Your search keyword '"Inferior olivary nucleus"' showing total 800 results

1. Radiological Hypertrophic Olivary Degeneration Following Posterior Fossa Tumor Surgery

Author

Bhattacharya, Kajari, Rai, Pranjal, Moiyadi, Aliasgar, Sahu, Arpita, Gupta, Tejpal, Chinnaswamy, Girish, Shetty, Prakash, Choudhari, Amit, Guha, Amrita, Chatterjee, Abhishek, Dasgupta, Archya, Shetty, Nitin, and Kulkarni, Suyash

Published

2025

2. Monocular Torsional Oscillopsia in Dentato-olivary Disconnection.

Author

Anagnostou, Evangelos, Gerakoulis, Stathis, Armenis, Georgios, Zachou, Athena, and Velonakis, Georgios

Subjects

*OLIVARY degeneration, *DENTATE nucleus, *MOVEMENT disorders, *MONOCULARS, *VESTIBULO-ocular reflex, *SOFT palate

Abstract

Monocular torsional eye oscillations are a rare form of disconjugate nystagmus and the underlying pathophysiology is not well understood. Here, we present and discuss a case with disabling torsional oscillopsia in one eye only. The patient exhibited (i) spontaneous pendular torsional nystagmus of the left eye and (ii) rhythmic involuntary movements of the soft palate and uvula, consistent with the syndrome of oculopalatal tremor with monocular nystagmus. Brain MRI revealed an infarct of the left dentate nucleus in the cerebellum and, more caudally, a secondary hypertrophic degeneration of the right inferior olivary nucleus. To account for the presence of torsional nystagmus on the eye contralateral to the side of inferior olivary hypertrophy and ipsilateral to the lesioned dentate nucleus, we discuss the hypothesis of a (inferior olivary nucleus-mediated) malfunctioning adaptation of the anterior canal vestibulo-ocular reflex. [ABSTRACT FROM AUTHOR]

Published

2024

3. V180I genetic Creutzfeldt‐Jakob disease: Severe degeneration of the inferior olivary nucleus in an autopsied patient with identification of the M2T prion strain.

Author

Watanabe, Midori, Nakamura, Kosei, Saito, Rie, Takeuchi, Atsuko, Takahashi, Tetsuya, Kitamoto, Tetsuyuki, Onodera, Osamu, and Kakita, Akiyoshi

Subjects

*CREUTZFELDT-Jakob disease, *GENETIC disorders, *PRIONS, *AUTOPSY, *JAPANESE women, *AGE of onset

Abstract

Genetic Creutzfeldt‐Jakob disease (gCJD) with a V180I mutation (V180I gCJD) is the most common type of gCJD in Japan, characterized by an older age at onset, slower progression, and moderate to severe cortical degeneration with spongiform changes and sparing of the brainstem and cerebellum. Degeneration of the inferior olivary nucleus (IO) is rarely observed in patients with CJD but is known to occur in fatal familial insomnia (FFI) and MM2‐thalamic‐type sporadic CJD (sCJD‐MM2T) involving type 2 prion protein (M2T prion). Here we report on an 81‐year‐old Japanese woman who initially developed depressive symptoms followed by progressive cognitive impairment, myoclonus, and hallucinations and died after a clinical course of 23 months. Insomnia was not evident. Genetic analysis of the prion protein (PrP) identified a V180I mutation with methionine/valine heterozygosity at codon 129. Pathologic analysis demonstrated extensive spongiform degeneration, neuronal loss in the cortices, and weak synaptic‐type PrP deposition. Except for IO degeneration, the clinicopathologic features and Western blotting PrP band pattern were compatible with those of previously reported V180I gCJD cases. Quantitative analysis revealed that the neuronal density of the IO, especially in the dorsal area, was considerably reduced to the same extent as that of a patient with sCJD‐MM2T but preserved in other patients with V180I gCJD and sCJD‐MM1 (this patient, 2.3 ± 0.53/mm2; a patient with sCJD‐MM2T, 4.2 ± 2; a patient with V180I gCJD, 60.5 ± 9.3; and a patient with sCJD‐MM1, 84.5 ± 17.9). Use of the protein misfolding cyclic amplification (PMCA) method confirmed the presence of the M2T prion strain, suggesting that the latter might be associated with IO degeneration in V180I gCJD. Autopsy studies are necessary to better understand the nature of CJD, since even if patients present with the common clinical picture, pathologic analysis might provide new insights, as was the case here. [ABSTRACT FROM AUTHOR]

Published

2023

4. The link between SARS-CoV-2 related microglial reactivity and astrocyte pathology in the inferior olivary nucleus.

Author

Madden, Nacoya, Ying Zi Jessy Mei, Jakubiak, Kelly, Juncheng Li, Hargus, Gunnar, Goldman, James E., and Al-Dalahmah, Osama

Subjects

ADULT respiratory distress syndrome, MICROGLIA, SARS-CoV-2, COVID-19 pandemic, MEDULLA oblongata, CEREBRAL anoxia-ischemia

Abstract

The pathological involvement of the central nervous system in SARS-CoV2 (COVID-19) patients is established. The burden of pathology is most pronounced in the brain stem including the medulla oblongata. Hypoxic/ischemic damage is the most frequent neuropathologic abnormality. Other neuropathologic features include neuronophagia, microglial nodules, and hallmarks of neurodegenerative diseases: astrogliosis and microglial reactivity. It is still unknown if these pathologies are secondary to hypoxia versus a combination of inflammatory response combined with hypoxia. It is also unknown how astrocytes react to neuroinflammation in COVID-19, especially considering evidence supporting the neurotoxicity of certain astrocytic phenotypes. This study aims to define the link between astrocytic and microglial pathology in COVID-19 victims in the inferior olivary nucleus, which is one of the most severely affected brain regions in COVID-19, and establish whether COVID-19 pathology is driven by hypoxic damage. Here, we conducted neuropathologic assessments and multipleximmunofluorescence studies on the medulla oblongata of 18 COVID-19, 10 pre-pandemic patients who died of acute respiratory distress syndrome (ARDS), and 7-8 control patients with no ARDS or COVID-19. The comparison of ARDS and COVID-19 allows us to identify whether the pathology in COVID-19 can be explained by hypoxia alone, which is common to both conditions. Our results showed increased olivary astrogliosis in ARDS and COVID-19. However, microglial density and microglial reactivity were increased only in COVID-19, in a region-specific manner. Also, olivary hilar astrocytes increased YKL-40 (CHI3L1) in COVID-19, but to a lesser extent than ARDS astrocytes. COVID-19 astrocytes also showed lower levels of Aquaporin-4 (AQP4), and Metallothionein-3 in subsets of COVID-19 brain regions. Cluster analysis on immunohistochemical attributes of astrocytes and microglia identified ARDS and COVID-19 clusters with correlations to clinical history and disease course. Our results indicate that olivary glial pathology and neuroinflammation in the COVID-19 cannot be explained solely by hypoxia and suggest that failure of astrocytes to upregulate the antiinflammatory YKL-40 may contribute to the neuroinflammation. Notwithstanding the limitations of retrospective studies in establishing causality, our experimental design cannot adequately control for factors external to our design. Perturbative studies are needed to confirm the role of the above-described astrocytic phenotypes in neuroinflammation. [ABSTRACT FROM AUTHOR]

