1. 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
2. Course Packet (2007), p 104 Journey through Roy Adaptation Model�(RAM) Roy Adaptation Model ?
Patients primarily with alterations in
physiological mode ?
oxygenation ?
respiratory system Respiratory focus will be related to pneumoniaRespiratory focus will be related to pneumonia
3. Objectives - 1
Review the anatomy and physiology of the respiratory system
Describe the respiratory changes associated with aging
4. 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
5. 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
6. dscherer.com The Art of Caring Nursing is caring. Remember: we are caring for a family unit, not just the patientNursing is caring. Remember: we are caring for a family unit, not just the patient
7. 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 Respiratory problems are the 5th leading cause of death in the United States. Can effect young and old.Respiratory problems are the 5th leading cause of death in the United States. Can effect young and old.
8. Chabner, 2007 Review the anatomy and physiology of the respiratory system upper respiratory tract
lower respiratory tract
divided by trachea (windpipe)
bronchi
bronchioles
alveolar ducts
alveoli carina: located at level of manubriosternal junction – or Angle of Louis – it is where the trachea biforcates into R and L main stem bronchi
Bronchioles – wrapped by smooth muscles that constrict and dilate in response to stimuli. The narrowing or widening of bronchioles due to contraction and relaxation of muscles determine the diameter of the airways
Alveoli: small sacs = the functional units of the lungscarina: located at level of manubriosternal junction – or Angle of Louis – it is where the trachea biforcates into R and L main stem bronchi
Bronchioles – wrapped by smooth muscles that constrict and dilate in response to stimuli. The narrowing or widening of bronchioles due to contraction and relaxation of muscles determine the diameter of the airways
Alveoli: small sacs = the functional units of the lungs
9. 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
10. Chabner, 2007 Normal lung tissue 300 million alveoli
surface area = tennis court
Right bronchus
slightly wider
shorter
more vertical
increases problems with
intubation
aspiration
11. dscherer.com Physiologic changes associated with aging� Reference pg. 528 of IGGY, chart 30-1, outlines nursing interventions and rationales
Between 1990 and 1990, the total US population increased three-fold, the population of persons = 65 increased ten-fold. As baby-boomers age, this # increases. Proportion of total population = 65 is projected from about 12.5% in 1996 to about 20% by 2040. The oldest old (= 85) = about 12% of the elderly projected to be 18% by 2040. Centenarians increasing faster (57,000 in 1996 to 447,000 in 2040. Health care costs will increase: decrease in younger person creates less financial and social support for the elderly [The Merck Manual of Geriatrics, 2000].Reference pg. 528 of IGGY, chart 30-1, outlines nursing interventions and rationales
Between 1990 and 1990, the total US population increased three-fold, the population of persons = 65 increased ten-fold. As baby-boomers age, this # increases. Proportion of total population = 65 is projected from about 12.5% in 1996 to about 20% by 2040. The oldest old (= 85) = about 12% of the elderly projected to be 18% by 2040. Centenarians increasing faster (57,000 in 1996 to 447,000 in 2040. Health care costs will increase: decrease in younger person creates less financial and social support for the elderly [The Merck Manual of Geriatrics, 2000].
12. Alveoli
alveolar surface area decreases
diffusion capacity decreases
elastic recoil decreases
bronchioles and alveolar ducts dilate
ability to cough decreases
airways close early
13. Lungs
residual volume increases
vital capacity decreases
efficiency of oxygen and carbon dioxide exchange decreases
elasticity decreases
14. Pharynx and Larynx
muscles atrophy
vocal cords become slack
laryngeal muscles lose elasticity and cartilage
15. Pulmonary Vasculature
increased vascular resistance to blood flow through pulmonary vascular system occurs
pulmonary capillary blood volume decreases
risk of hypoxia increases
16. Exercise Tolerance and�Muscle Strength Exercise Tolerance
body’s response to hypoxia and hypercapnea decreases
Muscle Strength
respiratory muscle strength, especially the diaphragm and intercostals, decreases
17. Susceptibility to Infection
effectiveness of the cilia increases
immunoglobulin A decreases
alveolar macrophages are altered
18. Chest Wall
anteroposterior (AP) diameter increases
thorax becomes shorter
progressive kyphoscoliosis occurs
chest wall compliance (elasticity) decreases
mobility may decrease
osteoporosis is possible
19. 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
20. 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)
21. Chest X-Ray Screen, diagnose, evaluate treatment
Instructions:
Screen for TB, diagnose pneumonia, evaluate tx
Common views – AP and Lateral
Remove any metal or jewelry between neck and waistScreen for TB, diagnose pneumonia, evaluate tx
Common views – AP and Lateral
Remove any metal or jewelry between neck and waist
22. Chabner, 2007 X-ray Positions
23. Chest X-Ray (Cont.) The standard chest examination consists of a PA (posterioranterior) and lateral chest x-ray. The films are read together. The PA exam is viewed as if the patient is standing in front of you with their right side on your left. The patient is facing towards the left on the lateral view.
