Justo Gonzalo


Justo Gonzalo y Rodríguez-Leal, was a Spanish neuroscientist who was born in Barcelona and died in Madrid. After obtaining his bachelor's degree in medicine he specialized in Austria and Germany with a grant from the Junta para Ampliación de Estudios e Investigaciones Científicas, and subsequently carried out extensive research on human brain functions based largely on brain injuries from the Spanish Civil War. He characterized what he called the central syndrome of the cortex, which he interpreted based on physiological laws of nervous excitability and a model of brain dynamics where the cortex is conceived as a dynamic functional unit with specificity in gradation, providing a solution to the question of brain localization. He described and interpreted phenomena such as inverted perception and multisensory and motor facilitation, among others. By applying concepts of dynamic similarity, he formulated and proved allometric power laws in the loss of functions and in the sensory organization. He belonged to the Spanish National Research Council from 1942 until his retirement, and he was lecturer of 21 PhD courses on brain physiopathology at the Faculty of Medicine in the University of Madrid. He received awards from the CSIC, the Royal Academy of Medicine and the Spanish Society of Psychology.

His scientific contribution

His book Investigaciones sobre la nueva Dinámica Cerebral. La actividad cerebral en función de las condiciones dinámicas de la excitabilidad nerviosa
contains part of his fundamental contributions and is the first time that the term Brain Dynamics is used in the scientific literature to describe the organization of sensory functions. It consists of two volumes, the first one published in 1945 focused on visual functions and the second one published in 1950 dedicated to tactile functions and where concepts exposed in the first one are expanded. In this book the author exposes what he called central syndrome of the cortex, as a multisensory affection with bilateral symmetry, originated by a unilateral parieto-occipital cortical lesion in an associative area equidistant from the visual, tactile, and auditory projection areas.
The syndrome presents dynamic effects such as the multisensoriality and symmetrical bilaterality of the disorder, which also involves all functions from simple excitability to more complex functions. Another dynamic effect is the progressive loss of functions and a decomposition of some of them into partial reactions as the intensity of the stimulus decreases. This gives rise, for example, to tilted or even inverted vision, in which the image is perceived as increasingly tilted at the same time as it loses shape, color and size until it is almost inverted in the most acute case. This was the first exhaustive study of inverted or tilted vision.
The author also observed inverted perception in touch and hearing, for none of which there were precedents, and generalized the inversion process in the central syndrome to sensory systems of a spatial nature.
Gnosic or cognitive and complex functions are the first to be lost since they require greater brain excitation and, thus, greater brain integration. Thus, a continuity was established between elementary and higher sensory functions, based on the same physiological laws.
A dynamic phenomenon related to the previous one is the disappearance in part of some disorders by intensification of the stimulus or by temporal summation, or by the emerging capacity for facilitation, according to which the functions are recovered by the presence of another type of stimulus of the same or different modality, or by motor activity such as muscular effort, of all of which there was no precedent of detailed studies. For example, tactile and auditory stimuli, and in particular muscular effort, improve perception, partly compensating for the deficit of nervous excitation due to the loss of nonspecific neuronal mass caused by the lesion. For example, the visual field, which shows concentric reduction, increased up to 5 times in the most acute case, and the image recovered the correct orientation by means of a strong muscular contraction. This capacity is greater the larger the brain lesion and the lower the intensity of the original stimulus.
The author observed and studied other remarkable phenomena such as color delocalization, reversal in motion perception, the disorder by which the patient was able to read a text equally well upright or rotated 180 degrees without noticing any difference, and the disorder of allocentric orientation, among others.
His research filled the gap then existing between brain pathology and the physiology of the nervous system, since the phenomena observed were governed by the laws of nervous excitability, which was a radical change with respect to the concepts in use at that time.
Gonzalo found not only the cases described in his book but about 35 cases of central syndrome of varying intensity. The author also analyzes in depth the famous Schneider case of Goldstein and Gelb,
which he interprets according to the aforementioned syndrome.
He proposed a spiral development of the sensory field in the integrative brain process and introduced the idea of functional brain gradients across the cortex. These gradients are functions in gradation that represent the density of specific sensory function at each point in the cortex, related to the density of specific neurons and their connections, taking a maximum value in the corresponding projection area and gradually decreasing throughout the cortex, with the end of the decline reaching other projection areas. The multiple types of cortical syndromes from first hand and other authors was interpreted according to the model of gradients, depending on the position and magnitude of the lesion, finding a continuous transition between the syndromes of the projection area and the central one.
Gonzalo later developed the concepts of dynamic similarity and allometry applied to the central syndrome, this being understood as the result of a change of scale in the nervous excitability of the cerebral system with respect to the normal case.
According to the principle of dynamic similarity, the change of scale in a system results in its different parts changing differently. He then found allometric relationships, scaling power laws, between the different sensory functions. The gradual loss of these functions in the central syndrome was thus interpreted and formalized. These concepts, including that of gradients, were also applied to the language system. All this last research remained unpublished and is partially collected in Supplement II in the reprint of Gonzalo's work and in later works,
.

