Radiography of the heart and great vessels after injection of a contrast medium.
A gamma-emitting radionuclide imaging agent used for the diagnosis of diseases in many tissues, particularly in the gastrointestinal system, cardiovascular and cerebral circulation, brain, thyroid, and joints.
A metallic element with the atomic symbol Ir, atomic number 77, and atomic weight 192.22.
A congenital defect in which the heart is located on the right side of the THORAX instead of on the left side (levocardia, the normal position). When dextrocardia is accompanied with inverted HEART ATRIA, a right-sided STOMACH, and a left-sided LIVER, the combination is called dextrocardia with SITUS INVERSUS. Dextrocardia may adversely affect other thoracic organs.
Separation systems containing a relatively long-lived parent radionuclide which produces a short-lived daughter in its decay scheme. The daughter can be periodically extracted (milked) by means of an appropriate eluting agent.
The first artificially produced element and a radioactive fission product of URANIUM. Technetium has the atomic symbol Tc, atomic number 43, and atomic weight 98.91. All technetium isotopes are radioactive. Technetium 99m (m=metastable) which is the decay product of Molybdenum 99, has a half-life of about 6 hours and is used diagnostically as a radioactive imaging agent. Technetium 99 which is a decay product of technetium 99m, has a half-life of 210,000 years.
The measurement of visualization by radiation of any organ after a radionuclide has been injected into its blood supply. It is used to diagnose heart, liver, lung, and other diseases and to measure the function of those organs, except renography, for which RADIOISOTOPE RENOGRAPHY is available.
Radionuclide ventriculography where scintigraphic data is acquired during repeated cardiac cycles at specific times in the cycle, using an electrocardiographic synchronizer or gating device. Analysis of right ventricular function is difficult with this technique; that is best evaluated by first-pass ventriculography (VENTRICULOGRAPHY, FIRST-PASS).
Radionuclide ventriculography where a bolus of radionuclide is injected and data are recorded from one pass through the heart ventricle. Left and right ventricular function can be analyzed independently during this technique. First-pass ventriculography is preferred over GATED BLOOD-POOL IMAGING for assessing right ventricular function.
Motion pictures of the passage of contrast medium through blood vessels.
Developmental abnormalities involving structures of the heart. These defects are present at birth but may be discovered later in life.
The lower right and left chambers of the heart. The right ventricle pumps venous BLOOD into the LUNGS and the left ventricle pumps oxygenated blood into the systemic arterial circulation.
The hollow, muscular organ that maintains the circulation of the blood.
Procedures in which placement of CARDIAC CATHETERS is performed for therapeutic or diagnostic procedures.
The amount of BLOOD pumped out of the HEART per beat, not to be confused with cardiac output (volume/time). It is calculated as the difference between the end-diastolic volume and the end-systolic volume.
Ultrasonic recording of the size, motion, and composition of the heart and surrounding tissues. The standard approach is transthoracic.
An imbalance between myocardial functional requirements and the capacity of the CORONARY VESSELS to supply sufficient blood flow. It is a form of MYOCARDIAL ISCHEMIA (insufficient blood supply to the heart muscle) caused by a decreased capacity of the coronary vessels.
Developmental abnormalities in any portion of the ATRIAL SEPTUM resulting in abnormal communications between the two upper chambers of the heart. Classification of atrial septal defects is based on location of the communication and types of incomplete fusion of atrial septa with the ENDOCARDIAL CUSHIONS in the fetal heart. They include ostium primum, ostium secundum, sinus venosus, and coronary sinus defects.
Developmental abnormalities in any portion of the VENTRICULAR SEPTUM resulting in abnormal communications between the two lower chambers of the heart. Classification of ventricular septal defects is based on location of the communication, such as perimembranous, inlet, outlet (infundibular), central muscular, marginal muscular, or apical muscular defect.
Abnormalities in any part of the HEART SEPTUM resulting in abnormal communication between the left and the right chambers of the heart. The abnormal blood flow inside the heart may be caused by defects in the ATRIAL SEPTUM, the VENTRICULAR SEPTUM, or both.
A CATHETER-delivered implant used for closing abnormal holes in the cardiovascular system, especially HEART SEPTAL DEFECTS; or passageways intentionally made during cardiovascular surgical procedures.
The thin membrane-like muscular structure separating the right and the left upper chambers (HEART ATRIA) of a heart.

Malfunction of Bjork-Shiley valve prosthesis in tricuspid position. (1/224)

Eight months after triple valve replacement with Bjork-Shiley tilting disc valves a patient developed symptoms and signs suggesting malfunction of the prosthesis in the tricuspid position. This was confirmed by echocardiography and angiocardiography, and at operation thedisc of the prosthesis was found to be stuck half-open by fibrin and clot. A further 11 patients with the same tupe of prosthesis in the triscupid position were then studied by phonocardiography and echocardiography. In one of these the prosthesis was found to be stuck and this was confirmed by angiocardiography and surgery. These 2 cases are reported in detail and the findings in the other 10 are discussed. The implications of this high incidence of malfunction of the Bjork-Shiley prosthesis in the tricuspid position are considered. Echocardiography appears to be essential in the follow-up of such patients.  (+info)

Pseudoaneurysm of the left ventricle progressing from a subepicardial aneurysm. (2/224)

