Examination of the Respiratory System

In patient assessment, following the process of history-taking, we’ll be looking into performing a thorough examination of the respiratory system.

Examination of the RESPIRATORY System Outline

  1. looking out for sputum pots
  2. examining the hands
  3. examining the face
  4. examining the neck
  5. examining the chest wall

1. LOOKING OUT FOR SPUTUM POTS

  • look around for sputum pots at the patient’s bedside
  • if available, assess the quantity (large quantity may be a sign of bronchiestasis) and the character a.k.a. colour and consistency; haemoptysis (blood-streaked sputum) may be due to bronchial carcinoma, pneumonia, pulmonary infarction, bronchiestasis or tuberculosis; mucopurulent greenish-yellowish sputum may be due to a chest infection

2. EXAMINING THE HANDS

TAR STAINING

  • check for tar staining of the patient’s fingers – this would indicate that the patient is a smoker
Tar-Stained Fingers – Retrieved from https://escholarship.org/content/qt8ck911z0/qt8ck911z0.pdf on 21st March 2023

FINGER CLUBBING

  • check for finger clubbing caused by interstitial oedema and dilation of the arterioles and capillaries
  • assess for finger clubbing by checking for the loss of the normal angle between the nail and the nail bed, and fluctuation of the nail bed
  • advanced finger clubbing may be featured through swelling of the subcutaneous tissues over the base of the nail causing the overlying skin to become tense, shiny and red, increase in the curvature of the nail especially in its long axis, and swelling of the pulp of the finger
  • finger clubbing causes may include cardiac issues such as cyanotic heart disease (heart disease that is caused by lack of oxygen) and infective endocarditis (inflammation of the endocardium, the inner lining of the heart, as well as the valves that separate each of the four chambers within the heart), respiratory issues such as bronchial carcinoma (a malignant cancerous tumour of the bronchi and the lung tissue), lung abscess (a type of liquefactive necrosis of the lung tissue and formation of cavities containing necrotic debris or fluid caused by microbial infection), bronchiestasis (a long-term condition where the airways of the lungs become widened, leading to a build-up of excess mucus that can make the lungs more vulnerable to infection), empyema (pus-filled pockets that develop in the pleural space), and fibrosing alveolitis (a disease involving the gas-exchanging portions of the lungs), and gastrointestinal issues such as inflammatory bowel disease (a term for two conditions – Crohn’s disease and ulcerative colitis, that are characterized by chronic inflammation of the GI tract), and liver cirrhosis (scarring of the liver caused by continuous, long-term liver damage)
Finger Clubbing – Retrieved from https://en.wikipedia.org/wiki/Nail_clubbing on 21st March 2023

PERIPHERAL CYANOSIS

  • can be physiological eg. due to a surrounding cold environment, reduced cardiac output eg. shock causes central cyanosis
  • featured through bluish discolouration of the nail beds
  • usually starts showing when patient is at <85% SPO2
Cyanosis – Retrieved from https://www.physio-pedia.com/Cyanosis on 21st March 2023

FLAPPING TREMOR

  • ask patient to outstretch arms with the wrists in extension; in this position, the downward intermittent flap of the hands is exaggerated
  • flapping tremor can be seen in patients with severe respiratory failure
Retrieved from https://medicinaonline.co/2019/09/02/asterissi-asterixis-in-neurologia-caratteristiche-significato-esecuzione/ on 3rd April 2023

HAND TEMPERATURE

  • warm hands signify vasodilation or carbon dioxide retention
  • cold hands signify vasoconstriction
  • note if hands are dry or moist
  • clammy hands may be a sign of anxiety or sympathetic activation
Clammy Skin – Retrieved from https://www.medicalnewstoday.com/articles/322446 on 21st March 2023

3. EXAMINING THE FACE

HORNER’S SYNDROME

  • if Horner’s Syndrome is present, the patient may have unilateral constriction of the pupil (miosis), partial drooping of the eyelid (ptosis), impaired sweating on the same size of the face, and enophthalmos (recession of the globe in the orbital fossa)
  • Horner’s Syndrome may be caused by an apical lung carcinoma infiltrating the sympathetic chain
Retrieved from https://www.drawittoknowit.com/course/neuroanatomy/glossary/physical-exam/horner-s-syndrome on 3rd April 2023