Early years

Justo Gonzalo was born and lived in Barcelona, Spain; then spent several years in Valencia, Spain; returned to Barcelona, and finally moved to Madrid, Spain, to study medicine, obtaining his bachelor's degree there in 1933. During 1933–34, he carried out studies at the Nervenklinik of the University of Vienna, on clinical neurology and animal testing with Hans Hoff, and also on brain cytoarchitecture with Otto Pötzl, at Constantin von Economo's laboratory. During 1934–35 he carried out research on brain pathology with Karl Kleist at the mental hospital of the Goethe University Frankfurt, granted a scholarship by the Junta para Ampliación de Estudios e Investigaciones Científicas . After returning to Madrid, he combined clinical neurology at the then called Hospital General de Madrid with brain anatomoclinical research at the Cajal Institute.
It was during this time that he wrote his first works.

Spanish Civil War and post-war period

After the outbreak of the Spanish Civil War, he resumed the neurological activities at the Hospital General de Madrid and the brain anatomoclinical studies at the Cajal Institute until he practiced war medicine in the Republican front. He was called in 1938 by Gonzalo Rodríguez Lafora, head of the Center for Brain Injuries at Neurological Military Hospital of Godella in Valencia, to work there as a neurologist,
where he stayed until the end of the war. During this period, he conducted detailed observations on numerous brain-injured subjects and performed, despite the extreme conditions, a fundamental part of his research.
Some selected cases were carefully study in the course of several years.
In the summer of 1938, he discovered, among other singular disorders, near-inverted vision in the war wounded man he termed case M, and in 1939 characterized what he called central syndrome of the cortex, which exhibited peculiar dynamic phenomena. The observations could not be understood until he uncovered the permeability developed by this type of patient to temporal summation and multisensory and motor facilitation.
The first results were presented in 1941 to the Spanish National Research Council in a 94-page report in Spanish entitled Investigaciones sobre Dinámica Cerebral. La dinámica en el sistema nervioso. Estructuras sensoriales por sincronización cerebral, which was awarded by this organism that same year. During the years 1942–1944, established in Madrid and sponsored by the Cajal Institute, he obtained a more precise quantitative evaluation of the phenomena, in spite of the difficulties in obtaining the most indispensable experimental instruments.
In 1945, the Cajal Institute, now part of the Spanish National Research Council, published the first volume of his book on Brain Dynamics, mainly devoted to visual functions.
Apart from local references to the aforementioned volume at the time of its publication,
other references stand out, some of them international
despite the fact that the book was written in Spanish, being notorious, for example, the comment by Viembi in 1946 in the prestigious magazine edited by Buscaino:
or the commentary by Bender and Teuber :
Also De Ajuriaguerra and Hecaen
refer in several pages to this research and emphasize : "...let us also cite in Spanish the very important volume by J. Gonzalo". He also received in 1945–46 letters of praises from authors such as H. Piéron, Robert Bing, D. Katz, W. Köhler, G. Rodríguez Lafora, C. Jiménez Díaz, J. Germain, etc.
From 1942 until his retirement, Justo Gonzalo was a full-time member of the Spanish National Research Council. From 1945 he taught PhD-level courses in brain pathophysiology at the University of Madrid, where he had a laboratory of brain physiopathology. In his PhD courses, he presented the results of his research in detail. It can be said that he worked alone in the scientific aspect, occasionally helped in other aspects by some former students, administrative personnel and always supported by his family, and since 1945 by his wife Ana María Fonrodona Masuet.

