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The Respiratory System Correlated to the Roy Adaptation Model and Nursing Process. Sandy Marks, RN, BSN, MS(HCA) N212 Medical Surgical Nursing 1 Spring 2008. Journey through Roy Adaptation Model (RAM). Roy Adaptation Model → Patients primarily with alterations in physiological mode →
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The Respiratory SystemCorrelated to the Roy Adaptation Model and Nursing Process Sandy Marks, RN, BSN, MS(HCA) N212 Medical Surgical Nursing 1 Spring 2008
Journey through Roy Adaptation Model(RAM) • Roy Adaptation Model → • Patients primarily with alterations in physiological mode → • oxygenation → • respiratory system Course Packet (2007), p 104
Objectives - 1 • Review the anatomy and physiology of the respiratory system • Describe the respiratory changes associated with aging
Objectives - 2 • Discuss the purpose and interventions (preparation, explanation, procedure, postcare) for the following diagnostic tests: • X-rays: chest, bronchogram, CT, lung scan • Direct visualization: bronchoscopy • Sputum specimen • Thoracentesis • Pulmonary function tests (PFT) • Oximetry • Magnetic resonance imaging (MRI) • Cultures
Objectives - 3 • Describe the nursing assessment of the following cardinal signs and symptoms: • cough • sputum • dyspnea • Discuss the pathophysiology, nursing assessment, interventions, and evaluation for Pneumonia
The Art of Caring dscherer.com
Respiratory Review • Purpose = • provide oxygen for tissue metabolism (O2) • remove carbon dioxide (CO2) • Influences functions of: • acid-base balance • speech • sense of smell • fluid balance • temperature control
Review the anatomy and physiology of the respiratory system • upper respiratory tract • lower respiratory tract • divided by trachea (windpipe) • bronchi • bronchioles • alveolar ducts • alveoli trachea bronchi bronchioles alveoli Chabner, 2007
Gas Exchange • occurs at alveolar capillary membrane • occurs by diffusion • Pulmonary edema = • excess fluid fills alveoli spaces • impairs exchange of O2 and CO2 capillary Chabner, 2007
Normal lung tissue • 300 million alveoli • surface area = tennis court • Right bronchus • slightly wider • shorter • more vertical • increases problems with • intubation • aspiration Chabner, 2007
Physiologic changes associated with aging dscherer.com
Alveoli • alveolar surface area decreases • diffusion capacity decreases • elastic recoil decreases • bronchioles and alveolar ducts dilate • ability to cough decreases • airways close early
Lungs • residual volume increases • vital capacity decreases • efficiency of oxygen and carbon dioxide exchange decreases • elasticity decreases
Pharynx and Larynx • muscles atrophy • vocal cords become slack • laryngeal muscles lose elasticity and cartilage
Pulmonary Vasculature • increased vascular resistance to blood flow through pulmonary vascular system occurs • pulmonary capillary blood volume decreases • risk of hypoxia increases
Exercise Tolerance andMuscle Strength • Exercise Tolerance body’s response to hypoxia and hypercapnea decreases • Muscle Strength respiratory muscle strength, especially the diaphragm and intercostals, decreases
Susceptibility to Infection • effectiveness of the cilia increases • immunoglobulin A decreases • alveolar macrophages are altered
Chest Wall • anteroposterior (AP) diameter increases • thorax becomes shorter • progressive kyphoscoliosis occurs • chest wall compliance (elasticity) decreases • mobility may decrease • osteoporosis is possible
Summary on effects of aging • ↓ recoil and compliance • AP diameter • ↓ functional alveoli • ↓ in Pa02 • Respiratory defense mechanisms less effective • Altered respiratory controls • More gradual response to changes in O2 and Co2 levels in blood
Diagnostic Tests • X-rays: chest, bronchogram, CT, lung scan • Direct visualization: bronchoscopy • Sputum specimen and Cultures • Thoracentesis • Pulmonary function tests (PFT) • Oximetry • Magnetic resonance imaging (MRI)
Chest X-Ray Screen, diagnose, evaluate treatment Instructions:
X-ray Positions Chabner, 2007