Published

2023

5. The link between SARS-CoV-2 related microglial reactivity and astrocyte pathology in the inferior olivary nucleus

Author

Nacoya Madden, Ying Zi Jessy Mei, Kelly Jakubiak, Juncheng Li, Gunnar Hargus, James E. Goldman, and Osama Al-Dalahmah

Subjects

astrocyte, microglia, inferior olivary nucleus, COVID-19, hypoxia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The pathological involvement of the central nervous system in SARS-CoV2 (COVID-19) patients is established. The burden of pathology is most pronounced in the brain stem including the medulla oblongata. Hypoxic/ischemic damage is the most frequent neuropathologic abnormality. Other neuropathologic features include neuronophagia, microglial nodules, and hallmarks of neurodegenerative diseases: astrogliosis and microglial reactivity. It is still unknown if these pathologies are secondary to hypoxia versus a combination of inflammatory response combined with hypoxia. It is also unknown how astrocytes react to neuroinflammation in COVID-19, especially considering evidence supporting the neurotoxicity of certain astrocytic phenotypes. This study aims to define the link between astrocytic and microglial pathology in COVID-19 victims in the inferior olivary nucleus, which is one of the most severely affected brain regions in COVID-19, and establish whether COVID-19 pathology is driven by hypoxic damage. Here, we conducted neuropathologic assessments and multiplex-immunofluorescence studies on the medulla oblongata of 18 COVID-19, 10 pre-pandemic patients who died of acute respiratory distress syndrome (ARDS), and 7–8 control patients with no ARDS or COVID-19. The comparison of ARDS and COVID-19 allows us to identify whether the pathology in COVID-19 can be explained by hypoxia alone, which is common to both conditions. Our results showed increased olivary astrogliosis in ARDS and COVID-19. However, microglial density and microglial reactivity were increased only in COVID-19, in a region-specific manner. Also, olivary hilar astrocytes increased YKL-40 (CHI3L1) in COVID-19, but to a lesser extent than ARDS astrocytes. COVID-19 astrocytes also showed lower levels of Aquaporin-4 (AQP4), and Metallothionein-3 in subsets of COVID-19 brain regions. Cluster analysis on immunohistochemical attributes of astrocytes and microglia identified ARDS and COVID-19 clusters with correlations to clinical history and disease course. Our results indicate that olivary glial pathology and neuroinflammation in the COVID-19 cannot be explained solely by hypoxia and suggest that failure of astrocytes to upregulate the anti-inflammatory YKL-40 may contribute to the neuroinflammation. Notwithstanding the limitations of retrospective studies in establishing causality, our experimental design cannot adequately control for factors external to our design. Perturbative studies are needed to confirm the role of the above-described astrocytic phenotypes in neuroinflammation.

Published

2023

6. Post-traumatic hypertrophic olivary degeneration associated with Holmes tremor: Clinical-imaging correlation.

Author

Montero-Cruz, Edinson, Mendoza-Ospina, Alejandra, Andrés Aldana-Bocanegra, Jorge, Manuel Montaño-Lozada, Juan, and Eliud Castillo-Támara, Edgard

Subjects

*TREMOR, *ASSISTANCE in emergencies, *TRIANGLES, *DISEASE complications, *MOVEMENT disorders, *OLIVARY degeneration

Abstract

Hypertrophic olivary degeneration is a disease secondary to damage to the neuronal circuit of the Guillain Mollaret Triangle, generating symptoms as varied as Holmes tremor. This article describes the case of a 52-year-old man with a history of head trauma in 2016, without mediate sequelae, who progressively presented tremors associated five years later with headache requiring emergency assistance, where studies were carried out, and pharmacological therapy was instituted. Finally, it is concluded that post-traumatic lesions in the Guillain Mollaret Triangle can generate movement disorders secondary to hypertrophic olivary degeneration as sequelae, an entity that is rarely diagnosed. [ABSTRACT FROM AUTHOR]

Published

2023

7. Increased intrinsic membrane excitability is associated with olivary hypertrophy in spinocerebellar ataxia type 1.

Author

Morrison LM, Huang H, Handler HP, Fu M, Jones DM, Bushart DD, Pappas SS, Orr HT, and Shakkottai VG

Subjects

Animals, Mice, Purkinje Cells metabolism, Purkinje Cells pathology, Neurons metabolism, Neurons pathology, Humans, Gene Knock-In Techniques, Olivary Nucleus pathology, Olivary Nucleus physiopathology, Olivary Nucleus metabolism, Ataxin-1 genetics, Ataxin-1 metabolism, Spinocerebellar Ataxias genetics, Spinocerebellar Ataxias physiopathology, Spinocerebellar Ataxias pathology, Disease Models, Animal, Hypertrophy genetics, Hypertrophy physiopathology

Abstract

One of the characteristic regions of brainstem degeneration across multiple spinocerebellar ataxias (SCAs) is the inferior olive (IO), a medullary nucleus that plays a key role in motor learning. The vulnerability of IO neurons remains a poorly-understood area of SCA pathology. In this work, we address this by evaluating IO disease in SCA1, a prototypic inherited olivopontocerebellar atrophy, using the genetically-precise SCA1 knock-in (SCA1-KI) mouse. We find that these mice exhibit olivary hypertrophy, a phenotype reminiscent of a degenerative disorder known as hypertrophic olivary degeneration (HOD). Similar to early stages of HOD, SCA1-KI IO neurons display early dendritic lengthening and later somatic expansion without frank cell loss. Though HOD is known to be caused by brainstem lesions that disrupt IO inhibitory innervation, we observe no loss of inhibitory terminals in the SCA1-KI IO. Additionally, we find that a separate mouse model of SCA1 in which mutant ATXN1 is expressed solely in cerebellar Purkinje cells shows no evidence of olivary hypertrophy. Patch-clamp recordings from brainstem slices indicate that SCA1-KI IO neurons are hyperexcitable, generating spike trains in response to membrane depolarization. Transcriptome analysis further reveals reduced medullary expression of ion channels responsible for IO neuron spike afterhyperpolarization (AHP)-a result that appears to have a functional consequence, as SCA1-KI IO neuron spikes exhibit a diminished AHP. These findings suggest that expression of mutant ATXN1 in IO neurons results in an HOD-like olivary hypertrophy, in association with increased intrinsic membrane excitability and ion channel transcriptional dysregulation., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

8. Improving the Simulation of Biologically Accurate Neural Networks Using Data Flow HLS Transformations on Heterogeneous SoC-FPGA Platforms

Author

Alfaro-Badilla, Kaleb, Arroyo-Romero, Andrés, Salazar-García, Carlos, León-Vega, Luis G., Espinoza-González, Javier, Hernández-Castro, Franklin, Chacón-Rodríguez, Alfonso, Smaragdos, Georgios, Strydis, Christos, Barbosa, Simone Diniz Junqueira, Editorial Board Member, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Crespo-Mariño, Juan Luis, editor, and Meneses-Rojas, Esteban, editor

Published

2020

9. Qualitative and quantitative detectability of hypertrophic olivary degeneration in T2, FLAIR, PD, and DTI: A prospective MRI study.

