![Congenital Heart Disease-Overview](http://s1.studyres.com/store/data/002460442_1-7e002c6a67a7d084981aaa4118d29ca0-300x300.png)
Ventricular Septal Defect X-ray Findings
... 4:1 ratio of females to males Most frequent congenital heart lesion initially diagnosed in adult Frequently associated with Ellis-van Creveld and Holt-Oram syndromes Associated with prolapsing mitral valve ...
... 4:1 ratio of females to males Most frequent congenital heart lesion initially diagnosed in adult Frequently associated with Ellis-van Creveld and Holt-Oram syndromes Associated with prolapsing mitral valve ...
Shone`s Syndrome - Children`s Heart Clinic
... ventricle to the body. Subaortic obstruction due to narrowing of the left ventricular outflow tract may be worse if thickened papillary muscles are present. These left-sided heart problems and associated symptoms get worse over time without treatment. Shone’s syndrome occurs in less than 1% of all c ...
... ventricle to the body. Subaortic obstruction due to narrowing of the left ventricular outflow tract may be worse if thickened papillary muscles are present. These left-sided heart problems and associated symptoms get worse over time without treatment. Shone’s syndrome occurs in less than 1% of all c ...
Shone`s Syndrome - The Children`s Heart Clinic, PA
... ventricle to the body. Subaortic obstruction due to narrowing of the left ventricular outflow tract may be worse if thickened papillary muscles are present. These left-sided heart problems and associated symptoms get worse over time without treatment. Shone’s syndrome occurs in less than 1% of all c ...
... ventricle to the body. Subaortic obstruction due to narrowing of the left ventricular outflow tract may be worse if thickened papillary muscles are present. These left-sided heart problems and associated symptoms get worse over time without treatment. Shone’s syndrome occurs in less than 1% of all c ...
Congenital
... 1. Contents during delivery are placed in a protective sac 2. Pedi surgeons will place a silo on defect and reduce until patient is ready for surgery 3. Patient may or may not require respiratory intervention 4. Post-op II. Congenital anomalies – Cardiac defects ...
... 1. Contents during delivery are placed in a protective sac 2. Pedi surgeons will place a silo on defect and reduce until patient is ready for surgery 3. Patient may or may not require respiratory intervention 4. Post-op II. Congenital anomalies – Cardiac defects ...
Transcatheter Closure of Patent Foramen Ovale for Stroke Prevention
... Prior to birth, the foramen ovale is held open by the large flow of blood into the left atrium from the inferior vena cava. Over a course of months after birth, an increase in left atrial pressure and a decrease in right atrial pressure result in the permanent closure of the foramen ovale in most in ...
... Prior to birth, the foramen ovale is held open by the large flow of blood into the left atrium from the inferior vena cava. Over a course of months after birth, an increase in left atrial pressure and a decrease in right atrial pressure result in the permanent closure of the foramen ovale in most in ...
the path of blood through the heart
... At the lungs, carbon dioxide diffuses out of the blood, 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 V ...
... At the lungs, carbon dioxide diffuses out of the blood, 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 V ...
Lab 30 Heart
... Peel back pericardium (if present) Locate external features of the heart: • Right atrium, auricle of right atrium, right ventricle, left atrium, auricle of left atrium, left ventricle, pulmonary trunk, aorta, coronary sulcus, posterior interventricular sulcus • Also: Superior and inferior vena cava, ...
... Peel back pericardium (if present) Locate external features of the heart: • Right atrium, auricle of right atrium, right ventricle, left atrium, auricle of left atrium, left ventricle, pulmonary trunk, aorta, coronary sulcus, posterior interventricular sulcus • Also: Superior and inferior vena cava, ...
Lab 30 Heart
... Peel back pericardium (if present) Locate external features of the heart: • Right atrium, auricle of right atrium, right ventricle, left atrium, auricle of left atrium, left ventricle, pulmonary trunk, aorta, coronary sulcus, posterior interventricular sulcus • Also: Superior and inferior vena cava, ...
... Peel back pericardium (if present) Locate external features of the heart: • Right atrium, auricle of right atrium, right ventricle, left atrium, auricle of left atrium, left ventricle, pulmonary trunk, aorta, coronary sulcus, posterior interventricular sulcus • Also: Superior and inferior vena cava, ...
