1. 13
Assessment and Treatment of the Patient with Cardiac Emergencies

2. Assessment and Treatment of the Patient With Cardiac Emergencies
Objectives
Explain the indicators used to differentiate chest pain of cardiac origin from chest pain of noncardiac origin, on the basis of clinical evaluation of the patient

3. Assessment and Treatment of the Patient With Cardiac Emergencies
Objectives
Discuss the pathophysiology of angina pectoris
Describe the assessment and management of the patient with angina pectoris

4. Assessment and Treatment of the Patient With Cardiac Emergencies
Objectives
Explain the pathophysiology of myocardial infarction
Discuss the assessment and management of the patient with acute myocardial infarction
Identify the physiology associated with congestive heart failure

5. Assessment and Treatment of the Patient With Cardiac Emergencies
Objectives
Discuss the signs and symptoms of left ventricular failure and those of right ventricular failure
List the interventions prescribed for the patient in congestive heart failure
Define and describe the pathophysiology, assessment, and management of cardiac tamponade

6. Assessment and Treatment of the Patient With Cardiac Emergencies
Objectives
Define and describe the pathophysiology, assessment, and management of cardiogenic shock

7. Chest Pain
Chest pain is the most common presenting symptom of cardiac disease
Patients may express a feeling of "impending doom"
Often patients prefer to believe that they are merely experiencing "indigestion" and symptoms would be gone by morning

8. Chest Pain
Chest pain of cardiac origin is typically described as "crushing" or "squeezing" in nature
Associated with nausea, vomiting, and diaphoresis
May radiate to other areas (jaw, shoulder, arm, etc.)

9. Chest Pain

10. Chest Pain
Neuropathy due to destruction of nerve endings can cause inability to perceive pain due to diseases of the nerves
Diabetics
May present as congestive heart failure as the first symptom of AMI

11. Noncardiac Causes of Chest Pain
Pleurisy
Costrochondritis
Pericarditis
Myocardial contusion
Muscle strain
Trauma
Secondary to trauma
Pneumothorax
Hemopneumothorax
Tension pneumothorax

12. Angina Pectoris
Pain that results from reduction in blood supply to myocardial tissue
Pain is typically temporary
Commonly caused by atherosclerosis
Often predictably associated with exercise
Requires more oxygen than the narrowed blood vessels can supply

13. Angina Pectoris

14. Angina Pectoris "Stable," or predictable, angina
A particular activity may elicit chest pain
Symptoms will usually respond well to appropriate treatment
Rest
Administration of oxygen

15. Angina Pectoris "Unstable" angina Is not elicited by activity
Most often occurs at rest
Indicates a progression of atherosclerotic heart disease, and is also referred to as preinfarctional angina

16. Angina Pectoris Prinzmetal's angina
Occurs when coronary arteries experience spasms and constrict
Decreases myocardial oxygenation
It may be significant to note that while the majority of patients have underlying atherosclerotic disease, some may have little or none

17. Angina Pectoris Management Place patient at rest in calm, quiet area
Provide reassurance
Obtain 12-lead EKG if possible
Administer oxygen
IV life line
Administer nitroglycerin

18. Nitroglycerin
Causes dilation of blood vessels that reduces the workload of the heart
Reducing the need for oxygen because the heart has to pump blood against a lesser pressure
Blood remains in dilated vessels and less is returned to the heart

19. Acute Myocardial Infarction
Results from a prolonged lack of blood flow to a portion of myocardial tissue and results in a lack of oxygen
Myocardial cellular death will follow
Electrical properties of cardiac muscle altered or lost
Ability of cardiac muscle to function properly is lost

20. Acute Myocardial Infarction
Most common cause is thrombus formation
Blocks coronary artery
Arteries narrowed by atherosclerotic disease are one of the conditions that increase likelihood of myocardial infarction (MI)

21. Acute Myocardial Infarction

22. Patient Assessment and Management

23. Patient Assessment and Management
100% oxygen
Establish an IV life line
Measure oxygen saturation level
Continuous cardiac monitoring, 12 lead EKG to detect ST elevation or ST Depression

24. Patient Assessment and Management
Pain control and management
Aspirin, Nitroglycerin, Morphine Sulfate, Demerol
Efficient and timely transportation to facility with capability to perform percutaneous coronary intervention (PCI) and/or Fibrinolytic therapy to limit the progression of the infarct.

