Term
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Definition
| Inability of pumping function of the heart (CO) to meet the metabolic demands of tissues and venous return. |
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Term
| Heart failure is a condition that results in ______________. |
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Definition
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Term
| What are some features of passive congestion? |
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Definition
1. Dilation of chamber
2. Excess blood in chamber
3. Decrease flow out of chamber |
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Term
| Hypertension is a very common risk for HF. _________% of HF cases have antecedent hypertension. |
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Definition
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Term
| A study of the predictors of HF among women with CHD found that ___________ was the strongest risk factor. |
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Definition
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Term
| _____________ reflects the loading condition of the heart at the end of diastole. |
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Definition
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Term
| Preload is mainly determined by the __________________. |
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Definition
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Term
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Definition
| The force that the contracting heart must generate to eject blood. |
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Term
| The afterload is roughly equal to the ___________. |
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Definition
| Systemic vascular resistance |
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Term
| What is the cardiac reserve? |
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Definition
The ability to increase CO during increased activity. Can increase CO by about 5-6x.
If cardiac failure lose this reserve. |
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Term
| T/F: Cardiac contractility is the ability of contractile elements to interact and shorten to eject blood from heart. |
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Definition
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Term
| ________________ increases the force of contraction whereas ____________ increases the rate of contraction. |
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Definition
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Term
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Definition
1. Factors that effect the contracting ability of the heart = low output failure
2. Factors that effect the workload placed on the heart = Secondary |
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Term
| What is the most common cause of HF? |
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Definition
| Acute myocardial infarction |
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Term
| What are some examples of primary myocardial diseases that effect the contracting ability of the heart and cause HF? |
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Definition
1. Acute MI
2. CAD
3. Toxic Myocarditis
4. Cardiomyopathies |
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Term
| What are 2 examples of diseases of the Endocardium that restrict ventricular filling thus effect the contracting ability of the heart to lead to HF? |
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Definition
1. Valvular stenosis
2. Valvular regurgitation |
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Term
| What are examples of diseases of the Pericardium that restrict ventricular filling and thus effects the contracting ability of the heart to lead to HF? |
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Definition
1. Cardiac Tamponade
2. Constrictive Pericarditis
3. Pericardial Effusion |
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Term
| What are some examples of secondary causes of HF? |
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Definition
1. Pressure overload
2. Volume overload
3. Excessive work demands (hypermetabolic states) |
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Term
| Examples of causes that increase the peripheral resistance thus lead to pressure overload and cause secondary HF is? |
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Definition
1. Hypertension
2. Structural defects such as Coarctation of aorta, valve stenosis |
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Term
| Conditions that increase volume of blood that heart receives (increase preload) and thus cause secondary HF are? |
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Definition
Renal failure (volume overload)
Structural defects such as Arteriovenous shunt, valve regurgitation |
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Term
| What are some hypermetabolic states that cause secondary HF? |
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Definition
Hyperthyroidism
Septicemia
Severe anemia |
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Term
| Systolic Dysfunction is aka |
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Definition
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Term
| What is Systolic Dysfunction? |
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Definition
| Impaired ejection of blood from the heart during systole. (60-70% of cases) |
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Term
| What is the normal heart ejection fraction? |
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Definition
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Term
| With Systolic dysfunction there is a decrease in ejection fraction. What does this cause? |
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Definition
1. Increase in Diastolic volume
2. Increase in ventricular dilation
3. Increase in ventricular wall tension
4. Rise in ventricular end-diastolic pressure |
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Term
| Diastolic Dysfunction is aka |
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Definition
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Term
| What is Diastolic Dysfunction? |
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Definition
| Impaired filling of blood in the heart during diastole (40% of cases of CHF) |
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Term
| Diastolic Dysfunction is characterized by ___________ and ___________. |
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Definition
Congestive symptoms
Smaller Ventricular chamber (ventricular hypertrophy, decreased compliance) |
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Term
| What are some conditions that cause Diastolic Dysfunction? |
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Definition
1. Age
2. Mitral Stenosis
3. Ischemic heart disease
4. Increase in ventricular wall tension
5. Rise in Ventricular end diastolic pressure |
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Term
| With Diastolic Dysfunction symptoms develop during __________ because the higher the heart rate the lower the filling time. |
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Definition
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Term
| What is Congestive Heart Failure (CHF)? |
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Definition
| Heart Failure that is accompanied by congestion of body tissue. (could be systemic or pulmonary congestion) |
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Term
| What are manifestations of HF? |
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Definition
1. Decreased pumping ability of heart
2. Activation of sympathetic compensatory mechanisms
3. Decrease in renal blood flow |
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Term
| List the Adaptive (compensation) Mechanisms to increase blood flow to the tissues? |
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Definition
