Acute Heart Failure - Advocatehealth.com
... • Cannula in femoral vein through intraatrial septum into LA • Pump withdraws oxygenated blood from the left atrium, propels it by a magnetically driven impeller through the outflow port • Blood returns into femoral artery via arterial cannula ...
... • Cannula in femoral vein through intraatrial septum into LA • Pump withdraws oxygenated blood from the left atrium, propels it by a magnetically driven impeller through the outflow port • Blood returns into femoral artery via arterial cannula ...
What does your circulatory system do?
... What does your circulatory system do? Your circulatory system pumps your blood though out your whole body. Your heart, your lungs, and your blood vessels work together to form the circle part of the circulatory system. Your heart is beating all the time. When your heart beats it pumps blood, the blo ...
... What does your circulatory system do? Your circulatory system pumps your blood though out your whole body. Your heart, your lungs, and your blood vessels work together to form the circle part of the circulatory system. Your heart is beating all the time. When your heart beats it pumps blood, the blo ...
If you put your cursor over a text box, it will be an arrow and WILL
... This workforce solution was funded by a grant awarded under the Workforce Innovation in Regional Development (WIRED) as implemented by the U.S. Department of Labor’s Employment and Training Administration working in partnership with the Colorado Department of Labor and Employment, the Metro Denver ...
... This workforce solution was funded by a grant awarded under the Workforce Innovation in Regional Development (WIRED) as implemented by the U.S. Department of Labor’s Employment and Training Administration working in partnership with the Colorado Department of Labor and Employment, the Metro Denver ...
1A5
... artificial valve (i) mechanical valves, made from metal, plastic or carbon, which last for a long time but as they tend to cause blood to clot the recipient must take anti-clotting medication (ii) biological valves, from pig tissue or donated human tissue, which lower the clotting risk but do not la ...
... artificial valve (i) mechanical valves, made from metal, plastic or carbon, which last for a long time but as they tend to cause blood to clot the recipient must take anti-clotting medication (ii) biological valves, from pig tissue or donated human tissue, which lower the clotting risk but do not la ...
The Transport System Study Guide
... 6.2.2 State that the coronary arteries supply the heart muscle with oxygen and nutrients The direction of flow is controlled by the atrıo-ventrıcular and semılunar valves 6.2.3 Explain the action of the heart in terms of pumping blood, collection blood and opening and closing valves 6.2.4 Outline th ...
... 6.2.2 State that the coronary arteries supply the heart muscle with oxygen and nutrients The direction of flow is controlled by the atrıo-ventrıcular and semılunar valves 6.2.3 Explain the action of the heart in terms of pumping blood, collection blood and opening and closing valves 6.2.4 Outline th ...
College Final 1 - Amref Health Africa Training
... Q6. The sensitivity part of a culture & sensitivity test is for the purpose of, a) Identifying the causative organism for the infection diagnosed b) Identifying the most effective antibiotics against the causative organism c) Identifying the antibiotics that the patient is resistant to d) Testing th ...
... Q6. The sensitivity part of a culture & sensitivity test is for the purpose of, a) Identifying the causative organism for the infection diagnosed b) Identifying the most effective antibiotics against the causative organism c) Identifying the antibiotics that the patient is resistant to d) Testing th ...
CHAPTER 18: CARDIOVASCULAR SYSTEM
... Chambers of the Heart • Interior is divided into 4 chambers (cavities) • ATRIA (ATRIUM) Two upper chambers • VENTRICLES Two lower chambers • SEPTUM the left chambers is separated form the right chambers by this heart wall ...
... Chambers of the Heart • Interior is divided into 4 chambers (cavities) • ATRIA (ATRIUM) Two upper chambers • VENTRICLES Two lower chambers • SEPTUM the left chambers is separated form the right chambers by this heart wall ...
DRUGS USED IN CARDIAD FAILURE CONGESTIVE CARDIAC
... Cardiac output is insufficient to meet the demands of tissue perfusion. Low out-put failure e.g. Hypertension, Rh valvular defects, CHD, IHD, Myocarditis, Arrhythmias. Digitalis is beneficial in low output failure and results are best obtained when myocardium is not primarily damaged ...