Subsequent years

In 1950, the second volume of the aforementioned book on Brain Dynamics was published, it was focused on tactile functions and to generalization of concepts introduced in the first volume. Justo Gonzalo describes in it his observation in 1946 of tactile inversion and its interpretation. Thus, the author generalized the inversion process in the aforementioned central syndrome to all sensory systems of spatial nature, corroborating it in the auditory system in 1946, as he refers to in his subsequent publication in 1952. In 1950 he was awarded by the Spanish Royal Academy of Medicine.
In the works published in 1951 and 1952, Gonzalo set forth the idea of spiral development of the sensory field, as well as the so-called functional cerebral gradients through the cortex, concepts that he had already described in detail in the PhD courses. In the publication of 1952 he includes about 20 cases of central syndromes of varying intensity.
In 1952 he carried out a search in all the Spanish territory of subjects with brain lesions. He selected about 200 out of near 3000. Most of them are Civil War wounded and he explores them in Madrid. He finds a total of 35 cases with the same type of central syndrome of varying intensity, as shown for example on p. 78 of Supplement II of the reprint Dinámica Cerebral of 2010.
In the PhD courses, which he taught with great vehemence and dedication, he also exposed the concepts of dynamic similarity and allometry applied to the aforementioned syndrome, this latter being understood as the result of a change of scale in the nervous excitability of the system with respect to that of the normal case.
He did not get to publish these concepts, which are partially collected in subsequent works.
Among the many private comments he received from students about the Ph.D. courses, the one with a reference is indicated,
as well as the comment that appears, in 1967, in a commemorative publication of the "Neurology Service of Nicolás Achúcarro":
In 1958 he was awarded by the Spanish Society of Psychology, and in this period there were many references to the book
The book went out of print and was never reprinted.
Reorganizations in the Faculty of Medicine in 1966 prevented him from continuing to teach the aforementioned PhD courses despite the great interest they aroused among students and the request by letter to the Dean of the Faculty of Medicine signed by several Professors such as Vice-Dean Botella Llusiá, Jiménez Díaz, Gilsanz, Orts Llorca and Vara López.
With this, the associated brain pathophysiology laboratory disappeared.
During these years he had already made large and numerous graphs drawn by draughtsmen, for didactic purposes, and especially for the following publication announced as an extensive work. But this publication never came into being. The cause of this was the author's own way of being, extremely self-demanding and who could not conceive of partial communications except for PhD courses, also great administrative difficulties, and with the passage of time, health problems.

Last years

He further developed the concepts of similarity and allometry on the basis of the biological principles of development and growth, applying them to brain dynamics and extending this formalization to the auditory system and language, leading to what the author called a "neurophysics" of the cerebral cortex.
Part of such research is collected in Supplement II of the 2010 reprint of his book and in works by Gonzalo-Fonrodona and Porras .
He also approached multiple and varied subjects of Biology, Philosophy, Physics and Cybernetics, establishing connections with his research of brain dynamics.
At this time, reference is also made to J. Gonzalo's brain dynamics.
even from a philosophical point of view,
awakening a special interest in the field of Cybernetics and Artificial Intelligence.
In 1976 he came into contact with physicists and engineers interested in cybernetic models of brain dynamics. In this context, in the doctoral thesis of the engineer A. Delgado
directed by the physicist J. Mira, several of Gonzalo's ideas and data are considered to be basic, together with those of Lashley and Luria, in the functional organization of nervous tissue in relation to behavior.
His research was interrupted only because of his death in 1986.

