The growth and success of the Indian model bears several lessons that can be applied to other nations in order to garner better collaboration among neurosurgeons, neurologists, and physicians in related fields. Here, the authors elaborate on the origins, growth, and development of neurosurgery and neurology in India and discuss their current state in order to glean valuable lessons on interdisciplinary collaboration, which forms the basis of the authors' proposal for the continued growth of societies dedicated to medical neurosciences across the world.

Thomas Willis' legacy on the 400th anniversary of his birth.

To celebrate the 400th anniversary of the birth of Thomas Willis, his main contributions to the development of neurosciences, in particular neurology, are presented. Willis coined the term neurology and contributed significantly to the field of neuroanatomy, with the description of the arterial circle-located at the base of the brain-, which bears his name. He also described the striatum and cranial nerves. Furthermore, as a clinical neurologist, Willis participated in the description of various diseases, including myasthenia gravis and restless legs syndrome.

Na comemoração dos 400 anos de nascimento de Thomas Willis, são apresentadas as suas principais contribuições para o desenvolvimento das neurociências, em particular a neurologia. Willis cunhou o termo neurologia, contribuiu significativamente na área de neuroanatomia, com a descrição do círculo arterial localizado na base do cérebro, que tem o seu nome, além da descrição do corpo estriado, e de nervos cranianos. Da mesma forma, como neurologista clínico, Willis participou da descrição de várias doenças como a miastenia gravis e da síndrome das pernas inquietas, entre outras doenças.

[Hermeneutics of Neural Activity: The Relationship Between Brain Activity from Multiple Perspectives].

From the 20th century to the 21st century, rapid progress has been made in the field of neuroscience due to the application of single-cell and multi-channel recording techniques to awake animals while they are engaged in behavioral tasks. As a result, neuroscience has challenged areas that were previously thought to fall within the field of psychology. However, several problems have been pointed out regarding the discourse and literacy of neuroscience. Therefore, in this essay, I will discuss interpretations of neural activity from three perspectives: causality, part-whole relationships, and inside-out vs. outside-in research approaches.

The quest for objectivity and measurements in phrenology's "bumpy" history.

Phrenology is based on correlating character traits with visible or palpable cranial bumps (or depressions) thought to reflect underlying brain areas differing in size and levels of activity. Franz Joseph Gall, who introduced the doctrine during the 1790s, relied heavily on seeing and feeling skulls when he formulated his theory, as did Johann Spurzheim, who served as his assistant until 1813 and then set forth on his own. But Peter Mark Roget, a British critic of the doctrine, first assailed these methods as too subjective in 1818, and never changed his mind. George Combe, a Scotsman who admired Spurzheim, introduced calipers and other measuring instruments during the 1820s, hoping to make phrenology more like the admired physical sciences. In the United States, the Fowlers also called for more numbers, including measuring distances between the cortical sites above the organs of mind. Nonetheless, phrenologists realized they faced formidable barriers when it came to measuring the physical organs of mind, as opposed to basic skull dimensions. This essay examines the subjectivity that left phrenology open to criticism and shows how some phrenologists tried to overcome it. It also shows how vision and touch remained features of phrenological examinations throughout the numbers-obsessed 19th century. (PsycInfo Database Record (c) 2022 APA, all rights reserved).

Kresimir Krnjevic (1927-2021) and GABAergic inhibition: a lifetime dedication.

After over seven decades of neuroscience research, it is now well established that γ-aminobutyric acid (GABA) is the main inhibitory neurotransmitter in the brain. In this paper dedicated to Kresimir Krnjevic (1927-2021), a pioneer and leader in neuroscience, we briefly highlight the fundamental contributions he made in identifying GABA as an inhibitory neurotransmitter in the brain and our personal interactions with him. Of note, between 1972 and 1978 Dr. Krnjevic was a highly reputed Chief Editor of the Canadian Journal of Physiology and Pharmacology.