Circ and Resp review
... A. the right ventricle and the left ventricle B. the right atrium and the left atrium C. the right ventricle and the right atrium D. the left ventricle and the left atrium 4. The heart is a(n) A. cell B. tissue C. organ D. organ system 5. Oxygen enters your body when you ...
... A. the right ventricle and the left ventricle B. the right atrium and the left atrium C. the right ventricle and the right atrium D. the left ventricle and the left atrium 4. The heart is a(n) A. cell B. tissue C. organ D. organ system 5. Oxygen enters your body when you ...
Chambers Valves, Conduction System, Coronary Circulation
... has 3 cusps (leaflets), antero-superior, mural, septal. between right atria and ventricles. Mitral (bicuspid) Valves: has 2 cusps between left atria and ventricles, anterior and posterior. Arterial Valves (semilunar) prevent reflux from arteries into ventricles oven when ventricles contrac ...
... has 3 cusps (leaflets), antero-superior, mural, septal. between right atria and ventricles. Mitral (bicuspid) Valves: has 2 cusps between left atria and ventricles, anterior and posterior. Arterial Valves (semilunar) prevent reflux from arteries into ventricles oven when ventricles contrac ...
Heart Dissection Lab
... vena cavas are often cut off, but sometimes you can see the holes where they would have attached to the right atrium) and ending with oxygenated blood leaving the aorta. Use your fingers to figure out where certain vessels lead to 4) As you trace the flow of blood, identify all of the structures lis ...
... vena cavas are often cut off, but sometimes you can see the holes where they would have attached to the right atrium) and ending with oxygenated blood leaving the aorta. Use your fingers to figure out where certain vessels lead to 4) As you trace the flow of blood, identify all of the structures lis ...
Circulatory System Cardiovascular.Lymphatic
... Under high pressure & deep…why? Carry blood away from heart O2 (except pulmonary arteries…why?) ...
... Under high pressure & deep…why? Carry blood away from heart O2 (except pulmonary arteries…why?) ...
human anatomy and physiology name - H
... Using the next page as a guide, try to find the right coronary artery (3), the circumflex branch of the left coronary artery(5), and the coronary sinus(9). Fat may obscure these structures but do not try to remove the fat. 5) Identify the aorta, pulmonary trunk, pulmonary veins, and the inferior ven ...
... Using the next page as a guide, try to find the right coronary artery (3), the circumflex branch of the left coronary artery(5), and the coronary sinus(9). Fat may obscure these structures but do not try to remove the fat. 5) Identify the aorta, pulmonary trunk, pulmonary veins, and the inferior ven ...
BIOL242 Lab30
... through the wall of the right atrium and ventricle. Pull the two sides apart and look for three flaps of membrane. These membranes form the tricuspid valve between the right atrium and the right ventricle. The membranes are connected to flaps of muscle called the papillary muscles by tendons called ...
... through the wall of the right atrium and ventricle. Pull the two sides apart and look for three flaps of membrane. These membranes form the tricuspid valve between the right atrium and the right ventricle. The membranes are connected to flaps of muscle called the papillary muscles by tendons called ...
Congenital heart diseases Simple complement 1. The most
... D. Pressure in pulmonary artery E. Thickness of left ventricle wall 5. The echocardiographic criteria in complete atrioventricular channel are: A. Atrial septal defect by ostium primum type B. Ventricular septal defect with high localization C. Pulmonary artery stenosis D. Unique atrioventricular va ...
... D. Pressure in pulmonary artery E. Thickness of left ventricle wall 5. The echocardiographic criteria in complete atrioventricular channel are: A. Atrial septal defect by ostium primum type B. Ventricular septal defect with high localization C. Pulmonary artery stenosis D. Unique atrioventricular va ...
worksheet - Keswick School PE Department.
... to the lungs through a __________________ valve and into the ___________________ artery. The left side of the heart receives _________________ blood from the lungs via the pulmonary ________. The blood enters the left atrium and passes through the _________________ valve (also known as the mitral va ...
... to the lungs through a __________________ valve and into the ___________________ artery. The left side of the heart receives _________________ blood from the lungs via the pulmonary ________. The blood enters the left atrium and passes through the _________________ valve (also known as the mitral va ...
Cardiovascular System The heart is a two sided pump. The right
... to the lungs through a __________________ valve and into the ___________________ artery. The left side of the heart receives _________________ blood from the lungs via the pulmonary ________. The blood enters the left atrium and passes through the _________________ valve (also known as the mitral va ...
