1. Dyspnea in the elderly
馬偕急診醫學科
主治醫師 龔律至

3. Differential Diagnosis
Pulmonary embolism
Pericarditis
Asthma
COPD
Pneumonia, pneumonitis, lung fibrosis……
High cardiac output：anemia, thyroid disorder

4. Heart failure (HF)

5. Heart failure
A complex clinical syndrome that can result from any structural or functional cardiovascular disorder causing systemic perfusion inadequate to meet the body’s metabolic demands
There are many ways to assess cardiac function. However, there is no diagnostic test for HF, since it is largely a clinical diagnosis that is based upon a careful history and physical examination.

6. Heart failure
Systolic dysfunction
Diastolic dysfunction 

7. History
Dyspnea, ankle or abdominal swelling： excess fluid accumulation
Fatigue, weakness：reduction in cardiac output
Classic exertional angina usually indicates ischemic heart disease
Acute HF after an antecedent flu-like illness suggests viral myocarditis
Long-standing hypertension or alcohol use suggests hypertensive or alcoholic cardiomyopathy
Primary valvular dysfunction should be considered in a patient with a cardiac murmur.

8. CLINICAL ASSESSMENT 
History
Physical examination
Diagnostic tests

9. INITIAL TESTS Electrocardiogram (ECG) Chest radiograph
Echocardiography
Exercise testing
Complete blood count (CBC)
Baseline evaluation of glucose, electrolytes liver function and BUN/creatine
Brain natriuretic peptide (BNP) and N-terminal pro-brain natriuretic peptide (NT-pro-BNP)

12. Treatment of acute decompensated heart failure (ADHF)

13. Initial stabilization
Airway assessment to assure adequate oxygenation and ventilation, including continuous pulse oximetry
Vital signs assessment with attention to hypotension or hypertension
Continuous cardiac monitoring
Intravenous access
Seated posture
Diuretic therapy
Vasodilator therapy
Urine output monitoring (perhaps with urethral catheter placement)

14. Tailor the therapy to the individual patient
The mainstay of therapy for these abnormalities in the acute setting is vasodilator and diuretic therapy.
Flash pulmonary edema (due to hypertension)：require aggressive vasodilatory therapy.
Normotension and volume overload： best respond to a combination of diuretic therapy and vasodilators.
Hypotension and intravascular overload：may respond either to diuretics alone or in combination with inotropes.

15. Supplemental oxygen and assisted ventilation
Non-rebreather facemask delivering high-flow percent oxygen
If respiratory distress, respiratory acidosis, or hypoxia persist： noninvasive positive pressure ventilation (NPPV) as the preferred initial modality of assisted ventilation
Intubated for conventional mechanical ventilation with positive end-expiratory pressure (PEEP)
Oxygen supplementation can be titrated in order to keep the patient comfortable and arterial oxygen saturation above 90%

16. Diuretics Patients with ADHF are usually volume overloaded.
Even in the less common situation in which cardiogenic pulmonary edema develops without significant volume overload (eg, with hypertensive emergency, acute aortic or mitral valvular insufficiency), fluid removal with intravenous diuretics can relieve symptoms and improve oxygenation
Patients with aortic stenosis with volume overload should be diuresed with caution.

17. Diuretic dosing Furosemide(Lasix)– 40 mg intravenously
Bumetanide(Burinex)– 1 mg intravenously
Patients who are treated with loop diuretics chronically may need a higher dose in the acute setting; the intravenous dose should be equal to or greater than (eg, 2.5 times) their maintenance oral dose and then adjusted depending upon the response
Peak diuresis typically occurs 30 minutes after administration
Addition of an aldosterone antagonist (spironolactone) is recommended in selected patients with systolic HF to improve survival.

18. Sodium and fluid restriction
The 2013 ACC/AHA guidelines suggest some degree (eg, <3g/d) of sodium restriction in patients with symptomatic HF.
The 2013 ACC/AHA guidelines suggest fluid restriction (eg, 1.5 to 2 L/d) in patients with refractory HF, particularly in patients with hyponatremia.

19. Vasodilator therapy
vasodilators such as intravenous： nitroglycerin, nitroprusside
Nitroglycerin — reduces left ventricular filling pressure primarily via venodilation. At higher doses, the drug variably lowers systemic afterload and increases stroke volume and cardiac output.
Longer half-life of isosorbide dinitrate compared to intravenous nitroglycerin (four hours versus three to five minutes)

20. Nitroprusside
Nitroprusside is a potent vasodilator with balanced venous and arteriolar effects producing rapid reduction in pulmonary capillary wedge pressure and increase in cardiac output.
Initial dose 5 to 10 mcg/min, dose titrated up to every five minutes, dose range 5 to 400 mcg/min
Hypertensive emergency, acute aortic regurgitation, acute mitral regurgitation, or acute ventricular septal rupture.
The dose is generally titrated to maintain a systolic blood pressure >90 mmHg or mean arterial pressure > 65 mmHg.