Author

Steidl, Eike, Rauch, Maximilian, Hattingen, Elke, Breuer, Stella, Schüre, Jan Rüdiger, Grapengeter, Marike, Shrestha, Manoj, Foerch, Christian, and Schaller-Paule, Martin A.

Subjects

DIFFUSION tensor imaging, LONGITUDINAL method, INTER-observer reliability

Abstract

Purpose: Hypertrophic olivary degeneration (HOD) is a pathology of the inferior olivary nucleus (ION) that occurs after injuries to the Guillain-Mollaret triangle (GMT). Lacking a diagnostic gold standard, diagnosis is usually based on T2 or FLAIR imaging and expert rating. To facilitate precise HOD diagnosis in future studies, we assessed the reliability of this rater-based approach and explored alternative, quantitative analysis. Methods: Patients who had suffered strokes in the GMT and a matched control group prospectively underwent an MRI examination including T2, FLAIR, and proton density (PD). Diffusion tensor imaging (DTI) was additionally performed in the patient group. The presence of HOD was assessed on FLAIR, T2, and PD separately by 3 blinded reviewers. Employing an easily reproducible segmentation approach, relative differences in intensity, fractional anisotropy (FA), and mean diffusivity (MD) between both IONs were calculated. Results: In total, 15 patients were included in this study. The interrater reliability was best for FLAIR, followed by T2 and PD (Fleiss κ = 0.87 / 0.77 / 0.65). The 3 raters diagnosed HOD in 38–46% (FLAIR), 40–47% (T2), and 53–67% (PD) of patients. False-positive findings in the control group were less frequent in T2 than in PD and FLAIR (2.2% / 8.9% / 6.7%). In 53% of patients, the intensity difference between both IONs on PD was significantly increased in comparison with the control group. These patients also showed significantly decreased FA and increased MD. Conclusion: While the rater-based approach yielded the best performance on T2 imaging, a quantitative, more sensitive HOD diagnosis based on ION intensities in PD and DTI imaging seems possible. [ABSTRACT FROM AUTHOR]

Published

2022

10. Qualitative and quantitative detectability of hypertrophic olivary degeneration in T2, FLAIR, PD, and DTI: A prospective MRI study

Author

Eike Steidl, Maximilian Rauch, Elke Hattingen, Stella Breuer, Jan Rüdiger Schüre, Marike Grapengeter, Manoj Shrestha, Christian Foerch, and Martin A. Schaller-Paule

Subjects

inferior olivary nucleus, stroke, diffusion MRI, proton density, connectivity, HOD, Neurology. Diseases of the nervous system, RC346-429

Abstract

Purpose:Hypertrophic olivary degeneration (HOD) is a pathology of the inferior olivary nucleus (ION) that occurs after injuries to the Guillain-Mollaret triangle (GMT). Lacking a diagnostic gold standard, diagnosis is usually based on T2 or FLAIR imaging and expert rating. To facilitate precise HOD diagnosis in future studies, we assessed the reliability of this rater-based approach and explored alternative, quantitative analysis.MethodsPatients who had suffered strokes in the GMT and a matched control group prospectively underwent an MRI examination including T2, FLAIR, and proton density (PD). Diffusion tensor imaging (DTI) was additionally performed in the patient group. The presence of HOD was assessed on FLAIR, T2, and PD separately by 3 blinded reviewers. Employing an easily reproducible segmentation approach, relative differences in intensity, fractional anisotropy (FA), and mean diffusivity (MD) between both IONs were calculated.ResultsIn total, 15 patients were included in this study. The interrater reliability was best for FLAIR, followed by T2 and PD (Fleiss κ = 0.87 / 0.77 / 0.65). The 3 raters diagnosed HOD in 38–46% (FLAIR), 40–47% (T2), and 53–67% (PD) of patients. False-positive findings in the control group were less frequent in T2 than in PD and FLAIR (2.2% / 8.9% / 6.7%). In 53% of patients, the intensity difference between both IONs on PD was significantly increased in comparison with the control group. These patients also showed significantly decreased FA and increased MD.ConclusionWhile the rater-based approach yielded the best performance on T2 imaging, a quantitative, more sensitive HOD diagnosis based on ION intensities in PD and DTI imaging seems possible.

Published

2022

11. Cerebellum-Cortical Interaction in Spatial Navigation and Its Alteration in Dementias.

Author

Mirino, Pierandrea, Pecchinenda, Anna, Boccia, Maddalena, Capirchio, Adriano, D'Antonio, Fabrizia, and Guariglia, Cecilia

Subjects

*ALZHEIMER'S disease, *DEMENTIA, *COGNITION, *CEREBELLUM, *SENSORIMOTOR integration

Abstract

The cerebellum has a homogeneous structure and performs different computational functions such as modulation/coordination of the communication between cerebral regions, and regulation/integration of sensory information. Albeit cerebellar activity is generally associated with motor functions, several recent studies link it to various cognitive functions, including spatial navigation. In addition, cerebellar activity plays a modulatory role in different cognitive domains and brain processes. Depending on the network involved, cerebellar damage results in specific functional alterations, even when no function loss might be detected. In the present review, we discuss evidence of brainstem degeneration and of a substantial reduction of neurons in nuclei connected to the inferior olivary nucleus in the early stages of Alzheimer's disease. Based on the rich patterns of afferences from the inferior olive nucleus to the cerebellum, we argue that the subtle alterations in spatial navigation described in the early stages of dementia stem from alterations of the neuromodulatory functions of the cerebellum. [ABSTRACT FROM AUTHOR]

Published

2022

12. Bilateral Hypertrophic Olivary Degeneration Following Brainstem Insult: A Retrospective Review and Examination of Causative Pathology.

Author

Behzadi, Fardad, Fiester, Peter J, and Rao, Dinesh

Subjects

*OLIVARY nucleus, *SOCIAL degeneration, *BRAIN stem, *HYPERTROPHY, *IATROGENIC diseases, *OLIVARY degeneration

Abstract

Hypertrophic olivary degeneration is a rare condition caused by a lesion in the Guillain-Mollaret triangle which leads to trans-synaptic degeneration resulting in the degenerative hypertrophy of the inferior olivary nucleus. This condition presents clinically with palatal tremor but can also produce ocular myoclonus or cerebellar signs. While any lesion that occurs within the Guillian-Mollaret triangle and results in the deafferentation of the inferior olive can lead to hypertrophic olivary degeneration, the most common etiologies include ischemic and hemorrhagic stroke, vascular malformation, neoplasm, and iatrogenic injury related to surgery. We report a series of 7 patients who presented with this condition bilaterally on MRI imaging, including 1 case which represents the first report of toxoplasmosis leading to the development of bilateral hypertrophic olivary degeneration and only the third reported case, unilateral or bilateral, related to an infectious etiology. [ABSTRACT FROM AUTHOR]

Published

2021

13. Clinical and Imaging Profile of Patients with Palatal Tremor.

Author

Surisetti, Bharath Kumar, Prasad, Shweta, Holla, Vikram V., Neeraja, Koti, Kamble, Nitish, Netravathi, Manjunath, Yadav, Ravi, and Pal, Pramod Kumar

