Cardiovascular Test ID # Directions: Read each section carefully

... a. What are the four chambers of the heart, and what is the main function of each? b. What are the four valves of the heart, and where are they located? c. What are the three layers of the heart’s wall? d. Why is the endothelium of the epicardium important for cardiac function? e. What are the two c ...

aortopulmonary window: a rare congenital heart disease acebdf

... It is an uncommon entity, representing approximately 0.1% of all congenital heart diseases (2). It may occur as an isolated lesion and/or associated with minor and simple repair anomalies (patent ductus arteriosus, atrial septal defect, patent foramen ovale) or as part of a larger complex of lesions ...

Congestive Heart Failure (CHF)

... About 5 million people in the United States have some form of heart failure, and nearly 550,000 new cases are diagnosed each year. The risk of developing heart failure increases with age, and it is estimated that one out of every 10 people over the age of 65 will be diagnosed with heart failure. Tod ...

Coronary Artery Disease

... Most congenital defects arise between the 4th and 7th week of gestation when the major development of the fetal heart occurs ...

Study Guide For Circulatory System

... The blood vessels that are located on the outer surface of the heart to provide its oxygen supply are the:_____________________________ The structures inside the heart that prevent back flow of the blood are the:___________________ The tip of the heart that lies on the diaphragm and points to the le ...

Sheep Heart Dissection Alternative Assignment

... d. Label the 4 chambers of the heart 5. Using the mouse, move the cursor over the heart to identify each structure. Check your answers. (You will see the “auricles” on top of the atria; these are muscular flaps that lie directly over each atria. To identify the atria, you may need to locate it in th ...

Cow Heart Lab - dsapresents.org

... 1) Obtain a heart, gloves, apron, and dissecting tools. 2) With your group, determine which side of the cow heart you have. 3) Try to determine what areas of the heart you can identify. Working with other groups can help you figure out what portion of the cow heart you ...

Ventricular and Atrial Septal Defects

... Most ASDs are small and do not cause much of a problem and may not produce a murmur. They may be discovered as an incidental finding when your dog has an echocardiogram (heart ultrasound) for another reason. If the ASD is large or is associated with other congenital heart defects, signs of right- or ...

File

... blood to the lungs to be exhaled. Another example, when cells break down glucose, they produce carbon dioxide as a waste product. ...

What Happens during Normal Heart Function

... What Happens during Normal Heart Function The normal heart is a strong muscle that beats about 120,000 times a day to pump blood through the body. The blood carries oxygen and nutrients to tissues and organs and waste products to the kidneys and liver. The blood travels through a large network of bl ...

What Happens during Normal Heart Function

... How the Heart’s Electrical System Works The heart has an electrical system that causes it to beat and pump blood in a smooth and regular way (like a clock or an engine). Special cells in the heart start electrical signals. These signals then travel along pathways through the heart and cause it to b ...

Patient assessment - American Heart Association

... What Happens during Normal Heart Function The normal heart is a strong muscle that beats about 120,000 times a day to pump blood through the body. The blood carries oxygen and nutrients to tissues and organs and waste products to the kidneys and liver. The blood travels through a large network of bl ...

Pediatric Cardiac Conditions

... These sounds are produced by blood passing through a defective valve, great vessel, or other heart structure. Murmurs are classified by: intensity, location, radiation, timing, and quality. ...

12 - Animal Circulatory Systems

... BIOL 112 Lab Questions – 12 – Animal Circulatory Systems 1. Dissect out the circulatory system of your rat. Start by clearing the tissues around the heart. Be especially careful at the anterior end of the heart – this is where the major blood vessels emerge. Trace the aorta, the vena cava, and as ma ...

Chapter 18 The Cardiovascular System - The Heart

... Endocardium (inner) ...

Heart Failure Medications

... heart cannot relax properly between beats, less blood than normal enters its chambers to be pumped out to the body. The flow of blood to the body may also be less than ideal if the heart cannot squeeze, or contract, with full force, particularly if the blood vessels are narrowed as well. These condi ...

Atrial Septal Defect

... The atria are the upper chambers of the heart. The septum is a wall that separates the left and right sides of the heart. An atrial septal defect means there is a hole in the septum (wall). When this occurs, there is an abnormal communication between the left and the right sides of the heart. This t ...