Additional information

After the death of J. Gonzalo, work was carried out in the field of Artificial Intelligence in relation to the research of this author.
His works are also referenced in an historical
and neurological sense
.
For example, worth mentioning is the comment: "Besides Santiago Ramon y Cajal, several authors can be considered founders of the Spanish Neuroscience and Neuropsychology such as Cubí, Simarro, Lafora, Gonzalo, Lorente de Nó"..
Studies carried out in the 2000s have reported phenomena on tilted or inverted perception and multisensory integration that are similar to those described by Justo Gonzalo. Also, cortical modellings proposed are closely related to the model developed by Justo Gonzalo. Presentation and formalization of the work of J. Gonzalo in the current context is exposed in the works of Gonzalo-Fonrodona and Porras listed below in the section `Works on Justo Gonzalo's research work´.
In 2010, coinciding with the centennial of his birth, the, together with the University of Santiago de Compostela, published a facsimile edition of the two volumes published in 1945 and 1950 respectively, plus several annexes; the contents of Annex II had never been published before. The whole, of about 1000 pages, is entitled .
J. Gonzalo's library was donated to the Spanish National Research Council, the neurobiology part going to the Cajal Institute where 442 histological preparations made by Gonzalo, mainly between 1927 and 1933 while he was a medical student, were also deposited.

Justo Gonzalo's published works

  • Gonzalo, J.. «Los factores endógenos en la corea de Sydenham». Archivos de Neurobiología XIII: pp. 1–15..
  • Gonzalo, J.. «Contribución al estudio del esquizoide». Archivos de Neurobiología XIV: pp. 1–17..
  • Gonzalo, J.. «Los tipos de motilidad. Contribución a la sistemática del movimiento.» Archivos de Neurobiología XIV: pp: 1-23..
  • Gonzalo, J.. «Contestación al Dr. Nieto». Archivos de Neurobiología XV: pp. 417–421..
  • Gonzalo, J.. «Sobre la localización y fisiopatología del tálamo y del subtálamo». Archivos de Neurobiología XV: pp. 625–668.
  • Gonzalo, J.. «Nuevos estudios talámicos. Síndrome talámico puro por degeneración secundaria». Archivos de Neurobiología. Marzo. pp. 111–129.
  • Kleist, V.K.; Gonzalo, J.. . Monastsschrift für Psychiatrie und Neurologie 99: pp. 87–130.
  • Gonzalo, J.. Investigaciones sobre la nueva Dinámica Cerebral. La actividad cerebral en función de las condiciones dinámicas de la excitabilidad nerviosa. Volumen Primero: pp. 1–392. Madrid: Consejo Superior de Investigaciones Científicas, Inst. S. Ramón y Cajal. Included as Vol. 1 in the facsimile edition of 2010,Dinámica Cerebral, Open Access, and in the English edition of 2023 Brain Dynamics, Open Access.
  • Gonzalo, J.. Investigaciones sobre la nueva Dinámica Cerebral. La actividad cerebral en función de las condiciones dinámicas de la excitabilidad nerviosa. Volumen Segundo: pp. 393–827. Madrid: Consejo Superior de Investigaciones Científicas, Inst. S. Ramón y Cajal. Included as Vol. 2 in the facsimile edition of 2010 Dinámica Cerebral, Open Access, and in the English edition of 2023 Brain Dynamics, Open Access.
  • Gonzalo, J.. «La cerebración sensorial y el desarrollo espiral». XLIII: pp. 209–260.
  • Gonzalo, J. «Las funciones cerebrales humanas según nuevos datos y bases fisiológicas. Una introducción a los estudios de Dinámica Cerebral». XLIV: pp. 95–157. Included as 'Suplemento I' in the facsimile edition of 2010 Dinámica Cerebral, Open Access, and in the English edition of 2023 Brain Dynamics, Open Access.
  • Gonzalo, J.. Brain Dynamics According to Human Data and Physiological Bases.. Edited by I. Gonzalo and A. Gonzalo, Madrid.
  • Gonzalo, J.. .
  • Gonzalo, J.. .