PALLOR

Retrieved from https://twitter.com/Jcortesizaguirr/status/1281723663553908743 on 3rd April 2023

CENTRAL CYANOSIS

  • can be easily noted when looking at the patient’s tongue
  • happens when the oxygen saturation of arterial blood falls below 80-85%; central cyanosis indicates lack of oxygen in the brain
  • may be a sign of congenital heart disease (conditions present at birth which affect the structure of the heart and the way it works) or chronic obstructive airways disease or COPD
examination of the respiratory system
Central Cyanosis – Retrieved from https://www.researchgate.net/figure/Clinical-photograph-showing-central-cyanosis-Note-also-clubbing-of-fingers_fig3_255685646 on 23rd March 2023

4. EXAMINING THE NECK

JUGULAR VENOUS PRESSURE (JVP)

  • assessing the right internal jugular vein is better since it is more proximal to the superior vena cava than the left; the right external jugular vein has venous valves between it and the superior vena cava, hence it is less preferred for assessment; ideal patient placement is at 45 degree angle, looking to his left
  • jugular venous pressure (JVP) can be noted as a double flicker above the clavicle parallel to the anterior border of the sternocleidomastoid muscle (remember that a venous pulse is never palpable)
  • note the height by measuring the vertical height in cm between the top of the jugular venous pulsation and the sternal angle
  • normal JVP height = <4cm
  • high JVP height is a sign of increased pressure in the right atrium, and so, may be a sign of congestive heart failure, fluid overload (which may be due to nephrotic syndrome) or superior vena cava obstruction (non-palsatile)
examination of the respiratory system
Jugular Venous Pressure Height – Retrieved from http://www.nataliescasebook.com/tag/jugular-venous-pressure on 24th March 2023

CAROTID PULSE

  • feel the carotid pulse – a bounding pulse indicates carbon dioxide retention
Carotid Pulse – Retrieved from https://3d4medical.com/blog/the-anatomy-behind-pulse-points on 24th March 2023

SUPRACLAVICULAR LYPMH NODES

  • feel the patient’s supraclavicular lymph nodes
  • if enlarged, they may indicate carcinoma, lymphoma, sarcoidosis or tuberculosis
examination of the respiratory system
Retrieved from https://ccij-online.org/storage/files/article/ccij-cfh8kkmrbug-771/ClinCancerInvestigJ_2018_7_6_231_250408.pdf on 3rd April 2023

TRACHEA

  • feel the patient’s trachea; normally, the upper 4-5cm of the trachea can be felt between the cricoid cartilage and the suprasternal notch; compare distance to each side
  • a displaced trachea may result from moving away from a lesion eg. due to a superior mediastinal mass such as lymphoma or carcinoma, massive pleural effusion, or retrosternal goitre, or moving towards a lesion eg. due to upper lobe collapse or fibrosis
examination of the respiratory system
Retrieved from https://ccij-online.org/storage/files/article/ccij-cfh8kkmrbug-771/ClinCancerInvestigJ_2018_7_6_231_250408.pdf on 3rd April 2023

5. EXAMINING THE CHEST WALL

CHEST SHAPE

  • barrel chest is caused by an increase in the anteroposterior diameter relative to the lateral diameter of the chest wall. While the normal ratio is usually 5:7, patients with emphysema present with both measurements approximate; barrel chest may also be a sign of thoracic kyphosis (excessive curvature in the thoracic spine that leads to a rounded upper back)
  • thoracic kyphoscoliosis – a patient with kyphosis presents with an excessive outward curvature of the spine, causing the back to hunch; a patient with scoliosis presents with lateral deviation of the backbone caused by congenital or acquired abnormalities of the vertebrae, muscles and nerves; a patient with kyphoscoliosis presents with abnormal curvature of the spine both forwards and sideways, in other words, a combination of both kyphosis and scoliosis
  • pectus carinatum a.k.a. pigeon chest presents as localised prominence of the sternum and adjacent costal cartilages, commonly accompanied by indrawing of the ribs to form symmetrical horizontal grooves (Harrison’s sulci) above the usually everted costal margins; the deformities are thought to result from lung hyperinflation with repeated strong contractions of the diaphragm while the bony thorax is still in a pliable state; pectus carinatum is common following chronic respiratory disease in childhood eg. severe asthma
  • pectus excavatum a.k.a. funnel chest is a developmental defect featuring either a localised depression of the lower end of the sternum, or depression of the whole length of the body of the sternum and of the costal cartilages attached to it; while this is usually asymptomatic, an increased degree of depression of the sternum may cause the heart to become displaced to the left, restricting the ventilatory capacity of the lungs
  • iatrogenic chest is the result of former treatment for pulmonary tuberculosis with thoracoplasty, which involves surgical removal of parts of the ribs, allowing the chest wall to fall in and collapse the affected lung

