Heart failure

Descripción

Cardiac Physiology Mapa Mental sobre Heart failure, creado por jasminejohnson09 el 21/04/2013.
jasminejohnson09
Mapa Mental por jasminejohnson09, actualizado hace más de 1 año
jasminejohnson09
Creado por jasminejohnson09 hace más de 11 años
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Resumen del Recurso

Heart failure
  1. Causes
    1. Volume overload/ High preload

      Nota:

      • Ventricle expels more blood per minute than normal E.g. Thyrotoxicosis (hyperthyroidism) Anaemia Mitral/aortic valve regurgitation
      1. Pressure overload/High afterload

        Nota:

        • Disorders that increase the resistance to blood flow out of the heart.LV - Systemic hypertension, aortic valve stenosis, co-arction of the aorta. RV - Pulmonary hypertension, pulmonary valve stenosis
        1. Myocardial dysfunction

          Nota:

          • COMMONEST CAUSE! - From diminished contractility or - Loss of contractile tissue e.g. MI
        2. Compensatory mechanisms
          1. Dilation of heart

            Nota:

            • Dilation allows an increase in EDV. However as the ventricle increases in size, greater tension is required in the myocardium to expel a given volume of blood.
            1. Hypertrophy

              Nota:

              • Fibres become thicker and this initially benefits CO. However they become too thick and stiff making the heart non-compliant and difficult to fill. There is not a proportional increase in capillaries and therefore there is an increased diffusion distance, leading to hypoxia and possibly necrosis of the myocardium.
              1. Neuroendocrine response

                Nota:

                • Activation of the SNS leads to increased contractility, HR and VC of arterioles and veins. This is beneficial to maintain BP, however it increases preload, afterload and oxygen requirements of the myocardium. RAAS - Decreased perfusion of the kidneys stimulates increased renin secretion. This causes a rise in angiotensin II causing VC and angiotension stimulates the release of aldosterone which causes sodium and water retention. This increases preload helping to maintain SV, but leads to circulatory congestion.
              2. LVF
                1. Effect on lungs

                  Nota:

                  • When the LV fails, diastolic pressure in the ventricle rises and so does LA pressure. This causes the pressure in the pulmonary veins to also increase. In mild LVF pressure may be fine at rest but increase to abnormal levels with exercise. When the hydrostatic pressure > osmotic pressure the fluid moves out and will result in exudation of fluid in the alveoli. The alveoli walls may also become fibrotic. Pulmonary congestion and caused by high pulmonary venous pressure and the alveoli wall changes results in the lungs becoming stiff and less compliant. Therefore resp muscles have to work harder.
                  1. Common causes

                    Nota:

                    • MI systemic hypertension aortic valve stenosis mitral regurgitation cardiomyopathy
                    1. Cardiomyopathy

                      Nota:

                      • Dilative = adverse length tension leading to difficulty emptying Hypertrophic = thickened stiff walls leading to difficulty filling Restrictive = stiff walls causing difficulty filling.
                    2. Symptoms

                      Nota:

                      • Dyspnoea on exertion Orthopnoea Paroxysmal nocturnal dyspnoea Acute pulmonary oedema
                      1. Physical signs

                        Nota:

                        • Pulmonary Crepitiations Third heart sound Pleural effusion
                      2. Arrythmias
                        1. Ventricular fibrillation
                          1. Ventricular tacchycardia
                          2. RVF

                            Nota:

                            • When the right ventricle can no longer cope with the demand or when there is tricuspid valve stenosis.
                            1. Common causes

                              Nota:

                              • RV infarct (tissue death) Pulmonary disease, particularly COPD Pulmonary hypertension Pulmonary valve disease
                              1. Characteristic features

                                Nota:

                                • Elevated jugular venous pressureHepatomegaly - may result in cirrhosisOedemaAscites (fluid in the abdomen) - only if severe Tricuspid regurgitation
                              2. Clinical features
                                1. Fatigue
                                  1. Cerebral symptoms
                                    1. Dulling of consciousness
                                      1. Confusion
                                        1. Changes in personality
                                        2. Mild jaundice due to hepatic congestion
                                          1. Proteinuria due to renal congestion
                                          2. Management
                                            1. General

                                              Nota:

                                              • Treat the underlying disease Lower salt and fluid intake to decrease blood volume Healthy lifestyle - low fat diet etc Cardiac rehab programme
                                              1. Pharmacology
                                                1. To reduce pre-load

                                                  Nota:

                                                  • Diuretics - decreasing blood volume Nitrates - Venodilation - decreasing VR
                                                  1. To reduce after-load

                                                    Nota:

                                                    • ACE inhibitors (angiotensin II converting enzyme inhibitor) - inhibts action of angiotensin II therefore greater fluid loss and decreased TPR to reduce BP. Arterial vasodilators - decrease TPR
                                                    1. To increase contractility

                                                      Nota:

                                                      • Inotropes - e.g. digoxin, dopamine. Increase calcium influx creating more opportunities for XB formation and increased force. Beta blockers -block the action of the SNS, decreasing HR, SV and contractility.
                                                    2. Surgical

                                                      Nota:

                                                      • Implanted devices: - pacemakers - cardiac resynchronisation therapy- implantable cardioverter defibrillatorTransplantationTransplantation alternatives: - autograft myoplasty- ventricular reduction - Artificial heart- LV assist device                             
                                                      1. Physical

                                                        Nota:

                                                        • Improve breathlessness Aerobic conditioning Cardiac rehab
                                                      Mostrar resumen completo Ocultar resumen completo

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