To screen (for TB), diagnose (pneumonia, pulmonary edema (CHF); evaluate treatmnet treat to see if pneumonia or pulm edema resolved)
http://www.emedicine.com/cgi-bin/foxweb.exe/makezoom@/em/makezoom?picture=\websites\emedicine\radio\images\large\35983598RUL_NODULE.JPG&fzi=1The standard chest examination consists of a PA (posterioranterior) and lateral chest x-ray. The films are read together. The PA exam is viewed as if the patient is standing in front of you with their right side on your left. The patient is facing towards the left on the lateral view.
To screen (for TB), diagnose (pneumonia, pulmonary edema (CHF); evaluate treatmnet treat to see if pneumonia or pulm edema resolved)
http://www.emedicine.com/cgi-bin/foxweb.exe/makezoom@/em/makezoom?picture=\websites\emedicine\radio\images\large\35983598RUL_NODULE.JPG&fzi=1
24. www.fotosearch.com Bronchogram Slightly oblique
25. Computed Tomography: CT Scan Images in cross-section view
Uses contrast agents
Instructions:
images are shown in cross-section
Used to dx px difficult to access by usual x-rays Nursing responsibility-same for x-ray
Diagnose problems difficult to access by usual X-rays (mediastinum (area underneath the sternum or breast bone) and pleura, hilum)
images are shown in cross-section
Used to dx px difficult to access by usual x-rays Nursing responsibility-same for x-ray
Diagnose problems difficult to access by usual X-rays (mediastinum (area underneath the sternum or breast bone) and pleura, hilum)
26. www.ucl.ac.uk 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
27. www.diiradiology.com www.washingtonhospital.org Ventilation- air distribution in lung�Perfusion- blood supply to & within lung
28. 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
Visualization (using fiberoptic tube– bronchoscope- athin flexible fiberoptic telescope) of the tracheobronchila tree via a scope advanced through the mouth or nose into the bronchi
Performed to remove foreign body, secretions, or to obtain specimens of tissue or mucus for further study
Nursing care: obtain an informed consent
Keep NPO for six hours to eight hours before procedure
Administer ordered procedure medications (e.g. Valium) to produce sedation and decrease anxiety
Inform the client to expect some soreness, dysphagia, hemoptysis after the procedure
Advice client to avoid coughing or clearing throat
Observe for signs of hemorrhage and /or respiratory distress; keep HOB elevated
Monitor VS until stable
Do not allow fluids until gag reflex returns
Post-op care- keep NPO until gag reflex return and monitor for laryngeal edema; keep HOB elevated
Monitor for hemorrhage and pneumothorax
The endoscope 1) is inserted through the nose or mouth, then through the trachea 2) and finally into the bronchial tubes 3). During the examination it is possible, without the patient feeling anything, to extract secretion for analysis of bacteria. �Additionally it’s possible to take small tissue samples with biopsy forceps.�During the examination the patient will receive a sedative medicament.��Post-op:
NPO for 6-12 hours
until gag reflex returns
Monitor for laryngeal edema; hemorrhage and pneumothorax
Keep HOB elevated
One type of lung collapse, known medically as a pneumothorax, occurs when air leaks into the area between your lungs and chest wall (pleural space). The pressure of the air against the lung causes it to give way, often leading to mild to severe chest pain and shortness of breath. A pneumothorax can be caused by a chest injury, certain medical treatments, lung disease or a break in an air blister on the lung's surface.
A lung collapses in proportion to the amount of air that leaks into your chest cavity. Although the entire lung can collapse, a partial collapse is much more common. A small, uncomplicated pneumothorax may heal on its own in a week or two, but when the pneumothorax is more severe, the excess air is usually removed by inserting a tube or needle between your ribs into the pleural space.
If air continues to build up, the increasing pressure can push your heart and blood vessels toward the uncollapsed lung, compressing both your lung and heart. Called a tension pneumothorax, this condition is life-threatening and requires immediate medical care.
