8
Structure and Function of the Cerebellum The Cerebellum is a cauliflower-shaped lobe of the brain. Cerebellum means “Little brain” in Latin. The cerebellum is divided into three major parts. The Vermis: a narrow, worm shaped structure in between both sides of the cerebellum. The Paravermis: A region on either side of the midline of the cerebellum that lies lateral to the Vermis and medial to the hemisphere The Cerebellar Hemispheres: The hemispheres are coated in a thin layer of grey matter called the cortex. Under the cortex, there is a white layer and in that layer are deep cerebellar nuclei. This part of the brain is in charge of the motor control of that regulates muscle tone and coordinate the movement. It is also believed that it contributes to non-motor functions, such as thought process and emotions. It is important that it receives and sends the messages to for the production of muscle movement and coordination. See also NeuroScience For Dumbies

Numbers5to9 artifact

Embed Size (px)

Citation preview

Page 1: Numbers5to9 artifact

Structure and Function of the Cerebellum

• The Cerebellum is a cauliflower-shaped lobe of the brain. Cerebellum means “Little brain” in Latin. The cerebellum is divided into three major parts. • The Vermis: a narrow, worm shaped structure in between both sides of the

cerebellum.• The Paravermis: A region on either side of the midline of the cerebellum that lies

lateral to the Vermis and medial to the hemisphere• The Cerebellar Hemispheres: The hemispheres are coated in a thin layer of grey

matter called the cortex. Under the cortex, there is a white layer and in that layer are deep cerebellar nuclei.

• This part of the brain is in charge of the motor control of that regulates muscle tone and coordinate the movement. It is also believed that it contributes to non-motor functions, such as thought process and emotions. It is important that it receives and sends the messages to for the production of muscle movement and coordination.

• See also NeuroScience For Dumbies

Page 2: Numbers5to9 artifact

Structure and Function of Diencephalon

• It is made up of the pons, medulla oblongata, and the midbrain.• It’s two major divisions are: the thalamus and the hypothalamus.• Thalamus: is an important relay station for sensory information, translating sensations

of sound, smell, taste, pain, pressure, temperature, and touch. It also controls some of memories and emotions.

• Hypothalamus: it controls the heartbeat rate and digestion, helps regulate the endocrine system and the body temperature, it also interprets hunger and thirst, and regulates sleep, anger, and aggression.

• The diencephalon is like a relay system between the input sensory neurons and other parts of the brain. It interconnects with other larger surrounding structures called the limbic system, which controls the memories and emotions.

Page 3: Numbers5to9 artifact

Structure and Function of the Cerebral Cortex

• The cerebral cortex can control sensations, voluntary muscle movement, thought, reasoning, and memory. The wrinkles, folds, and crumpled curves allow for more surface area to pack in more cortical neurons. The neurons carry out the rational thoughts and emotions. The cerebral cortex is apart of the limbic system.

Page 4: Numbers5to9 artifact

Somatic Sensory Pathways in the CNS

• There are a few major parts/systems to the somatic sensory pathways: the anterolateral and lemniscal systems.• Anterolateral system: the cells of origin of pain and temperature

conveying axons in the spinal cord lie in the dorsal horn. Axons arising from these dorsal horn cells cross and ascend in the anterolateral portion of the white matter of the spinal cord

• Lemniscal system: Axons of cells within nucleus gracilis and nucleus cuneatus cross as internal arcuate fibers and form this system. It carries information from specialized touch, pressure, vibration, and joint receptors to the cerebral cortex.

Page 5: Numbers5to9 artifact

Somatic Motor Pathways in the CNS

• Motor commands coming from the brain and spinal cord, through peripheral nerves to effecter organs.

• Somatic motor neurons innervate skeletal muscle to produce conscious, voluntary movement; each somatic motor pathway consists of a single somatic motor neuron that extends from the CNS to skeletal muscle

Page 6: Numbers5to9 artifact
Page 7: Numbers5to9 artifact
Page 8: Numbers5to9 artifact