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Human Regulation Coordination and Control Regulation in Humans • Controlled by 2 systems – Nervous System - electrical – Endocrine System – chemical • Both systems respond to and send messages throughout the body Human Nervous System Central and Peripheral A General Sense… An Overview of the Nervous System: Peripheral Nervous System Central Nervous System -Brain -Spinal Cord Sensory Neurons -carry messages towards spinal cord from sensory receptors Somatic System: Voluntary Nerves --neurons control skeletal muscles Sympathetic Division --“fight or flight” --activated by stress Motor Neurons -carry signals away from CNS Autonomic System: Visceral, Involuntary --heart, blood vessels, digestive organs, smooth muscle Parasympathetic Division: --Routine Nervous System Cells • Called neurons • Neurons axons so they can transmit signals. Many neurons together are called a nerve. Anatomy of a Neuron • Cell body – main part • Dendrite – receives stimulus from other neurons • Axon – one long branche from cell body, sends the signal out • Synapse – gap between neurons; between the axon of 1 neuron and the dendrite of a 2nd neuron Anatomy of a Neuron Central Nervous System (CNS) BRAIN • About 100 billion neurons • 12 pairs of cranial nerves are connected to the human brain Parts of the Brain • Cerebrum – for voluntary activities of the body • Cerebellum – for coordinating body movements • Brain stem – connects brain and spinal cord – 2 parts: • Medulla oblongata and Pons – controls internal organs • Starts at the medulla oblongata (in the brain) • 31 pairs of spinal nerves branch out to the body • Spinal Reflexes: these don’t go to the brain, instead they go to the spinal cord— – Ex. patellar reflex Spinal Cord Reflexes • An automatic reaction to some sense message, like pain – Don’t need to think or make decisions about something • The information gets processed in your spinal cord – Your muscles begin to react immediately even before your brain gets the news of what’s happening. – This is called a reflex arc Reflex Arc • Begins at a receptor – Sensory neurons in the skin receive a stimulus • Travels to the spinal cord • Ends at an effector – A muscle or gland that reacts to the stimulus – Usually a motor neuron Draw a Reflex Arc Peripheral Nervous System (Motor and Sensory) Motor Division: signals away from CNS • Somatic nervous system is for voluntary muscle control. These neurons control the skeletal muscles…. • Autonomic nervous system is automatic or involuntary – Control of heart rate, respiration, blood pressure, smooth muscle, etc. – This has 2 separate divisions: sympathetic and parasympathetic Autonomic: Sympathetic Division & Parasympathetic Division • Sympathetic: Activated by physical or emotional stress. “Fight or Flight” response. • Parasympathetic: Routine life, conserves energy, heart rate lowers, digestive organs back to normal. Autonomic NS: Parasympathetic and Sympathetic Controls Peripheral Nervous System Sensory Division • Sensory neurons carry messages toward the CNS from sensory receptors all over body. • Sensory receptors are in sense organs, such as eyes, ears, mouth, nose, skin… and different regions of the brain respond to different signals. Transmission of a Signal • Think of it as dominoes – 1st – send the message • Knock down the 1st domino – 2nd – move the message along • Dominoes start to fall – 3rd – reset the nerve • Line the dominoes back up How does the electrical wave jump the gap? • Neurotransmitters – Chemicals released by the end of the axons that can flow across the synapse and bind to the dendrite of another neuron. – Lock and Key method Nervous System Disorders • Nervous System – Cerebral Palsy – affect the ability to control body movements – Alzheimer’s – progressive degenerative disease; lose memory and ability to think, speak, etc. – Multiple Sclerosis – cells in the brain and spinal cord do not function normally. • Wide variety of symptoms The Endocrine System Endocrine System • A set of glands that produce hormones-- chemical messengers that circulate in the blood Hormone • Chemical messengers produced by the endocrine glands and circulated in the blood • Similar to neurotransmitters in that they are also messengers • Slower communication system, but with longer lasting effects Endocrine System Hypothalamus • Brain region that controls the pituitary gland • Controls homeostasis – the bodies ability to remain at a status quo level Pituitary Gland • The endocrine system’s gland that controls the other endocrine glands • Called the “master gland” • Located at the base of the brain and connects to the hypothalamus • Controls thirst by controlling the amount of water in the body’s cells • Controls female contractions, and tells the mammary glands to produce milk for newborns • May control grooming habits, companionship, and sexual behavior • Controls the flow of the human growth hormones – dwarfism and gigantism Thyroid Gland • Endocrine gland that helps regulate the energy level in the body • Located in the neck • controls body temperature • Controls metabolism – our body’s ability to transform the food we eat into usable energy • Overactive- Behaviors may include excitability, insomnia, ADD, agitation, difficulty focusing • Reduced Activity- Behaviors may include sleepiness, reduced muscle tone, overweight Adrenal Gland • Endocrine glands that help to arouse the body in times of stress • Located just above the kidneys • Release epinephrine (adrenaline) and norepinephrine (noradrenaline) • Increase heart rate, blood pressure, and blood sugar Pancreatic Gland • Regulates the level of blood sugar (insulin) in the blood • Insulin is needed in the body to break down sugars in the body • Too much insulin in the body devours all of the sugar in the blood. Behaviors exhibited include sluggishness and inattentiveness. • Too little insulin causes a buildup of sugar in the blood and makes the kidneys use a lot more water to flush it out of the body. The extra water needed to flush the sugar comes from surrounding cells, which in turn dehydrates them and leaves them vulnerable to infection and poisons. Sex Glands • Ovaries (females) and testes (males) are the glands that influence emotion and physical development. • Testosterone – primary male hormone • Estrogen – primary female hormone • Males and females have both estrogen and testosterone in their systems. Gonads • Testicles – release androgens (male hormones) • Ovaries – release estrogens (female hormones) • The presence of these chemicals influence male and female reproductive characteristics. Maintaining Homeostasis • Homeostasis is the maintenance of a stable internal state within an organism. • Organisms detect changes in their environment and respond to these changes in a variety of ways. • A feedback mechanism occurs when the level of one substance influences the level of another substance or activity of another organ. Feedback Mechanisms Three parts of the mechanism – Sensor – something that can detect a change • Ex. Structures in the brain detect change in CO2 levels – Control Unit – something that knows what the correct level should be • Ex. Information in the brain is preset for the correct CO2 level – Effector – something to take the instructions and make changes • Ex. Muscles in the chest used for breathing Feedback Mechanisms • Positive feedback - designed to accelerate or enhance the output created by a stimulus that has already been activated. • Designed to push levels out of normal ranges. • Example is the release of oxytocin to intensify the contractions that take place during childbirth. – The more oxytocin, the greater and more frequent the contractions, which in turn produces more oxytocin Feedback Mechanisms • Negative feedback – process in which a stimulus produces a response that opposes the original stimulus. • Ex. Blood sugar regulation – An increase in blood sugar level triggers the release of the hormone insulin by the pancreas – the hormone insulin lowers blood sugar level restoring the body to its original blood glucose level in two major ways: • it increases the ability of body cells to take in glucose from the blood • it converts blood glucose to the compound glycogen -- this compound is also called animal starch and is stored in our liver and muscles – A decrease in blood sugar levels triggers the release of the hormone glucagon by the pancreas • It causes the liver to release glucose into the blood to regulate blood sugar levels Regulation Disorders • Endocrine System – Diabetes – interruption of the feedback system that controls blood sugar. – Type I – born with it • Controlled by insulin injections – Type II – acquired • Usually occurs in older people • May be controlled with diet