SKIN

  • look for scars from previous trauma, surgery, etc.
  • look for evidence of radiotherapy eg. ink marks and telangiectasia (small, widened blood vessels on the skin, sometimes spidery in appearance, which blanche on pressure)
  • look for subcutaneous nodules eg. metastases
examination of the respiratory system
Telangiectasia – Retrieved from https://dermnetnz.org/topics/telangiectasia on 6th April 2023
examination of the respiratory system
Subcutaneous Nodules – Retrieved from https://wellcomecollection.org/works/c5mvhyae on 6th April 2023

RESPIRATORY MOVEMENTS

  • rate of respiration is normally between 14-18 bpm; tachypnoea is noted in acute pulmonary infections (especially if accompanied by pleural pain), bronchial asthma, pulmonary embolism and acute pulmonary oedema
  • mode of breathing – when breathing, women tend to use the intercostal muscles more than the diaphragm, with their respiratory movements being predominantly thoracic; men tend to rely more on the diaphragm, with their respiratory movements being predominantly abdominal; lack of chest expansion may be caused by ankylosing spondylitis (an inflammatory disease that over time can cause some vertebrae to fuse), intercostal paralysis (causes reduced vital capacity, inability to cough, and high mortality) or pleural pain; breathlessness is usually accompanied by respiratory distress, increased respiratory frequency and abnormal respiratory movements
  • abnormal inspiratory movements – use of accessory muscles – sternomastoids, scaleni and trapezii, in-drawing of the suprasternal and supraclavicular fossae, intercostal spaces and epigastrium can be observed with each inspiration; paradoxical movements within the chest may indicate mobile fractures within the thoracic cage – these can cause serious issues such as respiratory distress and hypoxaemia due to interfering with pulmonary ventilation
  • abnormal expiratory movements – commonly caused if the elastic recoil of the lungs are insufficient in completing air expansion from the alveoli, as in emphysema or asthma; patients exhibiting these symptoms tend to prefer leaning slightly forward in an attempt to augment their expiratory efforts, at times exhaling through pursed lips
  • expansion of the chest wallunilateral reduction of chest wall movement may be caused by pleural effusion, pneumothorax, lung consolidation (as in pneumonia, tuberculosis, neoplasm or infarction), lung collapse / lobectomy or pneumonectomy, and fibrosis (as seen in pulmonary tuberculosis); generalised restriction of chest wall movement may be seen in emphysema, bilateral pleural effusion, and ankylosing spondylitis (an inflammatory disease that over time can cause some vertebrae to fuse)

MEDIASTINAL DISPLACEMENT

  • determine the position of the apex beat, which also reflects the position of the lower mediastinum; pleural effusion and pneumothorax may cause mediastinal displacement (pushed away); fibrosis, collapse, and pneumonectomy may cause mediastinal displacement (pulled towards)

TACTILE VOCAL FREMITUS

  • tactile vocal fremitus is the palpable vibration transmitted through the bronchiopulmonary system to the chest wall when the patient makes a deep vocal sound
  • fremitus is increased in consolidated areas within the lungs
  • fremitus is decreased when the bronchus is obstructed or the pleural space is filled by fluid, air or solid tissue eg. pleural effusion, pneumothorax or fibrosis