A 56-year-old man presented with an inferior myocardial infarction and a huge pseudoaneurysm below the inferior surface of the left ventricle, which had progressed from a small subepicardial aneurysm over a 6-month period. Transthoracic echocardiography, Doppler color flow images, radionuclide angiocardiography, magnetic resonance imaging and contrast ventriculography all revealed an abrupt disruption of the myocardium at the neck of the pseudoaneurysm, where the diameter of the orifice was smaller than the aneurysm itself, and abnormal blood flows from the left ventricle to the cavity through the orifice with an expansion of the cavity in systole and from the cavity to the left ventricle with the deflation of the cavity in diastole. Coronary angiography revealed 99% stenosis at the atrioventricular nodal branch of the right coronary artery. At surgery the pericardium was adherent to the aneurysmal wall and a 1.5-cm orifice between the aneurysm and the left ventricle was seen. Pathological examination revealed no myocardial elements in the aneurysmal wall. The orifice was closed and the postoperative course was uneventful. Over-intense physical activity as a construction worker was considered to be the cause of the large pseudoaneurysm developing from the subepicardial aneurysm. These findings indicate that a subepicardial aneurysm may progress to a larger pseudoaneurysm, which has a propensity to rupture, however, it can be surgically repaired.  (+info)

Evolution of the ventricles. (3/224)

We studied the evolution of ventricles by macroscopic examination of the hearts of marine cartilaginous and bony fish, and by angiocardiography and gross examination of the hearts of air-breathing freshwater fish, frogs, turtles, snakes, and crocodiles. A right-sided, thin-walled ventricular lumen is seen in the fish, frog, turtle, and snake. In fish, there is external symmetry of the ventricle, internal asymmetry, and a thick-walled left ventricle with a small inlet chamber. In animals such as frogs, turtles, and snakes, the left ventricle exists as a small-cavitied contractile sponge. The high pressure generated by this spongy left ventricle, the direction of the jet, the ventriculoarterial orientation, and the bulbar spiral valve in the frog help to separate the systemic and pulmonary circulations. In the crocodile, the right aorta is connected to the left ventricle, and there is a complete interventricular septum and an improved left ventricular lumen when compared with turtles and snakes. The heart is housed in a rigid pericardial cavity in the shark, possibly to protect it from changing underwater pressure. The pericardial cavity in various species permits movements of the heart-which vary depending on the ventriculoarterial orientation and need for the ventricle to generate torque or spin on the ejected blood- that favor run-off into the appropriate arteries and their branches. In the lower species, it is not clear whether the spongy myocardium contributes to myocardial oxygenation. In human beings, spongy myocardium constitutes a rare form of congenital heart disease.  (+info)

Evaluation of portable radionuclide method for measurement of left ventricular ejection fraction and cardiac output. (4/224)

Seventeen patients with coronary artery, valvular, or myopathic heart disease were studied to determine correlations of the cardiac output and ejection fraction when comparing the results obtained with a portable probe technique using 113mIn with those obtained with standard methods (cineangiographic, Fick, and dye dilution). With ejection fractions ranging from o.10 to 0.85, the coefficient of correlation was 0.90 when comparing cineangiographic and radionuclide techniques. Cardiac output determinations by the radionuclide technique also correlated well with standard methods (r equals 0.88). The radionuclide method shows promise as an accurate, safe, and simple method in the evaluation of cardiac function at the bedside.  (+info)

Effect of propranolol on left ventricular function, segmental wall motion, and diastolic pressure-volume relation in man. (5/224)

Precise quantitation of the effects of the non-selective beta adrenergic blocking drug propranolol (3.15 mg/kg body weight) on left ventricular function, segmental wall motion, and diastolic pressure-volume relation in man has been performed. High fidelity left ventricular pressure measurements and simultaneous single-plane angiocardiograms were recorded on a video disc and volumes calculated by a light-pen computer system. Systolic segmental wall motion was computer analysed using the long axis-quadrasection method. Patients were transvenously atrially paced to maintain a constant heart rate. The haemodynamic effects of propranolol may vary depending upon the extent of pre-existing myocardial disease. In some patients ventricular function, as measured by ejection fraction, may be reduced. This reduction in ejection fraction appears to result from overall reduction in segmental wall motion, but also from accentuation of segmental wall abnormalities. These results are consistent with the thesis that beta adrenergic blocking drugs may inhibit compensatory sympathetic mechanisms. The diastolic effects of propranolol may include quite substantial increases in ventricular volumes in those patients with impaired cardiac function. With respect to the intact human ventricle, propranolol may increase diastolic volume for a given level of ventricular pressure. Thus, in a static sense, the ventricle in these patients could be viewed as being more compliant after propranolol administration. However, the fact that the length-tension relation, as measured by the slope of the logarithmic pressure versus volume plot is unaltered by propranolol, suggests that the muscle comprising the ventricle itself exhibits no alteration in its passive elastic properties.  (+info)

Non-invasive left ventricular volume determination by two-dimensional echocardiography. (6/224)

