EKG and blood pressure
... then they relax while the two ventricles simultaneously contract. ► The contraction phase of the ventricle chambers is called systole. ► The relaxation phase is called diastole. ► At a normal heart rate, one cardiac cycle last for 0.8 seconds! ...
... then they relax while the two ventricles simultaneously contract. ► The contraction phase of the ventricle chambers is called systole. ► The relaxation phase is called diastole. ► At a normal heart rate, one cardiac cycle last for 0.8 seconds! ...
ECG and the Heart*s Internal Conduction System
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
Script for animation
... Commentary: The heart’s natural pacemaker is the sinoatrial (SA) node, which sends electrical impulses to the cardiac muscles of the atria to cause atrial contraction. The impulses are then picked up by the atrioventricular (AV) node, which sends the impulses to muscle fibers in the ventricles, caus ...
... Commentary: The heart’s natural pacemaker is the sinoatrial (SA) node, which sends electrical impulses to the cardiac muscles of the atria to cause atrial contraction. The impulses are then picked up by the atrioventricular (AV) node, which sends the impulses to muscle fibers in the ventricles, caus ...
ECG and the Heart*s Internal Conduction System
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
ECG and the Heart’s Internal Conduction System
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
... Cardiac muscles do not need to be stimulated by nerves. This allows heart to beat even if nervous system doesn’t function well. Cardiac muscles have autorhythmic / natural pace-makers to keep the heart beating an an appropriate rate. Cardiac muscle has special features to speed impulse conduction fr ...
Chapter 4 Cardiovascular
... • P = SA node fires and atria contract • QRS = ventricles contract • T = ventricles prepare for next contraction Arrhythmia - any change in rate, rhythm, or conduction within the heart • Sinus tachycardia - HR faster than normal with normal rhythm • Sinus bradycardia - HR slower than normal with nor ...
... • P = SA node fires and atria contract • QRS = ventricles contract • T = ventricles prepare for next contraction Arrhythmia - any change in rate, rhythm, or conduction within the heart • Sinus tachycardia - HR faster than normal with normal rhythm • Sinus bradycardia - HR slower than normal with nor ...
Hemodynamic Tutorial
... necrotic area. This is likely to occur in tissues that have a loose texture and dual blood supply (eg, lung); by contrast, pale infarcts occur in compact tissues and those in which the collaterals do not readily refill the necrotic area (eg, heart). ...
... necrotic area. This is likely to occur in tissues that have a loose texture and dual blood supply (eg, lung); by contrast, pale infarcts occur in compact tissues and those in which the collaterals do not readily refill the necrotic area (eg, heart). ...
Afib - Ronna
... other heart disease ƒ increases risk for stroke by 5 to 7 % ƒ 45 % of cardiogenic emboli are associated with AF ƒ risk of pericardioversion emboli increases considerably if AF has been present for more than 2 days ...
... other heart disease ƒ increases risk for stroke by 5 to 7 % ƒ 45 % of cardiogenic emboli are associated with AF ƒ risk of pericardioversion emboli increases considerably if AF has been present for more than 2 days ...
Artificial Heart - Sponsors Choose
... and left atria contract at the same time, pumping blood to the right and left ventricles. • In the second stage, the ventricles contract together to propel blood out of the heart. • The heart muscle then relaxes before the next heartbeat. This allows blood to fill up the heart again. ...
... and left atria contract at the same time, pumping blood to the right and left ventricles. • In the second stage, the ventricles contract together to propel blood out of the heart. • The heart muscle then relaxes before the next heartbeat. This allows blood to fill up the heart again. ...
Cardiovascular History Taking
... Where did you experience the chest pain? [Location] What was the pain like? [Character] How severe was the pain? [Severity] How long did the pain last for? [Duration] How often do you experience the pain? [Frequency] Did the pain spread anywhere? [Radiation] What makes the pain worse? [Exacerbating ...
... Where did you experience the chest pain? [Location] What was the pain like? [Character] How severe was the pain? [Severity] How long did the pain last for? [Duration] How often do you experience the pain? [Frequency] Did the pain spread anywhere? [Radiation] What makes the pain worse? [Exacerbating ...
Organ Systems in Humans: The Circulatory
... 8. Name the parts of the heart. Why do you suppose the heart needs all these parts? The right atrium, right ventricle, left atrium, and left ventricle are required because the heart must actually accommodate two cycles, one for the lungs and another for the body ...
... 8. Name the parts of the heart. Why do you suppose the heart needs all these parts? The right atrium, right ventricle, left atrium, and left ventricle are required because the heart must actually accommodate two cycles, one for the lungs and another for the body ...
sample questions for exam 3 File
... aorta, and tetralogy of Fallot- which produces mixing of oxygenated and unoxygenated blood and which increase ventricular work load? 9. A patient is diagnosed with a posterior pituitary tumor that causes hypersecretion of ADH. Would you expect his blood pressure to be chronically elevated or depress ...
... aorta, and tetralogy of Fallot- which produces mixing of oxygenated and unoxygenated blood and which increase ventricular work load? 9. A patient is diagnosed with a posterior pituitary tumor that causes hypersecretion of ADH. Would you expect his blood pressure to be chronically elevated or depress ...
Ventricular Fibrillation
... AV nodal re-entrant tachycardia (AVNRT) - a fast heart rate due to having more than one pathway through the atrioventricular (AV) node. ...
