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... The heart is divided into right and left sides. These sides are then divided into chambers. Mammals and aviaries have 4chambered hearts. Reptiles have 3 chambers. All vessels entering the heart enter through the atrium. Ventricles are the pumping chambers of the heart, and all vessels leave the hea ...

the quiz questions and answers as a Microsoft Word

... B. Carry blood from the tissues back to the heart C. Allow for exchange of gases, nutrients, and waste products D. Carry oxygenated blood from the lungs to the left heart to be pumped out into the systemic circulation 8. Describe the activity of the arteries. A. Carry blood away from the heart and t ...

Sheep Heart Dissection - Mrs. Brenner`s Biology

... 1. Insert your dissecting scissors or scalpel into the superior vena cava and make an incision down through the wall of the right atrium and ventricle, as shown by the arrow in the external heart picture. Pull the two sides apart and look for three flaps of membrane. These membranes form the tricusp ...

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... j. pulmonary arteries and veins d. aortic and pulmonary semilunar valves k. SA Node e. tricuspid and bicuspid valves l. AV Node f. aorta m. Purkinje fibres g. inferior & superior vena cava 7. The heart is described often as a "double pump." Explain why this is so and where these two pumps pump to. 8 ...

(Heart) Pre and Post Assessment

... B) Valves closing C) The heart skipping beats D) Your ears playing tricks on you Q.4 With circulation, the heart provides your body with: A) Oxygen B) Nutrients C) A way to get rid of waste ...

Heart Jeopardy Review Game

... With Your Host... ...

Mammalian Heart

... • Pulmonary Artery & Pulmonary Vein – Start and end of pulmonary circuit, respectively. – Pulmonary artery takes deoxygenated blood from the right ventricle and leads it to arterioles and capillaries within the lungs. – Pulmonary vein takes oxygenated blood from the capillaries and venules within th ...

Review sheet answers quiz 2

... 4. Which side of the heart has blood with a lot of oxygen AND WHY? The left side of the heart has blood with a lot of oxygen because it is coming from the lungs and just picked it up. 5. Which type of blood vessel (arteries or veins) usually carries blood without oxygen AND WHY? Veins usually have b ...

Chapter 11: The Cardiovascular System

... ( ) 16-The product of the stroke volume and the heart rate is known as the? a- cardiac reserve b- end-systolic volume c- blood pressure d- cardiac output e- end-diastolic volume ...

Myocardial infarction

... • Increase amount of plasminogen activator clump & clot • Increase amount of blood circulation ...

Cardiovascular System

... Heart is a Double Pump Pulmonary circulation Right side of heart pumps blood to lungs ...

Here

... Cells that “set the pace” for the beating of the heart as a whole are also called the __________________________________ Heart muscle is made of specialized cells called __________________ muscle. On a diagram of the circulatory system red is used to represent _________________________ blood and blu ...

Circulatory System EQ

... click HERE on Options… and then click on  Enable this content ...

Mass Transport and the Blood system

...  Internal Medium to carry substances (must be able to dissolve ...

The Circulatory System

... to exchange CO2 for O2 in the pulmonary circuit.  The left side of your heart pumps oxygen rich blood around your body in the systemic circuit.  Blood moving through the heart is the cardiac circuit. ...

Circulatory system

Sheep Heart Dissection

... 1. Identify the right and left sides of the heart. Look closely and on one side you will see a diagonal line of blood vessels that divide the heart. The half that includes all of the apex (pointed end) of the heart is the left side. 2. Confirm this by squeezing each half of the heart. The left half ...

Slide 1 - AccessCardiology

... Left. Wide physiologic splitting of the second heart sound (S2) is seen in a patient with complete right bundle-branch block (RBBB). Audible expiratory splitting, which widens normally with inspiration, is present. Note also the wide splitting of the first heart sound into its mitral (M1) and tricus ...

File

...  The left ventricle of the heart is thicker as it has to pump blood to the whole body whereas the right ventricle only has to pump blood to the lungs  The valves in the heart are found between the Atria and Ventricles and between the exit for the pulmonary artery and pulmonary vein  The heart mu ...

Note - American Heart Association

... The blood leaving the heart can go the heart or lungs. Early in life this results in quite a bit of extra blood going to the lungs, which makes the heart work very hard. Over time the extra blood flow damages the blood vessels in the lungs, resulting in pulmonary hypertension. When this happens (oft ...

Stress Echocardiogram Consent Form

... You will be connected to an electrocardiograph (ECG), which records your heart beat, and a blood pressure monitor. An ultrasound of your heart will be performed before and after exercise. Your heart will be exercised or ‘stressed’ by walking on a treadmill. The speed and slope of the treadmill will ...

Document

... Heart Sounds – due to vibrations in heart tissues as blood rapidly changes velocity within the heart ...

Quiz 9: Circulatory System Anatomy and Basic Functions

... 5. A pulse is caused by ________________. the valves in an artery opening and closing oxygen entering the blood in the lungs red blood cells colliding with each other in the arteries changes in blood pressure in an artery 6. Which one of the following is NOT a blood vessel? ...

Ventricular Septal Defect PDF

... is a hole between the two pumping chambers of the heart. The defect can be small or large. The VSD may be termed muscular, perimembranous, inlet, outlet, apical or doublycommitted depending on its position and the surrounding substance of the heart. Where the VSD is small, there is no elevation of t ...

Ventricular Septal Defect (VSD)

... whether they are “hemodynamically significant” or not. In a hemodynamically significant VSD, the shunted blood moved to the pulmonary arteries (the blood vessels that go to the lungs) to the left side ...

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Dextro-Transposition of the great arteries

dextro-Transposition of the great arteries (d-Transposition of the great arteries, dextro-TGA, or d-TGA), sometimes also referred to as complete transposition of the great arteries, is a birth defect in the large arteries of the heart. The primary arteries (the aorta and the pulmonary artery) are transposed.It is called a cyanotic congenital heart defect (CHD) because the newborn infant turns blue from lack of oxygen.In segmental analysis, this condition is described as ventriculoarterial discordance with atrioventricular concordance, or just ventriculoarterial discordance.d-TGA is often referred to simply as transposition of the great arteries (TGA); however, TGA is a more general term which may also refer to levo-transposition of the great arteries (l-TGA).Another term commonly used to refer to both d-TGA and l-TGA is transposition of the great vessels (TGV), although this term might have an even broader meaning than TGA.

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Dextro-Transposition of the great arteries