PERCUSSION

  • percussion is performed to compare the degree of resonance over equivalent areas on both sides of the chest, moving systematically from top to bottom
examination of the respiratory system
Retrieved from https://quizlet.com/220991698/ha-lab-physical-assessment-of-an-adult-respiratory-flash-cards/?src=set_page_ssr on 6th April 2023
examination of the respiratory system
Retrieved from https://www.paramedicpractice.com/features/article/respiratory-system on 6th April 2023
examination of the respiratory system
Retrieved from https://www.magonlinelibrary.com/doi/abs/10.12968/bjca.2011.6.2.63 on 6th April 2023

AUSCULTATION

  • auscultate over each lung segment whilst patient breathes in and out gently through mouth
  • note the character of the breath sound – diminished vesicular breath sounds may be caused by a generalised reduction in airflow eg. emphysema or tumour obstructing a bronchus, pleural effussion or pneumothorax; bronchial breath sounds in which both inspiration and expiration may sound as blowing in character, may be caused by consolidations, fibrosis or collapse
  • listen for added sounds such as rhonchi (wheezes – generalised: due to asthma, chronic bronchitis, emphysema, pulmonary congestion caused by left ventricular failure; localised: due to local bronchial obstruction due to carcinoma, lymph node or foreign body), crepitations (crackles – fine crackles due to lung fibrosis, pulmonary oedema or pneumonia; coarse crackles due to chronic bronchitis or bronchiectasis), pleural friction rub (creaking sound due to pneumonia and pulmonary infarct), and pneumothorax click (rhythmical sound synchronous with cardiac systole)
  • notice the character and intensity of vocal resonancediminished vocal resonance is heard in pleural effusion, pneumothorax and collapse; increased vocal resonance is heard as a louder and clearer transmission of sound, commonly indicative of consolidation; in whispering pectoriloquy, the whisper is heard clearly with a stethoscope if there is consolidation, but is not heard if there is no consolidation; egophony is tested by asking the patient to say EEE aloud…if EEE sounds more like an A, consolidation may be present
  • palpate for axillary lymphadenopathy which can be felt in patients with lymphoma and mestastases

Examination of the Respiratory System for Common Respiratory Problems

DiseaseMediastinal ShiftTactile Vocal Fremitus / Vocal ResonancePercussion NoteAuscultation
ConsolidationNoneIncreasedDullbronchial breath sounds, crackles, bronchosphony, egophony, whispered pectoriloquy
Chronic BronchitisNoneNormalResonantnormal to decreased breath sounds, wheezes
EmphysemaNoneDecreasedHyper-Resonantdecreased intensity of breath sounds usually with prolonged expiration
AsthmaNoneNormal to DecreasedResonant to Hyper-Resonantwheezes
Pleural EffusionAwayDiminishedStony Dulldecreased to absent breath sounds, bronchial breathing and bronchophony, egophony, whispering pectoriloquy above effusion over the area of compressed lung
PneumothoraxAwayDiminishedHyper-Resonantabsent breath sounds, possible click
FibrosisTowardsDiminishedDulllate inspiratory fine crackles
Pulmonary OedemaNoneNormalResonantcrackles at the bases of the lungs, possible wheezes

Summary

Step-by-step examination of the respiratory system:

  1. sputum sample examination – quantity & character
  2. examine hands for flapping tremor, temperature, sweat, pallor, peripheral cyanosis, finger clubbing, nail swing, tar staining
  3. check pulse
  4. check respiration rate
  5. check blood pressure
  6. examine eyes for horner syndrome
  7. observe face for signs of central cyanosis, pursed lip breathing, nose flaring
  8. observe neck for JVP height, enlarged supraclavicular lymph nodes, trachea displacement
  9. observe chest (lungs) for scars, evidence of radiotherapy, subcutaneous nodules, pectus excavatum, pectus carinatum, kyphosis, accessory muscle use for breathing
  10. check for chest expansion, determine position of apex beat, and perform tactile vocal fremitus (ninety-nine – note character and intensity of vocal resonance)
  11. percuss chest (lungs) over intercostal spaces and compare sides
  12. auscultate chest (lungs) and check for bronchial sounds, wheezing, crackles, pleural friction rub, or pneumothorax click
  13. repeat tactile vocal fremitus (ninety-nine – note character and intensity of vocal resonance), percussion and auscultation at the patient’s back
  14. perform whispering pectoriloquy (whispering ninety-nine) if suspecting consolidation
  15. assess under arms for enlarged lymph nodes in axilla

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COPD Nursing Management of Chronic Obstructive Pulmonary Disease

Chronic Obstructive Pulmonary Disease (COPD) is an irreversible, preventable and controllable disease that presents as chronic dyspnoea due to airflow restriction. Whilst signs and symptoms of COPD can be managed and/or treated, COPD disease progression cannot be fully reversed. COPD nursing management and care play an important role in managing COPD exacerbations and patient education to avoid further worsening of the disease.