21. ADDITIONAL THERAPY ACE inhibitors and ARBs Inotropic agents
Vasopressor therapy 
Beta blockers 
Aldosterone antagonist therapy 
Venous thromboembolism prophylaxis
Morphine sulfate

22. ADDITIONAL CONSIDERATIONS
Mechanical cardiac assistance 
Ultrafiltration

23. Additional therapy
Among patients with ADHF, the role of angiotensin inhibition depends upon whether the patient is already receiving such therapy.
Continued therapy —  maintenance oral therapy can be cautiously continued during an episode of ADHF in the absence of hemodynamic instability or contraindications.
Initiation of therapy — Do not recommend this approach. (the first 12 to 24 hours)

24. Inotropic agents 
Dobutamine or milrinone may be helpful in selected patients with severe left ventricular systolic dysfunction and low output syndrome.
The 2013 American College of Cardiology Foundation/American Heart Association guideline on HF recommended short-term continuous intravenous inotropic support to maintain systemic perfusion and preserve end-organ performance until definitive therapy (eg, coronary revascularization, mechanical circulatory support, or heart transplantation) is instituted or resolution of the acute precipitating problem has occurred.

25. Specific agents 
Milrinone： a phosphodiesterase inhibitor that increases myocardial inotropy by inhibiting degradation of cyclic adenosine monophosphate. Other direct effects：reducing systemic and pulmonary vascular resistance (via inhibition of peripheral phosphodiesterase) and improving left ventricular diastolic compliance

26. Specific agents
Dobutamine：primarily on beta-1 adrenergic receptors, with minimal effects on beta-2 and alpha-1 receptors. The hemodynamic effects of dobutamine include increase in stroke volume and cardiac output, and modest decreases in systemic vascular resistance and pulmonary capillary wedge pressure
It should be started at 2.5 mcg/kg/min and, if tolerated and needed, can be gradually increased to 20 mcg/kg/min

27. Specific agents：Dopamine
Low doses of 1 to 3 µg/kg/min：acts primarily on dopamine-1 receptors to dilate the renal and mesenteric artery beds
3 to 10 µg/kg/min：also stimulates beta-1 adrenergic receptors and increases cardiac output, predominantly by increasing stroke volume with variable effects on heart rate.
Medium-to-high doses：dopamine also stimulates alpha-adrenergic receptors (although a small study suggested that renal arterial vasodilation and improvement in cardiac output may persist as the dopamine dose is titrated up to 10 µg/kg/min)

28. Vasopressor
Used as a temporizing measure to preserve systemic blood pressure and end-organ perfusion.
Vasopressor use should be limited to patients with persistent hypotension with symptoms or evidence of consequent end-organ hypoperfusion despite optimization of filling pressures and consideration of the use of inotropic agents.
In this setting, invasive monitoring can be helpful to assess filling pressures and systemic vascular resistance.

29. Beta blockers 
Must be used cautiously in patients with decompensated HF with systolic dysfunction because of the potential to worsen acute HF due to systolic dysfunction
For patients on chronic beta blocker therapy, if the degree of decompensation is mild without hypotension or evidence of hypoperfusion, continuation of beta blocker as tolerated is recommended.
For more severely ill patients, halving of the dose of beta blockers or discontinuation may be necessary.
Do not initiate a beta blocker in the early management of acute HF

30. Aldosterone antagonist therapy
Patients who have New York Heart Association (NYHA) functional class II HF and an LVEF ≤30 percent; or NYHA functional class III to IV HF and an LVEF ≤35 percent; and patients post-ST elevation myocardial infarction who are already receiving therapeutic doses of ACE inhibitor, have an LVEF ≤40 percent, and have either symptomatic HF or diabetes mellitus. The serum potassium should be <5.0 meq/L and estimated glomerular filtration rate should be ≥30 mL/min per 1.73 m2

31. Venous thromboembolism prophylaxis
Prophylaxis against venous thromboembolism (deep vein thrombosis and pulmonary embolism) with low-dose unfractionated heparin or low molecular weight heparin.
ADHF who have a contraindication to anticoagulation, venous thromboembolism prophylaxis with a mechanical device (eg, intermittent pneumatic compression device) is suggested.

33. Thanks for your attention~~