... Cardiac output is insufficient to meet the demands of tissue perfusion. Low out-put failure e.g. Hypertension, Rh valvular defects, CHD, IHD, Myocarditis, Arrhythmias. Digitalis is beneficial in low output failure and results are best obtained when myocardium is not primarily damaged ...
Prezentace aplikace PowerPoint
... • dizziness, dyspnea, sweating, chest discomfort, polyuria (due to ihibition of ADH secretion and stimulaation of ANF secretion) (during prolonged attack of palpitation) ...
... • dizziness, dyspnea, sweating, chest discomfort, polyuria (due to ihibition of ADH secretion and stimulaation of ANF secretion) (during prolonged attack of palpitation) ...
Cardiovascular Test ID # Directions: Read each section carefully
... a. What are the four chambers of the heart, and what is the main function of each? b. What are the four valves of the heart, and where are they located? c. What are the three layers of the heart’s wall? d. Why is the endothelium of the epicardium important for cardiac function? e. What are the two c ...
... a. What are the four chambers of the heart, and what is the main function of each? b. What are the four valves of the heart, and where are they located? c. What are the three layers of the heart’s wall? d. Why is the endothelium of the epicardium important for cardiac function? e. What are the two c ...
Document
... Study Guide Please read through this sheet and make sure you are familiar with ALL terms you see! *Make sure these terms are in your blue folder: tissue, organ, circulatory system, system, heart, respiratory system, diaphragm, lungs, trachea Heart Box Diagram – Be able to label the following: four ...
... Study Guide Please read through this sheet and make sure you are familiar with ALL terms you see! *Make sure these terms are in your blue folder: tissue, organ, circulatory system, system, heart, respiratory system, diaphragm, lungs, trachea Heart Box Diagram – Be able to label the following: four ...
The Cardiovascular System: Part 2
... 9) The ability to prevent blood loss from vessels that have been damaged is an important hemostatic function. Describe in detail the three steps in the process of hemostasis including the compounds involved in those processes. ...
... 9) The ability to prevent blood loss from vessels that have been damaged is an important hemostatic function. Describe in detail the three steps in the process of hemostasis including the compounds involved in those processes. ...
HeartStructure
... Heart Valves Blood flows through the heart in one direction. Heart valves open and close to prevent the backflow of blood within the heart. The valves open and close in response to differences in blood ...
... Heart Valves Blood flows through the heart in one direction. Heart valves open and close to prevent the backflow of blood within the heart. The valves open and close in response to differences in blood ...
Cardiovascular System
... Spiroergometry is a diagnostic analysis in order to rate the physical condition and fitness. The analysis is based on a step-by-step plan including bicycle ergometer or treadmill fitness tests. With the help of a special mask certain parameters can be measured - for example oxygen and carbon dioxide ...
... Spiroergometry is a diagnostic analysis in order to rate the physical condition and fitness. The analysis is based on a step-by-step plan including bicycle ergometer or treadmill fitness tests. With the help of a special mask certain parameters can be measured - for example oxygen and carbon dioxide ...
Atrial Fibrillation
... Atrial Fibrillation Atrial fibrillation is a common arrhythmia (abnormal heart rhythm). The heart has 4 chambers: the right and left atria (upper chambers) and the right and left ventricles (lower chambers). A normal heartbeat begins in the right atrium. The sinoatrial (SA) node is a collection of s ...
... Atrial Fibrillation Atrial fibrillation is a common arrhythmia (abnormal heart rhythm). The heart has 4 chambers: the right and left atria (upper chambers) and the right and left ventricles (lower chambers). A normal heartbeat begins in the right atrium. The sinoatrial (SA) node is a collection of s ...
The effects of diabetic metabolic derangement on left ventricular
... Diabetes is a metabolic condition with continuously increasing incidence, contributing to higher cardiovascular mortality, but its pathophysiological features particularly at the cardiac cellular level are still incompletely understood. In the present study, the effects of diabetic metabolic derange ...
... Diabetes is a metabolic condition with continuously increasing incidence, contributing to higher cardiovascular mortality, but its pathophysiological features particularly at the cardiac cellular level are still incompletely understood. In the present study, the effects of diabetic metabolic derange ...
Myocardial infarction
... Ischemic heart muscle necrosis. significant cause of death worldwide. 33% -50% die before they can reach the hospital lethal arrhythmia Sudden Cardiac Death Arrhythmias are caused by electrical abnormalities of ischemic myocardium and conduction system. ...