COPD can present as Chronic Bronchitis or Emphysema. Some COPD patients may have overlapping signs and symptoms of both.

COPD Nursing Management
Retrieved from https://pmrpressrelease.com/asthma-and-copd-market/ on 25th April 2021

Chronic Bronchitis Signs & Symptoms:

  • Cough and Sputum Production – Chronic Bronchitis diagnosis requires the patient to experience persistent cough and sputum production for at least 3 months in at least 2 consecutive years. This happens due to irritation in the airway caused by pollutants or allergens that lead to an increase in sputum production by mucus-secreting glands and goblet cells. Mucus affects the mucociliary escalator, making it harder to expel sputum. Retained mucus gives way to an increased risk for viral, bacterial and fungal infections that trigger acute bronchitis.
  • Overweight – gets tired easily so tends to avoid exercising.
  • Cyanotic – due to the condition, not enough oxygen is produced within the lungs, leading to less oxygen perfusion throughout the body…this is why individuals with Chronic Bronchitis are usually referred to as Blue Bloaters.
  • Elevated Haemoglobin – patients with Chronic Bronchitis are usually hypoxic. To compensate for the lack of oxygen, the body increases the production of erythropoietin, which in turn causes an increase in red blood cell production.
  • Peripheral Oedema – caused by pulmonary hypertension where there is an increase in blood pressure within the arteries of the lungs.
  • Rhonchi and Wheezing – the airway is compromised due to bronchoconstriction and increased mucus production.

Emphysema Signs & Symptoms:

  • Usually Older and Thin – in patients with Emphysema, lungs become hyperinflated, pressing on the stomach. This reduces appetite, leading to weightloss. Individuals with Emphysema are commonly referred to as Pink Puffers.
  • Severe Dyspnoea – increased respiratory rate. Increased dead space = air not contributing to gas exchange = less oxygen perfusion = hypoxia = hypoventilation.
  • Quiet Chest – alveoli are damaged; less air reaches the alveoli for gas exchange.
  • X-Ray shows Hyperinflation with a Flattened Diaphragm – anatomical damage as in abnormal distention of airspaces (bronchioles, alveoli and alveoli ducts) and destruction of the alveoli walls, and thus, an increase in the dead space (air not contributing to gas exchange), is visible in an x-ray.

There are 2 main types of Emphysema:

Panlobular: destruction of bronchiole, alveolar duct and alveolus.

Centrilobular: destruction mainly in the centre of the alveolar sac.

COPD Nursing Management
Retrieved from https://www.pinterest.com/pin/289004501091391655/ on 25th April 2021

Pathophysiology of COPD

  1. Increase in number of goblet cells and mucus secreting glands leading to hypersecretion of mucus and mucus plug which affects the mucociliary escalator;
  2. Inflammation causes mucosal oedema and exudate to flow into the airway, narrowing the airway in the process;
  3. Scar Formation is caused, leading to permanent airway lumen narrowing (hence why it’s called Chronic Bronchitis);
  4. Alveolar wall destruction leads to a decrease in alveolar surface area in direct contact with pulmonary capillaries. Furthermore, there is also a decrease in elastic recoil and damage to connective tissue which supports the alveoli;
  5. Alveoli remain inflated due to decrease in elastic recoil, causing alveolar hyperinflation;
  6. Inflammation affects the pulmonary capillaries, causing vessel lining thickening, thus, narrowing of capillaries, leading to pulmonary hypertension;
  7. High blood pressure in the pulmonary capillaries affects systemic blood circulation, leading to pulmonary oedema and less gas exchange between the alveoli and the pulmonary capillaries.
COPD Nursing Management
Retrieved from https://www.slideshare.net/ashrafeladawy/abc-of-copd-2017 on 25th April 2021
COPD Nursing Management
Retrieved from https://www.slideshare.net/ashrafeladawy/abc-of-copd-2017 on 25th April 2021

