410+CH+30.pptx

Transcript

Ch. 30
Lower
Respiratory
Problems
TUBERCULOSIS
(TB)
Caused by Mycobacterium tuberculosis
 Gram +, aerobic, AFB

Mostly affects LUNGS bc TB ❤️air (O2)
 Lymph, brain, kidneys, liver, bone

Airborne

Spread from person to person by airborne droplets
expectorated when:
Breathing
Talking
Singing
Sneezing
Coughing
Droplets (1-5µm) stay suspended in the air for
minutes to hours
Cannot spread by touch or contact
 Tuberculosis (TB)
Occurs disproportionately in: Most at risk:
Poor Homeless
Underserved Inner-city neighborhoods
Minorities Foreign-born people
Those living or working in
institutions
(hospitals, LTC, prisons, shelters)
IVDU
Immunosuppression from any
cause
HIV, cancer, long-term
corticosteroid use
Rates of TB ↓ until the mid- Factors that influence
1980s transmission Ghon lesion or focus
↑ in TB 2/2: HIV + MDR-TB 1). Number of Once inhaled  TB lodge
HIV:
 TB leading cause of organisms expelled in bronchioles and aveoli
into the air A local inflammatory rxn
mortality
MDR-TB 2). Concentration of occurs
 Multidrug-resistant TB Calcified TB granuloma
 Happens once a strain organisms = hallmark of primary TB
develops resistance to 3). Length of time of = a defense mechanism
the first-line meds: exposure to wall off infxn and
 isoniazid or INH 4). Immuse system of prevent further spread
 rifampin or Rifadin
the exposed person
TB CLASSIFICATION
Presentation
Primary, latent, reactivated Primary TB infection
Whether pulmonary or Starts when bacteria are inhaled, trigger inflammatory
extrapulmonary reaction
Most people have effective immune response here

Active TB infection Post-primary TB or reactivation TB
Primary TB – active disease within 2 years of Occurs >2 years after initial infection
infection Patient infectious if site of TB is pulmonary or
People co-infected with HIV at greatest risk laryngeal

Latent TB infection (LTBI)
Occurs when there is not active TB disease
Positive skin test but asymptomatic
Cannot transmit TB; can develop active TB later
Reactivation can occur with some diseases, stress
Treatment is as important as it is for primary TB
Clinical
manifestation
s
Symptoms appear 2-
3 weeks after
infection

Initial: cough
Late:
Dyspnea
Hemoptysis
COMPLICATIONS OF
TB
Miliary TB
Large numbers of organisms spread via the bloodstream to distant organs
Occurs with primary TB or reactivation of LTBI
Fatal if untreated
Manifestations progress slowly and vary depending on which organs are
infected
Fever, cough, and lymphadenopathy
May include hepatomegaly and splenomegaly
Pleural TB—extrapulmonary

Primary TB disease or reactivation of LTBI

Pleural effusion

Empyema
Acute and long-term complications may occur
when TB infects other organs
Spine (Pott’s disease)—destruction of intervertebral discs and adjacent
vertebrae
CNS—bacterial meningitis
Abdomen—peritonitis
Other: kidneys, adrenal glands, lymph nodes and urogenital tract
 TB: Diagnostics +
Screening tests
DIAGNOSTICS:

Culture is the gold standard
3 consecutive sputum specimens
Collected at 8-24 hour intervals
Need 1 to be Early AM specimen
Growth of mycobacterium can take up to 6 weeks

Chest xray
Cavitary infiltrates
Upper lobe infiltrates
Lymph node involvement
Pleural effusion (+/- pericardial)
Sarcoidosis and other dz mimic TB

SCREENING TESTS:

PPD:
Purified protein derivative injected intradermally
Called the Mantoux test is a tuberculin skin test
Read at 48-72 hours
2 step process for initial or baseline screen

Interferon-𝛄 Release Assays
Positive reaction means exposed to Mycobacterium tuberculosis.

