Survey
* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project
Download Tools for studying the nervous system
Document related concepts
no text concepts found
Transcript
Tools for studying the nervous system • 1929- Hans Berger develops the electroencephalograph (EEG), which provided insight into the living, fully functioning brain. Microelectrode Techniques • Microelectrode recording techniques are used to study the functions of single neurons • Process: • A microelectrode tip is placed directly inside of a neuron • What is does: • Studies changes in the electrical conditions of that neuron • What it’s used for: • Understanding the dynamics of action potentials, the effects of drugs on neurons, and even process that occur in the neural membrane. Macroelectrode Techniques • Macroelectrode techniques are used to detect the collective electrical activity of millions of neurons • Process: • Large recording devices are placed directly on the surface of the scalp to measure electrical activity of neurons in the underlying cortex • What it does: • Measures brain waves to provide an index of both size and rhythm of neural activity • What it’s used for: • Provide an index of both size and rhythm of neural activity that have given researchers valuable insights into sleep and dreaming Types of brain waves • Alpha waves • Commonly found when you are relaxing with your eyes closed • Beta waves • Higher-frequency waves that occur when you are awake and still but your eyes are open • Delta waves • Low-frequency waves that occur during the deepest sleep EEG EEG recording of one persons alpha brain waves Red and violet colors indicate greater alpha-wave activity Structural Imaging • Computerized axial tomography (CAT or CT) scanning allows scientists to create 3D of a human brain without performing surgery. • How it works: An X-ray photography unit rotates around the patient, moving from the top of the head to the bottom. A computer then combines the images • Magnetic Resonance Imaging (MRI) creates an even better picture of the inner regions of the brain- its ridges, folds, ad fissures • How it works: a patient’s head is placed in a magnetic field, and the brain is exposed to radio waves which cause hydrogen atoms in the brain to release energy. The energy released by different structures in the brain generates an image that appears on a computer screen. MRI and CAT Scans Functional Imaging methods • Functional imaging methods strive to provide a picture of the brains activity as it actually reacts to sensory stimuli such as pain, tones, and words • EEG Imaging: Measurements of the actual functioning of the brain are made on a millisecond by millisecond basis. • Use: useful in detecting abnormal cortical activity; like that observed during an epileptic seizure • Magnetoencephalography (MEG) and Magnetic Source Imaging (MSI): Take the process of EEG imaging a step further by eliminating the distortion of the signals by measuring magnetic signals that are unaffected by bone • Use: Can identify the parts of the brain that do most of the work in psychological process such as memory, language processing, and reading. MEG Scan Other methods of functional imaging • Positron Emission Tomography (PET) scanning, Radioactive PET, and Single Photon Emission Computed Tomography (SPECT) use radioactive energy to map brain activity. • How they work: • First: a radioactive substance is injected into the brain • Next: Brain structures that are especially active immediately after the injection absorb most of the substance • Then: When the substance starts to decay it releases subatomic particles The Peripheral Nervous system • The Peripheral Nervous System • Carries messages to and from the central nervous system. It comprises two parts: • - The Somatic Nervous System • - The Autonomic Nervous Systems • The Somatic Nervous System • The Somatic Nervous System is composed of the sensory (afferent) neurons that carry messages to the central nervous system and the motor (efferent) neurons that carry messages from the central nervous system to the skeletal muscles of the body. The autonomic nervous system • The Autonomic Nervous System carries messages between the central nervous system and the internal organs. It is broken into two parts: the sympathetic and parasympathetic divisions. • • Sympathetic: Acts primarily to arouse the body; prepares the body for quick action in an emergency • • Parasympathetic: Acts to relax and restore the body to normal levels of arousal; calms and relaxes the body