Visualization (using fiberoptic tube– bronchoscope- athin flexible fiberoptic telescope) of the tracheobronchila tree via a scope advanced through the mouth or nose into the bronchi
Performed to remove foreign body, secretions, or to obtain specimens of tissue or mucus for further study
Nursing care: obtain an informed consent
Keep NPO for six hours to eight hours before procedure
Administer ordered procedure medications (e.g. Valium) to produce sedation and decrease anxiety
Inform the client to expect some soreness, dysphagia, hemoptysis after the procedure
Advice client to avoid coughing or clearing throat
Observe for signs of hemorrhage and /or respiratory distress; keep HOB elevated
Monitor VS until stable
Do not allow fluids until gag reflex returns
Post-op care- keep NPO until gag reflex return and monitor for laryngeal edema; keep HOB elevated
Monitor for hemorrhage and pneumothorax
The endoscope 1) is inserted through the nose or mouth, then through the trachea 2) and finally into the bronchial tubes 3). During the examination it is possible, without the patient feeling anything, to extract secretion for analysis of bacteria. Additionally it’s possible to take small tissue samples with biopsy forceps.During the examination the patient will receive a sedative medicament.
29. Sputum Specimen To diagnose; evaluate treatment
Specimen: ID organisms or abnormal cells
Culture & Sensitivity (C&S)
Cytology
Gram stains
(e.g. Acid Fast Bacilli)
Assess presence of abnormal cells
Evaluate treatment: TB- AFB stains
Acid fast Bacilli - TB
Culture and sensitivity; AFB; gram stain, cytology
Collected in a sterile container
Instruct pt how to produce a good specimen; deep breathe then cough deeply and expectorate (not spit)
Sputum specimen
Cultre and sensitivity; AFB; gram-stain (+/-); cytology
Collect in a sterile container
To diagnose bacterial infection, to assess presence of abnormal cells; to evaluate treatment (TB) – AFB stains
Instruct pt on how to produce a good specimen; deep breath then cough deeply then expectorate (ex. Pt spits only)
Assess presence of abnormal cells
Evaluate treatment: TB- AFB stains
Acid fast Bacilli - TB
Culture and sensitivity; AFB; gram stain, cytology
Collected in a sterile container
Instruct pt how to produce a good specimen; deep breathe then cough deeply and expectorate (not spit)
Sputum specimen
Cultre and sensitivity; AFB; gram-stain (+/-); cytology
Collect in a sterile container
To diagnose bacterial infection, to assess presence of abnormal cells; to evaluate treatment (TB) – AFB stains
Instruct pt on how to produce a good specimen; deep breath then cough deeply then expectorate (ex. Pt spits only)
30. Thoracentesis
Specimen from pleural fluid
Treat pleural effusion
Assess for complications
Post-Procedure care:
These tubes, inserted in your chest during the thoracentesis, will remove air, blood, or fluid from the area around your lungs. �Removal of fluid or air from pleural space; performed for diagnostic purposes or to alleviate respiratory distress; a needle biopsy of the pleura may be done
No more than 1000 mL of fluid should be removed at the time (may result in sudden fluid shift: pulmonary edema); fluid withdrawn should be sent to the lab for C&S, analysis of glucose, protein and pH
Complications include pneumothorax from trauma to the lung and pulmonary edema resulting from sudden fluid shifts
Nursing care:
Obtain informed consent
Ensure a CXR is done before and after the procedure ( to check for pneumothorax)
Support the client in the sitting position
Inform the client not to cough during the procedure to prevent trauma to the lungs
Assess pulse and respirations before, during and after the procedure
Obtain specimen of pleural fluid for dx; sometime tx for pleural effusion if excessive amounts
Large bore needle into pleural space
STAT CXR always after procedure to check for pneumothorax ( d/t possibility of puncturing the visceral pleura)
Three different possible positions
sitting on side of bed over bedside table chest elevated
lying on affected side
straddling a chair
Effusion without a secure clinical diagnosis (e.g., CHF) or small quantity
Thoracentesis is a diagnostic procedure done in patients who have abnormal amounts of fluid accumulation in the pleural space.
The procedure is usually done at the bedside under local anesthesia.
The needle is placed through the chest wall into the pleural space and fluid is then withdrawn into a syringe.
�infection and bleeding at site, reaccumulation of pleural fluid,
Pneumothorax is a condition in which air gets between your lungs and your chest wall. Pneumothorax is one cause of a collapsed lung — a serious, sometimes life-threatening, condition.
Normally, two thin layers of moist tissue (pleura) separate your lungs and chest wall. Any air that leaks through lung tissue into this space (pleural space) will cause the lung tissue to collapse in proportion to the amount of air that enters the pleural cavity.
Air can collect in the pleural space for many reasons, including:
An injury that damages the chest wall, such as a stab or gunshot wound
A broken rib that punctures the lung
A procedure or surgery that involves the lung or chest wall
Spontaneous pneumothorax, which is thought to be due to the rupture of an air-filled blister on the surface of the lung
In many cases, the cause of a pneumothorax can't be determined. People with underlying lung disease, such as asthma or cystic fibrosis, may be at increased risk of pneumothorax.