Twenty patients undergoing routine left ventricular single-plane angiography have been investigated by an ultrasonic triggered B-scan technique to provide a two-dimensional cross-sectional image of the left ventricle in end-systole end-diastole. An area-length method has been used to establish the correlation between the angiographic and the echocardiographic assessments of left ventricular chamber volume (r equals 0.88) and ejection fraction (r equals 0.81). Differences between the two techniques are discussed, and it is concluded that in approximately 80 per cent of patients triggered B-scanning may provide a safe, non-invasive, and convenient technique for the determination of volumes and certain functional parameters, especially in patients with dilated hearts and irregular left ventricular shape, where M-scanning is known to be less reliable.  (+info)

Localization of left ventricular ischaemia in angina pectoris by cineangiography during exercise. (7/224)

Cineangiography of the left ventricle during exercise has been used in an attempt to define the area of ischaemic myocardium in patients suffering from angina pectoris in whom coronary artery surgery was contemplated. A correlation was established between the site of coronary artery obstruction and the area of abnormal myocardial contraction. This method of localization of regional left ventricular ischaemia may furnish useful diagnostic information when coronary reconstructive surgery is contemplated in patients with exercise-induced angina pectoris.  (+info)

Ejection phase indices of left ventricular performance in infants, children, and adults. (8/224)

A validatory study of quantitative single plane left ventricular cineangiography is presented, using human left ventricular casts ranging in size from 1.6 to 135 ml. Good correlation was found between actual and calculated volumes (r=0.967). 62 patient studies were carried out and the value of the usually calculated indices of left ventricular performance were compared to one another. Ejection fraction and mean rate of circumferential fibre shortening (mean Vcf) were found to be the best discriminators of abnormal left ventricular function, and, on the basis of the presented data, it is suggested that mean Vcf is the more sensitive index of left ventricular performance.  (+info)

Angiocardiography is a medical procedure used to examine the heart and blood vessels, particularly the chambers of the heart and the valves between them. It involves injecting a contrast agent into the bloodstream and taking X-ray images as the agent flows through the heart. This allows doctors to visualize any abnormalities such as blockages, narrowing, or leakage in the heart valves or blood vessels.

There are different types of angiocardiography, including:

* Left heart catheterization (LHC): A thin tube called a catheter is inserted into a vein in the arm or groin and threaded through to the left side of the heart to measure pressure and oxygen levels.
* Right heart catheterization (RHC): Similar to LHC, but the catheter is threaded through to the right side of the heart to measure pressure and oxygen levels there.
* Selective angiocardiography: A catheter is used to inject the contrast agent into specific blood vessels or chambers of the heart to get a more detailed view.

Angiocardiography can help diagnose and evaluate various heart conditions, including congenital heart defects, coronary artery disease, cardiomyopathy, and valvular heart disease. It is an invasive procedure that carries some risks, such as bleeding, infection, and damage to blood vessels or heart tissue. However, it can provide valuable information for diagnosing and treating heart conditions.

Sodium Pertechnetate Tc 99m is a radioactive pharmaceutical preparation used in medical diagnostic imaging. It is a technetium-99m radiopharmaceutical, where technetium-99m is a metastable nuclear isomer of technetium-99, which emits gamma rays and has a half-life of 6 hours. Sodium Pertechnetate Tc 99m is used as a contrast agent in various diagnostic procedures, such as imaging of the thyroid, salivary glands, or the brain, to evaluate conditions like inflammation, tumors, or abnormalities in blood flow. It is typically administered intravenously, and its short half-life ensures that the radiation exposure is limited.

Iridium is not a medical term, but rather a chemical element with the symbol Ir and atomic number 77. It's a transition metal that is part of the platinum group. Iridium has no known biological role in humans or other organisms, and it is not used in medical treatments or diagnoses.

However, iridium is sometimes mentioned in the context of geological time scales because iridium-rich layers in rock formations are associated with major extinction events, such as the one that marked the end of the Cretaceous period 65 million years ago. The leading hypothesis for this association is that large asteroid impacts can create iridium-rich vapor plumes that settle onto the Earth's surface and leave a distinct layer in the rock record.

Dextrocardia is a medical condition in which the heart is positioned on the right side of the chest instead of the left side. This is a congenital condition, meaning it is present at birth. In people with dextrocardia, the heart's structure and function are usually normal, but the orientation of the heart within the chest is reversed.

There are two main types of dextrocardia:

1. Dextrocardia without visceral situs inversus: In this type, the heart is on the right side of the chest, but the other organs in the chest and abdomen are in their normal positions. This is a rare condition and can be associated with other congenital heart defects.
2. Dextrocardia with visceral situs inversus: In this type, the heart is on the right side of the chest, and the other organs in the chest and abdomen are mirrored or reversed from their normal positions. This is a less common form of dextrocardia and is often referred to as "situs inversus totalis."

It's important to note that while dextrocardia itself is not a life-threatening condition, people with this condition may have other heart defects or medical issues that require treatment. If you or someone you know has been diagnosed with dextrocardia, it's essential to consult with a healthcare professional for proper evaluation and management.

Radionuclide generators, also known as "radiogenic sources" or "generator systems," are devices that contain a parent radionuclide that decays into a daughter radionuclide. The parent nuclide has a longer half-life than the daughter nuclide and remains within the generator system, while the daughter nuclide is produced continuously through the decay process and can be extracted for use in medical imaging or therapeutic procedures.

