1 / 57

Chapter 23 Management of Patients With Chest and Lower Respiratory Tract Disorders

Chapter 23 Management of Patients With Chest and Lower Respiratory Tract Disorders. Pathophysiology: Pulmonary Edema. Defined as abnormal accumulation of fluid in the lung tissue, the alveolar space, or both. Pathophysiology: Pulmonary Edema. Causes:

justinvjones
Download Presentation

Chapter 23 Management of Patients With Chest and Lower Respiratory Tract Disorders

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 23Management of Patients With Chest and Lower Respiratory Tract Disorders

  2. Pathophysiology: Pulmonary Edema • Defined as abnormal accumulation of fluid in the lung tissue, the alveolar space, or both.

  3. Pathophysiology: Pulmonary Edema Causes: • Inadequate left ventricular function backup of blood into the pulmonary vasculature  increased microvascular pressure, and fluid leaks into the interstitial space and the alveoli. • hypervolemia • increase in the intravascular pressure - When a lung is removed--all CO goes to the remaining lung

  4. Pathophysiology: Pulmonary Edema Causes: • after removal of air from a pneumothorax  reexpansion pulmonary edema--a rapid reinflation of the lung or evacuation of fluid from a large pleural effusion.

  5. Clinical Manifestations: Pulmonary Edema • respiratory distress • Dyspnea • Air hunger • Central cyanosis • Anxious and agitated. • As fluid leaks into the alveoli and mixes with air  foam is formed + blood-tinged secretions. • Confused • tachycardia

  6. Assessment and Diagnostic Findings: Pulmonary Edema • Crackles in the lung bases that progress toward the apices of the lungs (caused by the movement of air through the alveolar fluid) • Chest x-ray • Pulse oximetry + ABGs analysis  hypoxemia.

  7. Medical Management: Pulmonary Edema • Correcting the underlying disorder. • If cardiac in origin improve left ventricular function. Vasodilators, inotropic medications, afterload or preload agents, or contractility • If the problem is fluid overload  diuretics and restrict fluids • Oxygen therapy for hypoxemia, ? MV • Morphine for anxiety and control pain.

  8. Nursing: Pulmonary Edema • Assisting with administration of oxygen and intubation and MV if respiratory failure occurs. • Administer medications • morphine, vasodilators… as prescsribed • Monitor the patient’s responses.

  9. Pulmonary Embolism PE: obstruction of the pulmonary artery or one of its branches by a thrombus that originates somewhere in the venous system or in the right side of the heart. Deep venous thrombosis • Venous thromboembolism includes both DVT and PE. • thrombus formation In the deep veins, usually in the calf or thigh, but sometimes in the arm

  10. Pulmonary Embolism • PE is often is associated with: • Trauma • Surgery • Pregnancy • Heart failure • Age: older than 50 years • Hypercoagulation • Prolonged immobility. • Risk factors for PE are identified in Chart 23-8.

  11. Pathophysiology: Pulmonary Embolism • PE is due to • a blood clot or thrombus. • air, fat, amniotic fluid, and septic • Complete or partial obstruction of a pulmonary artery or its branches  increase alveolar dead space  gas exchange is impaired or absent

  12. Pathophysiology: Pulmonary Embolism • Substances are released from the clot and surrounding area constrict blood vessels and reduced size of the pulmonary vascular bed increase in pulmonary resistance and increase pulmonary arterial pressure  increase right ventricular work  right ventricular failure  decrease in cardiac output + decrease systemic BP  shock.

  13. Pathophysiology: Pulmonary Embolism • Atrial fibrillation causes PE  enlarged right atrium  blood to stagnate  form clots  travel into the pulmonary circulation.

  14. Clinical Manifestations: Pulmonary Embolism • Symptoms depend on the size of the thrombus and the occluded pulmonary artery • Dyspnea & tachypnea: the most frequent symptoms • Chest pain: sudden and pleuritic in origin. It may be substernal confused with angina or MI. • Anxiety, fever, tachycardia, cough, diaphoresis, hemoptysis, rapid and weak pulse, and syncope. • sudden death within 1 hour after the onset of symptoms

  15. Diagnostics : Pulmonary Embolism • Early diagnosis is a priority. • Chest x-ray---usually normal • ECG---sinus tachycardia, PR & T-wave changes • ABGs: hypoxemia and hypocapnia or normal • Pulmonary angiography: the best method to diagnose PE -- direct visualization of the obstruction • a catheter is inserted through the vena cava to the right side of the heart to inject dye.

  16. Diagnostics : Pulmonary Embolism • Ventilation/Perfusion scan: IV administration of a contrast agent to evaluate lung lobes. • Spiral CT: x-ray tube rotates continuously around the patient, following a spiral path, thus allowing the gathering of continuous data with no gaps between images.

  17. Prevention: Pulmonary Embolism • prevent DVT • Active leg exercises • early ambulation • use of anti-embolism stockings • Mechanical prophylaxis; or dynamic. • Static; Graduated compression stockings • Dynamic: Sequential compression devices (SCDs), plastic sleeves that can be inflated with air---more effective ----Chart 23-9.