IGRA: blood test
QuantiFERON-TB Gold
T-SPOT.TB
Ready in a few hours
 TB Treatment
For the
For the initial
continuation
phase
phase
4 drugs 2 drugs
3 months 18 weeks

Drug alert:
ISONIAZID Major side effect
ETOH ↑ Hepatic Tox Isoniazid Rifampin Non-viral hepatitis
Pt edu: no ETOH use Obtain baseline
INH competes with LFTs
B6 or Pyridoxine  LFT q2-4 weeks
peripheral Orange-
neuropathy Pyrazinamid discoloration of
Ethambutol
Latent TB e bodily fluids

Prevents active Ethambutol
TB dz
1 drug regimen: EYE
Isoniazid Exams

live attenuated strain of Mycobacterium BCG vaccine can result in
BCG vaccine: bovis false positive TST
 TB
DOT
Treatment
Directly observed therapy
Used to ensure adherence
Nonadherence major factor in
MDR-TB
Expensive
Public health nurse @ a clinic
site
 TB: Nursing diagnoses and
implementation
Nursing diagnoses Acute care Ambulatory care
Impaired AIRBORNE May go home even if
cultures positive
breathing ISOLATION Monthly sputum cultures
Impaired airway Medical work-up Two consecutive
clearance CXR negative cultures =
noninfectious
Risk for infection Sputum culture Teach patient how to
Lack of knowledge Appropriate drug minimize exposure to
others
therapy Teach importance of
Mask outside of adherence to patient and
Health promotion NPR caregiver; provide
strategies
Screen Notify public health
department
Programs to Public health nurse
address SDH follow-up
DOT
Teach symptoms of
recurrence, factors that
could reactivate TB
Smoking cessation
 Lung Abscess

Etiology and pathophysiology
Necrosis of lung Other: IV drug use,
tissue from cancer, PE, lung
Multiple abscesses
aspiration of infarction, TB,
Develops slowly multiple microbes —necrotizing
bacteria from parasitic and
pneumonia
periodontal fungal diseases,
disease (mouth) sarcoidosis

Posterior upper lobes most often
affected
May erode into bronchi: foul-
May grow into pleura: pleuritic pain
smelling sputum

11
 Nursing and
Clinical Diagnostic Interprofessional If antibiotics not
Complications: interprofessional
manifestations: studies and nursing care effective:
management
occur slowly (weeks pulmonary abscess Chest x-ray Monitor for signs of Teach: effective Percutaneous
to months) bronchopleural Other: CT scan; hypoxemia, coughing drainage of abscess
Cough-producing fistula sputum, pleural respiratory distress; Supportive Surgery: lobectomy
purulent sputum; fluid, and blood apply O2 measures: rest, or pneumonectomy
Bronchiectasis
foul smell and taste; cultures; IV antibiotics nutrition, fluids
hemoptysis empyema bronchoscopy, WBC initially then switch Dental care
Other: fever, chills, to oral therapy
night sweats, Patient education—
pleuritic pain, complete entire
dyspnea, anorexia, prescription
weight loss
Decreased breath
sounds; crackles

Lung Abscess
12
 Restrictive
Respiratory
Disorders
Atelectasis
Pleurisy
Pleural Effusion + Empyema
Restrictive Respiratory
Disorders

Disorders that impair movement of the chest
wall and diaphragm

Extrapulmonary2 categories:
Intrapulmonary
Lung tissue normal but caused by CNS, Abnormal pleural or lung tissue disorders
neuro-muscular or chest wall disorders

Hallmark characteristic
PFTs best way to distinguish
reduced FEV1 on PFTs restrictive from obstructive
respiratory disorders
14
  Collapsed, airless alveoli
 Decreased or absent breath sounds
 Dullness on percussion
 Caused by: secretions obstructing
small airways
 At risk: bedridden and postop surgery
patients
 Prevention and treatment
 Deep breathing exercises, incentive
Atelectasis spirometry, early mobility

15
Atelectasis

16
 PLEURISY
Pleurisy is inflammation of
the sheet-like layers that
cover the lungs (the
pleura).
The most common
symptom of pleurisy is a
sharp chest pain when
breathing deeply.
Sometimes the pain is also
felt in the shoulder.
ETIOLOGY ASSESSMENT
infectious diseases
FINDINGS
cancer, autoimmune PLEURAL
disorders
chest trauma FRICTION RUB
GI disease heard peak of
certain medications. inspiration

Treatment

underlying cause and pain management
Teach splinting rib cage when coughing
 PLEURAL
EFFUSION CAUSES TYPES
congestive Pleural fluid
heart failure puncture (pleural
cancer, tap) enables the
pneumonia differentiation of
pulmonary transudate
embolism exudate
Empyema

Interprofessional and
Clinical manifestations:
nursing care

Dyspnea, cough, sharp Treat underlying cause
chest pain Chemical pleurodesis –
Decreased chest obliterate pleural space
a buildup of fluid movement; dullness, a procedure which
decreased breath sounds involves putting a mildly
between the layers of on affected side irritant drug into the
tissue that line the Chest x-ray and CT—
location and volume
space between your lung
and chest wall (the
lungs and chest Empyema: above pleural space
cavity manifestation and fever,
night sweats, cough,
weight loss
EMPYEMA

collection of purulent fluid in the
pleural space.