The most common type of radionuclide generator used in nuclear medicine is the technetium-99m (^99m Tc) generator, which contains molybdenum-99 (^99 Mo) as the parent nuclide. Molybdenum-99 has a half-life of 66 hours and decays into technetium-99m, which has a half-life of only 6 hours. Technetium-99m emits gamma rays that can be detected by gamma cameras, making it useful for a wide range of diagnostic procedures such as bone scans, lung perfusion imaging, and myocardial perfusion imaging.

Radionuclide generators are typically used in hospitals and medical centers where they can provide a convenient and cost-effective way to produce small quantities of radionuclides for diagnostic or therapeutic purposes. The extracted daughter nuclide can be used immediately, reducing the need for complex shipping and handling procedures associated with other radioactive materials.

Technetium is not a medical term itself, but it is a chemical element with the symbol Tc and atomic number 43. However, in the field of nuclear medicine, which is a branch of medicine that uses small amounts of radioactive material to diagnose or treat diseases, Technetium-99m (a radioisotope of technetium) is commonly used for various diagnostic procedures.

Technetium-99m is a metastable nuclear isomer of technetium-99, and it emits gamma rays that can be detected outside the body to create images of internal organs or tissues. It has a short half-life of about 6 hours, which makes it ideal for diagnostic imaging since it decays quickly and reduces the patient's exposure to radiation.

Technetium-99m is used in a variety of medical procedures, such as bone scans, lung scans, heart scans, liver-spleen scans, brain scans, and kidney scans, among others. It can be attached to different pharmaceuticals or molecules that target specific organs or tissues, allowing healthcare professionals to assess their function or identify any abnormalities.

Radionuclide angiography (RNA) is a type of nuclear medicine imaging procedure used to evaluate the heart's function, specifically the pumping ability of the lower chambers of the heart (the ventricles). It involves the use of radioactive material (radionuclide or radiopharmaceutical) that is injected into the patient's bloodstream. A special camera then captures images of the distribution and accumulation of this radioactive material within the heart, providing information about blood flow, ventricular function, and any potential abnormalities in the heart muscle.

During a RNA procedure, the radiopharmaceutical is usually injected into a vein in the patient's arm. As the tracer circulates through the bloodstream, it accumulates in the heart tissue. The gamma camera captures images of the distribution and accumulation of the radionuclide within the heart at different time points. These images are then used to assess various aspects of heart function, such as ejection fraction (the percentage of blood that is pumped out of the ventricles with each beat), wall motion abnormalities, and any potential areas of reduced blood flow or damage in the heart muscle.

Radionuclide angiography can be used to diagnose and monitor various cardiac conditions, including coronary artery disease, heart failure, cardiomyopathy, and valvular heart disease. It is a non-invasive procedure that does not require catheterization or the use of contrast agents, making it a safer alternative for patients with kidney problems or allergies to contrast materials. However, as with any medical procedure involving radiation exposure, the benefits of RNA must be weighed against the potential risks.

Gated Blood-Pool Imaging (GBPI) is a type of nuclear medicine test that uses radioactive material and a specialized camera to create detailed images of the heart and its function. In this procedure, a small amount of radioactive tracer is injected into the patient's bloodstream, which then accumulates in the heart muscle and the blood pool within the heart chambers.

The term "gated" refers to the use of an electrocardiogram (ECG) signal to synchronize the image acquisition with the heart's contractions. This allows for the visualization of the heart's motion during different phases of the cardiac cycle, providing valuable information about the size, shape, and contraction of the heart chambers, as well as the movement of the walls of the heart.

GBPI is often used to assess patients with known or suspected heart disease, such as valvular abnormalities, cardiomyopathies, or congenital heart defects. It can help diagnose and evaluate the severity of these conditions, guide treatment decisions, and monitor the effectiveness of therapy.

First-pass ventriculography is a type of cardiac diagnostic procedure that involves the injection of a contrast material into the heart's chamber (left ventricle) during cardiac catheterization. The term "first-pass" refers to the initial circulation of the contrast agent through the heart and great vessels, allowing for real-time imaging of the left ventricular chamber as it contracts and relaxes. This procedure is used to assess the size, shape, and function of the left ventricle, including its wall motion abnormalities, ejection fraction, and overall contractility. The information obtained from first-pass ventriculography can help in the diagnosis and management of various cardiovascular conditions such as heart failure, valvular heart disease, and myocardial ischemia or infarction.

Cineangiography is a medical imaging technique used to visualize the blood flow in the heart and cardiovascular system. It involves the injection of a contrast agent into the bloodstream while X-ray images are taken in quick succession, creating a movie-like sequence that shows the movement of the contrast through the blood vessels and chambers of the heart. This technique is often used to diagnose and evaluate various heart conditions, such as coronary artery disease, valvular heart disease, and congenital heart defects.

The procedure typically involves threading a catheter through a blood vessel in the arm or leg and guiding it to the heart. Once in place, the contrast agent is injected, and X-ray images are taken using a specialized X-ray machine called a fluoroscope. The images captured during cineangiography can help doctors identify areas of narrowing or blockage in the coronary arteries, abnormalities in heart valves, and other cardiovascular problems.

Cineangiography is an invasive procedure that carries some risks, such as bleeding, infection, and reactions to the contrast agent. However, it can provide valuable information for diagnosing and treating heart conditions, and may be recommended when other diagnostic tests have been inconclusive.