COPD Risk Factors

  • Smoking – this is the primary risk factor for COPD. Smoking reduces white blood cells activity, affects the mucociliary escalator, irritates goblet cells and mucus secreting glands leading to an increase in mucus production. With the mucociliary escalator affected, it becomes hard for the patient to excrete or cough out sputum, thus increasing the risk of infection.
  • Occupational Exposure – occupational dust, chemicals and air pollution increase the risk of developing COPD.
  • Alpha 1 Antitrypsin Deficiency – a genetic abnormality where alpha 1 antitrypsin, an enzyme which helps in protecting the lung parenchyma from injury, is inhibited.

Clinical Manifestation of COPD

  • Chronic Cough
  • Sputum Production (white sputum is normal in COPD, but yellowish/greenish sputum indicates an infection)
  • Dyspnoea on exertion (persistent and progressive dyspnoea)
  • Dyspnoea at rest (in worsening COPD)
  • Weight Loss (due to hyperinflation of the lungs)
  • Use of Accessory Muscles (due to dyspnoea)
  • Barrel Chest
Barrel Chest Deformity in a patient with Emphysema – Retrieved from https://www.wikidoc.org/index.php/Barrel_chest on 25th April 2021

COPD Complications

  • Respiratory Failure: COPD progression > dyspnoea > tired respiratory muscles > respiratory failure.
  • Pneumonia: excessive and stagnant mucus serves as a medium to pathogens, leading to infection.
  • Chronic Atelectasis: partial or complete lung collapse caused by blockage or pressure build up within the lungs’ bronchial tubes.
  • Pneumothorax: lung collapse due to air accumulating in the pleural cavity.
  • Pulmonary Arterial Hypertension: resulting from hypertrophy of smooth muscle.
Retrieved from https://www.pinterest.co.uk/pin/747245763157842834/ on 25th April 2021

COPD Nursing Management – Assessment

  • Health History – eg. smoking or potential exposure to irritants
  • Pulmonary Function – help in the diagnosis of COPD as well as its progression and/or monitoring
  • PEFR – helps in assessing severity of airflow obstruction
  • ABGs – arterial blood gas measurement helps by providing a baseline reading of PaO2 (Partial Pressure of Oxygen) and PaCO2 (Partial Pressure of Carbon Dioxide)
  • Chest X-ray – helps in excluding other possible diagnosis, and helps determine hyperinflation of lungs and diaphragm as well as decreased bullae
  • CT Scan – helps in excluding other possible diagnosis such as lung cancer
  • Alpha 1 Antitrypsin Deficiency Screening – ideally performed for patients with a family history of COPD
  • Sputum Culture – helps investigate for the possibility of infection
  • Peripheral Blood Culture – in the case of fever, this can determine presence of bacteria in the blood i.e. septicaemia

COPD Nursing Management – Therapy

COPD cannot be reversed but its symptoms can be controlled. COPD therapy is provided to relieve its symptoms.

  • Bronchodilators – short and long-acting beta adrenergic agonists can help relieve bronchospasms and decrease airway obstruction
  • Corticosteroids – help decrease COPD symptoms by reducing inflammation and reducing mucus production eg. Beclomethasone (inhaled) or Prednisolone (oral corticosteroids)
  • Oxygen Therapy – Oxygen saturation in COPD patients should be somewhere between 88%-92%. Oxygen in COPD patients is frequently administered through the use of nasal cannula or a venturi mask. Too much Oxygen in a COPD patient leads to the retention of CO2, since gas exchange is compromised due to narrowing of the airway and the destruction of the alveoli as well as lack of elastic recoil
  • Alpha 1 Antitrypsin Augmentation Therapy – increases lung parenchyma protection
  • Antibiotics – fight infection
  • Mucolytic Agents – reduce mucus production
  • Antitussive Agents – relieve cough
  • Vasodilators – help reduce pulmonary hypertension
  • Narcotics – act as analgesia for muscular pain due to ongoing cough and excessive accessory muscle use for breathing
  • Heparin or Anti-Coagulants – if patient is bed-bound or too lethargic to move, this could help reduce the risk of pulmonary embolism and thrombosis
  • Yearly Influenza Vaccine – reduces the risk of developing chronic bronchitis

COPD Exacerbation

COPD exacerbation is marked by an acute change in the individual’s baseline dyspnoea, cough or sputum production. An increase in one of these signals COPD exacerbation. It is usually triggered by infection and/or air pollution.