Works on Justo Gonzalo's research work

  • Ballus, C.. . Anuario de Psicología. Dep. Psicología, Univ. de Barcelona 2: pp. 19–28.
  • Gonzalo, I.; Gonzalo, A.. . In Moreno-Díaz, R.; Mira, J. Brain Processes, Theories and Models. An international conference in honor of W.S. McCulloch 25 years after his death. Cambridge, Massachusetts: The MIT Press. pp. 78–87.
  • Gonzalo, I.. . Lecture Notes in Computer Science 1240: pp. 169–177. https://doi.org/10.1007/BFb0032475
  • Gonzalo, I.. . Lect. Not. Comp. Sci. 1606: pp. 94–103. https://doi.org/10.1007/BFb0098164
  • Gonzalo, I.; Porras, M.A.. . Lect. Not. Comp. Sci. 2084: pp. 150–157. https://doi:10.1007/3-540-45720-8_18
  • Gonzalo, I.; Porras, M.A.. . Lect. Not. Comp. Sci. 2686: pp. 94–101. https://doi:10.1007/3-540-44868-3_13
  • Arias, M.; Gonzalo, I.. . Neurología 19: pp. 429–433.
  • Barraquer Bordas, L.. . Neurología 20: pp. 169–173.
  • Gonzalo-Fonrodona, I.. . 44: pp. 157–165.
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . Lecture Notes in Computer Science 4527: pp. 96–102. https://doi.org/10.1007/978-3-540-73053-8_10
  • Gonzalo-Fonrodona, I.. . Neurocomputing 72: pp. 831–838. https://doi.org/10.1016/j.neucom.2008.04.055
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . Lecture Notes in Computer Science 5601: pp. 174–183. https://doi.org/10.1007/978-3-642-02264-7_19
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . Lecture Notes in Computer Science 6687: pp. 267–274. https://doi.org/10.1007/978-3-642-21326-7_29
  • Gonzalo Fonrodona, I.. . Rev. Historia de la Psicología 32: pp. 65–78..
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . Neurocomputing 114: pp. 76–79. https://doi.org/10.1016/j.neucom.2012.06.047
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . Lecture Notes in Computer Science 7930: pp. 368–375. https://doi.org/10.1007/978-3-642-38637-4_38
  • Gonzalo-Fonrodona, I.; Porras, M.A.. . In: Costa, A.; Villalba, E. Horizons in Neuroscience Vol. 13: Chap.10, pp. 161–189.
  • Gonzalo Fonrodona, I.. .. E-prints Complutense, Universidad Complutense de Madrid.
  • Gonzalo-Fonrodona, I.; Porras, M.A.. «Modelling the compression of perceived time by a cerebral system with nervous excitability and near perception threshold». Neurocomputing 151: pp. 85–90.
  • Gonzalo Fonrodona, I.; Porras, M.A.. «El neurocientífico Justo Gonzalo antes, durante y después de la Guerra Civil Española». En Ciencia y Técnica entre la paz y la guerra, F. González Redondo, Vol.1: pp. 431–438. XII congreso de la Sociedad Española de las Ciencias y de las Técnicas.
  • García-Molina, A.. . Neurosciences and History 3: pp. 61–67.
  • García-Molina, A.; Gonzalo-Fonrodona, I.. . Rev. Neurol. 76 : pp. 231–241.
  • García-Molina, A.; Gonzalo-Fonrodona, I.. . Rev. Neurol. 78: 199-207.
  • Gonzalo Fonrodona, I.. «La extensa recopilación de heridos cerebrales por Justo Gonzalo y los gradientes cerebrales». En: Ciencia, técnica y libertad en España Puig-Samper, López Sánchez, Prados Martín Lérida Jiménez. Cap. VIII pp:447-452. SEHCYT y Fundación Ignacio Larramendi.
  • García-Molina, A.. «Book review: Brain Dynamics». Neurosciences and History 12: 117-122.
  • Gonzalo-Fonrodona, I.. . Multisensory Research. Open Access.