The Cerebellum

The published cerebellar study group is dedicated to the cerebellum's role in cerebellar ataxia genetics, motor control and cognitive function, and diseases related to aging population, cerebellar dysfunction.

The cerebellum is for the latest development in basic neuroscience, including molecular biology and cell biology, behavioral neuroscience and neurochemistry, genetics, basal and clinical neurophysiology, neurology and neuropathology, cognitive and neuroimaging It is the central resource of.

The cerebellum is beneficial for neuroscientists, neurophysiologists, neurotransmitters, neurologists, radiologists, neuropsychologists, neurologists and psychiatric students in molecular biology and cell biology.

Pon and cerebellum: Pon is a bulge in front of the brain stem, cerebellum is under the brain. The bridge conveys information from the brain to the cerebellum and also includes sleep, hearing, balance, facial expression / expression, breathing and swallowing. The cerebellum plays a role in cognitive processes such as muscle coordination, emotional and judgment. Hypothalamus: The hypothalamus is the main control center of the autonomic nervous system and therefore plays an important role in ensuring the smooth functioning of all systems in the body. It also involves releasing hormones from the pituitary gland. Many physical functions such as the following are involved in the hypothalamus.

It is widely believed that the cerebellum is involved in pain management. The cerebellum undergoes pain input through the pit and the lower olive from the pituitary cortex-cerebellar pathway and the ascending spine-cerebellar pathway. Part of this information is transferred to the exercise system, induces a conscious movement to avoid pain, and grades according to the strength of the pain. These direct pain inputs and indirect inputs are thought to cause long-term pain avoidance behavior and cause chronic postural changes resulting in functional and anatomical remodeling of vestibular nucleus and proprioceptive nucleus ing. As a result, chronic neuropathic pain can trigger macroscopic anatomical remodeling of the hindbrain, including the cerebellum. The extent of induction of this remodeling and neuronal precursor markers indicates the contribution of adult neurogenesis to these changes.

Cerebellar involvement is well recognized in the association of different specific and nonspecific aversive reactions in various species and in non-associative kinetic learning. In small and medium-sized brains, the classical regulation of specific aversive reactions It is known that it is involved. Recent studies have shown that the inner cerebellum under fear conditions strengthens the role of blink reflex and there is a long-term habit of acoustic panic reaction 7. The purpose of this study was to investigate whether the cerebellum is involved in human fear conditioning, as assessed by changes in heart rate and skin conduction response.