Heart and Heart Diseases

... • Deterioration of the heart muscle's ability to contract • Causes: alcohol, toxins, sarcoidosis • Hypertrophic cardiomyopathy: enlarged heart • Restrictive cardiomyopathy: constrict the outflow tracts of the heart • Dilated cardiomyopathy: impact on the efficiency of its beating ...

Anatomic description of the heart of an ostrich (Struthio camelus)

... The ostrich (Struthio camelus) is a bird with considerable commercial value involving the exploitation of its meat, leather, feathers and eggs, including the shells. Most of the meat is located on the thighs and back. The heart of birds is similar to that of mammals, except for some characteristics, ...

3 fetal chest and heart

... (normally there is an offset of 2mm between valves) – Atrial and ventricular septal defect – b mode and Doppler – Arrhythmia – especially CHB – Additional cardiac malformations are common ...

The Heart

... During each heartbeat, the cardiac muscle squeezes hard, forcing blood into the pulmonary artery or aorta (the main artery). The right side of the heart pumps blood to the lungs. The left side of the heart pumps blood away to the rest of the body. ...

New guidelines from the American Heart Association Antibiotics and

... certain heart conditions. Until recently, the AHA has recommended that certain patients take antibiotics shortly before dental treatment. This was done with the belief that the antibiotics would prevent infective endocarditis (IE), basically a heart infection, ...

diseases of the cardiovascular system

... The atria contract in unison and the ventricles contract in unison The atria and ventricles ___________ contract at the same time (as one group contracts, the other relaxes) ATRIAL contraction sends blood into the ventricles through the _________ and _______________ valves – While this is occurring, ...

Adult Congenital Heart Disease Program

... modalities. Patients are evaluated clinically in our Cardiology Clinics at the Mission Bay and Parnassus campuses. Advanced congenital echocardiographic evaluation is available at both locations, and advanced imaging with MR, CT, and nuclear medicine are also offered. In addition, we operate an inpa ...

Glossary - Maggi Grace

... helps the physician evaluate the pumping action of the heart. The ultrasound transducer is positioned on an endoscope (a long, thin, flexible instrument about 1/2 inch in diameter). The endoscope is placed into your mouth and passed into your esophagus (the "food pipe" leading from your mouth into y ...

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Congenital heart defect

Congenital heart defect (CHD), also known as a congenital heart anomaly or congenital heart disease, is a problem in the structure of the heart that is present at birth. Signs and symptoms depend on the specific type of problem. Symptoms can vary from none to life threatening. When present they may include rapid breathing, bluish skin, poor weight gain, and feeling tired. It does not cause chest pain. Most congenital heart problems do not occur with other diseases. Complications that can result from heart defects include heart failure.The cause of a congenital heart defect is often unknown. Certain cases may be due to infections during pregnancy such as rubella, use of certain medications or drugs such as alcohol or tobacco, parents being closely related, or poor nutritional status or obesity in the mother. Having a parent with a congenital heart defect is also a risk factor. A number of genetic conditions are associated with heart defects including Down syndrome, Turner syndrome, and Marfan syndrome. Congenital heart defects are divided into two main groups: cyanotic heart defects and non-cyanotic heart defects, depending on whether the child has the potential to turn bluish in color. The problems may involve the interior walls of the heart, the heart valves, or the large blood vessels that lead to and from the heart.Congenital heart defects are partly preventable through rubella vaccination, the adding of iodine to salt, and the adding of folic acid to certain food products. Some defects do not need treatment. Other may be effectively treated with catheter based procedures or heart surgery. Occasionally a number of operations may be needed. Occasionally heart transplantation is required. With appropriate treatment outcomes, even with complex problems, are generally good.Heart defects are the most common birth defect. In 2013 they were present in 34.3 million people globally. They affect between 4 and 75 per 1,000 live births depending upon how they are diagnosed. About 6 to 19 per 1,000 cause a moderate to severe degree of problems. Congenital heart defects are the leading cause of birth defect-related deaths. In 2013 they resulted in 323,000 deaths down from 366,000 deaths in 1990.

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Congenital heart defect