Subjects

*DIAGNOSTIC imaging, *MYOCLONUS, *MOVEMENT disorders, *TREMOR, *EYE movements, *SYMPTOMS

Abstract

Background: Palatal tremor (PT) is an uncommon movement disorder that may be classified into symptomatic (SPT) or essential (EPT). The etiology of SPT is varied, with involvement of the Guillain‐Mollaret triangle (GMT) and inferior olivary hypertrophy. EPT is associated with ear clicks and normal imaging and may have a functional basis. Objectives: This study aims to explore the clinical and radiological features of a large cohort of patients with PT. Methods: This is a retrospective chart review of patients with PT who were evaluated by the movement disorders subspeciality of the neurology department. Demographic, clinical, and imaging details of patients with PT were documented. Results: A total of 22 patients with PT comprising 17 with SPT and 5 with EPT were included in this study. No patient was aware of the PT. Ear clicks were reported in 2 patients with SPT and in 3 patients with EPT. The most common etiology for SPT was vascular, followed by degenerative conditions. Patients with SPT had associated features such as tremor (70.6%), ataxia (64.7%), dystonia (52.9%), myoclonus (17.6%), and eye movement abnormalities (75%). Lesions involving the GMT were found in 82% of patients with SPT. Apart from PT, patients with EPT had no other motor symptoms, and imaging was normal. Of the patients with EPT, 2 had additional functional movement disorders. Conclusion: PT has significant etiological heterogeneity and can be easily missed because of the lack of awareness by patients. Involvement of the inferior olivary nucleus may not be necessarily observed. A functional etiology should be considered in cases of EPT. [ABSTRACT FROM AUTHOR]

Published

2021

14. Hypertrophy of the Anterior External Arcuate Fasciculus: A Rare Variant With Implications for the Development of the Arcuate Nucleus

Author

Renee Stonebridge, Ross J. Taliano, Terra D. Velilla, and Douglas C. Anthony

Subjects

arcuate nucleus, medulla, calbindin-2, inferior olivary nucleus, development, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

A rare anatomic variant of a markedly enlarged anterior external arcuate fasciculus (AEAF) on the ventral medullary surface is reported and compared to two controls. The hypertrophic AEAF was nine times larger in diameter than normal, whereas the arcuate nucleus (AN) and inferior olivary nucleus (ION) appeared histologically normal in size and neuronal distribution, and morphometric analysis of the AN confirmed that it was within the normal range. Calbindin-2 (calretinin, CALB2) expression was identified in the AN and in the fibers of the normal AEAF. The hypertrophic AEAF did not contain calbindin-2–expressing fibers. CALB2 expression was also present in the ventrolateral portion of the ION, both in the index case and in one of the control cases. The origin of the additional fibers was not identified; however, the potential origin of these fibers and its implications for the development of the AEAF are discussed.

Published

2020

15. Hypertrophy of the Anterior External Arcuate Fasciculus: A Rare Variant With Implications for the Development of the Arcuate Nucleus.

Author

Stonebridge, Renee, Taliano, Ross J., Velilla, Terra D., and Anthony, Douglas C.

Subjects

HYPERTROPHY, CALRETININ, CALBINDIN, FIBERS, DIETARY fiber, DIAMETER

Abstract

A rare anatomic variant of a markedly enlarged anterior external arcuate fasciculus (AEAF) on the ventral medullary surface is reported and compared to two controls. The hypertrophic AEAF was nine times larger in diameter than normal, whereas the arcuate nucleus (AN) and inferior olivary nucleus (ION) appeared histologically normal in size and neuronal distribution, and morphometric analysis of the AN confirmed that it was within the normal range. Calbindin-2 (calretinin, CALB2) expression was identified in the AN and in the fibers of the normal AEAF. The hypertrophic AEAF did not contain calbindin-2–expressing fibers. CALB2 expression was also present in the ventrolateral portion of the ION, both in the index case and in one of the control cases. The origin of the additional fibers was not identified; however, the potential origin of these fibers and its implications for the development of the AEAF are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

16. Brain and Behavior of Dromiciops gliroides.

Author

Gurovich, Yamila and Ashwell, Kenneth W. S.

Subjects

*DROMICIOPS gliroides, *DIPROTODONTIDAE, *PHYLOGENETIC models, *OLIVARY nucleus, *NEOCORTEX

Abstract

We have analyzed the internal structure of the brain of the microbiotherian marsupial Dromiciops gliroides and compared it with the brains of American and Australian marsupials. Dromiciops does not have a fasciculus aberrans, but does exhibit other features of brain structure that are similar to diprotodontid metatherians (e.g., lamination of the lateral geniculate nucleus of the dorsal thalamus). Cortical organization in Dromiciops shows some similarities with that in Australian marsupial carnivores in that the proportional areas of isocortex devoted to somatosensory and visual function are similar in size to each other, and greater in area than that devoted to olfactory or auditory function. This points to similar sensory requirements for the foraging lifestyle of Dromiciops and small Australian marsupial carnivores, with isocortical specialization for somatosensation and vision. We also examined phylogenetic relationships of Dromiciops with extant marsupials based on maximum parsimony analysis using a soft body brain morphology-only matrix, representing 93 extant marsupial taxa. The results recovered Dromiciops as a sister group to the Australasian marsupial clade Diprotodontia. [ABSTRACT FROM AUTHOR]

Published

2020

17. Degeneración olivar hipertrófica postraumática asociada a temblor de Holmes: correlación clínico- imagenológica

Author

Montero Cruz, Edinson, Mendoza Ospina, María Alejandra, Aldana Bocanegra, Jorge Andrés, Montaño Lozada, Juan Manuel, Castillo Támara, Edgard Eliud, Montero Cruz, Edinson, Mendoza Ospina, María Alejandra, Aldana Bocanegra, Jorge Andrés, Montaño Lozada, Juan Manuel, and Castillo Támara, Edgard Eliud

Abstract

Hypertrophic olivary degeneration is a disease secondary to damage to the neuronal circuit of the Guillain Mollaret Triangle, generating symptoms as varied as Holmes tremor. This article describes the case of a 52-year-old man, with a history of head trauma in 2016, without mediate sequelae, who progressively presented tremor, associated 5 years later with headache requiring emergency assistance, where studies were carried out and pharmacological therapy was instituted. Finally, it is concluded that post-traumatic lesions in the Guillain Mollaret Triangle can generate movement disorders secondary to hypertrophic olivary degeneration as sequelae, an entity that is rarely diagnosed., La degeneración olivar hipertrófica, es una enfermedad secundaria al daño en el circuito neuronal del Triángulo de Guillain Mollaret, generando síntomas tan variados como el temblor de Holmes. El presente artículo describe el caso de un hombre de 52 años, con antecedente de trauma craneoencefálico en 2016, sin secuelas mediatas, quien de manera progresiva presenta temblor, asociándose 5 años después a cefalea requiriendo asistencia a urgencias, allí realizan estudios e instauran terapia farmacológica. Finalmente se concluye, que lesiones postraumáticas en el Triángulo de Guillain Mollaret, pueden generar como secuelas trastornos del movimiento secundarios a degeneración olivar hipertrófica, una entidad poco diagnosticada.

