Your search keyword '"Cerebellar reserve"' showing total 4 results

1. Consensus Paper: Latent Autoimmune Cerebellar Ataxia (LACA).

Author

Manto, Mario, Hadjivassiliou, Marios, Baizabal-Carvallo, José Fidel, Hampe, Christiane S, Honnorat, Jerome, Joubert, Bastien, Mitoma, Hiroshi, Muñiz-Castrillo, Sergio, Shaikh, Aasef G., and Vogrig, Alberto

Subjects

*CEREBELLAR ataxia, *TYPE 2 diabetes, *NEUROPLASTICITY, *AUTOIMMUNE diseases, *MEDICAL personnel, *PANCREATIC diseases, *PULPITIS

Abstract

Immune-mediated cerebellar ataxias (IMCAs) have diverse etiologies. Patients with IMCAs develop cerebellar symptoms, characterized mainly by gait ataxia, showing an acute or subacute clinical course. We present a novel concept of latent autoimmune cerebellar ataxia (LACA), analogous to latent autoimmune diabetes in adults (LADA). LADA is a slowly progressive form of autoimmune diabetes where patients are often initially diagnosed with type 2 diabetes. The sole biomarker (serum anti-GAD antibody) is not always present or can fluctuate. However, the disease progresses to pancreatic beta-cell failure and insulin dependency within about 5 years. Due to the unclear autoimmune profile, clinicians often struggle to reach an early diagnosis during the period when insulin production is not severely compromised. LACA is also characterized by a slowly progressive course, lack of obvious autoimmune background, and difficulties in reaching a diagnosis in the absence of clear markers for IMCAs. The authors discuss two aspects of LACA: (1) the not manifestly evident autoimmunity and (2) the prodromal stage of IMCA's characterized by a period of partial neuronal dysfunction where non-specific symptoms may occur. In order to achieve an early intervention and prevent cell death in the cerebellum, identification of the time-window before irreversible neuronal loss is critical. LACA occurs during this time-window when possible preservation of neural plasticity exists. Efforts should be devoted to the early identification of biological, neurophysiological, neuropsychological, morphological (brain morphometry), and multimodal biomarkers allowing early diagnosis and therapeutic intervention and to avoid irreversible neuronal loss. [ABSTRACT FROM AUTHOR]

Published

2024

2. A narrative review on non-invasive stimulation of the cerebellum in neurological diseases.

Author

Billeri, Luana and Naro, Antonino

Subjects

*CEREBELLUM diseases, *NEUROLOGICAL disorders, *CEREBRAL cortex, *PARKINSON'S disease, *CEREBELLAR ataxia, *MULTIPLE system atrophy, *STROKE, *CEREBELLUM

Abstract

Importance: The cerebellum plays an important role in motor, cognitive, and affective functions owing to its dense interconnections with basal ganglia and cerebral cortex. This review aimed at summarizing the non-invasive cerebellar stimulation (NICS) approaches used to modulate cerebellar output and treat cerebellar dysfunction in the motor domain.Observation: The utility of NICS in the treatment of cerebellar and non-cerebellar neurological diseases (including Parkinson's disease, dementia, cerebellar ataxia, and stroke) is discussed. NICS induces meaningful clinical effects from repeated sessions alone in both cerebellar and non-cerebellar diseases. However, there are no conclusive data on this issue and several concerns need to be still addressed before NICS could be considered a valuable, standard therapeutic tool.Conclusions and Relevance: Even though some challenges must be overcome to adopt NICS in a wider clinical setting, this tool might become a useful strategy to help patients with lesions in the cerebellum and cerebral areas that are connected with the cerebellum whether one could enhance cerebellar activity with the intention of facilitating the cerebellum and the entire, related network, rather than attempting to facilitate a partially damaged cortical region or inhibiting the homologs' contralateral area. The different outcome of each approach would depend on the residual functional reserve of the cerebellum, which is confirmed as a critical element to be probed preliminary in order to define the best patient-tailored NICS. [ABSTRACT FROM AUTHOR]

Published

2021

3. Consensus Paper. Cerebellar Reserve: From Cerebellar Physiology to Cerebellar Disorders.

Author

Mitoma, H., Buffo, A., Gelfo, F., Guell, X., Fucà, E., Kakei, S., Lee, J., Manto, M., Petrosini, L., Shaikh, A.G., and Schmahmann, J.D.

Subjects

*PHYSIOLOGY, *EYE movements, *CEREBRAL hemispheres, *DISEASES, *SPINOCEREBELLAR ataxia, *CELL death

Abstract

Cerebellar reserve refers to the capacity of the cerebellum to compensate for tissue damage or loss of function resulting from many different etiologies. When the inciting event produces acute focal damage (e.g., stroke, trauma), impaired cerebellar function may be compensated for by other cerebellar areas or by extracerebellar structures (i.e., structural cerebellar reserve). In contrast, when pathological changes compromise cerebellar neuronal integrity gradually leading to cell death (e.g., metabolic and immune-mediated cerebellar ataxias, neurodegenerative ataxias), it is possible that the affected area itself can compensate for the slowly evolving cerebellar lesion (i.e., functional cerebellar reserve). Here, we examine cerebellar reserve from the perspective of the three cornerstones of clinical ataxiology: control of ocular movements, coordination of voluntary axial and appendicular movements, and cognitive functions. Current evidence indicates that cerebellar reserve is potentiated by environmental enrichment through the mechanisms of autophagy and synaptogenesis, suggesting that cerebellar reserve is not rigid or fixed, but exhibits plasticity potentiated by experience. These conclusions have therapeutic implications. During the period when cerebellar reserve is preserved, treatments should be directed at stopping disease progression and/or limiting the pathological process. Simultaneously, cerebellar reserve may be potentiated using multiple approaches. Potentiation of cerebellar reserve may lead to compensation and restoration of function in the setting of cerebellar diseases, and also in disorders primarily of the cerebral hemispheres by enhancing cerebellar mechanisms of action. It therefore appears that cerebellar reserve, and the underlying plasticity of cerebellar microcircuitry that enables it, may be of critical neurobiological importance to a wide range of neurological/neuropsychiatric conditions. [ABSTRACT FROM AUTHOR]

Published

2020

4. Task Force Paper On Cerebellar Transplantation: Are We Ready to Treat Cerebellar Disorders with Cell Therapy?

Author

Cendelin, Jan, Buffo, Annalisa, Hirai, Hirokazu, Magrassi, Lorenzo, Mitoma, Hiroshi, Sherrard, Rachel, Vozeh, Frantisek, and Manto, Mario

Subjects

*TASK forces, *CELLULAR therapy, *CENTRAL nervous system, *TRANSPLANTATION of organs, tissues, etc., *CENTRAL nervous system injuries, *DISEASES

Abstract

Restoration of damaged central nervous system structures, functional recovery, and prevention of neuronal loss during neurodegenerative diseases are major objectives in cerebellar research. The highly organized anatomical structure of the cerebellum with numerous inputs/outputs, the complexity of cerebellar functions, and the large spectrum of cerebellar ataxias render therapies of cerebellar disorders highly challenging. There are currently several therapeutic approaches including motor rehabilitation, neuroprotective drugs, non-invasive cerebellar stimulation, molecularly based therapy targeting pathogenesis of the disease, and neurotransplantation. We discuss the goals and possible beneficial mechanisms of transplantation therapy for cerebellar damage and its limitations and factors determining outcome. [ABSTRACT FROM AUTHOR]

Published

2019