Search
- Filter Results
- Location
- Classification
- Include attachments
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_(OERI)/11%3A_Nervous_System_and_Nervous_Tissue/11.05%3A_Development_of_the_Nervous_SystemThe embryonic nervous system begins as a very simple structure called a neural tube, that is essentially just a hollow tube. During embryonic development, the neural tube enlarges into primary vesicle...The embryonic nervous system begins as a very simple structure called a neural tube, that is essentially just a hollow tube. During embryonic development, the neural tube enlarges into primary vesicles (prosencephalon, mesencephalon and rhombencephalon) and secondary vesicles (telencephalon, diencephalon, mesencephalon, metencephalon and myelencephalon), which will give rise to the regions of the brain and the spinal cord.
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_(Lange_et_al.)/11%3A_Central_Nervous_System/11.04%3A_Brain_-_Diencephalon_Brainstem_Cerebellum_and_Limbic_SystemDeep and inferior to the cerebrum, the diencephalon, brainstem and cerebellum compose the rest of the brain. These regions are responsible for various functions including maintaining homeostasis, rela...Deep and inferior to the cerebrum, the diencephalon, brainstem and cerebellum compose the rest of the brain. These regions are responsible for various functions including maintaining homeostasis, relaying sensory information, carrying vital functions through the autonomic system. Most of the cranial nerves originate from these regions. The limbic system comprehends structures from the cerebrum and diencephalon that are associated with emotions.
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Anatomy_and_Physiology_1e_(OpenStax)/Unit_3%3A_Regulation_Integration_and_Control/13%3A_Anatomy_of_the_Nervous_Tissue/13.01%3A_The_Embryologic_PerspectiveThe brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts rela...The brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts relate to each other. The embryonic nervous system begins as a very simple structure—essentially just a straight line, which then gets increasingly complex. Looking at the development of the nervous system with a couple of early snapshots makes it easier to understand the whole complex system.
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_(OERI)/12%3A_Central_and_Peripheral_Nervous_System/12.04%3A_Brain-_Diencephalon_Brainstem_Cerebellum_and_Limbic_SystemDeep and inferior to the cerebrum, the diencephalon, brainstem and cerebellum compose the rest of the brain. These regions are responsible for various functions including maintaining homeostasis, rela...Deep and inferior to the cerebrum, the diencephalon, brainstem and cerebellum compose the rest of the brain. These regions are responsible for various functions including maintaining homeostasis, relaying sensory information, carrying vital functions through the autonomic system. Most of the cranial nerves originate from these regions. The limbic system comprehends structures from the cerebrum and diencephalon that are associated with emotions.
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Anatomy_and_Physiology_2e_(OpenStax)/03%3A_Regulation_Integration_and_Control/13%3A_Anatomy_of_the_Nervous_Tissue/13.02%3A_The_Embryologic_PerspectiveThe brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts rela...The brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts relate to each other. The embryonic nervous system begins as a very simple structure—essentially just a straight line, which then gets increasingly complex. Looking at the development of the nervous system with a couple of early snapshots makes it easier to understand the whole complex system.
- https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_(Lange_et_al.)/10%3A_Nervous_System_and_Nervous_Tissue/10.05%3A_Development_of_the_Nervous_SystemThe embryonic nervous system begins as a very simple structure called a neural tube, that is essentially just a hollow tube. During embryonic development, the neural tube enlarges into primary vesicle...The embryonic nervous system begins as a very simple structure called a neural tube, that is essentially just a hollow tube. During embryonic development, the neural tube enlarges into primary vesicles (prosencephalon, mesencephalon and rhombencephalon) and secondary vesicles (telencephalon, diencephalon, mesencephalon, metencephalon and myelencephalon), which will give rise to the regions of the brain and the spinal cord.
- https://med.libretexts.org/Courses/Skyline_College/Human_Physiology_for_Allied_Health_Professionals/06%3A_Anatomy_of_the_Nervous_Tissue/6.02%3A_The_Embryologic_PerspectiveThe brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts rela...The brain is a complex organ composed of gray parts and white matter, which can be hard to distinguish. Starting from an embryologic perspective allows you to understand more easily how the parts relate to each other. The embryonic nervous system begins as a very simple structure—essentially just a straight line, which then gets increasingly complex. Looking at the development of the nervous system with a couple of early snapshots makes it easier to understand the whole complex system.
