The Cardiovascular System CHAPTER 8
... -Left Atrioventricular Valve (aka Left AV Valve/Mitral Valve/Bicuspid Valve) separates the left atrium from the left ventricle -has ___ flaps/leaflets These valves open and close simultaneously! The AV valves are attached to _________ __________, which prevent the flaps from bending back into the at ...
... -Left Atrioventricular Valve (aka Left AV Valve/Mitral Valve/Bicuspid Valve) separates the left atrium from the left ventricle -has ___ flaps/leaflets These valves open and close simultaneously! The AV valves are attached to _________ __________, which prevent the flaps from bending back into the at ...
Your Majestic Pump: The Human Heart
... Your heart pumps almost entire volume of blood throughout body in 1 minute! ...
... Your heart pumps almost entire volume of blood throughout body in 1 minute! ...
CIRCULATORY SYSTEM
... (I) Label the diagram & describe the function of each part. (ii) Lightly shade the sections blue that transport blood carrying carbon dioxide to the lungs. (III) Lightly shade the sections red that carry blood with a fresh supply of oxygen from the lungs to the body. (IV) Draw arrows on the heart d ...
... (I) Label the diagram & describe the function of each part. (ii) Lightly shade the sections blue that transport blood carrying carbon dioxide to the lungs. (III) Lightly shade the sections red that carry blood with a fresh supply of oxygen from the lungs to the body. (IV) Draw arrows on the heart d ...
How do you manage this patient?
... Medical management • should include treatment of possible complications: – Respiratory tract infections – Arrhythmias, atrial fibrillation, supraventricular tachycardia – Pulmonary hypertension, coronary artery disease, heart failure – Infective endocarditis Harrison’s Principles of Internal Medici ...
... Medical management • should include treatment of possible complications: – Respiratory tract infections – Arrhythmias, atrial fibrillation, supraventricular tachycardia – Pulmonary hypertension, coronary artery disease, heart failure – Infective endocarditis Harrison’s Principles of Internal Medici ...
What To Expect: Circulatory System Main Idea: This system is also
... What To Expect: Circulatory System Main Idea: This system is also known as the body’s ________________________________. Goals: 1. I CAN define cardiovascular system, heart, atrium, ventricle, valve, arteries, capillaries and veins, superior vena cava, inferior vena cava, septum, aorta. 2. I CAN list ...
... What To Expect: Circulatory System Main Idea: This system is also known as the body’s ________________________________. Goals: 1. I CAN define cardiovascular system, heart, atrium, ventricle, valve, arteries, capillaries and veins, superior vena cava, inferior vena cava, septum, aorta. 2. I CAN list ...
Heart Wrksht with Heart models
... heart. What color are the veins on the model? Where does blood go as it leaves the right atrium? What valve does blood pass through to get there? Locate the main pulmonary trunk on the model. What color is it? The pulmonary trunk divides into left and right arteries. Where does each of these arterie ...
... heart. What color are the veins on the model? Where does blood go as it leaves the right atrium? What valve does blood pass through to get there? Locate the main pulmonary trunk on the model. What color is it? The pulmonary trunk divides into left and right arteries. Where does each of these arterie ...
Heart Worksheet with Heart models
... heart. What color are the veins on the model? Where does blood go as it leaves the right atrium? What valve does blood pass through to get there? Locate the main pulmonary trunk on the model. What color is it? The pulmonary trunk divides into left and right arteries. Where does each of these arterie ...
... heart. What color are the veins on the model? Where does blood go as it leaves the right atrium? What valve does blood pass through to get there? Locate the main pulmonary trunk on the model. What color is it? The pulmonary trunk divides into left and right arteries. Where does each of these arterie ...
Heart Dissection Lab
... 1) Identify the front and back of the heart and which is the right and left side 2) Identify the 4 chambers (R/L atrium and R/L ventricle) Remember, atria are smaller than expected, the darker colored sacs on top of the heart 3) Trace the flow of blood starting with the deoxygenated blood that would ...
... 1) Identify the front and back of the heart and which is the right and left side 2) Identify the 4 chambers (R/L atrium and R/L ventricle) Remember, atria are smaller than expected, the darker colored sacs on top of the heart 3) Trace the flow of blood starting with the deoxygenated blood that would ...
Mitral stenosis
... left side of the heart to work harder to force blood through the narrowed valve. This may lead first to left sided, and later possibly right sided, heart failure . Mitral stenosis often occurs with mitral regurgitation/insufficiency . Symptoms include shortness of breath, initially during exertion. ...