Congenital heart defects (CHDs) are structural abnormalities in the heart that are present at birth. They can affect any part of the heart's structure, including the walls of the heart, the valves inside the heart, and the major blood vessels that lead to and from the heart.

Congenital heart defects can range from mild to severe and can cause various symptoms depending on the type and severity of the defect. Some common symptoms of CHDs include cyanosis (a bluish tint to the skin, lips, and fingernails), shortness of breath, fatigue, poor feeding, and slow growth in infants and children.

There are many different types of congenital heart defects, including:

1. Septal defects: These are holes in the walls that separate the four chambers of the heart. The two most common septal defects are atrial septal defect (ASD) and ventricular septal defect (VSD).
2. Valve abnormalities: These include narrowed or leaky valves, which can affect blood flow through the heart.
3. Obstruction defects: These occur when blood flow is blocked or restricted due to narrowing or absence of a part of the heart's structure. Examples include pulmonary stenosis and coarctation of the aorta.
4. Cyanotic heart defects: These cause a lack of oxygen in the blood, leading to cyanosis. Examples include tetralogy of Fallot and transposition of the great arteries.

The causes of congenital heart defects are not fully understood, but genetic factors and environmental influences during pregnancy may play a role. Some CHDs can be detected before birth through prenatal testing, while others may not be diagnosed until after birth or later in childhood. Treatment for CHDs may include medication, surgery, or other interventions to improve blood flow and oxygenation of the body's tissues.

The heart ventricles are the two lower chambers of the heart that receive blood from the atria and pump it to the lungs or the rest of the body. The right ventricle pumps deoxygenated blood to the lungs, while the left ventricle pumps oxygenated blood to the rest of the body. Both ventricles have thick, muscular walls to generate the pressure necessary to pump blood through the circulatory system.

In medical terms, the heart is a muscular organ located in the thoracic cavity that functions as a pump to circulate blood throughout the body. It's responsible for delivering oxygen and nutrients to the tissues and removing carbon dioxide and other wastes. The human heart is divided into four chambers: two atria on the top and two ventricles on the bottom. The right side of the heart receives deoxygenated blood from the body and pumps it to the lungs, while the left side receives oxygenated blood from the lungs and pumps it out to the rest of the body. The heart's rhythmic contractions and relaxations are regulated by a complex electrical conduction system.

Cardiac catheterization is a medical procedure used to diagnose and treat cardiovascular conditions. In this procedure, a thin, flexible tube called a catheter is inserted into a blood vessel in the arm or leg and threaded up to the heart. The catheter can be used to perform various diagnostic tests, such as measuring the pressure inside the heart chambers and assessing the function of the heart valves.

Cardiac catheterization can also be used to treat certain cardiovascular conditions, such as narrowed or blocked arteries. In these cases, a balloon or stent may be inserted through the catheter to open up the blood vessel and improve blood flow. This procedure is known as angioplasty or percutaneous coronary intervention (PCI).

Cardiac catheterization is typically performed in a hospital cardiac catheterization laboratory by a team of healthcare professionals, including cardiologists, radiologists, and nurses. The procedure may be done under local anesthesia with sedation or general anesthesia, depending on the individual patient's needs and preferences.

Overall, cardiac catheterization is a valuable tool in the diagnosis and treatment of various heart conditions, and it can help improve symptoms, reduce complications, and prolong life for many patients.

Stroke volume is a term used in cardiovascular physiology and medicine. It refers to the amount of blood that is pumped out of the left ventricle of the heart during each contraction (systole). Specifically, it is the difference between the volume of blood in the left ventricle at the end of diastole (when the ventricle is filled with blood) and the volume at the end of systole (when the ventricle has contracted and ejected its contents into the aorta).

Stroke volume is an important measure of heart function, as it reflects the ability of the heart to pump blood effectively to the rest of the body. A low stroke volume may indicate that the heart is not pumping efficiently, while a high stroke volume may suggest that the heart is working too hard. Stroke volume can be affected by various factors, including heart disease, high blood pressure, and physical fitness level.

The formula for calculating stroke volume is:

Stroke Volume = End-Diastolic Volume - End-Systolic Volume

Where end-diastolic volume (EDV) is the volume of blood in the left ventricle at the end of diastole, and end-systolic volume (ESV) is the volume of blood in the left ventricle at the end of systole.

Echocardiography is a medical procedure that uses sound waves to produce detailed images of the heart's structure, function, and motion. It is a non-invasive test that can help diagnose various heart conditions, such as valve problems, heart muscle damage, blood clots, and congenital heart defects.

During an echocardiogram, a transducer (a device that sends and receives sound waves) is placed on the chest or passed through the esophagus to obtain images of the heart. The sound waves produced by the transducer bounce off the heart structures and return to the transducer, which then converts them into electrical signals that are processed to create images of the heart.

There are several types of echocardiograms, including:

* Transthoracic echocardiography (TTE): This is the most common type of echocardiogram and involves placing the transducer on the chest.
* Transesophageal echocardiography (TEE): This type of echocardiogram involves passing a specialized transducer through the esophagus to obtain images of the heart from a closer proximity.
* Stress echocardiography: This type of echocardiogram is performed during exercise or medication-induced stress to assess how the heart functions under stress.
* Doppler echocardiography: This type of echocardiogram uses sound waves to measure blood flow and velocity in the heart and blood vessels.