25. Heart Failure
Is the inability of the myocardium to meet the cardiac output demands of the body caused by
Coronary disease
Valvular disease

26. Heart Failure
Is the inability of the myocardium to meet the cardiac output demands of the body caused by
Myocardial injury
Dysrhythmias
Hypertension
Pulmonary emboli
Systemic sepsis
Electrolyte disturbances

27. Left Ventricular Failure
When a patient's left ventricle ceases to function in an adequate capacity as to sustain sufficient systemic cardiac output
Stroke volume decreased
Increased heart rate, vasoconstriction to compensate

28. Left Ventricular Failure
When a patient's left ventricle ceases to function in an adequate capacity as to sustain sufficient systemic cardiac output
Increased pressure in right and left atrium
Blood pushed back into pulmonary system

29. Left Ventricular Failure
When a patient's left ventricle ceases to function in an adequate capacity as to sustain sufficient systemic cardiac output
Develop pulmonary edema and hypoxia
Pink, frothy sputum and significant dyspnea

30. Left Ventricular Failure

31. Left Ventricular Failure
Emergency management
Have patient assume position of comfort
100% high-flow oxygen
Utilize pulse oximetry at 90% saturation
Consider the use of CPAP in the presence of Pulmonary Edema

32. Left Ventricular Failure
Emergency management
Monitor LOC for signs of deterioration
Establish IV at KVO rate
Maintain EKG monitoring
Follow protocol for administration of medications

33. Left Ventricular Failure
Emergency management
Medications
Morphine sulfate
Furosemide (lasix)
Nitroglycerin
Beta Blockers
Digitalis

34. Right Heart Failure
When the right ventricle ceases to function properly
Causes increase in pressure in right atrium, forcing blood backward into systemic venous system
Most common cause is left heart failure

35. Right Heart Failure Common causes Valvular heart disease
COPD or cor pulmonale
Pulmonary embolism
Chronic hypertension
Left heart failure

36. Right Heart Failure

37. Right Heart Failure Emergency management
Have patient assume position of comfort
Oxygenation at level to maintain saturation of at least 95%
Establish IV at KVO rate
Maintain EKG monitoring

38. Right Heart Failure Emergency management
Consult physician on administration of medications
Observe for signs of developing left heart failure

39. Cardiac Tamponade Excess accumulation of fluid in the pericardial sac
Causes vary between trauma and medical
Signs and Symptoms:
Muffled heart sounds
Distention of jugular veins
Narrowing pulse pressures

40. Cardiac Tamponade Causes vary between trauma and medical
Signs and Symptoms:
Hypotension
Dyspnea
Weak, rapid pulse

41. Cardiac Tamponade Beck's triad Pulsus paradoxus Muffled heart sounds
JVD
Narrowed pulse pressure
Pulsus paradoxus
Systolic blood pressure that drops more than 10–15 mmHg during inspiration

42. Cardiac Tamponade Emergency management
Ensure and maintain patent airway
Administer 100% high-flow oxygen
Monitor pulse oximetry
Establish and maintain IV support
Administer pharmacological agents as indicated

43. Cardiac Tamponade Emergency management Pericardiocentesis
Invasive aspiration of fluid from the pericardium with a needle

44. Cardiogenic Shock
When left ventricular function is so severely compromised that the heart can no longer meet metabolic requirements of the body
Often results from extensive myocardial infarction

45. Cardiogenic Shock Most critical form of CHF
Ineffective myocardial contractions result in
Marked decreased stroke volume
Decreased cardiac output
Leading to inadequate tissue perfusion
Profound hypotension
Compensatory tachycardia

46. Cardiogenic Shock Ineffective myocardial contractions result in
Tachypnea, often resulting from pulmonary edema
Cool, clammy skin caused by massive vasoconstriction
Major dysrhythmias

47. Cardiogenic Shock Ineffective myocardial contractions result in
Respiratory difficulty
Peripheral edema
Pulmonary edema

48. Cardiogenic Shock Aggressive treatment measures
Airway management with high flow-oxygen
Circulatory support, including IV therapy
Patient to assume position of comfort

49. Cardiogenic Shock Aggressive treatment measures Cardiac monitoring
Pulse oximetry, maintain O2 saturation at least 95%
Consider the use of CPAP in the presence of pulmonary edema

50. Cardiogenic Shock Medication therapy Various vasopressors Dopamine
Dobutamine
Levophed

51. Cardiogenic Shock Medication therapy Other medications
Morphine Sulfate
Nitroglycerin
Lasix
Digitalis