... Ischemic heart muscle necrosis. significant cause of death worldwide. 33% -50% die before they can reach the hospital lethal arrhythmia Sudden Cardiac Death Arrhythmias are caused by electrical abnormalities of ischemic myocardium and conduction system. ...
The Heart
... ► carries oxygenated blood away from the heart, to the body, and returns deoxygenated blood back to the heart ...
... ► carries oxygenated blood away from the heart, to the body, and returns deoxygenated blood back to the heart ...
Heart failure
... Look for anaemia which can exacerbate symptoms. It is important to look for the Jugular venous pulse in all patients with suspected heart failure. When the patient is at 30-45o the JVP should be just visible above the clavicle. If it is higher this suggests pulmonary oedema. In pericardial effusion ...
... Look for anaemia which can exacerbate symptoms. It is important to look for the Jugular venous pulse in all patients with suspected heart failure. When the patient is at 30-45o the JVP should be just visible above the clavicle. If it is higher this suggests pulmonary oedema. In pericardial effusion ...
How the heart works
... Now that you can label the heart you can figure out how each section plays its part in either pumping oxygenated blood around the body or pumping deoxygenated blood to the lungs. ...
... Now that you can label the heart you can figure out how each section plays its part in either pumping oxygenated blood around the body or pumping deoxygenated blood to the lungs. ...
4.2 KeyTerms
... A measure of cardiac activity usually expressed as the number of beats per minute. Hypertension An abnormally high blood pressure. Pacemaker An electrical device for stimulating or steadying the heartbeat or reestablishing the rhythm of an arrested heart. Pulse The rhythmic expansion and recoil of a ...
... A measure of cardiac activity usually expressed as the number of beats per minute. Hypertension An abnormally high blood pressure. Pacemaker An electrical device for stimulating or steadying the heartbeat or reestablishing the rhythm of an arrested heart. Pulse The rhythmic expansion and recoil of a ...
The Structure and Function of the Heart
... • Systole – when part of the heart is contracting either atria or ventricles • Diastole – when part of the heart is relaxing either atria or ventricles • Both atria contract or relax at the same time • Both ventricles contract or relax at the same time • Atria and ventricles can be relaxed at same t ...
... • Systole – when part of the heart is contracting either atria or ventricles • Diastole – when part of the heart is relaxing either atria or ventricles • Both atria contract or relax at the same time • Both ventricles contract or relax at the same time • Atria and ventricles can be relaxed at same t ...
Systemic Blood Pressure
... Routing blood: separates pulmonary and systemic circulations Ensuring one-way blood flow: valves Regulating blood supply 1.Changes in contraction rate and force match blood delivery to changing metabolic needs Circulatory System Function Move circulatory fluid (blood) around body • Gas Transport • N ...
... Routing blood: separates pulmonary and systemic circulations Ensuring one-way blood flow: valves Regulating blood supply 1.Changes in contraction rate and force match blood delivery to changing metabolic needs Circulatory System Function Move circulatory fluid (blood) around body • Gas Transport • N ...
The Heart Beat The heart beat is caused by impulses arising from
... The Heart Beat The heart beat is caused by impulses arising from two specialised groups of cells within the heart muscle. The Sino-Atrial (SA) node, situated in the wall of the right atrium initiates the beat, and the Atrioventricular (AV) node which is positioned between the ventricles and continue ...
... The Heart Beat The heart beat is caused by impulses arising from two specialised groups of cells within the heart muscle. The Sino-Atrial (SA) node, situated in the wall of the right atrium initiates the beat, and the Atrioventricular (AV) node which is positioned between the ventricles and continue ...
Lecture 37 Introduction to Circulation • BY DR QAZI IMTIAZ RASOOL
... Routing blood: separates pulmonary and systemic circulations Ensuring one-way blood flow: valves Regulating blood supply 1.Changes in contraction rate and force match blood delivery to changing metabolic needs Circulatory System Function Move circulatory fluid (blood) around body • Gas Transport • N ...
... Routing blood: separates pulmonary and systemic circulations Ensuring one-way blood flow: valves Regulating blood supply 1.Changes in contraction rate and force match blood delivery to changing metabolic needs Circulatory System Function Move circulatory fluid (blood) around body • Gas Transport • N ...