Echocardiography is a valuable tool for diagnosing and managing various heart conditions, as it provides detailed information about the structure and function of the heart. It is generally safe, non-invasive, and painless, making it a popular choice for doctors and patients alike.

Coronary artery disease, often simply referred to as coronary disease, is a condition in which the blood vessels that supply oxygen-rich blood to the heart become narrowed or blocked due to the buildup of fatty deposits called plaques. This can lead to chest pain (angina), shortness of breath, or in severe cases, a heart attack.

The medical definition of coronary artery disease is:

A condition characterized by the accumulation of atheromatous plaques in the walls of the coronary arteries, leading to decreased blood flow and oxygen supply to the myocardium (heart muscle). This can result in symptoms such as angina pectoris, shortness of breath, or arrhythmias, and may ultimately lead to myocardial infarction (heart attack) or heart failure.

Risk factors for coronary artery disease include age, smoking, high blood pressure, high cholesterol, diabetes, obesity, physical inactivity, and a family history of the condition. Lifestyle changes such as quitting smoking, exercising regularly, eating a healthy diet, and managing stress can help reduce the risk of developing coronary artery disease. Medical treatments may include medications to control blood pressure, cholesterol levels, or irregular heart rhythms, as well as procedures such as angioplasty or bypass surgery to improve blood flow to the heart.

Atrial septal defect (ASD) is a type of congenital heart defect that involves the septum, which is the wall that separates the two upper chambers of the heart (atria). An ASD is a hole or abnormal opening in the atrial septum, allowing oxygen-rich blood to leak into the oxygen-poor blood chambers in the heart. This leads to an overload of blood in the right side of the heart, which can cause enlargement of the heart and increased work for the right ventricle.

ASDs can vary in size, and small defects may not cause any symptoms or require treatment. Larger defects, however, can result in symptoms such as shortness of breath, fatigue, and heart rhythm abnormalities. Over time, if left untreated, ASDs can lead to complications like pulmonary hypertension, atrial fibrillation, and stroke.

Treatment for ASD typically involves surgical closure of the defect or catheter-based procedures using devices to close the hole. The choice of treatment depends on factors such as the size and location of the defect, the patient's age and overall health, and the presence of any coexisting conditions.

A ventricular septal defect (VSD) is a type of congenital heart defect that involves a hole in the wall separating the two lower chambers of the heart, the ventricles. This defect allows oxygenated blood from the left ventricle to mix with deoxygenated blood in the right ventricle, leading to inefficient oxygenation of the body's tissues. The size and location of the hole can vary, and symptoms may range from none to severe, depending on the size of the defect and the amount of blood that is able to shunt between the ventricles. Small VSDs may close on their own over time, while larger defects usually require medical intervention, such as medication or surgery, to prevent complications like pulmonary hypertension and heart failure.

A heart septal defect is a type of congenital heart defect, which means it is present at birth. It involves an abnormal opening in the septum, the wall that separates the two sides of the heart. This opening allows oxygen-rich blood to leak into the oxygen-poor blood chambers in the heart.

There are several types of heart septal defects, including:

1. Atrial Septal Defect (ASD): A hole in the atrial septum, the wall between the two upper chambers of the heart (the right and left atria).
2. Ventricular Septal Defect (VSD): A hole in the ventricular septum, the wall between the two lower chambers of the heart (the right and left ventricles).
3. Atrioventricular Septal Defect (AVSD): A combination of an ASD and a VSD, often accompanied by malformation of the mitral and/or tricuspid valves.

The severity of a heart septal defect depends on the size of the opening and its location in the septum. Small defects may cause no symptoms and may close on their own over time. Larger defects can lead to complications, such as heart failure, pulmonary hypertension, or infective endocarditis, and may require medical or surgical intervention.

A septal occluder device is a type of medical implant used to close defects or holes in the heart, specifically within the septum, which is the wall that separates the two sides of the heart. The device typically consists of two disc-shaped components connected by a waist, resembling a button or an umbrella.

The procedure for implanting a septal occluder device involves inserting it through a catheter, which is introduced into a vein in the leg and guided to the heart. Once in position, the discs of the device expand and are pressed against the septum on both sides of the hole, effectively closing it. Over time, tissue grows over the device, permanently sealing the defect.

Septal occluder devices are commonly used to treat atrial septal defects (ASD) and patent foramen ovale (PFO), which are two types of congenital heart defects that can cause symptoms such as shortness of breath, fatigue, and heart palpitations. The use of these devices has revolutionized the treatment of these conditions, allowing for less invasive procedures and faster recovery times compared to traditional surgical methods.

The atrial septum is the wall of tissue that divides the right and left atria, which are the upper chambers of the heart. This septum ensures that oxygen-rich blood in the left atrium is kept separate from oxygen-poor blood in the right atrium. Defects or abnormalities in the atrial septum, such as a hole or a gap, can result in various heart conditions, including septal defects and congenital heart diseases.

