Snímek 1
... proportional controller type. Kidney fluid regulator is a integral (I) controller type. (its long term sensitivity/gain is infinity) ...
... proportional controller type. Kidney fluid regulator is a integral (I) controller type. (its long term sensitivity/gain is infinity) ...
Patient assessment - American Heart Association
... dangerously fast heartbeat causing the heart muscle to quiver and not pump blood to the rest of the body and brain Even if you had a clogged artery fixed with angioplasty, bypass surgery or other procedure, you can still be at risk for Sudden Cardiac Arrest People at highest risk for Sudden Card ...
... dangerously fast heartbeat causing the heart muscle to quiver and not pump blood to the rest of the body and brain Even if you had a clogged artery fixed with angioplasty, bypass surgery or other procedure, you can still be at risk for Sudden Cardiac Arrest People at highest risk for Sudden Card ...
Depression Modulates Autonomic Cardiac Control
... Depression Inventory; BDI), it seems to affect the prognosis after acute myocardial infarctions (Bush et al., 2001). However, it still remains unclear what the underlying mechanisms are. In patients with coronary heart disease or chronic heart failure, heart rate variability (HRV) is reduced, which ...
... Depression Inventory; BDI), it seems to affect the prognosis after acute myocardial infarctions (Bush et al., 2001). However, it still remains unclear what the underlying mechanisms are. In patients with coronary heart disease or chronic heart failure, heart rate variability (HRV) is reduced, which ...
Complex Heart Failure – Inpatient and Outpatient Management
... Hemodynamic monitoring Invasive hemodynamic monitoring with a pulmonary artery catheter should be performed to guide therapy in patients who have respiratory distress or clinical evidence of impaired perfusion in whom the adequacy or excess of intracardiac filling pressures cannot be determined fro ...
... Hemodynamic monitoring Invasive hemodynamic monitoring with a pulmonary artery catheter should be performed to guide therapy in patients who have respiratory distress or clinical evidence of impaired perfusion in whom the adequacy or excess of intracardiac filling pressures cannot be determined fro ...
Biocompatibility of Closure Devices
... Virtualmedicalcentral.com This is the most common atrial septal defect, affecting 80 percent of people with this defect. •It is caused when a part of the atrial septum fails to close completely while the heart is developing. •This causes an opening to develop between the atria. •Asymptomatic or symp ...
... Virtualmedicalcentral.com This is the most common atrial septal defect, affecting 80 percent of people with this defect. •It is caused when a part of the atrial septum fails to close completely while the heart is developing. •This causes an opening to develop between the atria. •Asymptomatic or symp ...
The Heart and Lungs at Work
... The right atrium receives deoxygenated blood from the superior and inferior vena cava. The blood moves from the right atrium to the right ventricle and pumps it to the lungs. The left atrium receives the oxygenated blood from the lungs and pumps it to the left ventricle. The blood is now oxygen-rich ...
... The right atrium receives deoxygenated blood from the superior and inferior vena cava. The blood moves from the right atrium to the right ventricle and pumps it to the lungs. The left atrium receives the oxygenated blood from the lungs and pumps it to the left ventricle. The blood is now oxygen-rich ...
CHAPTER 7: The Heart and Lungs at Work
... The right atrium receives deoxygenated blood from the superior and inferior vena cava. The blood moves from the right atrium to the right ventricle and pumps it to the lungs. The left atrium receives the oxygenated blood from the lungs and pumps it to the left ventricle. The blood is now oxygen-rich ...
... The right atrium receives deoxygenated blood from the superior and inferior vena cava. The blood moves from the right atrium to the right ventricle and pumps it to the lungs. The left atrium receives the oxygenated blood from the lungs and pumps it to the left ventricle. The blood is now oxygen-rich ...
09 Embriogenesis of cardiovascular system
... was produced by increased hypoxia after prolonged crying. Postmortem revealed atresia of the pulmonary artery and a single ventricle. ...
... was produced by increased hypoxia after prolonged crying. Postmortem revealed atresia of the pulmonary artery and a single ventricle. ...
Why Dissect?
... of the heart. On one side of the heart you will see a diagonal line of blood vessels that divide the heart. • The half that includes all of the apex (pointed end) of the heart is the left side. • Confirm this by squeezing each half of the heart. The left half will feel much firmer and more muscular ...
... of the heart. On one side of the heart you will see a diagonal line of blood vessels that divide the heart. • The half that includes all of the apex (pointed end) of the heart is the left side. • Confirm this by squeezing each half of the heart. The left half will feel much firmer and more muscular ...