Signs and symptoms of pneumothorax include:
Sudden, sharp chest pain
Shortness of breath
Chest tightness
A doctor can confirm a diagnosis of pneumothorax by a chest X-ray. Occasionally, the air leak seals itself. Depending on the severity, a doctor can remove the air from the pleural space with a tube inserted between the ribs and attached to a suction device. Surgery may be needed when suction isn't effective or for recurrent pneumothorax.
If air continues to enter the pleural space, tension pneumothorax occurs. The large amount of air may push the center of the chest (mediastinum) toward the other lung, compressing it. This is life-threatening and requires immediate insertion of a chest tube between the ribs to relieve the increased pressure.
These tubes, inserted in your chest during the thoracentesis, will remove air, blood, or fluid from the area around your lungs. Removal of fluid or air from pleural space; performed for diagnostic purposes or to alleviate respiratory distress; a needle biopsy of the pleura may be done
No more than 1000 mL of fluid should be removed at the time (may result in sudden fluid shift: pulmonary edema); fluid withdrawn should be sent to the lab for C&S, analysis of glucose, protein and pH
Complications include pneumothorax from trauma to the lung and pulmonary edema resulting from sudden fluid shifts
Nursing care:
Obtain informed consent
Ensure a CXR is done before and after the procedure ( to check for pneumothorax)
Support the client in the sitting position
Inform the client not to cough during the procedure to prevent trauma to the lungs
Assess pulse and respirations before, during and after the procedure
Obtain specimen of pleural fluid for dx; sometime tx for pleural effusion if excessive amounts
Large bore needle into pleural space
STAT CXR always after procedure to check for pneumothorax ( d/t possibility of puncturing the visceral pleura)
Three different possible positions
sitting on side of bed over bedside table chest elevated
lying on affected side
straddling a chair
Effusion without a secure clinical diagnosis (e.g., CHF) or small quantity
Thoracentesis is a diagnostic procedure done in patients who have abnormal amounts of fluid accumulation in the pleural space.
The procedure is usually done at the bedside under local anesthesia.
The needle is placed through the chest wall into the pleural space and fluid is then withdrawn into a syringe.
31. Chabner, 2007 Pneumothorax
32. Pulmonary Function Test (PFTs)
Evaluate lung function
Observe for increased dyspnea or bronchospasm
Instructions:
Tidal volume, forced inspiratory volume
Use of spirometer- to show air movement as pt performs prescribed maneuvers- by RT
PFT- Done by RT
To evaluate lung function
Uses a fancy spirometer, blows hard, fast and as long as possible into the mouthpiece
Provide rest after procedure
No bronchodilators for 6 hours prior to procedure
These are tests that assess your lung function or capacity. They involve taking normal and deep breaths, as well as breathing out as hard as you can into a tube. Occasionally, you will be asked to briefly hold your breath. Your results are adjusted based on your age, gender, race, and height. Pulmonary function tests provide one measure of how well controlled your asthma is. Your physician will use your results, along with your symptoms, to assess the severity of your asthma, as well as your response to treatment.
Tidal volume, forced inspiratory volume
Use of spirometer- to show air movement as pt performs prescribed maneuvers- by RT
PFT- Done by RT
To evaluate lung function
Uses a fancy spirometer, blows hard, fast and as long as possible into the mouthpiece
Provide rest after procedure
No bronchodilators for 6 hours prior to procedure
These are tests that assess your lung function or capacity. They involve taking normal and deep breaths, as well as breathing out as hard as you can into a tube. Occasionally, you will be asked to briefly hold your breath. Your results are adjusted based on your age, gender, race, and height. Pulmonary function tests provide one measure of how well controlled your asthma is. Your physician will use your results, along with your symptoms, to assess the severity of your asthma, as well as your response to treatment.
33. 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 Oximetry- which patients do you need to monitor pulse oximetry on?
Arterial and venous O2 Sat
Device attach t earlobe, finger, or nose, or foot (babies)
Continuously monitored in ICU or 24 hours after sx; spot checks in med-surg pts
Alteredresults with motion, low perfusion, acrylic nails
Notify MD if < 90%, r 92-93% (follow agency protocol or MD specific order if any)
IGGY: Medical emerg – 86%; call md if less thatn 91%Oximetry- which patients do you need to monitor pulse oximetry on?
