Uncontrolled high blood pressure, hypertension, is one of the leading causes of disability or death due to stroke, heart attack, heart failure and kidney failure. High blood pressure has been described as “the silent killer” because it often occurs without symptoms. Headaches, blurred vision, nosebleeds, or dizziness may occur, but these symptoms are not specific to high blood pressure.
Everybody has, and needs blood pressure. Without it, blood cannot circulate through the body. And without circulating blood, vital organs cannot get the oxygen and food that they need to work. So it’s important to know the role of blood pressure, and the organs and systems that help regulate it.
The explanation of blood pressure begins with the cardiovascular system, the system responsible for circulating blood through the heart and blood vessels. When the heart beats, a surge of blood is released from the left ventricle, which is the heart’s main pumping chamber, into an intricate web of blood vessels that spread throughout the body.
The arteries are the blood vessels that carry nutrients and oxygenated blood from the heart to the body’s tissues and organs. The largest artery, aorta, is connected to the left ventricle and serves as the main channel for blood leaving the heart. The aorta branches off into smaller arteries, which turn into even smaller arteries, called arterioles. (1)
Within the body’s tissues and organs are microscopic blood vessels called capillaries. The capillaries exchange nutrients and fresh oxygen from the arterioles for carbon dioxide and other waste products produced by our cells. This “used” blood is sent back to the heart through a system of blood vessels called veins. When it reaches the heart, blood from the veins is routed to the lungs, where it releases carbon dioxide and picks up a new supply of oxygen. This freshly oxygenated blood is sent back to the heart, ready to begin a new journey. Other waste products are removed as blood passes through the kidneys. (1)
ORGAN SYSTEMS – Essay
ORGAN SYSTEMS Integumentary A. Functions 1. protect underlying tissues from injury 2. prevent excessive loss or absorption of water and the consequent effect on tissues 3. aid excretion and absorption of specific metabolites and ions 4. almost all sense organs are derived in part from the integument B. Components skin: composed of epidermis above and the dermis below as well ...
To keep this process working and all of the 11 pints of blood in our body moving, a certain amount of pressure is required. Blood pressure is the force that’s exerted on the artery walls as blood passes through. This force helps keep blood in the arteries flowing smoothly.
Several factors help control blood pressure and keep it from increasing too high or decreasing too low. They include three major organs; heart, arteries, and kidneys.
When the heart releases blood into the aorta, a certain amount of force is created by the pumping action of the heart muscle. The harder the heart muscle has to work to release blood, the greater the force exerted on the arteries.
To assist the surge of blood coming from the heart, the arteries are lined with smooth muscles that allow them to expand and contract as blood flows through. The more “elastic” the arteries are, the less resistant they are to the flow of blood and the less force exerted on their walls. When arteries lose their “elasticity” or become narrowed, resistance to blood flow increases and additional force is needed to push blood through the vessels. (1)
The kidneys regulate the volume of water circulating in the body and the amount of sodium the body contains. More sodium in the body means that more water is retained in the circulation and may cause an increase in blood pressure. More sodium in the body also may increase the tendency for blood vessels to narrow.
The central nervous system, hormones, and enzymes are other factors that also influence blood pressure. Within the walls of the heart and several blood vessels, are tiny structures called baroreceptors. The baroreceptors’ job is to monitor the pressure of blood through the arteries and veins. If a change is noticed, the baroreceptors send signals to the brain; to slow down or speed up the heart rate, or to widen or narrow the arteries to keep the blood pressure within a normal range. (1)
The Essay on High Blood Pressure Heart Arteries Drugs
... attack (TIA), dementia, coronary artery disease, heart attack, and peripheral vascular disease. While high blood pressure can cause major damage, controlling high blood pressure so it does not ... from stroke or heart disease. "Blood pressure" (2) is the force with which your heart pumps blood through the body. Occasional increases in blood pressure levels are not ...
The brain reacts on the messages from the baroreceptors, by signaling the release of hormones and enzymes that affect the functioning of the heart, blood vessels, and kidneys. Epinephrine, adrenaline, is one of the most significant hormones to affect blood pressure. Epinephrine is released during high periods of stress or tension. The release of Epinephrine, causes the arteries to narrow and heart contractions become stronger and rapid, increasing the pressure on the arteries.
Blood pressure is the measure of the force generated by the heart against the artery walls. This force is expressed as two numbers, such as 110 over 80 mm Hg (millimeters of mercury).
The first number, the “systolic” blood pressure, represents the amount of force used by the heart to initially fill the blood vessel circuit; the second number, the “diastolic” blood pressure, is a measure of the resistance to that force. Combined, these numbers give a picture of how hard the heart is working to get blood to the tissues in the body.
High blood pressure, is blood pressure that consistently reads above 140 over 90 mm Hg. There are 3 separate stages of high blood pressure, based on increased severity. They are simple referred to as stages 1, 2, and 3. Among people whose blood pressure is uncontrolled, about 75 percent, have stage 1 high blood pressure. About 20 percent of people have stage 2, and about 5 percent have stage 3 high blood pressure. (2)
High blood pressure causes undue stress to the circulation of key organs, particularly the brain, heart and kidneys. This leads to increased risk of stroke, heart attack and kidney failure. High blood pressure also can cause an aneurysm, a small balloon-like weakening of the artery wall, which can be life-threatening.
Nearly one-third of the people affected by high blood pressure do not even know they have it. They may go for years without knowing it. Among people whom are aware of their condition, only about half are being treated. And even fewer, only about one-quarter of the people with high blood pressure, have their blood pressure under control.
The Essay on Affects of Physical Activity on the Heart Rate And Blood Pressure
Purpose: The lab prepared will teach you how to measure blood pressure. Learn where systolic and diastolic pressure begins. Next observe venous return, heart rate, and blood pressure in three different scenarios including: normal range, resting rate, and increased exercise. Research: In the circulatory system lab, students observed how physical activity affects blood pressure and heart rate. With ...
High blood pressure can occur in children or adults, but is particularly prevalent in blacks, middle-aged and elderly people, obese people, heavy drinkers and individuals who are taking oral contraceptives. Hypertension can be especially hard to manage when combined with other disorders, such as diabetes or obesity.
The more you know about blood pressure, hopefully, the more willing you will be to take the necessary steps to lower your blood pressure and keep it under control.
Bibliography
Bibliography
1. Sheldon G. Sheps, M.D. Mayo Clinic on High Blood Pressure; 1999 Mayo Clinic Research and Development
2. American Heart Association, About High Blood Pressure; 1999