  18. Prevention: Pulmonary Embolism

  19. Medical Management: Pulmonary Embolism • Emergency management first • Then the treatment goal is to dissolve (lyse) the existing emboli and prevent new ones from forming. • Treatment may include: • measures to improve respiratory and vascular status • anticoagulation therapy • thrombolytic therapy • surgical intervention.

  20. Emergency Management: Pulmonary Embolism The immediate objective: stabilize the cardiopulmonary system. • Nasal O2 to relieve hypoxemia, respiratory distress, and central cyanosis. • IV lines for medications or fluids. • Diagnostics are performed • Hypotension is treated by a slow infusion of dobutamine or dopamine • ECG is monitored continuously

  21. Emergency Management: Pulmonary Embolism • Digitalis, IV diuretics, and antiarrhythmic agents • Blood is drawn for serum electrolytes & CBC. • The patient is intubated and placed on MV. • indwelling urinary catheter is inserted • Small doses of IV morphine or sedatives to relieve anxiety, chest discomfort, improve tolerance of ETT and adaptation to the MV.

  22. General Management: Pulmonary Embolism Objective: to improve respiratory and vascular status. • Oxygen therapy for hypoxemia, relieve pulmonary vasoconstriction, and reduce pulmonary hypertension. • antiembolism stockings or intermittent pneumatic leg compression devices reduces venous stasis.

  23. Pharmacologic Therapy: Pulmonary Embolism • Anticoagulation Therapy • heparin, warfarin (Coumadin) to prevent recurrence of emboli--no effect on emboli that are already present. • Heparin must be continued until the international normalized ratio (INR) = 2.0 to 2.5. • Thrombolytic Therapy • (urokinase, streptokinase) to resolve the thrombi or emboli quickly and restores more • bleeding is a side effect. • Contraindicated CVA within the past 2 months, bleeding

  24. Surgical Management: Pulmonary Embolism • Embolectomy may be indicated if the patient has a massive PE or hemodynamic instability or if there are contraindications to thrombolytic therapy. • Involves removal of the clot • Transvenous catheter embolectomy is a technique in which a catheter is introduced into the affected pulmonary artery. Suction is applied to the end of the embolus, and the embolus is aspirated into the cup.

  25. Surgical Management: Pulmonary Embolism • Interrupting the inferior vena cava: insertion of a filter through the internal jugular vein or common femoral vein and advanced into the inferior venacava, where it is opened. • The perforated umbrella permits the passage of blood but prevents the passage of large thrombi.

  26. Nursing Management: Pulmonary Embolism • Minimizing the Risk of Pulmonary Embolism • identify patient at high risk • Preventing Thrombus Formation • Encourage ambulation and leg exercises to prevent venous stasis in patients at bed rest. (pumping exercise) • Avoid crossing the legs • Do not to wear constrictive clothing • Legs should not be dangled; rest feet on the floor or on a chair. • IV catheters

  27. Nursing Management: Pulmonary Embolism • Assessing Potential for Pulmonary Embolism • All patients are evaluated for risk factors for PE • Careful assessment of health history, family history, and medication record. • Ask the patient about pain in the extremities and evaluated for warmth, redness, and inflammation.

  28. Nursing Management: Pulmonary Embolism • Monitoring Thrombolytic Therapy • vital signs are assessed every 2 hours • Avoid invasive procedures • Tests to determine INR or PTT are performed 3 - 4 hours after the thrombolytic infusion is started to confirm that the fibrinolytic systems have been activated.

  29. Nursing Management: Pulmonary Embolism • Managing Pain • Semi-Fowler’s position to facilitate breathing. • Turn patient frequently and repositioning • Administer opioid analgesic as prescribed

  30. Nursing Management: Pulmonary Embolism • Managing Oxygen Therapy • continuous oxygen therapy. • Assess the patient frequently for signs of hypoxemia and monitors the pulse oximetry • Deep breathing and incentive spirometry to prevent atelectasis and improve ventilation. • Nebulizer therapy • postural drainage

  31. Nursing Management: Pulmonary Embolism • Relieving Anxiety • Encourage the stabilized patient to talk his fears • Answer the patient’s and family’s questions • explain the therapy, and side effects. • Monitoring for Complications • cardiogenic shock • right ventricular failure

  32. Nursing Management: Pulmonary Embolism • Providing Postoperative Nursing Care • Measure pulmonary arterial pressure & urinary output. • Assess the insertion site of the catheter for hematoma and infection. • Maintain the BP at a normal level • Elevate the foot of the bed and encourages exercises • Use anti-embolism stockings, and walking and dicourage sitting

  33. Nursing Management: Pulmonary Embolism • Teaching Patients Self-Care • Instruct the patient about preventing recurrence and reporting signs and symptoms. • Continuing Care • adherence to the prescribed management plan • Monitor the patient for residual effects of the PE and recovery. • the importance of keeping follow-up appointments for coagulation tests and appointments

  34. Prevention: Pulmonary Embolism

  35. Respiratory Infections • Acute tracheobronchitis • Pneumonia • Community-acquired pneumonia • Hospital-acquired pneumonia • Pneumonia in immunocompromised host • Aspiration pneumonia

  36. Pneumonia • Pneumonia is an inflammation of the lung parenchyma caused by different microorganisms, including bacteria, mycobacteria, fungi, and viruses. • Pneumonitis is a more general term, describes an inflammatory process in the lung tissue that may predispose or place the patient at risk for microbial invasion.