Arterial and venous O2 Sat
Device attach t earlobe, finger, or nose, or foot (babies)
Continuously monitored in ICU or 24 hours after sx; spot checks in med-surg pts
Alteredresults with motion, low perfusion, acrylic nails
Notify MD if < 90%, r 92-93% (follow agency protocol or MD specific order if any)
IGGY: Medical emerg – 86%; call md if less thatn 91%
34. Chabner, 2007 MRI Frontal View
White masses = Hodgkin Disease lesions
35. Chabner, 2007 MRI – transverse view – same patient
36. Nursing Assessment:�Cardinal Signs and Symptoms of:��1. Cough�2. Sputum�3. Dyspnea
37. 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
38. 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) Pneumococcal pneumonia = underlinedPneumococcal pneumonia = underlined
39. 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 PND = paroxysmal nocturnal dyspnea = intermittent dyspnea during sleep
orthopnea = SOB when lying down, relieved by sitting up
Both indicative of chronic lung disease and left-sided heart failurePND = paroxysmal nocturnal dyspnea = intermittent dyspnea during sleep
orthopnea = SOB when lying down, relieved by sitting up
Both indicative of chronic lung disease and left-sided heart failure
40. Lung sounds wheezing
crackles
stridor
auscultation – sequence pg. 534, Iggy
bronchial = trachea & mainstem bronchi
bronchovesicular = branching bronchi
vesicular = small bronchiole periphery Incorporate CD of lung sounds hereIncorporate CD of lung sounds here
41. Pneumonia: Case Study Pneumonia is a serious infection causing inflammation to one or both lungs. The air sacs (alveoli) in the lungs fill with fluid and pus, making it difficult for the person affected to breathe. When the air sacs in the lungs' fill it impairs their main function, which is to get oxygen from the air into the bloodstream
organism reaches lower resp tract
Outpouring of inflammatory exudate and cells
WBCs phagocytize the organisms and release enzymes
Portions of the lungs fill with exudate and inflammatory cells - consolidation
Pneumonia is a serious infection causing inflammation to one or both lungs. The air sacs (alveoli) in the lungs fill with fluid and pus, making it difficult for the person affected to breathe. When the air sacs in the lungs' fill it impairs their main function, which is to get oxygen from the air into the bloodstream
organism reaches lower resp tract
Outpouring of inflammatory exudate and cells
WBCs phagocytize the organisms and release enzymes
Portions of the lungs fill with exudate and inflammatory cells - consolidation
42. Course Packet (2007), pgs 115-117 Nursing Student Tools
Concept Map – Pneumonia
Medical-Surgical Map (Medimap)
Nursing Map
43. Pathophysiology Inhalation of pathogens in air droplets
Aspiration of infected secretions from the upper respiratory tract
Aspiration of infected particles from gastric contents, food, or debris
Hematogenous spreadInhalation of pathogens in air droplets
Aspiration of infected secretions from the upper respiratory tract
Aspiration of infected particles from gastric contents, food, or debris
Hematogenous spread
44. Toxic sprinkles anyone?
45. Etiology Cause
bacteria (75%)
viruses
fungi
Mycoplasma
parasites
chemicals What causes pneumonia?
Pneumonia can be caused by bacteria, viruses, fungal infections or chemical exposure, sometimes the exact cause of pneumonia is never known. The most common types of pneumonia are as follows:
Bacterial pneumonia develops when bacteria that normally live harmlessly in the throat enter the lungs. This usually happens when the body's immune system is weakened in some way. This usually occurs after an upper respiratory infection, such as influenza. The lungs are damaged enough to allow the bacteria to infect the area. Bacterial pneumonia is usually caused by bacteria called either pneumococcus or streptococcus pneumoniae.
The pneumonia 'Legionnaire's disease' is caused by the bacterium Legionella pneumophila and is found in faulty air conditioning units of large buildings e.g. hospitals or hotels. The bacteria can survive in warm, moist, air conditioning units and if present can cause an outbreak of the disease. The name comes from an epidemic in 1976, when 29 American Legion members all mysteriously died after staying at the same hotel. However, the disease is usually mild and is treated with antibiotics.
Viral pneumonia is caused by simple viral organisms which, are often similar to those responsible for the common cold. Viral pneumonia is also a common complication of other illnesses such as colds, influenza, measles, herpes and chickenpox. Viral pneumonia is usually milder than bacterial pneumonia and lasts a shorter period of time.
Mycroplasma pneumonia is caused by a micro-organism of the same name. Mycroplasma pneumonia is spread by close contact with an infected person and is more common in young adults. Some people who are infected with this type of pneumonia may never experience any symptoms. If the infected person is in good health, the illness is not as serious as normal pneumonia and there are rarely any complications.
Aspiration pneumonia is caused when bacteria enters into the lungs from the mouth or stomach during vomiting. This type is usually more common in alcoholics.