4th year biolgy test - leavingcertbiology.net
... 18. In the human heart, oxygenated and deoxygenated blood are transported by the: a. Right and left sides of the heart, respectively b. Left and right sides of the heart, respectively c. Both sides of the heart d. Aorta 19. Name the two separate blood circuits in the human: a. ______________________ ...
... 18. In the human heart, oxygenated and deoxygenated blood are transported by the: a. Right and left sides of the heart, respectively b. Left and right sides of the heart, respectively c. Both sides of the heart d. Aorta 19. Name the two separate blood circuits in the human: a. ______________________ ...
Heart and Blood Vessels
... Semipermeable layer of cells Muscles have a large number of these whereas cartilage doesn’t (due to metabolic rate) Allows oxygen to leave the blood that is in the capillaries and enter tissue. Allows wastes or carbon dioxide from tissues to leave the cells and enter the blood in the capillari ...
... Semipermeable layer of cells Muscles have a large number of these whereas cartilage doesn’t (due to metabolic rate) Allows oxygen to leave the blood that is in the capillaries and enter tissue. Allows wastes or carbon dioxide from tissues to leave the cells and enter the blood in the capillari ...
Heart murmurs
... When a doctor listens to your heart, he or she can hear the sounds made by the blood flowing through the heart, and by the valves in your heart opening and closing. These are normal sounds that the doctor expects to hear. A heart murmur is an unexpected sound which a doctor may hear when listening t ...
... When a doctor listens to your heart, he or she can hear the sounds made by the blood flowing through the heart, and by the valves in your heart opening and closing. These are normal sounds that the doctor expects to hear. A heart murmur is an unexpected sound which a doctor may hear when listening t ...
ISCHEMIC HEART DISEASE STUDY GUIDE
... coronary artery is no greater than 75%. Beyond 75%, the muscle becomes significantly ischemic/hypoxic (e.g. patient may experience ischemic chest pain). 4. Collateral circulation refers to branches of other, nonoccluded coronary arteries that may be able to supply blood to an ischemic area. Can help ...
... coronary artery is no greater than 75%. Beyond 75%, the muscle becomes significantly ischemic/hypoxic (e.g. patient may experience ischemic chest pain). 4. Collateral circulation refers to branches of other, nonoccluded coronary arteries that may be able to supply blood to an ischemic area. Can help ...
Arrhythmogenic Right Ventricular/ Cardiomyopathy in Boxers
... ARVC runs in families of boxers, and a genetic basis for the heart changes is proposed, although the exact genes that cause this defect have not yet been identified. ...
... ARVC runs in families of boxers, and a genetic basis for the heart changes is proposed, although the exact genes that cause this defect have not yet been identified. ...
Cardiovascular System notes
... • rises when ventricles contract • falls when ventricles relax • systolic pressure – maximum pressure • diastolic pressure – minimum pressure ...
... • rises when ventricles contract • falls when ventricles relax • systolic pressure – maximum pressure • diastolic pressure – minimum pressure ...
Srdeční revoluce, srdeční akční potenciál, elektrická aktivita srdce
... There is a system of heart tissue in the heart that differs from myocardium of atria and ventricles. It specializes to production and spread of impulses that induce contraction of heart muscle. Structure of cells of conducting system differs from cell of myocardium in lower number of myofibres, high ...
... There is a system of heart tissue in the heart that differs from myocardium of atria and ventricles. It specializes to production and spread of impulses that induce contraction of heart muscle. Structure of cells of conducting system differs from cell of myocardium in lower number of myofibres, high ...
All I need is a cast…
... • With most other causes, the problem is fibrous tissue that either replaces the AV node/surrounding tissue or there is a disconnect between the atrial myocardium and the AV node ...
... • With most other causes, the problem is fibrous tissue that either replaces the AV node/surrounding tissue or there is a disconnect between the atrial myocardium and the AV node ...
File
... - Structure of cardiac muscle cells allows propagation of stimuli through the heart wall - Signals from the sinoatrial node that cause contraction cannot pass directly from atria to ventricles - There is a delay between the arrival and passing on of a stimulus at the atrioventricular node - This del ...
... - Structure of cardiac muscle cells allows propagation of stimuli through the heart wall - Signals from the sinoatrial node that cause contraction cannot pass directly from atria to ventricles - There is a delay between the arrival and passing on of a stimulus at the atrioventricular node - This del ...
Document
... ___________ walls, __________ muscle but ___________ diameter than arteries Valves ___________ back flow of blood Skeletal muscles help blood flow toward ______________ Blood reservoir: 1.veins ______________ to increase blood pressure in times of blood loss 2.Can maintain normal pressure wi ...