  37. Classification • Community-acquired pneumonia: occurs either in the community setting or within the first 48 hours after hospitalization or institutionalization. (pneumococcus) • Hospital-acquired pneumonia: the onset of pneumonia symptoms more than 48 hours after admission in patients with no evidence of infection at the time of admission. (Ventilator-associated pneumonia: develops in patients with acute respiratory failure who have been receiving mechanical ventilation for at least 48 hours.) • MRSA (isolated in a private room, and contact precautions)

  38. Pneumonia in immunocompromised host: occurs due to an impaired or weakened immune system. • Aspiration pneumonia: occurs related to entry of endogenous or exogenous substances into the lower airway.

  39. Pathophysiology • Pneumonia -- bloodborne organisms or normal flora - patients with impaired or weakened immune system or from aspiration of flora present in the oropharynx (patients often have an acute or chronic underlying disease that impairs host defenses). • Pneumonia affects both ventilation and diffusion.

  40. An inflammatory reaction in the alveoli - producing an exudate that interferes with the diffusion of oxygen and carbon dioxide - White blood cells infiltrate into the alveoli and fill the normally air-filled spaces - secretions and mucosal edema - Bronchospasm and/or partial occlusion of the bronchi or alveoli - decrease in alveolar oxygen tension - inadequate ventilation • Hypoventilation - ventilation–perfusion mismatch - Venous blood entering the pulmonary circulation passes through the underventilated area and travels to the left side of the heart poorly oxygenated - The mixing of oxygenated and unoxygenated or poorly oxygenated blood - arterial hypoxemia.

  41. lobar pneumonia: substantial portion of one or more lobes is involved • Bronchopneumonia: pneumonia that is distributed in a patchy fashion, having originated in one or more localized areas within the bronchi and extending to the adjacent surrounding lung parenchyma.

  42. Risk factors • Conditions that produce mucus or bronchial obstruction • Immunosuppressed patients • Prolonged immobility and shallow breathing pattern • Depressed cough reflex, abnormal swallowing (aspiration) • Nothing-by-mouth, nasogastric, endotracheal • Supine positioning • Alcohol intoxication • General anesthetic • Advanced age • Respiratory therapy • Nosocomial infection

  43. Clinical Manifestations • •Dyspnea or orthopnea & tachypnea & tachycardia • •Headache • •Fatigue and poor appetite • •Unequal chest expansion • •Cough • Crackles • Consolidation (increased tactile fremitus) • egophony • signs and symptoms (gradual and nonspecific) vary depending on the type, causal organism, and presence of underlying disease. •Fever •Chills •Sweats •Dullness on percussion on affected area •Sputum production (purulent or Rusty, blood-tinged sputum) •Hemoptysis •Pleuritic chest pain (aggravated by deep breathing and coughing)

  44. patients may exhibit an upper respiratory tract infection (nasal congestion, sore throat) • The predominant symptoms: • headache, • low-grade fever, • pleuritic pain, • mucopurulent sputum • myalgia, • rash, • and pharyngitis. • severe pneumonia: • cheeks are flushed and • the lips and nail beds demonstrate central cyanosis

  45. Diagnostic Tests • history (a recent respiratory tract infection) • Blood culture (bloodstream invasion [bacteremia]) • Sputum examination: (nasotracheal or orotracheal or fiberoptic bronchoscopy) • rinse the mouth with water, • breathe deeply several times, • cough deeply, • expectorate the raised sputum into a sterile container. • Chest x-ray

  46. Prevention • pneumococcal vaccine • People 65 years of age or older • Immunocompetent people who are at increased risk for illness and death • People with functional or anatomic asplenia • People living in environments or social settings in which the risk of disease is high • Immunocompromised people at high risk for infection

  47. Prevention of HAP • staff education and involvement in infection prevention, • infection and microbiologic surveillance, • prevention of transmission of microorganisms, • and modifying host risk for infection.

  48. Medical Treatment of Pneumonia • Supportive treatment includes fluids, oxygen for hypoxia, antipyretics, antitussives, decongestants, antihistamines • Administration of antibiotic therapy determined by gram-stain results • If etiologic agent is not identified, utilize empiric antibiotic therapy • Antibiotics not indicated for viral infections but are used for secondary bacterial infection

  49. Complications • Shock and Respiratory Failure • Pleural Effusion

More Related