Pneumocystis Carinii Pneumonia (P.C.P.) is caused by a micro-organism that may live harmlessly in normal lungs. P.C.P. often develops as a secondary infection in patients whose immune system is weakened by illnesses such as cancer and HIV. P.C.P. can be the first sign of illness in people with HIV.
What are the symptoms of pneumonia?
Symptoms of both bacterial and viral pneumonia are similar and usually last about 2 weeks. Symptoms may include any of the following:
High temperature.
Severe shaking and chills.
Cough that worsens over time and is often accompanied by phlegm.
Severe chest pain or tightness in the chest.
Shortness of breath.
Loss of appetite.
Tiredness and fatigue.
General muscle aches.
If you believe you might have pneumonia or have a persistent cough, then you should visit your doctor for further advice.
Am I at risk of getting pneumonia?
Anyone can get pneumonia, even the young. However, it is more common and more serious if you:
Are elderly.
Have had your spleen removed.
Are an alcoholic.
Suffer with asthma, heart conditions, lung diseases or diabetes.
Smoke.
Have a weak immune system (caused by long term illness such as cancer or HIV).
How is pneumonia diagnosed?
Your doctor can usually diagnose pneumonia by listening to you breathe with a stethoscope. If he/she suspects you have pneumonia, you will usually be referred to a hospital for a chest X-ray to see how bad the condition is.
If the condition is severe the doctor will take a sample of your phlegm to examine under a microscope. The doctor will then try to grow the organism that is causing the infection, to find out which type of pneumonia you have.
What treatment is there for pneumonia?
If you have bacterial pneumonia your doctor will prescribe antibiotics, if however, you have viral pneumonia it will get better on its own. With both types of pneumonia you should get plenty of bed rest, take painkillers to reduce the fever and drink 8 glasses of juice or water a day.
If pneumonia is severe you may need to be hospitalized for treatment. Treatments you receive in hospital may include; supplementary oxygen to help with breathing, physiotherapy to help clear mucus and/or antibiotics given directly into the vein. However, the majority of people with pneumonia will not need to be hospitalized.What causes pneumonia?
Pneumonia can be caused by bacteria, viruses, fungal infections or chemical exposure, sometimes the exact cause of pneumonia is never known. The most common types of pneumonia are as follows:
Bacterial pneumonia develops when bacteria that normally live harmlessly in the throat enter the lungs. This usually happens when the body's immune system is weakened in some way. This usually occurs after an upper respiratory infection, such as influenza. The lungs are damaged enough to allow the bacteria to infect the area. Bacterial pneumonia is usually caused by bacteria called either pneumococcus or streptococcus pneumoniae.
The pneumonia 'Legionnaire's disease' is caused by the bacterium Legionella pneumophila and is found in faulty air conditioning units of large buildings e.g. hospitals or hotels. The bacteria can survive in warm, moist, air conditioning units and if present can cause an outbreak of the disease. The name comes from an epidemic in 1976, when 29 American Legion members all mysteriously died after staying at the same hotel. However, the disease is usually mild and is treated with antibiotics.
Viral pneumonia is caused by simple viral organisms which, are often similar to those responsible for the common cold. Viral pneumonia is also a common complication of other illnesses such as colds, influenza, measles, herpes and chickenpox. Viral pneumonia is usually milder than bacterial pneumonia and lasts a shorter period of time.
Mycroplasma pneumonia is caused by a micro-organism of the same name. Mycroplasma pneumonia is spread by close contact with an infected person and is more common in young adults. Some people who are infected with this type of pneumonia may never experience any symptoms. If the infected person is in good health, the illness is not as serious as normal pneumonia and there are rarely any complications.
Aspiration pneumonia is caused when bacteria enters into the lungs from the mouth or stomach during vomiting. This type is usually more common in alcoholics.
Pneumocystis Carinii Pneumonia (P.C.P.) is caused by a micro-organism that may live harmlessly in normal lungs. P.C.P. often develops as a secondary infection in patients whose immune system is weakened by illnesses such as cancer and HIV. P.C.P. can be the first sign of illness in people with HIV.
What are the symptoms of pneumonia?
Symptoms of both bacterial and viral pneumonia are similar and usually last about 2 weeks. Symptoms may include any of the following:
High temperature.
Severe shaking and chills.
Cough that worsens over time and is often accompanied by phlegm.
Severe chest pain or tightness in the chest.
Shortness of breath.
Loss of appetite.
Tiredness and fatigue.
General muscle aches.
If you believe you might have pneumonia or have a persistent cough, then you should visit your doctor for further advice.
Am I at risk of getting pneumonia?