... ___________ walls, __________ muscle but ___________ diameter than arteries Valves ___________ back flow of blood Skeletal muscles help blood flow toward ______________ Blood reservoir: 1.veins ______________ to increase blood pressure in times of blood loss 2.Can maintain normal pressure wi ...
better life. - barostim therapy
... “When talking about BAROSTIM THERAPY, I’m often asked, ”What problems or concerns keep you up at night?” To me, there’s only one: “Can we make BAROSTIM THERAPY available to all those who need it, in time to help them?” For the past 15 years, my colleagues and I have worked tirelessly to develop a th ...
... “When talking about BAROSTIM THERAPY, I’m often asked, ”What problems or concerns keep you up at night?” To me, there’s only one: “Can we make BAROSTIM THERAPY available to all those who need it, in time to help them?” For the past 15 years, my colleagues and I have worked tirelessly to develop a th ...
cardiovascular4
... myofiber sarcomeres as end-diastolic volume exceeds 400 ml. 3. What are three ways by which stroke volume can be increased? ...
... myofiber sarcomeres as end-diastolic volume exceeds 400 ml. 3. What are three ways by which stroke volume can be increased? ...
Congenital heart disease
... Obstruction of the cardiac vessels reduces blood flow and forces the heart muscle into anaerobic metabolism, producing waste products that can also damage the tissue cells. ...
... Obstruction of the cardiac vessels reduces blood flow and forces the heart muscle into anaerobic metabolism, producing waste products that can also damage the tissue cells. ...
Are Clinical Heart Failure and Ejection Fraction Always Connected?
... affects diastolic distensibility is the deterioration of the myocardial active relaxation process, dependent on the reduction of calcium ions entered in troponin sites during systole. Prior data suggest that patients who have heart failure with preserved ejection fraction are mostly older, prevalent ...
... affects diastolic distensibility is the deterioration of the myocardial active relaxation process, dependent on the reduction of calcium ions entered in troponin sites during systole. Prior data suggest that patients who have heart failure with preserved ejection fraction are mostly older, prevalent ...
Heart failure
Heart failure (HF), often referred to as congestive heart failure (CHF), occurs when the heart is unable to pump sufficiently to maintain blood flow to meet the body's needs. The terms chronic heart failure (CHF) or congestive cardiac failure (CCF) are often used interchangeably with congestive heart failure. Signs and symptoms commonly include shortness of breath, excessive tiredness, and leg swelling. The shortness of breath is usually worse with exercise, while lying down, and may wake the person at night. A limited ability to exercise is also a common feature.Common causes of heart failure include coronary artery disease including a previous myocardial infarction (heart attack), high blood pressure, atrial fibrillation, valvular heart disease, excess alcohol use, infection, and cardiomyopathy of an unknown cause. These cause heart failure by changing either the structure or the functioning of the heart. There are two main types of heart failure: heart failure due to left ventricular dysfunction and heart failure with normal ejection fraction depending on if the ability of the left ventricle to contract is affected, or the heart's ability to relax. The severity of disease is usually graded by the degree of problems with exercise. Heart failure is not the same as myocardial infarction (in which part of the heart muscle dies) or cardiac arrest (in which blood flow stops altogether). Other diseases that may have symptoms similar to heart failure include obesity, kidney failure, liver problems, anemia and thyroid disease.The condition is diagnosed based on the history of the symptoms and a physical examination with confirmation by echocardiography. Blood tests, electrocardiography, and chest radiography may be useful to determine the underlying cause. Treatment depends on the severity and cause of the disease. In people with chronic stable mild heart failure, treatment commonly consists of lifestyle modifications such as stopping smoking, physical exercise, and dietary changes, as well as medications. In those with heart failure due to left ventricular dysfunction, angiotensin converting enzyme inhibitors or angiotensin receptor blockers along with beta blockers are recommended. For those with severe disease, aldosterone antagonists, or hydralazine plus a nitrate may be used. Diuretics are useful for preventing fluid retention. Sometimes, depending on the cause, an implanted device such as a pacemaker or an implantable cardiac defibrillator may be recommended. In some moderate or severe cases cardiac resynchronization therapy (CRT) may be suggested or cardiac contractility modulation may be of benefit. A ventricular assist device or occasionally a heart transplant may be recommended in those with severe disease despite all other measures.Heart failure is a common, costly, and potentially fatal condition. In developed countries, around 2% of adults have heart failure and in those over the age of 65, this increases to 6–10%. In the year after diagnosis the risk of death is about 35% after which it decreases to below 10% each year. This is similar to the risks with a number of types of cancer. In the United Kingdom the disease is the reason for 5% of emergency hospital admissions. Heart failure has been known since ancient times with the Ebers papyrus commenting on it around 1550 BCE.