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Biology 211 Anatomy & Physiology I

Explore the embryology and structure of the human brain and central nervous system, including the development of major regions and functional areas. Learn about the formation of the ventricles, gray and white matter, and specific functions of different cortical regions.

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Biology 211 Anatomy & Physiology I

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  1. Biology 211Anatomy & Physiology I The Brain

  2. Human Central Nervous System Starts as a hollow tube in the embryo; Remains hollow & fluid-filled throughout life; These spaces form the ventricles of the brain and the central canal of the spinal cord. Cranial end of this hollow tube enlarges & folds to form brain and its various parts Caudal end of this hollow tube does not enlarge or fold; Develops into spinal cord

  3. Embryology of nervous system

  4. From lab, you should understand what adult structures form from the myelencephalon metenchephalon mesencephalon diencephalon telencephalon

  5. Prosencephalon Rhombencephalon

  6. More terms you need to know for brain and spinal cord Nervous tissue of the CNS consisting of neuron cell bodies, their supporting glia, and unmyelinated axons & dendrites. Nervous tissue of the CNS consisting of myelinated axons & dendrites and their supporting glia A region of gray matter on the surface of the brain (found only on the cerebrum and cerebellum) A deeper region of gray mattter, surrounded by white matter

  7. Coronal Section of Brain Cross Section of Spinal Cord

  8. The brain has seven major (and many minor) regions: Cerebrum Thalamus Hypothalamus Midbrain Pons Cerebellum Medulla Oblongata Let’s discuss each of these briefly.

  9. Thalamus develops from diencephalon Most nuclei are relay centers: Receive sensory information from spinal cord, other regions of brain, eyes, ears, tongue, nasal epithelium. Relay that to sensory regions of cerebral cortex Some nuclei relay motor information from cerebral cortex to other regions of brain Some nuclei regulate sleep/wakefulness

  10. Hypothalamus develops from diencephalon Some nuclei regulate body temperature, blood pressure, hunger, thirst, fatigue. Some nuclei regulate endocrine (hormone) functions by controlling activity of pituitary gland (to which it is connected)

  11. Midbrain develops from mesencephalon Often still called that. Some nuclei regulate eye movement & visual reflexes. Large tracts of white matter (myelinated axons) pass through, carrying motor information from cerebral motor cortex toward other parts of brain and spinal cord. Some nuclei modify that information to regulate motor functions. Large tracts of white matter pass through, carrying sensory information from spinal cord toward thalamus.

  12. Pons develops from metencephalon Some nuclei relay signals between cerebrum and cerebellum. Some nuclei help regulate sleep, respiration, swallowing, taste, hearing, bladder control, equilibrium, eye movement, facial expressions, facial sensation, and posture. Motor information from cerebral cortex (white matter) continues toward medulla oblongata and spinal cord; sensory information continues from the medulla oblongata and spinal cord toward the thalamus and toward the cerebellum.

  13. Cerebellum develops from metencephalon Nuclei and cortex receive both motor information (from cerebral cortex and nuclei of other parts of brain) and sensory information spinal cord and other parts of the brain. Uses that information to coordinate and fine-tune movement, particularly timing and precision. White matter carries that information to and from nuclei and cortex.

  14. Medulla Oblongata develops from myelencephalon Some nuclei help regulate respiration, heart rate, blood pressure, blood distribution. Other nuclei regulate vomiting, coughing, sneezing, swallowing. White matter carries motor information from other regions of brain to spinal cord, and sensory information from spinal cord to other regions of brain.

  15. Cerebrum Arises from the telencephalon Consists of right and left hemispheres separated from each other by the Each hemisphere is hollow, containing awhich is lined by ependyma and filled with cerebrospinal fluid

  16. Cerebrum Each hemisphere Includes both white matter and gray matter: Coronal Section

  17. Cerebral Cortex Gray Matter 2 - 4 mm thick Folded into ridges, or (singular: ) separated by shallow grooves, or (singular = ) Different parts of brain separated by deep

  18. Lobes of Cerebral Cortex

  19. Cerebral Cortex Each gyrus, sulcus, and fissure has a name (more than 50 gyri & sulci)

  20. Cerebral Cortex Each gyrus, sulcus, and fissure has a name You don't need to know all of them You will need to know the following: Longitudinal Fissure Central Sulcus Precentral Gyrus Postcentral Gyrus Lateral Fissure/Sulcus Parietooccipital Sulcus

  21. Cerebral Cortex Different regions of the cortex have specific functions Three types of functional areas: Motor Sensory Association

  22. Cerebral Cortex Different regions of the cortex have specific functions From your reading and lab exercises, you should know the functions of the following areas and where they are located: Primary somatosensory area Somatosensory association area Primary motor area Motor association area Primary visual area Visual association cortex Primary auditory area Auditory association area Questions on these may be on lecture and/or lab exams

  23. Cerebral Cortex Different regions of the cortex have specific functions Two regions of cortex important in language: deals with formation of speech deals with recognition and interpretation of speech Both located primarily on just one hemisphere (usually the left). Similar regions on other hemisphere control emotional content of speech.

  24. Cerebrum Recall:: Gray matter forms both: Cortex Basal Nuclei Coronal Section

  25. Cerebral Nuclei Not shown: Basal or Deep or Cerebral Nuclei

  26. From your reading and lab exercises, you should also know the locations of the -Lateral ventricles - Interventricular foramen -Third ventricle -Fourth ventricle - Mesencephalic aquaduct -Median aperture -Lateral apertures Questions on these may be on lecture and/or lab exams

  27. Brain is surrounded by three layers of connective tissue: (Skull) Space Space Space Mater Mater Mater

  28. The brain is protected in three ways: 1) 2) 3) Floats in

  29. Cerebrospinal fluid produced within ventricles by specialized tissue called Flows toward fourth ventricle Exits from fourth ventricle through three openings (apertures or foramina) into the subarachnoid space. Two Surrounds brain & spinal cord. Reabsorbed into blood through arachnoid villi on surface of brain

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