Published

2023

18. Ataxic phenotype with altered CaV3.1 channel property in a mouse model for spinocerebellar ataxia 42

Author

Shunta Hashiguchi, Hiroshi Doi, Misako Kunii, Yukihiro Nakamura, Misa Shimuta, Etsuko Suzuki, Shigeru Koyano, Masaki Okubo, Hitaru Kishida, Masaaki Shiina, Kazuhiro Ogata, Fumiko Hirashima, Yukichi Inoue, Shun Kubota, Noriko Hayashi, Haruko Nakamura, Keita Takahashi, Atsuko Katsumoto, Mikiko Tada, Kenichi Tanaka, Toshikuni Sasaoka, Satoko Miyatake, Noriko Miyake, Hirotomo Saitsu, Nozomu Sato, Kokoro Ozaki, Kiyobumi Ohta, Takanori Yokota, Hidehiro Mizusawa, Jun Mitsui, Hiroyuki Ishiura, Jun Yoshimura, Shinichi Morishita, Shoji Tsuji, Hideyuki Takeuchi, Kinya Ishikawa, Naomichi Matsumoto, Taro Ishikawa, and Fumiaki Tanaka

Subjects

Cerebellum, Spinocerebellar ataxia 42, CACNA1G, Knock-in mouse, Purkinje cell, Inferior olivary nucleus, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Spinocerebellar ataxia 42 (SCA42) is a neurodegenerative disorder recently shown to be caused by c.5144G > A (p.Arg1715His) mutation in CACNA1G, which encodes the T-type voltage-gated calcium channel CaV3.1. Here, we describe a large Japanese family with SCA42. Postmortem pathological examination revealed severe cerebellar degeneration with prominent Purkinje cell loss without ubiquitin accumulation in an SCA42 patient. To determine whether this mutation causes ataxic symptoms and neurodegeneration, we generated knock-in mice harboring c.5168G > A (p.Arg1723His) mutation in Cacna1g, corresponding to the mutation identified in the SCA42 family. Both heterozygous and homozygous mutants developed an ataxic phenotype from the age of 11–20 weeks and showed Purkinje cell loss at 50 weeks old. Degenerative change of Purkinje cells and atrophic thinning of the molecular layer were conspicuous in homozygous knock-in mice. Electrophysiological analysis of Purkinje cells using acute cerebellar slices from young mice showed that the point mutation altered the voltage dependence of CaV3.1 channel activation and reduced the rebound action potentials after hyperpolarization, although it did not significantly affect the basic properties of synaptic transmission onto Purkinje cells. Finally, we revealed that the resonance of membrane potential of neurons in the inferior olivary nucleus was decreased in knock-in mice, which indicates that p.Arg1723His CaV3.1 mutation affects climbing fiber signaling to Purkinje cells. Altogether, our study shows not only that a point mutation in CACNA1G causes an ataxic phenotype and Purkinje cell degeneration in a mouse model, but also that the electrophysiological abnormalities at an early stage of SCA42 precede Purkinje cell loss.

Published

2019

19. Deep Brain Stimulation for Essential Tremor

Author

Morigaki, Ryoma, Goto, Satoshi, and Itakura, Toru, editor

Published

2015

20. Role of cerebellar GABAergic dysfunctions in the origins of essential tremor.

Author

Xu Zhang and Santaniello, Sabato

Subjects

*ESSENTIAL tremor, *CEREBELLAR cortex, *DENTATE nucleus, *FREQUENCIES of oscillating systems, *MOVEMENT disorders, *PURKINJE cells

Abstract

Essential tremor (ET) is among the most prevalent movement disorders, but its origins are elusive. The inferior olivary nucleus (ION) has been hypothesized as the prime generator of tremor because of the pacemaker properties of ION neurons, but structural and functional changes in ION are unlikely under ET. Abnormalities have instead been reported in the cerebello-thalamo-cortical network, including dysfunctions of the GABAergic projections from the cerebellar cortex to the dentate nucleus. It remains unclear, though, how tremor would relate to a dysfunction of cerebellar connectivity. To address this question, we built a computational model of the cortico-cerebello-thalamo-cortical loop. We simulated the effects of a progressive loss of GABAA α1-receptor subunits and up-regulation of α2/3-receptor subunits in the dentate nucleus, and correspondingly, we studied the evolution of the firing patterns along the loop. The model closely reproduced experimental evidence for each structure in the loop. It showed that an alteration of amplitudes and decay times of the GABAergic currents to the dentate nucleus can facilitate sustained oscillatory activity at tremor frequency throughout the network as well as a robust bursting activity in the thalamus, which is consistent with observations of thalamic tremor cells in ET patients. Tremor-related oscillations initiated in small neural populations and spread to a larger network as the synaptic dysfunction increased, while thalamic high-frequency stimulation suppressed tremor-related activity in thalamus but increased the oscillation frequency in the olivocerebellar loop. These results suggest a mechanism for tremor generation under cerebellar dysfunction, which may explain the origin of ET. [ABSTRACT FROM AUTHOR]

Published

2019

21. 3-acetylpyridine induced behavioral dysfunction and neuronal loss in the striatum and hippocampus of adult male rats.

Author

Ghorbani, Zeynab, Sani, Mojtaba, Aghighi, Zahra, Moghaddam, Meysam Hassani, Eskandari, Neda, Mohammadbagheri, Esmaeil, Fathi, Mobina, Shenasandeh, Zahra, Fotouhi, Farid, Abdollahifar, Mohammad-Amin, Salehi, Mina, Bayat, Amir-Hossein, Meftahi, Gholam Hossein, Aliaghaei, Abbas, and Rasoolijazi, Homa

Subjects

IMMUNOHISTOCHEMISTRY, RATS, CORPUS striatum, GLIOSIS, NEURONS

Abstract

3-acetylpyridine (3-AP) is a neurotoxin that is known to mainly affect the inferior olivary nucleus (ION) in the brain stem. Although several studies have explored the effect of this neurotoxin, still further investigation is required to understand the impact of this toxin on different parts of the brain. In this research, two groups of rats were studied, the 3-AP-treated and the control groups. Behavioral, stereological, and immunohistochemical analyses were performed. The locomotor activity of the 3-AP-treated rats decreased whereas their anxiety levels were higher than in normal controls. Also, memory performance was impaired in animals in the 3-AP group. Microscopic observations showed a decline in the numerical density of neurons in the hippocampus and striatum along with gliosis. Although this toxin is used to affect the ION, it exerts a neurotoxic effect on different brain regions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Essential Tremor

Author

Louis, Elan D., Manto, Mario, editor, Schmahmann, Jeremy D., editor, Rossi, Ferdinando, editor, Gruol, Donna L., editor, and Koibuchi, Noriyuki, editor

Published

2013

23. Specification of Cerebellar and Precerebellar Neurons

Author

Hoshino, Mikio, Seto, Yusuke, Yamada, Mayumi, Manto, Mario, editor, Schmahmann, Jeremy D., editor, Rossi, Ferdinando, editor, Gruol, Donna L., editor, and Koibuchi, Noriyuki, editor