... left side of the heart to work harder to force blood through the narrowed valve. This may lead first to left sided, and later possibly right sided, heart failure . Mitral stenosis often occurs with mitral regurgitation/insufficiency . Symptoms include shortness of breath, initially during exertion. ...
Development of the Cardiovascular System - Wykłady
... •        First heart sound (S1) is associated with the closure of the mitral and tricuspid valves. It is best heard on the apex and lower left sternal border. Splitting of the S1 may be found in normal children (more frequently in early age – 1-3 years (9%). •        Second hea ...
... •        First heart sound (S1) is associated with the closure of the mitral and tricuspid valves. It is best heard on the apex and lower left sternal border. Splitting of the S1 may be found in normal children (more frequently in early age – 1-3 years (9%). •        Second hea ...
2 Animal Tissues and Organs Heart, blood and blood vessels quick
... 2. Name 3 different tissues in the digestive system and their functions 3. Name 4 organ systems in the body and state their functions 4. Which system does the heart belong to? 5. Name the organs which make up the nervous system? (3) 6. What are organs made from? 7. What are tissues made from? 8. Wha ...
... 2. Name 3 different tissues in the digestive system and their functions 3. Name 4 organ systems in the body and state their functions 4. Which system does the heart belong to? 5. Name the organs which make up the nervous system? (3) 6. What are organs made from? 7. What are tissues made from? 8. Wha ...
Chapter 18
... the heart to thick for diffusion – blockages or narrowing of these vessels can be fatal if not corrected (bi – pass) ...
... the heart to thick for diffusion – blockages or narrowing of these vessels can be fatal if not corrected (bi – pass) ...
An atrioventricular septal defect (AVSD)
... An atrioventricular septal defect (AVSD) is a congenital heart defect. It is also referred to as a atrioventricular (or AV) canal or an endocardial cushion defect. One area of the heart does not develop correctly, and this leads to several issues. The wall between the two bottom pumping chambers (ve ...
... An atrioventricular septal defect (AVSD) is a congenital heart defect. It is also referred to as a atrioventricular (or AV) canal or an endocardial cushion defect. One area of the heart does not develop correctly, and this leads to several issues. The wall between the two bottom pumping chambers (ve ...
Review Sheet Answers Word Doc
... Bundle of His 11. What is a heart murmur? Abnormal heart sound that identifies the leakage of blood through the valves in the wrong direction 12. The most important risk factor for congestive heart failure is: A. Diabetes B. High blood pressure C. High cholesterol D. A heart attack 13. This is also ...
... Bundle of His 11. What is a heart murmur? Abnormal heart sound that identifies the leakage of blood through the valves in the wrong direction 12. The most important risk factor for congestive heart failure is: A. Diabetes B. High blood pressure C. High cholesterol D. A heart attack 13. This is also ...
Figure 19.4E Gross anatomy of the heart
... pressure increases due to a lot of blood in atria • Below ventricle-opens when ventricle contracts, pushing blood out through valve. • Slamming shut makes your heart beat. • What is a pulse? ...
... pressure increases due to a lot of blood in atria • Below ventricle-opens when ventricle contracts, pushing blood out through valve. • Slamming shut makes your heart beat. • What is a pulse? ...
Slide 1
... The Cardiovascular System “A muscular pump equipped with oneway valves and a system of large and small plumbing tubes within which the blood travels.” = pump = plumbing tubes ...
... The Cardiovascular System “A muscular pump equipped with oneway valves and a system of large and small plumbing tubes within which the blood travels.” = pump = plumbing tubes ...
Cardiovascular Complications
... Circulating blood volume↑(Placental circulation is lost) Circulating blood volume further↑(mobilization of extravascular fluid into the vascular system) ...
... Circulating blood volume↑(Placental circulation is lost) Circulating blood volume further↑(mobilization of extravascular fluid into the vascular system) ...
pediatrics
... •Additional heart sounds •Digital clubbing •Apical and radial pulse differences 1. Increased Pulmonary Blood Flow Defects • PDA Patent Ductus Arteriosis ...
... •Additional heart sounds •Digital clubbing •Apical and radial pulse differences 1. Increased Pulmonary Blood Flow Defects • PDA Patent Ductus Arteriosis ...
File
... o When ventricles are relaxed the AV valves open, blood flows into both the right and left ventricles o When ventricles contract the blood is forced two directions, the valves act like parachutes holding the blood into the correct area right atrioventricular valve (RAV) o Separates the right atrium ...
