The Cardiac Cycle - The Grange School Blogs

... left side of the heart • Note that the maximal pressure in the left ventricle is far higher than in the atrium • This is because the ventricle has to work hard to pump blood to all parts of the body (except the lungs) • The atrium only pumps blood into the ventricle. ...

Mitral Valve Disease

... medication (ie when their symptoms become reach a significant level) is about 1-2 years. The majority of dogs on medication for their heart disease do show a significant improvement in their quality of life. Some dogs will surprise you and go on for years on their heart tablets, but other dogs go th ...

The Cardiovascular System: The Heart

... – First sound occurs as AV valves close and signifies beginning of systole – Second sound occurs when SL valves close at the beginning of ventricular diastole ...

L06 - Fetal Circulation

... ○ Due to temperature change, Wharton's Jelly contracts and "clamps" umbilical structures ~5 minutes after birth Umbilical Cord Pathologies - Nuchal Cord = 1+ loops of umbilical cord are wrapped around fetal neck - True Umbilical Cord Knot - Umbilical cord pseudoknot = not true knot, just exaggerated ...

causes of heart failure

... venous return.“ Braunwald’s Heart Disease, 8 Ed, 2008 th ...

The Cardiovascular System

... • Arteriescapillaries, drop off O2, pick up Co2, repeat cycle. • Oxygen and pressure higher in arteries • Pulmonary arteries are the only arteries in the body that carry deoxygenated blood! ...

Exam I Study Guide

... and any description given about those cells in class. 3. Know blood stoppage mechanisms as discussed in class. 4. Know the names and descriptions of the blood disorders. 5. Be able to explain the basis behind blood typing, the different blood types, and the guidelines for blood transfusions. Heart 1 ...

Congestive Heart Failure

... Air: rapid depressurization causes gas to bubble out of solution; these bubbles block blood vessels causing infarction in muscles, brain, and other organs ...

Fetal Pig Anatomy Dissection

... sides of the heart. Separating the two sides of the heart is a muscular tissue called the septum. ...

Cardiac Electrophysiology

... she had been feeling “weak and dizzy” after ingesting a handful of her “heart pills” and later passed out. Her heart rate was irregular but near 33 beats per minute. Her patient records and talks with her family revealed that she is being treated for poorly controlled hypertension and congestive hea ...

Valvular Heart Disease

... the sinuses: the left and right. Thus the aortic leaflets are named after the coronary arteries: the left coronary leaflet, the right coronary leaflet, and the noncoronary leaflet. The commissure between the left and noncoronary leaflets sits over the anterior leaflet of the mitral valve, while the ...

Lecture 14

... modify the rate of spontaneous depolarization. Innervate the SA node.  NE and Epi stimulate opening of __________ channel.  _________ promotes opening of K+ channel.  Major means by which cardiac rate is regulated. ...

How the ResQPOD® Works During CPR

... The ResQPOD impedance threshold device (ITD) enhances circulation during basic or advanced life support CPR. This simple, non-invasive device regulates pressures in the chest and improves blood flow to the heart and brain. ...

Cardiovascular Structure and Function Cardiovascular System

... – Pumps are in series – match blood volume to avoid volume shifts between pulmonary and systemic circulation ...

The circulatory system

... left atrium of the heart. The systemic circuit carries oxygenated blood through the aorta from the left ventricle of the heart to all over the body, through capillaries. Having deposited most of the oxygen the blood flows back through the veins, into the right atrium through the vena cava. In this c ...

6. Cardiovascular Worksheet Part I

... 29. Is the heart in atrial and ventricular systole at the same time during this phase? ________. 30. When both the atria and ventricles are relaxing: Which valves are open? _________________________. 31. Is blood flowing into the heart? _____. Which chambers? _____________________________________. 2 ...

WS-Heart

... 11. During ventricular systole, A. blood is entering the ventricles. B. the atria are contracting. C. the AV valves are closed. D. the ventricles are relaxed. E. the pressure in the ventricles declines. 12. The flattening of the action potentials of myocardial contractile cells, called the plateau p ...

ISCHEMIC HEART DISEASE STUDY GUIDE

... system. Sudden occlusion of the LAD can cause infarct to these areas, and can lead to arrhythmias. c. Left circumflex coronary artery (LCCA)- The other branch of the LCA. It brings blood to the lateral wall of the LV (i.e. the left-most side of the heart). Occlusion can lead to MI in this location. ...

cardiopulmonary bypass and the heart lung machine

... By About.com Inventors. "John Heysham Gibbon - Heart Lung Machine - Pump ...

Absolute Contraindications of Exercise Testing • Acute febrile illness

... blacks up into ventricle, atria & eventually pulmonary system. Pulmonary/peripheral oedema results. Pulmonary oedema leads to cough & SOB (detected at rest or during exercise). ↑ venous return & ↑ preload (due to ↑ sympathetic response, ↓ renal perfusion causing fluid retention & ↑ total peripheral ...

right → left shunt

... side of the septum primum and gradually covers the foramen secundum. The oval opening left by the septum secundum is called foramen ovale. ...

The Circulatory System

... • The Vena Cava is is the largest vein in the body. It takes blood into the Right Atrium. • The Aorta is the largest artery in the body. It leaves the heart to take blood out to the body. • The four parts of the circulatory system are the heart, arteries, veins, and ...

1._____How many bones are in the human body? A. 106 B. 206 C

... 29._____What is the name of the flap which prevents liquids or solids from entering into the respiratory tract? A. Trachea B. Tongue C. Glottis D. Epiglottis 30._____Tracheal blockage occurs when a substance becomes lodged in the windpipe. It can be removed through a technique in which a sudden thru ...

patient information leaflet about aortic valve stenosis

... between the main left heart chamber called the left ventricle (pictured on the right), and the main artery in the chest called the aorta, which distributes the blood to your whole body. ...

Acquired-Heart

... • Pulmonary Arterial Hypertension – Caused by increased resistance or chronic increase in pulmonary flow – Cardiac causes include ASD, VSD, PDA, AV septal defects ...

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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 ↑

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Lutembacher's syndrome