Anyone can get pneumonia, even the young. However, it is more common and more serious if you:
Are elderly.
Have had your spleen removed.
Are an alcoholic.
Suffer with asthma, heart conditions, lung diseases or diabetes.
Smoke.
Have a weak immune system (caused by long term illness such as cancer or HIV).
How is pneumonia diagnosed?
Your doctor can usually diagnose pneumonia by listening to you breathe with a stethoscope. If he/she suspects you have pneumonia, you will usually be referred to a hospital for a chest X-ray to see how bad the condition is.
If the condition is severe the doctor will take a sample of your phlegm to examine under a microscope. The doctor will then try to grow the organism that is causing the infection, to find out which type of pneumonia you have.
What treatment is there for pneumonia?
If you have bacterial pneumonia your doctor will prescribe antibiotics, if however, you have viral pneumonia it will get better on its own. With both types of pneumonia you should get plenty of bed rest, take painkillers to reduce the fever and drink 8 glasses of juice or water a day.
If pneumonia is severe you may need to be hospitalized for treatment. Treatments you receive in hospital may include; supplementary oxygen to help with breathing, physiotherapy to help clear mucus and/or antibiotics given directly into the vein. However, the majority of people with pneumonia will not need to be hospitalized.
46. 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 CAP: Important infection worldwide
Most common in the winter months
HAP
Developing >2 days after arrival in hospital
Increased risk in:
assisted ventilation
pre-existing lung disease
aspiration
or anyone immunocompromised
Aspiration- form aspiration of secretions and substances into lower resp airways from mouth or stomach into trachea dn then to lngs
At risk: loss of consciousness: alcoholic, stroke, seizures, anesthesia, coma-where cough and gag reflex depressed
Opportunistic- HIV pts. Pneumocystis carinii, cytomegalovirus, fungi – in immunocompormised ptsCAP: Important infection worldwide
Most common in the winter months
HAP
Developing >2 days after arrival in hospital
Increased risk in:
assisted ventilation
pre-existing lung disease
aspiration
or anyone immunocompromised
Aspiration- form aspiration of secretions and substances into lower resp airways from mouth or stomach into trachea dn then to lngs
At risk: loss of consciousness: alcoholic, stroke, seizures, anesthesia, coma-where cough and gag reflex depressed
Opportunistic- HIV pts. Pneumocystis carinii, cytomegalovirus, fungi – in immunocompormised pts
47. 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
48. Clinical Manifestations - 1 Fevers, chills, anorexia
Pleuritic chest pain
SOB
Crackles / wheezes
Cough, sputum production
Tachypnea Insert lung sounds and pneumonia example from Cardionics CDInsert lung sounds and pneumonia example from Cardionics CD
49. 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”
Walking Pneumonia is an infection of the lungs that stems from a bacterial infection (Mycoplasma Pneumonia), mostly affecting people under the age of 40. The patient may have symptoms lasting from days to weeks. Once a diagnosis is made, proper treatment is with antibiotics. It is called "walking Pneumonia" because people do not appear to be very sick, even though they have Pneumonia. �
Usually begin with vague symptoms such as feeling tired or weak, headaches, sore throat, or diarrhea. �
Eventually, most develop a dry cough. They can, also, develop fever, chills, earaches, chest pain, enlarged lymph nodes in the neck, and muscle or joint pains. A few patients may feel short of breath. �
Walking Pneumonia is an infection of the lungs that stems from a bacterial infection (Mycoplasma Pneumonia), mostly affecting people under the age of 40. The patient may have symptoms lasting from days to weeks. Once a diagnosis is made, proper treatment is with antibiotics. It is called "walking Pneumonia" because people do not appear to be very sick, even though they have Pneumonia.
Usually begin with vague symptoms such as feeling tired or weak, headaches, sore throat, or diarrhea.
Eventually, most develop a dry cough. They can, also, develop fever, chills, earaches, chest pain, enlarged lymph nodes in the neck, and muscle or joint pains. A few patients may feel short of breath.
50. Diagnosis Diagnosis ?
Physical exam ? crackles, rhonchi / wheezes
CXR ? area of increased density
(infiltrates / consolidation)
Sputum specimen –
Gram stain *always obtain both PA & Lateral films
For complicated pneumonia- gram stain and ID the infecting organism
Rapid Diagnostic studies
The infectious agent is the most valuable piece of information in managing a complicated pneumonia.