... o When ventricles are relaxed the AV valves open, blood flows into both the right and left ventricles o When ventricles contract the blood is forced two directions, the valves act like parachutes holding the blood into the correct area right atrioventricular valve (RAV) o Separates the right atrium ...
the path of blood through the heart
... and, oxygen diffuses into it. The blood is now OXYGENATED. The oxygenated blood feeds into the PULMONARY VEINS, which take it from the lungs to the LEFT ATRIUM. The left atrium CONTRACTS, forcing blood through the bicuspid valve into the LEFT VENTRICLE. The left ventricle CONTRACTS, forcing blood th ...
... and, oxygen diffuses into it. The blood is now OXYGENATED. The oxygenated blood feeds into the PULMONARY VEINS, which take it from the lungs to the LEFT ATRIUM. The left atrium CONTRACTS, forcing blood through the bicuspid valve into the LEFT VENTRICLE. The left ventricle CONTRACTS, forcing blood th ...
Lutembacher's syndrome
Lutembacher's syndrome is a form of congenital heart disease. Lutembacher's syndrome was first described by a French cardiologist by the name of Rene' Lutembacher (1884–1968) of Paris, France in 1916. Lutembacher syndrome is a rare disease that affects one of the chambers of the heart as well as a valve of the heart. Lutembacher's syndrome is known to affect females more often than males. Lutembacher is an extremely rare disease. Lutembacher's can affect children or adults; the person can either be born with the disorder or develop it later in life.Lutembacher affects more specifically the atria of the heart and the mitral or biscupid valve. The disorder itself is known more specifically as both congenital atrial septal defect (ASD) and acquired mitral stenosis (MS). Congenital (at birth) atrial septal defect refers to a hole being in the septum or wall that separates the two atria; this condition is usually seen in fetuses and infants. Mitral stenosis refers to mitral valve leaflets (or valve flaps) sticking to each other making the opening for blood to pass from the atrium to the ventricles very small. With the valve being so small, blood has difficulty passing through the left atrium into the left ventricle. There are several types of septal defects that may occur with Lutembacher's syndrome: ASD Ostium Secundum or ASD (Primium); Ostium Secundum is the most prevalent.Lutembacher is caused indirectly as the result of heart damage or disorders and not something that is necessarily infectious. Lutembacher's syndrome is caused by either birth defects where the heart fails to close all holes in the walls between the atria or from an episode of rheumatic fever where damage is done to the heart valves such as the mitral valve and resultant in an opening of heart wall between atria. With Lutembacher's syndrome, a fetus or infant is usually seen to have a hole in their heart wall (interatrial) separating their right and left atria. Normally during fetal development, blood bypasses the lungs and is oxygenated from the placenta. Blood passes from the umbilical cord and flows into the left atrium through an opening called the foramen ovale; the formaen ovale is a hole between the two atria. Once a baby is born and the lungs begin to fill with air and the blood flow of the heart changes, a tissue flap (somewhat like a trap door) called the septum primium closes the foramen ovale or hole between the two atria and becomes part of the atrial wall. The failure of the hole between the two atria to close after birth leads to a disorder called ASD primium. The most common problems with an opening found in the heart with Lutembacher's syndrome is Ostium Secundum. Ostium Secundum is a hole that is found within the flap of tissue (septum primium) that will eventually close the hole between the two atria after birth. With either type of ASD, ASD will usually cause the blood flow from the right atrium to skip going to the right ventricle and instead flow to the left atrium. If mitral stenosis (the hardening of flap of tissue known as a valve which opens and closes between the left atrium and ventricle to control blood flow) is also present, blood will flow into the right atrium through the hole between the atria wall instead of flowing into the left ventricle and systemic circulation. Eventually this leads to other problems such as the right ventricle failing and a reduced blood flow to the left ventricle.In addition to the ASD, acquired MS can be present either from an episode of rheumatic fever (the mother has or had rheumatic fever during the pregnancy) or the child being born with the disorder (congenital MS). With the combination of both ASD and MS, the heart can be under severe strain as it tries to move blood throughout the heart and lungs. To correct Lutembacher's syndrome, surgery is often done. There are several types of surgeries depending on the cause of Lutembacher's syndrome(ASD Primium or ASD Ostium Secundum with Mitral Stenosis): Suturing (stitching) or placing a patch of tissue (similar to skin grafting) over the hole to completely close the opening Reconstructing of the mitral and tricuspid valve while patching any holes in the heart Device closure of ASD (e.g. Amplatzer umbrella or CardioSEAL to seal the hole Percutaneous transcatheter therapy Transcatheter therapy of balloon valvuloplasty to correct MS↑ ↑ 2.0 2.1 2.2 2.3 2.4 ↑ 3.0 3.1 3.2 3.3 3.4 ↑ ↑ ↑ 6.0 6.1 6.2 6.3 ↑