Georges Charles Guillain (1876–1961) and Pierre Mollaret (1898–1987) and their legacy to neuroanatomy: the forgotten triangle of Guillain-Mollaret
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French neurologist Georges Charles Guillain (Fig. 1) was born in 1876 in Rouen and began to study medicine in his native town after customary schooling. He received his clinical education at several hospitals in Paris, completed his first scientific study on traumatic lesions of the plexus brachialis, and was awarded his medical doctorate. He worked on nervous diseases during the First World War and in 1923 he gained the professorship of neurology at the Hôpital de la Salpêtrière in Paris. In 1920, Guillain, together with Barré, reported their famous clinical experience defining what is now known as Guillain-Barré syndrome. In 1931, Guillain and Mollaret described the famous anatomical connections encompassing the contralateral dentate nucleus (DN), ipsilateral red nucleus (RN), and ipsilateral inferior olivary nucleus (ION), called the GMT . He was a member of many international medical societies including American and Japanese and he received many scientific honors . In 1947, he retired and, in 1961, died in Paris.
French physician Pierre Mollaret (Fig. 1) was born in 1898 in Auxerre. Together with his teacher Georges Charles Guillain, Mollaret worked for many years on diseases of the nervous system. He received his academic degree in 1926 and completed his thesis for the medical doctorate in 1929; then he worked at the Hôpital de la Salpêtrière. Mollaret was head of the laboratory at the Pasteur Institute from 1935 to 1941 and he worked in the malaria department of the military hospital in Casablanca during the Second World War. Importantly, in 1944, he was the first to report several patients with recurrent aseptic meningitis, known also as Mollaret meningitis . Mollaret made many scientific contributions to neurology and infectious diseases as an epidemiologist as well as a neurologist. He died in Paris in 1987.
Forgotten triangle of Guillain-Mollaret
GMT has three vertices: RN within the midbrain, ION in the medulla, and DN in the contralateral cerebellum. It has three interconnecting edges: descending “rubro-olivary fibers” along the central tegmental tractus from the RN to the ipsilateral ION, crossing “olivocerebellar fibers” between the ION and the contralateral cerebellar cortex via the inferior cerebellar peduncle, and “dentatorubral fibers” ascending from the DN to the contralateral RN via the contralateral superior cerebellar peduncle to the original RN to complete the DRO by decussating in the midbrain [1, 3] (Fig. 1). However, there is no direct connection between the ION and the contralateral DN . Any injury involving one of the vertices or edges of the triangle results in degeneration, which initially causes hypertrophy of the ION followed by its atrophy, called hypertrophic olivary degeneration, which typically presents with clinical symptoms of cerebellar dysfunction, dysmetria, palatal tremor, or ataxia . Diffusion tensor imaging and fiber tractography can identify disruption of the DRO pathway . Unfortunately, its treatment is palliative.
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Conflict of interest
The authors have no conflicts of interest.
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