Published

2013

24. Synaptogenesis and Synapse Elimination in Developing Cerebellum

Author

Masanobu Kano, Kouichi Hashimoto, and Masahiko Watanabe

Subjects

Cerebellum, medicine.anatomical_structure, nervous system, Basket cell, Purkinje cell, Synaptogenesis, medicine, Inferior olivary nucleus, Parallel fiber, Climbing fiber, Biology, Granule cell, Neuroscience

Abstract

Purkinje cells (PCs) are the sole output neurons of the cerebellar cortex and play pivotal roles in coordination, control, and learning of movements. In the adult cerebellum, they receive two distinctive excitatory synaptic inputs from parallel fibers (PFs), the axons of granule cells (GCs), and climbing fibers (CFs) arising from the inferior olivary nucleus in the medulla oblongata. Each PC receives functionally weak but numerous (c.a. 100,000 in mice) PF synapses, on spines of distal dendrites. In contrast, most PCs are innervated by single but functionally very strong CFs on stubby spines of their proximal dendrites. PCs receive GABAergic inhibitory synaptic inputs from basket and stellate cells (BCs and SCs) in the molecular layer. These synaptic organizations are established mostly during the first 3 weeks of rodent’s life. In this article, we briefly review how these microcircuits around PCs are organized, maintained and modified during postnatal development.

Published

2023

25. A Rare Presentation of Idiopathic Unilateral Hypertrophic Olivary Degeneration.

Author

Matiski LT, Bhandari A, Ozgur HT, and Rogers SN

Abstract

Hypertrophic olivary degeneration (HOD) is a rare form of trans-synaptic degeneration affecting the inferior olivary nucleus (ION). Its classical description involves a lesion in the Guillain-Mollaret triangle (GMT), characteristic imaging findings, and associated oculopalatal tremor. However, understanding of this disease entity is incomplete, as its overall rarity has limited strong classification. Case reports and small studies indicate that a variety of presentations can occur, including non-existent or non-classical lesions as well as variations in physical symptoms. Here we report the exceedingly rare case of idiopathic, nonlesional, unilateral HOD in a female patient., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Matiski et al.)

Published

2024

26. The functional anatomy of the cerebrocerebellar circuit: A review and new concepts.

Author

Benagiano, Vincenzo, Rizzi, Anna, Lorusso, Loredana, Flace, Paolo, Saccia, Matteo, Cagiano, Raffaele, Ribatti, Domenico, Roncali, Luisa, and Ambrosi, Glauco

Abstract

Abstract: The cerebrocerebellar circuit is a feedback circuit that bidirectionally connects the neocortex and the cerebellum. According to the classic view, the cerebrocerebellar circuit is specifically involved in the functional regulation of the motor areas of the neocortex. In recent years, studies carried out in experimental animals by morphological and physiological methods, and in humans by magnetic resonance imaging, have indicated that the cerebrocerebellar circuit is also involved in the functional regulation of the nonmotor areas of the neocortex, including the prefrontal, associative, sensory and limbic areas. Moreover, a second type of cerebrocerebellar circuit, bidirectionally connecting the hypothalamus and the cerebellum, has been detected, being specifically involved in the regulation of the hypothalamic functions. This review analyzes the morphological features of the centers and pathways of the cerebrocerebellar circuits, paying particular attention to their organization in different channels, which separately connect the cerebellum with the motor areas and nonmotor areas of the neocortex, and with the hypothalamus. Actually, a considerable amount of new data have led, and are leading, to profound changes on the views on the anatomy, physiology, and pathophysiology of the cerebrocerebellar circuits, so much they may be now considered to be essential for the functional regulation of many neocortex areas, perhaps all, as well as of the hypothalamus and of the limbic system. Accordingly, clinical studies have pointed out an involvement of the cerebrocerebellar circuits in the pathophysiology of an increasing number of neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2018

27. Stages 5 and 6

Author

Beck, F., editor, Clascá, F., editor, Frotscher, M., editor, Haines, D. E., editor, Hirokawa, N., editor, Kmiec, Z., editor, Korf, H. -W., editor, Marani, E., editor, Putz, R., editor, Sano, Y., editor, Schiebler, T. H., editor, Timmermans, J. -P., editor, Braak, Heiko, and Tredici, Kelly Del

Published

2009

28. Brainstem and Midbrain Lesions

Author

Kaga, Kimitaka

Published

2009

29. Internal Architecture of the Brain Stem with Key Axial Section

Author

Naidich, Thomas P., Duvernoy, Henri M., Delman, Bradley N., Sorensen, A. Gregory, Kollias, Spyros S., and Haacke, E. Mark

Published

2009

30. The Brain Stem Reticular Formation

Author

Traurig, Harold H. and Conn, P. Michael, editor

Published

2008

31. Development and Developmental Disorders of the Human Cerebellum

Author

ten Donkelaar, Hans J., Lammens, Martin, Wesseling, Pieter, Hori, Akira, ten Donkelaar, Hans J., Lammens, Martin, and Hori, Akira

Published

2006

32. Robust α-synuclein pathology in select brainstem neuronal populations is a potential instigator of multiple system atrophy

Author

Grace M. Lloyd, Stefan Prokop, Nikolaus R. McFarland, Zachary A. Sorrentino, Ethan W Hass, and Benoit I. Giasson

Subjects

Male, Pathology, medicine.medical_specialty, Cytoplasmic inclusion, Biology, Pathology and Forensic Medicine, Mice, Cellular and Molecular Neuroscience, Atrophy, medicine, Inferior olivary nucleus, Animals, Humans, RC346-429, Aged, Aged, 80 and over, Neurons, Mice, Inbred BALB C, Cerebellar ataxia, Dementia with Lewy bodies, Research, Parkinsonism, Pontine nuclei, Middle Aged, Multiple System Atrophy, medicine.disease, nervous system diseases, nervous system, alpha-Synuclein, Female, Neurology (clinical), Brainstem, Neurology. Diseases of the nervous system, medicine.symptom, Brain Stem

Abstract

Multiple system atrophy (MSA) is an insidious middle age-onset neurodegenerative disease that clinically presents with variable degrees of parkinsonism and cerebellar ataxia. The pathological hallmark of MSA is the progressive accumulation of glial cytoplasmic inclusions (GCIs) in oligodendrocytes that are comprised of α-synuclein (αSyn) aberrantly polymerized into fibrils. Experimentally, MSA brain samples display a high level of seeding activity to induce further αSyn aggregation by a prion-like conformational mechanism. Paradoxically, αSyn is predominantly a neuronal brain protein, with only marginal levels expressed in normal or diseased oligodendrocytes, and αSyn inclusions in other neurodegenerative diseases, including Parkinson’s disease and Dementia with Lewy bodies, are primarily found in neurons. Although GCIs are the hallmark of MSA, using a series of new monoclonal antibodies targeting the carboxy-terminal region of αSyn, we demonstrate that neuronal αSyn pathology in MSA patient brains is remarkably abundant in the pontine nuclei and medullary inferior olivary nucleus. This neuronal αSyn pathology has distinct histological properties compared to GCIs, which allows it to remain concealed to many routine detection methods associated with altered biochemical properties of the carboxy-terminal domain of αSyn. We propose that these previously underappreciated sources of aberrant αSyn could serve as a pool of αSyn prion seeds that can initiate and continue to drive the pathogenesis of MSA. Supplementary Information The online version contains supplementary material available at 10.1186/s40478-021-01173-y.

