¶ … Nervous System:
In order to achieve its function, the nervous system is divided into two major parts i.e. The Central Nervous System (CNS) and Peripheral Nervous System (PNS). The central nervous system is basically made up of the brain and spinal cord and has the main function of receiving information from the body and sending out instructions. While the brain is protected by the skull, the spinal cord is guarded by the vertebral column. On the contrary, the basic structure of the peripheral nervous system consists of sensory neurons, motor neurons, and sensory receptors ("Nervous System," 2001). The system is responsible for sending messages from the brain to other parts of the body. PNS is divided into the afferent and efferent divisions with the afferent division consists of distinctively structured sensory receptor for transmitting information to the CNS about the body's internal environment ("Peripheral Nervous System," 2010). The efferent division is made up of sensory and motor neurons for sending information from CNS to body organs for appropriate responses.
Efferent division is divided into somatic nervous system with peripheral nerve fibers that transmit sensory information to the CNS and motor nerves connected to skeletal muscle ("Divisions of the Nervous System," n.d.). The other part is autonomic nervous system with splanchnic or visceral nerves connected to the CNS for mediating visceral functions and innervating glands, viscera, and blood vessels ("Parts of Nervous System," n.d.). The autonomic division is divided into the sympathetic division made up of a series of interconnected neurons for speeding up heart rate, widen pupils, flight response, and relax bladder. It also contains parasympathetic division contains interconnected neurons enhances intestinal and gland activity, slows the heart rate, constricts pupils, and contracts the bladder (Bailey, n.d.).
Major Endocrine Organs:
The endocrine system is basically made up of glands and organs that produce and secrete hormones and chemical substances from the body, which regulate cells or organs activity. These hormones are responsible for regulating the growth of the body, body metabolism, and sexual development and function. Some of the major organs or glands of the endocrine system include hypothalamus, pituitary, pancreas, thyroid, parathyroid, adrenals, thymus, ovaries, testes, pineal, and stomach ("The Endocrine System," n.d.).
Hypothalamus is an organ located in the lower central section of the brain and releases hormones that are secreted into an artery that transports them to the pituitary gland. The pituitary gland contains a glandular anterior section and a neural posterior section and secrets hormones that control growth making the most important endocrine organ ("Endocrine System," 2012). The endocrine system consists of two adrenal glands i.e. The inner and outer parts whose main function is to produce various hormones. While the outer part regulate salt and water balance in the body, the inner part increases blood pressure and heart rate during bodily stress. Pancreas secrets two vital hormones that sustain a constant level of sugar or glucose in the blood for the body to have fuel that produces and maintains energy stores ("Endocrine System," n.d.).
The pineal gland in the middle of the brain releases a hormone known as melatonin that helps in regulating the wake-sleep cycle. The thyroid gland is at the lower part of the neck to regulate the metabolism of the body and parathyroid gland secret hormone that regulate calcium levels in the bone and blood metabolism (Kemp & Stoppler, n.d.). Ovaries are female gonads that produce estrogens and progesterone for maturation of reproductive organs whereas testes are male gonads that stimulate maturation of male reproductive organs. Thymus is a gland that produces vital hormones for developing cells of the immune system ("Endocrine," n.d.).
Homeostatic Control of Blood Glucose Levels:
Homeostasis can be described as the process that enables living organisms to sustain relatively constant levels of temperature, water, pH, and ions balance. This process is critical for the effective functioning of an individual because cells require a stable environment for their survival. Homeostasis mechanisms are governed by processes known as negative feedback as they respond to environmental changes through releasing molecules like hormones to restore the levels with the normal range ("Describe the Homeostatic Regulation," n.d.).
Since cells obtain energy from glucose, homeostasis control of blood glucose levels is vital because too much glucose is toxic whereas little glucose contributes to starvation. At point 1, the glucose level in the blood is within its normal range and continues to fluctuate with time due to digestion after eating and the release of insulin. The digestion process after a meal results in increased glucose levels while lower blood levels are experienced due to loss of glucose in the urine (James, 2004). Points 2 and 3 are the two pancreatic receptors for the increase and decrease of glucose respectively due to homeostasis. These receptors have the responsibility of monitoring blood...
Nervous System Lymphoma page literature review "Primary Central Nervous System Lymphoma The primary central nervous system lymphoma The primary central nervous system lymphoma is a cancer type that is very rare, and affects the central nervous system i.e. spinal cord, brain, brain coverings, optic nerves, or the eyes. The cancer being referred to as a lymphoma indicates that its cells are lymphocytes which are a white blood cell type. Primary central nervous
The efferent division of the peripheral nervous system carries out the motor commands that are sent from the central nervous system. These commands or signals are then sent directly through the nerve fibers of the peripheral nervous system to the target organs where they will then be signaled to perform the desired action (Martini, Nath, & Bartholomew, 380). The peripheral nervous system can be further broken down as being a
What happens is this over production of neurons results in a kind or "pre-programmed 'suicide' mechanism called apoptosis" (Marino, 2010). So if the brain kills off these neurons on purpose, what happens to the dead neurons? Journalist Melissa Marino asserts that the body must dispose of the dead neurons or else the body's immune system is in trouble. Interestingly, Dr. Bruce Carter (a biochemistry professor) of Vanderbilt has discovered the
Nervous System The major structures of basal ganglia are pallidum, substantia nigra, subthalamic nucleus, and striatum. They are inappropriately named because the name striatum refers to all major components of basal ganglia. However it was used to refer to only one of the structures. The general function of basal ganglia is to take part in learning and motor control. Is called motor cortex, receives its primary input from the ganglia structures The
Parkinson's Disease The human central nervous system is a miraculously designed functional piece of our bodies that helps us conduct the most essential tasks to help in our survival. It is therefore very important to investigate and understand how this system functions and operates. In this investigation it is also useful to understand how disease and malfunction of this system are affected. The purpose of this essay is to describe the
human Central Nervous System plays a large role in governing personality. The Central Nervous System (CNS) is made up of the brain and spinal cord. The good deal of our knowledge about how the brain influences personality comes from early studies of how brain damage impacts personality. The case of Phineas Gage demonstrates that link between the left temporal lobe and personality characteristics like working for a delayed the
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