Caused by
pneumonia
TB
lung abscess
infected surgical wounds of the chest.

Treatment options include
antibiotic therapy (to eradicate the causative
organism)
percutaneous drainage
chest tube insertion
VATS
intrapleural fibrinolytic therapy (instilled
through the chest tube) to dissolve fibrous
adhesions
Decortication
open window thoracostomy.
Chest Trauma and
Thoracic Injuries
 Chest Trauma
Traumatic injuries to chest
contribute to many MECHANISMS OF INJURY
traumatic deaths

Blunt
Simple rib Chest strikes or is struck by an object
Range of fractures to Shearing and compression injuries of chest
cardiorespirator
injuries y arrest
structures
External appearance may be minor but may
have severe internal organ damage

Penetrating
Classify primary Foreign object impales or passes through
mechanisms of injury as body tissues creating an open wound
either blunt or
penetrating trauma
21
 Fractured Ribs
Most common ribs 5
through 9 – least
protected by chest
Blunt trauma muscles
Can damage pleura, lungs,
heart, and other internal
organs

Manifestations Complications
Pain with inspiration and Atelectasis and pneumonia
coughing Taping, using a thoracic binder
Splinting not recommended
Shallow respirations

Treatment Patient teaching
Reduce Pain: NSAIDs, opioids, Deep breathing and coughing
nerve blocks Incentive spirometry
Appropriate use of analgesics
Early mobility when
appropriate
22
 Flail Chest
Flail chest:

3 or more consecutive fractured ribs in 2 or more places or fractured sternum and
several consecutive ribs

Causes unstable chest wall and paradoxical movement with
breathing
Flail segment moves opposite
Inspiration—sucked in
Expiration—bulges out
Inadequate ventilation;  work of breathing (WOB)

Physical examination

Rapid, shallow respirations
Asymmetric and uncoordinated chest movement
Inadequate ventilation
Splinting
Crepitus near fractures

Diagnostic study

Chest x-ray

Treatment

Ensure adequate ventilation/lung expansion
Adequate oxygenation
Pain management
Other, if needed:
Intubation and mechanical ventilation
Surgical fixation

23
PNEUMOTHORAX
 Caused by air entering pleural cavity
 Positive pressure in pleural space causes lung to
partially or fully collapse
 Increased air in pleural space equals reduced
lung volume
 Open: opening in chest wall
 Penetrating trauma—sucking chest wound
 Closed: no external wound

 Suspect pneumothorax with chest wall trauma

Diagnostic Study: Chest x-
ray
Shows air or fluid in pleural space
and reduced lung volume
Pneumothorax Manifestations

Small pneumothorax
Mild tachycardia and dyspnea

Large pneumothorax
Respiratory distress
Short, shallow, rapid respirations,
dyspnea, low O2 saturation
Absent breath sounds over affected
area
 Types of Pneumothorax
Spontaneous— Iatrogenic —medical Tension Tension
rupture of blebs procedures pneumothorax pneumothorax Hemothorax
Can occur in Biopsies Accumulation of air Tension Blood in pleural
healthy or subclavian catheter in pleural space pneumothorax = space
chronically ill insertion that cannot escape medical emergency Treat with chest
persons ventilator results in increased Manifestations tube
COPD esophageal trauma intrapleural Severe
asthma pressure dyspnea,
cystic fibrosis Causes mediastinal tachycardia, Hemopneumothor
pneumonia shift and tracheal ax
Risk factors: Tall, hemodynamic deviation,
instability: reduced decreased or
thin, male, family venous return and Chylothorax
history, or previous absent breath
reduced cardiac sounds on Lymphatic fluid in pleural
spontaneous output space
pneumothorax affected side, Treat conservatively or with
Can occur with neck vein Octreotide
open or closed distention, Refractory options: surgery
or pleurodesis
pneumothorax cyanosis,
diaphoresis
May be fatal if
pressure in pleural
space not relieved
Urgent needle
decompression
 TREATMENT OF
PTX
Treatments

*Chest tubes with water-seal drainage
Other: partial pleurectomy, stapling, or
pleurodesis
Emergency treatment consists of covering the
wound with an occlusive dressing that is
secured on 3 sides (vent dressing).