Published

2021

33. Medullary and Hypothalamic Functional Magnetic Imaging During Acute Hypoxia in Tracing Human Peripheral Chemoreflex Responses

Author

Darius A. Gerlach, Hendrik Kronsbein, Karsten Heusser, Fabian Hoffmann, Florian Beissner, Jorge Manuel, Heimo Ehmke, Jens Jordan, Jens Tank, and Alex Hoff

Subjects

Adult, Male, 0301 basic medicine, Pathology, medicine.medical_specialty, 03 medical and health sciences, 0302 clinical medicine, Arcuate nucleus, Internal Medicine, medicine, Inferior olivary nucleus, Humans, magnetic resonance imaging, hypothalamus, Monitoring, Physiologic, Nucleus ambiguus, Carotid Body, Medulla Oblongata, hypoxia, business.industry, Spinal trigeminal nucleus, Solitary tract, blood pressure, Healthy Volunteers, 030104 developmental biology, medicine.anatomical_structure, Dorsal motor nucleus, Research Design, Hypothalamus, brain stem, business, Nucleus, 030217 neurology & neurosurgery

Abstract

Hypoxia-sensitive peripheral carotid chemoreceptors, which regulate sympathetic outflow from the brain stem, are promising antihypertensive treatment targets. However, the central nervous pathways integrating human peripheral chemoreflexes are poorly understood. We combined high-resolution functional magnetic resonance imaging with physiological profiling to elucidate hypothalamic and medullary responses to acute hypoxia. We exposed 12 healthy men (29.7±6.6 years) to 5 hypoxic episodes each by breathing 10% oxygen for 180 seconds followed by 90 seconds of normoxia during high-resolution subcortical functional magnetic resonance imaging. We recorded beat-by-beat finger blood pressure, ECG, and peripheral oxygen saturation (Sp o 2 ). We analyzed functional magnetic resonance imaging data through independent component analysis, correlation with systolic blood pressure and Sp o 2 , and functional connectivity analysis by dual regression. On average Sp o 2 decreased by 12±3% ( P P Registration: URL: https://www.drks.de/ . Unique identifier: DRKS00013101.

Published

2021

34. Materials and Methods

Author

Bozhilova-Pastirova, Anastasia, Ovtscharoff, Wladimir, Beck, F., editor, Christ, B., editor, Kriz, W., editor, Marani, E., editor, Putz, R., editor, Sano, Y., editor, Schiebler, T. H., editor, Zilles, K., editor, Bozhilova-Pastirova, Anastasia, and Ovtscharoff, Wladimir

Published

2000

35. Genetic <scp>Creutzfeldt–Jakob disease‐M232R</scp> with the cooccurrence of multiple prion strains, <scp>M1</scp> + <scp>M2C</scp> + <scp>M2T</scp> : Report of an autopsy case

Author

Masayuki Shintaku, Daita Kaneda, Takeshi Nakamura, Akiyo Shinde, Hirofumi Kusaka, Tetsuyuki Kitamoto, and Atsuko Takeuchi

Subjects

Pathology, medicine.medical_specialty, Cerebellum, Methionine, medicine.diagnostic_test, Cerebrum, Thalamus, General Medicine, Biology, nervous system diseases, Pathology and Forensic Medicine, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Western blot, chemistry, 030220 oncology & carcinogenesis, medicine, Inferior olivary nucleus, Neuropil, Protein Misfolding Cyclic Amplification, Neurology (clinical), 030217 neurology & neurosurgery

Abstract

Genetic Creutzfeldt-Jakob disease (gCJD) with a methionine to arginine substitution at codon 232 of the prion protein gene (gCJD-M232R) is rare and has only been reported in Japan. We report an autopsy case of gCJD-M232R showing alleles of codon 129 that were homozygous for methionine and the presence of multiple strains of the protease-resistant, abnormal isoform of prion protein (PrPSc ), M1 + M2C + M2T. The patient, a 54-year-old Japanese man, died after a clinical course of 21 months characterized by slowly progressive dementia and sleep disturbance. At autopsy, the neuropil of the cerebral neocortex showed a widespread and severe spongiform change. Grape-like clusters of large confluent vacuoles were admixed with fine vacuoles. Neuronal loss was moderate, but reactive astrocytosis was mild. The dorsomedial nucleus of the thalamus and the inferior olivary nucleus showed moderate and severe neuronal loss, respectively. Many amyloid plaques were present in the cerebellar molecular layer. PrPSc deposition pattern was predominantly the synaptic type in the cerebrum and corresponded to the plaques in the cerebellum. Perivacuolar deposition was also seen. Western blot analysis of PrPSc revealed the predominance of type 2. Moreover, by employing Western blot analysis in combination with the protein misfolding cyclic amplification (PMCA) method, which selectively amplifies the minor M2T prion strain, we demonstrated the presence of M2T, in addition to M1 and M2C strains, in the brain of the patient. PMCA was a powerful method for demonstrating the presence of the M2T strain, although the amount is often small and the transmission is difficult.

Published

2021

36. Neuroanatomy

Author

Papka, Raymond E. and Papka, Raymond E., editor

Published

1995

37. Axial (horizontal) sections — Figs. 99–127

Author

Duvernoy, Henri M. and Duvernoy, Henri M.

Published

1995

38. Structure and functions of the brain stem

Author

Duvernoy, Henri M. and Duvernoy, Henri M.

Published

1995

39. Angiotensin Receptor Subtypes and their Pharmacology

Author

Timmermans, Pieter B. M. W. M., Inagami, Tadishi, Saavedra, Juan M., Ardaillou, Raymond, Rosenfeld, Charles R., Mendelsohn, Frederick A. O., Cuello, A. Claudio, editor, and Collier, Brian, editor

Published

1995

40. Cerebellum-Cortical Interaction in Spatial Navigation and Its Alteration in Dementias

Author

Pierandrea Mirino, Anna Pecchinenda, Maddalena Boccia, Adriano Capirchio, Fabrizia D’Antonio, and Cecilia Guariglia

Subjects

nervous system, cerebellum, General Neuroscience, spatial navigation, inferior olivary nucleus, dementia, brainstem, Alzheimer’s disease

Abstract

The cerebellum has a homogeneous structure and performs different computational functions such as modulation/coordination of the communication between cerebral regions, and regulation/integration of sensory information. Albeit cerebellar activity is generally associated with motor functions, several recent studies link it to various cognitive functions, including spatial navigation. In addition, cerebellar activity plays a modulatory role in different cognitive domains and brain processes. Depending on the network involved, cerebellar damage results in specific functional alterations, even when no function loss might be detected. In the present review, we discuss evidence of brainstem degeneration and of a substantial reduction of neurons in nuclei connected to the inferior olivary nucleus in the early stages of Alzheimer’s disease. Based on the rich patterns of afferences from the inferior olive nucleus to the cerebellum, we argue that the subtle alterations in spatial navigation described in the early stages of dementia stem from alterations of the neuromodulatory functions of the cerebellum.