... to the lungs through a __________________ valve and into the ___________________ artery. The left side of the heart receives _________________ blood from the lungs via the pulmonary ________. The blood enters the left atrium and passes through the _________________ valve (also known as the mitral va ...
congenital heart disease - Easymed.club
... single ventricle, hypoplastic left ventricle b) SLE: Congenital heart block ...
... single ventricle, hypoplastic left ventricle b) SLE: Congenital heart block ...
Heart Worksheet
... _____ The blood passes through the mitral valve into the left ventricle _____ The left atrium contracts _____ The deoxygenated blood picks up oxygen _____ The right atrium contracts _____ The right ventricle contracts and blood flows along the pulmonary artery to the lung ...
... _____ The blood passes through the mitral valve into the left ventricle _____ The left atrium contracts _____ The deoxygenated blood picks up oxygen _____ The right atrium contracts _____ The right ventricle contracts and blood flows along the pulmonary artery to the lung ...
12/07 Atrial Septal Defects
... At 25-40 years of age, surgical survival is reduced, though not significantly if PA pressures are normal. If PASP > 40 mmHg, late survival is 50% less than control rates, though life expectancy in surgically treated older patients is better than that of medically treated patients. No benefit of surg ...
... At 25-40 years of age, surgical survival is reduced, though not significantly if PA pressures are normal. If PASP > 40 mmHg, late survival is 50% less than control rates, though life expectancy in surgically treated older patients is better than that of medically treated patients. No benefit of surg ...
diseases of the cardiovascular system
... During fetal life, the foramen ovale is an openingi n the interatrial septum, allowing shunting of blood from the right atrium to the left atrium in order to bypass the nonfunctioning fetal lungs. It should close at birth. If it doesn’t, after birth, the blood will shunt from left to right resulting ...
... During fetal life, the foramen ovale is an openingi n the interatrial septum, allowing shunting of blood from the right atrium to the left atrium in order to bypass the nonfunctioning fetal lungs. It should close at birth. If it doesn’t, after birth, the blood will shunt from left to right resulting ...
Heart 2: Chambers
... The right and left ventricular cavities are separated by an interventricular septum which is muscular in its lower part and membranous in its upper portion. This septum is placed obliquely, with one surfacing forward and to the right and the other facing backward and to the left. The upper membranou ...
... The right and left ventricular cavities are separated by an interventricular septum which is muscular in its lower part and membranous in its upper portion. This septum is placed obliquely, with one surfacing forward and to the right and the other facing backward and to the left. The upper membranou ...
Atrial septal defect
![](https://commons.wikimedia.org/wiki/Special:FilePath/Asd-web.jpg?width=300)
Atrial septal defect (ASD) is a congenital heart defect in which blood flows between the atria (upper chambers) of the heart. Normally, the atria are separated by a dividing wall, the interatrial septum. If this septum is defective or absent, then oxygen-rich blood can flow directly from the left side of the heart to mix with the oxygen-poor blood in the right side of the heart, or vice versa. This can lead to lower-than-normal oxygen levels in the arterial blood that supplies the brain, organs, and tissues. However, an ASD may not produce noticeable signs or symptoms, especially if the defect is small.A ""shunt"" is the presence of a net flow of blood through the defect, either from left to right or right to left. The amount of shunting present, if any, determines the hemodynamic significance of the ASD. A ""right-to-left-shunt"" typically poses the more dangerous scenario.During development of the fetus, the interatrial septum develops to separate the left and right atria. However, a hole in the septum called the foramen ovale, allows blood from the right atrium to enter the left atrium during fetal development. This opening allows blood to bypass the nonfunctional fetal lungs while the fetus obtains its oxygen from the placenta. A layer of tissue called the septum primum acts as a valve over the foramen ovale during fetal development. After birth, the pressure in the right side of the heart drops as the lungs open and begin working, causing the foramen ovale to close entirely. In approximately 25% of adults, the foramen ovale does not entirely seal. In these cases, any elevation of the pressure in the pulmonary circulatory system (due to pulmonary hypertension, temporarily while coughing, etc.) can cause the foramen ovale to remain open. This is known as a patent foramen ovale (PFO), which is a type of atrial septal defect.