... AV nodal re-entrant tachycardia (AVNRT) - a fast heart rate due to having more than one pathway through the atrioventricular (AV) node. ...
CHAPTER OUTLINE
... ventricular diastole. A blood pressure reading consists of these two numbers: for example, 120/80 (systolic/diastolic). 12.5 Cardiovascular Disorders Cardiovascular disease is the leading cause of untimely death in Western countries. Atherosclerosis Atherosclerosis is an accumulation of soft masses ...
... ventricular diastole. A blood pressure reading consists of these two numbers: for example, 120/80 (systolic/diastolic). 12.5 Cardiovascular Disorders Cardiovascular disease is the leading cause of untimely death in Western countries. Atherosclerosis Atherosclerosis is an accumulation of soft masses ...
resynchronisation therapy in adults with congenital heart disease
... Hampshire, UK Objectives:Cardiac resynchronization therapy (CRT) may be of particular benefit to adults with congenital heart disease (CHD) and ventricular dysfunction (VD). Methods : Retrospective hospital records review.Results:Between 2001 & 2004, 6 patients (pt) had 5 successful implants, 4 with ...
... Hampshire, UK Objectives:Cardiac resynchronization therapy (CRT) may be of particular benefit to adults with congenital heart disease (CHD) and ventricular dysfunction (VD). Methods : Retrospective hospital records review.Results:Between 2001 & 2004, 6 patients (pt) had 5 successful implants, 4 with ...
4.12 To dissect, display and identify an ox`s or sheep`s heart
... Identify the opening at the base of the aorta, above the semi-lunar valves, leading to the coronary arteries ...
... Identify the opening at the base of the aorta, above the semi-lunar valves, leading to the coronary arteries ...
Electrical Conductivity System of the Heart
... oxygenated blood around the vascular network of the body. It is a four-chamber pump, with the right side receiving deoxygenated blood from the body at low pressure and pumping it to the lungs (the pulmonary circulation) and the left side receiving oxygenated blood from the lungs and pumping it at hi ...
... oxygenated blood around the vascular network of the body. It is a four-chamber pump, with the right side receiving deoxygenated blood from the body at low pressure and pumping it to the lungs (the pulmonary circulation) and the left side receiving oxygenated blood from the lungs and pumping it at hi ...
Pacemaker Placement: Epicardial
... An epicardial pacemaker is a device placed superficially on the heart that can be used to control a patient’s heart rate at a faster or appropriate rate. Pacemakers are placed in patients who are deemed to have inappropriately slow heart rates (bradycardia) or when the electrical signals from the to ...
... An epicardial pacemaker is a device placed superficially on the heart that can be used to control a patient’s heart rate at a faster or appropriate rate. Pacemakers are placed in patients who are deemed to have inappropriately slow heart rates (bradycardia) or when the electrical signals from the to ...
Myocardial infarction
Myocardial infarction (MI) or acute myocardial infarction (AMI), commonly known as a heart attack, occurs when blood flow stops to a part of the heart causing damage to the heart muscle. The most common symptom is chest pain or discomfort which may travel into the shoulder, arm, back, neck, or jaw. Often it is in the center or left side of the chest and lasts for more than a few minutes. The discomfort may occasionally feel like heartburn. Other symptoms may include shortness of breath, nausea, feeling faint, a cold sweat, or feeling tired. About 30% of people have atypical symptoms, with women more likely than men to present atypically. Among those over 75 years old, about 5% have had an MI with little or no history of symptoms. An MI may cause heart failure, an irregular heartbeat, or cardiac arrest.Most MIs occur due to coronary artery disease. Risk factors include high blood pressure, smoking, diabetes, lack of exercise, obesity, high blood cholesterol, poor diet, and excessive alcohol intake, among others. The mechanism of an MI often involves the rupture of an atherosclerotic plaque, leading to complete blockage of a coronary artery. MIs are less commonly caused by coronary artery spasms, which may be due to cocaine, significant emotional stress, and extreme cold, among others. A number of tests are useful to help with diagnosis, including electrocardiograms (ECGs), blood tests, and coronary angiography. An ECG may confirm an ST elevation MI if ST elevation is present. Commonly used blood tests include troponin and less often creatine kinase MB.Aspirin is an appropriate immediate treatment for a suspected MI. Nitroglycerin or opioids may be used to help with chest pain; however, they do not improve overall outcomes. Supplemental oxygen should be used in those with low oxygen levels or shortness of breath. In ST elevation MIs treatments which attempt to restore blood flow to the heart are typically recommended and include angioplasty, where the arteries are pushed open, or thrombolysis, where the blockage is removed using medications. People who have a non-ST elevation myocardial infarction (NSTEMI) are often managed with the blood thinner heparin, with the additional use angioplasty in those at high risk. In people with blockages of multiple coronary arteries and diabetes, bypass surgery (CABG) may be recommended rather than angioplasty. After an MI, lifestyle modifications, along with long term treatment with aspirin, beta blockers, and statins, are typically recommended.Worldwide, more than 3 million people have ST elevation MIs and 4 million have NSTEMIs each year. STEMIs occur about twice as often in men as women. About one million people have an MI each year in the United States. In the developed world the risk of death in those who have had an STEMI is about 10%. Rates of MI for a given age have decreased globally between 1990 and 2010.