1. Frank Starling Mechanism
2. Sympathetic Activation
3. RAAS
4. Cardiac remodeling/hypertrophy |
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Term
| With the reduced CO in HF, both cardiac ____________ and ____________ levels are elevated via stimulation of _____________. |
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Definition
Sympathetic tone
Catecholamines
Baroreceptors |
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Term
| Why is the SNS considered a compensatory mechanism? |
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Definition
| It helps to maintain perfusion by increasing both the rate and force of contraction of the heart. Involves selective vasoconstriction and also stimulates the RAAS. |
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Term
| The SNS ____________the venous return. |
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Definition
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Term
| With decreased CO there is decreased RBF so _____________ is released. Ang II then stimulates ____________ and ___________synthesis which both increase the volume. |
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Definition
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Term
| ____________ can induce VSM proliferation and induce myocyte hypertrophy. |
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Definition
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Term
| In cardiac remodeling an increase in volume causes what? |
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Definition
| Dilation of the heart chambers. |
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Term
| In Cardiac remodeling, the increase pressure overload leads to ______? |
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Definition
| Hypertrophy of the cardiac muscle |
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Term
| ____________, ___________, ____________ all produce trophic factros which causes hypertropy and contribute to cardiac remodeling. |
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Definition
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Term
| Some myocyte hypertrophy is good because _______________. |
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Definition
| They can increase cardiac contractility and function |
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Term
| T/F: Fibroblast (non-monocytes) increase production of collagen--which leads to fibrosis and increases wall stiffness. Not good! |
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Definition
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Term
| List the different types of Hypertrophy that can occur with HF. |
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Definition
1. Symmetric Hypertrophy
2. Eccentric Hypertrophy
3. Concentric Hypertrophy |
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Term
| Why is symmetric hypertrophy considered to be good? |
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Definition
Because there is a proportionate increase in both width and length.
Seen in athletes |
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Term
| Concentric hypertrophy is induced by _____________ and is characterized by an increase in ___________. |
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Definition
Pressure overload
Wall thickness |
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Term
| Eccentric hypertrophy is induced by _______________ and is a disproportionate increase in ____________ over __________. |
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Definition
Volume Overload
Length over Width |
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Term
| Concentric hypertrophy is seen in ______________ whereas Eccentric hypertrophy occurs in _____________. |
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Definition
Hypertension
Dilated Cardiomyopathy |
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Term
| Eccentric hypertrophy can lead to a decrease in ventricular wall thickness but increases _______________ and ____________. |
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Definition
Diastolic volume
Wall tension |
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Term
| What are some problems with long term compensations? |
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Definition
1. Increase in volume leads to increase in preload and venous pressure (edema)
2. Increase resistance leads to increase afterload
3. Reduced ionotropic effects
4. Reduced effect of ANP in kidney (high Ang II) |
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Term
| What are the signs and symptoms of HF? |
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Definition
1. Edema
2. SOB
3. Exercise tolerance
4. Cyanosis
5. Weight loss/ malnutrition
6. Distention of jugular veins in R. HF
7. Diaphoresis and tachycardia |
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Term
| What are some causes of L.HF? |
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Definition
1. Aortic Stenosis
2. Mitral valve regurgitation
3. L. Ventricular Infarction
4. Cardiomyopathy
5. Hypertension |
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Term
| What is the most common cause for L. HF? |
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Definition
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Term
| Describe the mechanism of L. HF? |
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Definition
1. Dilation of LV
2. CO falls, but bloods remains in chamber
3. Increase LV vol, so increase workload on heart
4. Increase workload on L.atria = hypertrophy
5. Fluid to lungs cus Capillary pressure >oncotic
6. Compromised O2 exchange
7. Compensatory mech aggravate congestion |
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Term
| What are some manifestations of L.HF due to congestion? |
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Definition
1. Dyspnea
2. Fatigue
3. Orthpnea
4. Paroxysmal nocturnal Dyspnea
5. Pulmonary edema |
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Term
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Definition
Labored breathing.
Hypoxia increases chemoreceptor firing which increases the workload, more stress, etc (+) feedback mech. |
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Term
| Why do you get fatigue, disorientation, weakness with L. HF? |
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Definition
| Due to the decrease in oxygen to the tissues |
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Term
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Definition
| The inability to breath in the lying down position |
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Term
| What are some manifestations of L. HF due to decreased output? |
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Definition
Activation of SNS compensatory mechanisms (selective vasoconstriction and baroreceptor stimulations):
1. Increase in HR
2. Oliguria
3. Cyanosis
4. Fatigue
5. Forgetfulness |
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Term
| What are some causes for R. HF? |
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Definition
1. Conditions that restrict blood flow to the lungs
2. Stenosis or regurgitation of the tricuspid or pulmonic valves
3. R. Ventricular infarction
4. Persistent L.HF
5. Acute or chronic pulmonary disease |
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Term
| What are some signs and symptoms of R.HF? |
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Definition
1. Systemic edema
2. Liver and spleen enlargement
3. Ascites (fluid from GI tract) (can lead to weight loss)
4. Peripheral vein distention in hand and neck |
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Term
| Describe the functional classification of patients with heart disease. |
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Definition
Class I = No limitation of physical activity
Class II = Slight limitation
Class III = Mark limitation
Class IV = Inability to carry out any physical activity w/out discomfort |
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