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In the post WWII era, cardiac catherisation and angiocardiography helped to revolutionise cardiac surgery. Evan Bedford and ...
Angiocardiography can be used to detect and diagnose congenital defects in the heart and adjacent vessels. In this context, the ... However, angiocardiography is still in use for selected cases as it provides a higher level of anatomical detail than ... Specifically, through the injection of a liquid radiocontrast agent and illumination with X-rays, angiocardiography allows the ... use of angiocardiography has declined with the introduction of echocardiography. ...
He was appointed to the chair of angiocardiography at the University of London in 1969 ... In the 1960s he realised that ...
"Comparison of exercise radionuclide angiocardiography and thallium-201 myocardial perfusion imaging in coronary artery disease ...
"Nobel Lecture, The Role of Heart Catheterization and Angiocardiography in the Development of Modern Medicine". Nobel Prize.org ...
He was a pediatrician, radiologist and cardiologist who was a pioneer in the field of angiocardiography. His initial work was ... Castellanos and colleagues published the first important paper on the clinical applications of intravenous angiocardiography ... Castellanos expanded his work on angiocardiography to include the study of the various congenital malformations of the heart. ...
She introduced angiocardiography to Britain in 1946 and worked at the Royal Free Hospital from 1943 to 1975. Frances Gardner ... where she learned to perform angiocardiography, a technique that allows for visualisation of the heart's blood vessels and is ...
MUGA scanning is also called equilibrium radionuclide angiocardiography, radionuclide ventriculography (RNVG), or gated blood ...
Here, he contributed to angiocardiography (Cine angiography had not yet been invented) when he invented and built by his own ...
... and an angiocardiography laboratory has been in place since 2003. Since 2006, the Extracorporeal Life Preservation/ELSO program ...
1991), cardiac radiologist specialising in angiocardiography David Cole (1955-1974), surgeon and later Dean of the Auckland ...
... angiocardiography (heart and coronary arteries), arthrography (joints), hysterosalpingography (uterus and Fallopian tubes), and ...
1956 The Role of Heart Catheterization and Angiocardiography in the Development of Modern Medicine (Pages using the Phonos ...
... pediatric angiocardiography, selective visceral arteriography and aortography, peripheral venography (phlebography), and adult ...
... angiocardiography MeSH E01.370.350.700.060.060 - angiography, digital subtraction MeSH E01.370.350.700.060.070 - aortography ... angiocardiography MeSH E01.370.370.050.060 - angiography, digital subtraction MeSH E01.370.370.050.070 - aortography MeSH ... angiocardiography MeSH E01.370.370.380.100 - ballistocardiography MeSH E01.370.370.380.150 - cardiac output MeSH E01.370. ...
... a professional association of gastroenterologists Angiocardiography, contrast radiography of the heart and great vessels Angle ...
Angiocardiography using contrast material (88.6) Phlebography (88.7) Diagnostic ultrasound (88.8) Thermography (88.9) Other ...
Angiocardiography. Heart disease is still the leading cause of death in America. However, in recent years the number of deaths ... One of the most common procedures being performed by doctors today to prevent heart attacks is angiocardiography, more commonly ...
Equilibrium radionuclide angiocardiography. In equilibrium radionuclide angiocardiography (ERNA), ECG is used to define the ... First-pass radionuclide angiocardiography. The first-pass radionuclide angiocardiography (FPRNA) technique involves sampling ... In equilibrium radionuclide angiocardiography (ERNA) imaging, since radioactivity is present within the entire intravascular ...
"Transposition of the aorta and pulmonary artery demonstrated by angiocardiography". Br Heart J. 11 (3): 279-286. doi:10.1136/ ...
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Right ventricular imaging with digital subtraction angiocardiography using intraventricular contrast injection.; The American ... Assessment of left ventricular muscle volume by digital angiocardiography.; Investigative radiology; (1983). ...
Positive-contrast studies such as gastrointestinal barium studies, excretory urography and non-selective angiocardiography can ...
Angiocardiography showed right aortic arch with aberrant left subclavian artery, persistent dorsal aortic arch and patent ...
Activation of blood clotting and fibrinolysis in angiocardiography with ionic and non-ionic contrast medium * Full Text ...
Additional studies include chest tomography, bronchography, esophagography, and angiocardiography (contrast studies of ...
"Prognostic significance of persistent right ventricular dysfunction as assessed by radionuclide angiocardiography in patients ...
"Experimental Study of the Influence on Pacemakers of X-Rays from Angiocardiography Equipment," Japanese Journal of Radiological ...
Technician 1 5.0 5.0 Surgical, Cerebral Arterio- graphy, Neurosurgeon 1 6.9 6.9 Surgical, Angiocardiography Cardiologist 1 4.6 ...
Angiocardiography. Echocardiography TTE. TEE. Myocardial perfusion imaging. Cardiovascular MRI. Ventriculography Radionuclide ...
WDM CGO-2100 Medical DSA CAG Interventional Angiocardiography Machine Cardioangiography System. Get Price ...
... at the pericardium 6 acupoint on heart function in patients with angina using equilibrium radionuclide angiocardiography ...
angiocardiography. myelography. barium sulfate. (Show more) See all related content → contrast medium, substance comparatively ...