Gram stain - bacteria
Acid fast - mycobacteria
DFA - Pneumocystis, influenza, legionella
PCR - chlamydia, mycoplasma, mycobacteria, legionella, hantavirus
EIA - influenza, RSV
Treatments: hydration, proper nutrition, support 02; ABX IV, HHN tx, analgesics
Treat with abx based on source of infection (com vs hosp acquired;) type of org present; and severity
New antibiotics
Cephalosporins
Macrolides/ketolides
Fluoroquinolones
Route of administration
Oral
Intravenous
Intramuscular
Admission decisions related to :hypoxia, inadequate oral intake, lack of home care support
Antibiotic Decision Making: Severity of disease, Microbiology environment, Patient, Host status, Individual considerations
*always obtain both PA & Lateral films
For complicated pneumonia- gram stain and ID the infecting organism
Rapid Diagnostic studies
The infectious agent is the most valuable piece of information in managing a complicated pneumonia.
Gram stain - bacteria
Acid fast - mycobacteria
DFA - Pneumocystis, influenza, legionella
PCR - chlamydia, mycoplasma, mycobacteria, legionella, hantavirus
EIA - influenza, RSV
Treatments: hydration, proper nutrition, support 02; ABX IV, HHN tx, analgesics
Treat with abx based on source of infection (com vs hosp acquired;) type of org present; and severity
New antibiotics
Cephalosporins
Macrolides/ketolides
Fluoroquinolones
Route of administration
Oral
Intravenous
Intramuscular
Admission decisions related to :hypoxia, inadequate oral intake, lack of home care support
Antibiotic Decision Making: Severity of disease, Microbiology environment, Patient, Host status, Individual considerations
51. www.med.wayne.edu CXR- �LUL Pneumonia
52. Interventions and Treatment
Treatment
Antibiotics ? choose based on age, suspected cause & immune status
Supportive care ? IV fluids, supplemental oxygen therapy, respiratory monitoring, cough enhancement
*may take 6-8 weeks for CXR to normalize
53. Nursing Diagnoses… Impaired gas exchange R/T Pneumonia
Pain R/T infection in lung Pneumonia
Impaired gas exchange RT inflammatory exudate in alveolar space
Pain rt infection in lung
Hyperthermia rt infection
Anxiety rt dyspneaImpaired gas exchange RT inflammatory exudate in alveolar space
Pain rt infection in lung
Hyperthermia rt infection
Anxiety rt dyspnea
54. Complications Hypoxemia
Pleural effusion
Atelectasis
Pleurisy
Pleurisy – inflammation of pleura (pleuritis); common px occurs with Pneumonia
Pleural effusion – usually sterile and is absored in 1-2 weeks; but can be aspirated with thoracentesis if too severe
Atelectasis – collapsed lung; airless alveoli; on one or part of lobe; clear with good TCDB
Which stimulates surfactant – for lung expansion
Delayed resolution – results from persistent infection and is seen on x-ray as residual consolidation: in older people, manouished, COPDs, alcoholics
Empyema – accumulation of purulent exudate in pleura; infreq; need abx and chest tube drainage
Lung abcess – in Staph areus and gram neg pneum; not a common complication
Peridarditis – from spread of MO from infected pleura
Rheumatic heart disease- endocarditis, pericarditisPleurisy – inflammation of pleura (pleuritis); common px occurs with Pneumonia
Pleural effusion – usually sterile and is absored in 1-2 weeks; but can be aspirated with thoracentesis if too severe
Atelectasis – collapsed lung; airless alveoli; on one or part of lobe; clear with good TCDB
Which stimulates surfactant – for lung expansion
Delayed resolution – results from persistent infection and is seen on x-ray as residual consolidation: in older people, manouished, COPDs, alcoholics
Empyema – accumulation of purulent exudate in pleura; infreq; need abx and chest tube drainage
Lung abcess – in Staph areus and gram neg pneum; not a common complication
Peridarditis – from spread of MO from infected pleura
Rheumatic heart disease- endocarditis, pericarditis
55. Chabner, 2007 Atelectasis A = obstruction
B = accumulation of fluid of air
56. Additional learning resources NANDA approved nursing diagnoses specific to respiratory system: p125 of study packet
Skills Lab:
Heart and Lung Sounds Trainer
Learning Lung Sounds, Cardionics CD
Audio-visual material
57. Resources Beers, M. & Berkow, R. (Ed.). (2000). The Merck Manual of Geriatrics (3rd ed.). Whitehouse Station: Merck & Co., Inc.
Chabner (2007). The Language of Medicine (8th ed.). St. Louis: Saunders.
Ignatavicius, D. & Workman, L. (2006). Medical- Surgical Nursing Critical Thinking for Collaborative Care (5th ed.). St. Louis: Elsevier Saunders.
Scherer, D. (2008). Pictures retrieved March 31 and available at dscherer.com
58. dscherer.com