COPD exacerbation can be controlled by the use of Bronchodilators, Corticosteroids, Antibiotics (in the case of infection) and Oxygen therapy (to increase oxygen saturation).

If a patient doesn’t respond to initial treatment for severe dyspnoea, and exhibits additional confusion, lethargy, respiratory muscle fatigue (signals pending respiratory failure), paradoxical chest wall movement(pneumothorax) and peripheral oedema (pulmonary hypertension), hospitalisation is indicated.

In some cases, surgical management for COPD may also be indicated, namely Bullectomy (where bullae are removed), Lung Volume Reduction Surgery (where part of the affected lung is removed) or Lung Transplant (where the lung of a donor is surgically attached instead of the affected lung).

COPD Nursing Management To Promote Airway Clearance

  • Bronchodilators
  • Corticosteroids (oral Corticosteroids may lead to hyperglycaemia, thus the nurse should monitor for condition)
  • Increase fluid intake (help in replacing fluid loss through sweating and exertion from breathing with accessory muscle use)
  • Coughing Exercises (loosen and carry mucus through the airways without causing them to narrow and collapse without too much energy)
  • Chest Physiotherapy (helps in removing/excreting secretions)
  • Nebulised Saline (administered through the use of a nebuliser mask; helps loosen up mucus, thus enabling secretion excretion)
  • Patient Education (teaching Pursed Lip Breathing, Diaphragmatic Breathing, use of walking aids to decrease physical exertion and paced exercise training throughout the day to reduce excess weight and increase breathing capacity)

COPD Nursing Management and Monitoring for Complications

  • Cognitive Changes – may indicate severe hypoxia which leads to respiratory failure
  • Increased Dyspnoea, Tachypnoea and Tachycardia – indicates worsening of COPD condition
  • Pulse Oxymetry – monitoring patient Oxygen saturation, aiming for a value between 88-92% for COPD patients
  • Infection
  • Paradoxical Chest Wall Movement – to assess for pneumothorax
  • Breathing Sounds – difference in auscultated sounds between both lungs may also indicate pneumothorax

Further COPD Patient Education

  • Use long term inhaler treatment as prescribed
  • Maintain normal temperature: temperature increase leads to an increase in oxygen requirement, while temperature decrease causes vasoconstriction which may lead to hypoxia
  • Moderate activity level: helps avoid excessive coughing episodes
  • Stress avoidance: promotes wellbeing
  • Breathing exercises: facilitates gas exchange
  • Smoking cessation: helps avoid worsening of COPD or COPD exacerbation
  • Yearly influenza vaccine: helps reduce the risk of infection
  • Eat healthily: to increase energy (excessive carbohydrate intake leads to an increase in carbon dioxide production, which leads to the patient feeling full even though he/she is still hungry); teach patient to eat small portions, and if not eating, encourage family members to bring in homemade meals
  • Addressing the psychosocial aspect of the patient: appetite, emotional aspect, stress control, social aspect and finances (due to possible loss of work or reduced working ability)

Below you can find a collection of videos that can help provide a more visual approach to Chronic Obstructive Pulmonary Disease COPD Nursing Care.

COPD – Understanding Chronic Obstructive Pulmonary Disease: Animation

https://www.youtube.com/watch?v=2nBPqSiLg5E

Understanding COPD – Animation

COPD Animation

COPD Nursing Management – Diagnosis and Evaluation

COPD Nursing Management and Treatment

Special thanks to the creators of the featured videos on this post, specifically Youtube Channels Nucleus Medical Media, Animated COPD Patient and Alila Medical Media.

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