Published

2022

41. Neurofibrillary pathology in progressive supranuclear palsy (PSP)

Author

Cervós-Navarro, J., Schumacher, K., Tolosa, E., editor, Duvoisin, R., editor, and Cruz-Sánchez, F. F., editor

Published

1994

42. Hypertrophic olivary degeneration: A clinico-radiologic study.

Author

Konno, Takuya, Broderick, Daniel F., Tacik, Pawel, Caviness, John N., and Wszolek, Zbigniew K.

Subjects

*NEURODEGENERATION, *OLIVARY nucleus, *RADIOLOGIC technology, *CEREBROVASCULAR disease patients, *BRAIN imaging, *MAGNETIC resonance imaging, *RETROSPECTIVE studies, *DIAGNOSIS, *HYPERTROPHY, *OLIVARY degeneration, *BRAIN stem, *LONGITUDINAL method

Abstract

Introduction: The frequency and causes of hypertrophic olivary degeneration (HOD) are unknown. We compared the clinical and radiological characteristics of unilateral HOD and bilateral HOD.Methods: We performed a search of a radiologic report database for patients who were radiologically diagnosed as having HOD. This database includes the patients examined at the Mayo Clinic in Florida and Arizona. We used the search terms "hypertrophic olivary degeneration", "HOD", and "olivary" in the reports recorded from 1995 to 2015. Pertinent medical records and magnetic resonance imaging (MRI) scans of the brain for those with HOD were reviewed retrospectively.Results: We identified 142 MRI studies on 95 cases who had radiologically proven HOD, 39 cases had unilateral HOD and 56 with bilateral HOD. In symptomatic cases, the most common symptom was ataxia. Palatal tremor was observed in almost half of all HOD cases. While cerebrovascular diseases were the most frequent etiology in both types of HOD (n = 24, 62% in unilateral; n = 17, 30% in bilateral), more than half of bilateral HOD cases had an unknown etiology (52%, n = 29), whereas only 13% (n = 5) of the unilateral cases had an unknown etiology (χ(2) test, P < 0.001). The lesions of unilateral HOD had a tendency to improve radiologically over time, whereas those associated with bilateral HOD were likely to worsen (χ(2) test, P < 0.05).Conclusions: Our study showed that bilateral HOD is more common than unilateral HOD. Half of bilateral HOD cases had no obvious cause and some worsened over time. This may implicate a possible primary neurodegenerative process. [ABSTRACT FROM AUTHOR]

Published

2016

43. Trigeminal System and Taste

Author

Roberts, P. A. and Roberts, P. A.

Published

1992

44. Cellular and Subcellular Targets of Neurotoxins: The Concept of Selective Vulnerability

Author

Baumgarten, H. G., Zimmermann, B., Herken, Hans, editor, and Hucho, Ferdinand, editor

Published

1992

45. Electroneuronal Hybridization: A Novel Approach to Investigate Rhythmogenesis in the Interior Olivary Nucleus

Author

Yarom, Yosef, Llinás, Rodolfo, editor, and Sotelo, Constantino, editor

Published

1992

46. m

Author

Lockard, Isabel and Lockard, Isabel

Published

1992

47. General Properties of Synaptic Transmission

Author

Brown, A. G. and Brown, A. G.

Published

1991

48. A Potential Neural Substrate for Geomagnetic Sensibility in Cetaceans

Author

Gerrits, Nicolaas M., Kastelein, Ronald A., Thomas, Jeanette A., editor, and Kastelein, Ronald A., editor

Published

1990

49. Unilateral Holmes tremor associated with compression of the brainstem by an ectatic vertebral artery

Author

Dhruv Batra, VikramV Holla, PramodK. Pal, and Shweta Prasad

Subjects

Cognitive Neuroscience, Vertebral artery, Neuroscience (miscellaneous), Brainstem compression, lcsh:RC346-429, Holmes tremor, medicine.artery, Ectasia, medicine, Inferior olivary nucleus, In patient, holmes tremor, ectatic, lcsh:Neurology. Diseases of the nervous system, business.industry, Anatomy, Compression (physics), medicine.disease, tremor, nervous system diseases, Neurology, inferior olive, vertebral artery, Surgery, Neurology (clinical), Brainstem, business

Abstract

Lesions affecting the Guillain–Mollaret triangle usually lead to palatal or oculopalatal tremors and occasionally Holmes tremors (HTs). We report two cases of unilateral HT without palatal tremor, secondary to brainstem compression by an ectatic vertebral artery. Unilateral HT may occur due to compression of the inferior olivary nucleus by an ectatic vertebral artery. This cause should be explored in patients who lack other obvious causes for tremor.

Published

2020

50. A Novel Combination of Prion Strain Co-Occurrence in Patients with Sporadic Creutzfeldt-Jakob Disease

Author

Yasushi Iwasaki, Hirofumi Sawa, Norikazu Isoda, Ryouta Torimoto, Shirou Mohri, Masaki Takao, Takashi Kimura, Tetsuyuki Kitamoto, Zechen Qi, Atsushi Kobayashi, Hinako Kondo, Taishi Shimazaki, Yuko Saito, Yoshiko Munesue, Toru Iwaki, and Keisuke Aoshima

Subjects

Male, 0301 basic medicine, Pathology, medicine.medical_specialty, animal diseases, Mutation, Missense, Mice, Transgenic, Neuropathology, Biology, medicine.disease_cause, Creutzfeldt-Jakob Syndrome, Prion Proteins, Pathology and Forensic Medicine, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Thalamus, Genotype, medicine, Inferior olivary nucleus, Animals, Humans, Missense mutation, Medulla, Aged, Infectivity, Mutation, Methionine, Middle Aged, nervous system diseases, 030104 developmental biology, Amino Acid Substitution, chemistry, Female, 030217 neurology & neurosurgery

Abstract

Six subgroups of sporadic Creutzfeldt-Jakob disease have been identified by distinctive clinicopathologic features, genotype at polymorphic codon 129 [methionine (M)/valine (V)] of the PRNP gene, and type of abnormal prion proteins (type 1 or 2). In addition to the pure subgroups, mixed neuropathologic features and the coexistence of two types of abnormal prion proteins in the same patient also have been reported. Here, we found that a portion of the patients previously diagnosed as MM1 had neuropathologic characteristics of the MM2 thalamic form (ie, neuronal loss of the inferior olivary nucleus of the medulla). Furthermore, coexistence of biochemical features of the MM2 thalamic form also was confirmed in the identified cases. In addition, in transmission experiments using prion protein-humanized mice, the brain material from the identified case showed weak infectivity and generated characteristic abnormal prion proteins in the inoculated mice resembling those after inoculation with brain material of MM2 thalamic form. Taken together, these results show that the co-occurrence of MM1 and MM2 thalamic form is a novel entity of sporadic Creutzfeldt-Jakob disease prion strain co-occurrence. The present study raises the possibility that the co-occurrence of the MM2 thalamic form might have been overlooked so far because of the scarcity of abnormal prion protein accumulation and restricted neuropathology.

Published

2019