Tension pneumothorax

Needle decompression— immediate
A needle decompression involves inserting a
large bore needle in the second intercostal
space, at the midclavicular line. Once this is
done, there should be an audible release as
the trapped air, and as the tension is
released the patient should begin to improve
Chest tube and water-seal drainage
CHEST TUBES
May be placed in ED, OR, or at bedside

Standard insertion site: midaxillary

HOB elevate 30 to 60 degrees; arm raised above
head

Antiseptic cleanse; local anesthetic

Small incision over rib, chest tube inserted

Sutured in place; occlusive dressing

Connect pleural drainage system

Chest x-ray to confirm placement
CHEST DRAINAGE UNIT

Chest drainage
Bubblingunit. This unit has 3 chambers:
in water-seal
Tidaling in water-seal Chest drainage
Wet suction
unit. This unit Dry
hassuction—no
3 chambers: water
(1) collection chamber
chamber
chamber (1) collection chamber (less noise)
Brisk at first,
(2) water-seal chambereventually Fluctuation of water with (2) water-seal
Amount chamber;
of water in Dial regulator to
disappears as lung pressure changes during chamber
(3) suction (20control
cm) pressure; control
chamber. Suction visual alert
chamber
(3) suction
expandscontrol chamber. Suction control chamber requires a
respiration controls suction
connection to a
Intermittent withwall suction source that is dialed up higher
Disappears as lung re- requires
Excess a connection
suction from to a wall suction source that is
than the prescribed suction for the suction to work. In the dialed up higher than the prescribed suction for the
exhalation, coughing, or expands source vented
water suction unit, the suction control chamber controls the
sneezing
wall suction pressure.
If stops suddenly, check suction
Usual suctiontoorder
work. = In the dry suction unit the wall suction is
for occlusion −20 cm H2O
(From Atrium Medical Corporation, Hudson, N.H.) controlled
Adjust by using a regulator control dial. (From Atrium
suction until
Medical Corporation, Hudson, N.H.)
gentle bubbling in third
chamber
Copyright © 2020 by Elsevier, Inc. All rights reserved.
 Chest tube: nursing
management
Set-up and Insertion Drainage system Chest drainage Wet suction chest drainage
Keep below chest Monitor:
Consent/Aware of procedure Keep tubing loosely coiled Mark and measure drainage Water levels
Gather and set-up Keep connections tight; Report greater than 200 mL/hr in Suction at—20 cm H2O
equipment as per order taped first hour and 100 mL/hr thereafter; Gentle bubbling
replace unit when full
Observe: tidaling, Avoid overturning unit Dry suction chest drainage
bubbling, air leak, fluid Breakage of unit Turn dial to ordered amount
levels Place distal end of chest tube in 2 If decrease suction; depress high-
cm water in sterile container; negativity vent and check water
replace unit level in water-seal chamber
No milking or stripping chest tubes

Chest tube dressings Clamping chest tubes Monitor for
Change according to Not advocated during Complications
agency policy and transport or disconnection
procedure due to risk for tension Reexpansion pulmonary
Petroleum gauze pneumothorax edema
Aseptic technique May clamp briefly to Hypotension
Monitor for infection change drainage unit Severe subcutaneous
Document emphysema
THORACENTESIS
Aspiration of intrapleural
fluid for diagnosis and
treatment
1000 to 1200 mL
Larger volumes result in
hypotension, hypoxemia, re-
expansion pulmonary
edema
Chest x-ray: pneumothorax
Monitor VS, pulse ox, and
respiratory distress
 PULMONARY EDEMA