Angiocardiography. * Cardiopulmonary Exercise Test (CPET). * Heart rate monitor. * Hypertrophic cardiomyopathy. * Pacemaker ...
Angiocardiography; Aortography; Aortography of the ascending aortic arch; Arteriography; Vasography; Venography; Visualization ...
Powered by Pure, Scopus & Elsevier Fingerprint Engine™ © 2023 Elsevier B.V. We use cookies to help provide and enhance our service and tailor content. By continuing you agree to the use of cookies. ...
Angiocardiography [1]. * Arizona General Hospital (Tempe (Rural & Baseline) 24/7 Emergency Room) [2]. ...
See also angiocardiography.. Details. Angiography or arteriography is a medical imaging technique used to visualize the inside ...
... a cardiac catheterization and angiocardiography are recommended in anticipation of reparative surgery. ... a cardiac catheterization and angiocardiography are recommended in anticipation of reparative surgery.", ... a cardiac catheterization and angiocardiography are recommended in anticipation of reparative surgery. ... a cardiac catheterization and angiocardiography are recommended in anticipation of reparative surgery. ...
in pediatric patients for angiocardiography. *in adult and pediatric intravenous excretory urography and contrast *CT Head ...
Angiocardiography. Medical » Physiology. Rate it:. ACG. ACM Government Income Fund, Inc.. Business » NYSE Symbols ...
Angiocardiography: The transporter to return 3-D failure. we are able to not only gain valuable insights from this data but ...
Angiocardiography: Anteroposterior Projection of Right-Sided Heart Structures. * * *Angiocardiography: Lateral Projection of ...
  • Although signs and symptoms are not as clear due to the less impaired coronary perfusion and the presence of a PDA, the presence of mitral insufficiency should raise the possibility of an anomalous coronary artery and, therefore, a cardiac catheterization and angiocardiography are recommended in anticipation of reparative surgery. (elsevierpure.com)
  • Two cases of primary pulmonary hypertension confirmed clinically by cardiac catheterization, angiocardiography, lung scanning and pulmonary function test. (e-cep.org)
  • Prior to the development of CT, cardiac and pericardiac masses were evaluated by chest roentgenography, angiocardiography, and echocardiography. (shengsci.com)
  • Cardiac catheterization and angiocardiography cardiac catheterization will diagnose most stones spiral ct is unavailable, consider manual hernia reduction. (albionfoundation.org)
  • In five of these patients peripheral resistances were evaluated with radionuclide angiocardiography. (diff.org)
  • We all directed to guage the ability of mechanical distribution, tested together with phase normal deviation (PSD) on radionuclide angiocardiography (RNA), to predict VAs. (enzalutamideantagonist.com)
  • 320 mg Iodine/mL) angiocardiography (left ventriculography and selective coronary arteriography), peripheral arteriography, visceral arteriography, and cerebral arteriography. (livealthbiopharma.net.in)
  • 13 Certain antimicrobial amount of medication for angiocardiography (ventriculography, 2 panthenol could in remission, compared with just 12 of people who or as directed. (mtbcuae.com)
  • The interesting clinical findings, ECG, echocardiography and angiocardiography features are described here. (bvsalud.org)
  • Positive-contrast studies such as gastrointestinal barium studies, excretory urography and non-selective angiocardiography can be performed. (vin.com)
  • He has several firsts to his credit such as introduction of percutaneous lumbar aortography, venous angiocardiography and brachytherapy for treating cancer cervix with radioactive cobalt needles. (barnard.in)
  • on neonatal angiocardiography, the fetus had a normally developed main pulmonary artery (MPA) with an imperforate obstruction of the pulmonary valve. (tmu.edu.tw)
  • One of the most common procedures being performed by doctors today to prevent heart attacks is angiocardiography, more commonly referred to as angiography. (medicalmalpracticehelp.com)
  • This triphosphatase will show ventricular centers for intrinsic and 31-JUL-2005 agar response PH, which include launching and gating strategies that are filed patients, Pertaining Fiscal unpleasantness patients of patients and problems provided in heart, and including angiocardiography pores that are immunologic with a study's programmed metalloproteinase. (seabaygame.com)
  • For angiography throughout the cardiovascular system, including cerebral and peripheral arteriography, coronary arteriography and ventriculography, pediatric angiocardiography, selective visceral arteriography and aortography, peripheral venography (phlebography), and adult and pediatric intravenous excretory urography and intravenous adult and pediatric contrast enhancement of computed tomographic (CECT) head and body imaging. (renalandurologynews.com)
  • 5 The Lidocaine has a reaction, including serious, life The dosage recommended anesthesia use tetracaine bupivicaine ropivicaine) Clonidine, enhanced added to lidocaine, will markedly In the clinical and analgesic 391 patients for pediatric angiocardiography, urography, Acheter Atarax Sans Ordonnance Pharmacie, pain contrast enhanced injections tomographic head propofol or reactions Unintentional the injections resulting OMNIPAQUE 240, OMNIPAQUE 300, and seizures less than with. (greenfieldmaintenance.com)
  • These disposable lead free-NR (Natural Rubber) latex-powder free-sterile gloves can be used effectively under surgical gloves for interventional procedures diagnostic heart catheterization coronary angioplasty angiocardiography pain management. (eljayxray.com)
  • Right atrial myxoma: a clinical study of a patient in whom diagnosis was made by angiocardiography during life. (nih.gov)