Chest X-Ray (Cont.) Posterior Anterior View Left Lateral View
Bronchogram • Slightly oblique www.fotosearch.com
Computed Tomography: CT Scan Images in cross-section view Uses contrast agents Instructions: Right upper Lobe
Lung Scan • most to detect emboli • no food restrictions • breathes radioactive material through a tube for 5 minutes • 6 ventilation images taken • radioactive injection • same 6 images retaken • compare images www.ucl.ac.uk
Ventilation- air distribution in lungPerfusion- blood supply to & within lung www.diiradiology.com www.washingtonhospital.org
Bronchoscopy Diagnose problems and assess changes in bronchi / bronchioles Performed to remove foreign body, secretions, or to obtain specimens of tissue or mucus for further study • Post-Procedure Care / Instructions:
Sputum Specimen To diagnose; evaluate treatment Specimen: ID organisms or abnormal cells Culture & Sensitivity (C&S) Cytology Gram stains (e.g. Acid Fast Bacilli)
Thoracentesis Specimen from pleural fluid Treat pleural effusion Assess for complications Post-Procedure care: • Positions • Sitting on side of bed over bedside table chest elevated • Lying on affected side • Straddling a chair
Pneumothorax Chabner, 2007
Pulmonary Function Test (PFTs) Evaluate lung function Observe for increased dyspnea or bronchospasm Instructions:
Pulse Oximetry Measures arterial oxygen saturation Pulse oximetry probe on ears, nose, finger, toes, forehead False readings Intermittent or continuous monitoring Ideal values When to Notify MD
MRI • Frontal View • White masses = Hodgkin Disease lesions Chabner, 2007
MRI – transverse view – same patient Chabner, 2007
Nursing Assessment:Cardinal Signs and Symptoms of:1. Cough2. Sputum3. Dyspnea
Cough – Main Sign of Lung Disease • how long present • occurs at a specific time (smokers = upon wakening in AM) • related to activity • productive vs nonproductive • congested • dry • tickling • hacking
Sputum – normally 3 oz produced/day • important symptom associated with coughing • Check: • duration – long term, short term • color – rust colored • consistency – thick, thin, watery, frothy • odor- foul • amount – describe in tsp, or fractions of cup and if increasing (external or internal cause)
Dyspnea – subjective data (perception) • difficulty in breathing or breathlessness • Check: • onset – slow or abrupt • duration - # of hours, time of day • relieving factors – position change, med, stop activity • wheezing, crackles, rales, or stridor occur with breathlessness • Quantify by assessing if interferes with ADL • PND or orthopnea
Lung sounds • wheezing • crackles • stridor • auscultation – sequence pg. 534, Iggy • bronchial = trachea & mainstem bronchi • bronchovesicular = branching bronchi • vesicular = small bronchiole periphery
Nursing Student Tools • Concept Map – Pneumonia • Medical-Surgical Map (Medimap) • Nursing Map Course Packet (2007), pgs 115-117
Etiology Cause bacteria (75%) viruses fungi Mycoplasma parasites chemicals
Classifications Community-acquired pneumonia (CAP) Onset in community or during 1st 2 days of hospitalization (Strep. pneumoniae most common) Hospital-acquired Pneumonia (HAP / nosocomial) Occurring 48 hrs or longer after hospitalization Aspiration pneumonia Pneumonia caused by opportunistic organisms Pneumocystis Carinii
Risk Factors CAP Older adult Chronic/coexisting condition Recent history or exposure to viral or influenza infections History of tobacco or alcohol use HAP Older adult Chronic lung disease ALOC Aspiration ET, Trach, NG / GT Immunocompromised Mechanical ventilation
Clinical Manifestations - 1 Fevers, chills, anorexia Pleuritic chest pain SOB Crackles / wheezes Cough, sputum production Tachypnea
Clinical Manifestations - 2 Mycoplasma (Atypical) feeling tired or weak, headaches, sore throat, or diarrhea. Eventually, most develop a dry cough. They can, also, develop fever, chills, earaches, chest pain “walking pneumonia”
Diagnosis Diagnosis → Physical exam → crackles, rhonchi / wheezes CXR → area of increased density (infiltrates / consolidation) Sputum specimen – Gram stain LUL Infiltrates