is an abnormal complication of left-sided HF.
accumulation of various heart and
fluid in the alveoli lung diseases
and interstitial
spaces of the
lungs.
Causes of Pulmonary Edema
Goals include
simultaneously Acute respiratory distress syndrome (ARDS)
#1 Administer O2 to Altered capillary permeability of lungs: aspiration,
improving oxygenation,
keep SpO2 > 90% inhaled toxins, inflammation (e.g., pneumonia), severe
ventilation, and cardiac
hypoxia, near-drowning
output. Anaphylactic (allergic) reaction
Hypoalbuminemia: nephrotic syndrome, liver disease,
nutritional disorders
reduce preload IV morphine --> can Left ventricular (heart) failure
(diuretics or NTG) reduce afterload Lymph system cancer (e.g., non-Hodgkin lymphoma)
Overhydration with IV fluids
O2 toxicity
Unknown causes: neurogenic condition, opioid overdose,
reexpansion pulmonary edema, high altitude
 Pulmonary Hypertension
Elevated pulmonary
artery pressure
(> 20 mm Hg)
Five Classes (World Health
due to an increase in
resistance to blood flow
Organization) based on
through the pulmonary
circulation causes
Mean pulmonary artery
pressures Group 1: Group 5:
medication, Group 4: CV Multifactorial:
Normal 12 to16 mm Hg specific
Group 2: left-
Group 3: lungs system and hematologic,
sided heart
Greater than 25 mm Hg at disease, genetic
failure
and hypoxia thromboembolis renal or
link or m metabolic
rest idiopathic involvement
Greater than 30 mm Hg with
exercises

33
 Pulmonary Hypertension
Idiopathic Pulmonary Arterial Secondary Pulmonary Arterial
Cor Pulmonale
Hypertension (IPAH) Hypertension (SPAH)
Pulmonary hypertension Chronic increase in pulmonary Enlarged right ventricle
without known cause results in artery pressures from another secondary to disorder of
right HF and death if disease respiratory system; COPD
untreated Parenchymal lung disease, LV Pulmonary hypertension
Previously known as primary dysfunction, intracardiac preexists; HF
pulmonary hypertension shunts, chronic PE, or Clinical manifestations
Etiology and Pathophysiology systemic connective tissue Subtle and often masked by
Uncertain; related to disease lung symptoms
connective tissue disease, Symptoms: dyspnea, fatigue, Exertional dyspnea,
cirrhosis, and HIV lethargy, chest pain; RV tachypnea, cough, fatigue,
Insult to pulmonary hypertrophy and right-sided RV hypertrophy (ECG),
endothelium results in heart failure increased intensity in S2
vascular scarring, endothelial Diagnosis—similar to IPAH heart sound, polycythemia
dysfunction, and smooth Treatment—treat underlying HF: peripheral edema, weight
muscle proliferation cause; if irreversible—IPAH gain, distended neck veins,
Affects females more than therapies full, bounding pulse, enlarged
males liver
34
Pathogenesis of
Pulmonary
Hypertension
and Cor
Pulmonale

35
Clinical
Manifestations and
Diagnostic Studies
Clinical
Diagnostics
manifestations
Classic: dyspnea on Right-sided heart
exertion and fatigue catheterization
Other: exertional ECG, chest x-ray,
chest pain, PFTs, echo, CT scan
dizziness, and Average time
syncope, abnormal between onset and
heart sounds (S3) diagnosis is about 2
Progression: years; disease is
dyspnea at rest, advanced by that
right ventricular point
hypertrophy (cor
pulmonale), HF
36
 Early recognition—stop progression
Report: unexplained shortness of breath, syncope, chest
discomfort, edema of feet and ankles
Drug therapy
Pulmonary vasodilation, reduce right ventricular overload, and
reverse remodeling
Interprofession Manage edema
Prevent thrombi
al and Nursing Prevent hypoxia

Care Goal – keep O2 saturation 90% or greater
(Pulmonary Surgical interventions
HTN) Pulmonary thromboendarterectomy (PTE)
Atrial septostomy (AS)—palliative
Lung transplant
Disease recurrence has not been reported

No cure
Treatment can relieve symptoms, improve quality of life,
prolong life
Untreated, death can occur within a few years

37
 LUNG TRANSPLANTATION
Option for end-stage Postoperative Care: Prevent/treat
Surgical procedures Rejection
lung disease ICU complications—
Treat diseases: Four types Ventilator and Acute: 5 to 10 days infection
COPD, idiopathic Single-lung hemodynamic Fever, fatigue, Discharge
pulmonary fibrosis, Bilateral lungs support dyspnea, dry planning/Coordinati
cystic fibrosis, IPAH, Heart-lung IV fluids cough, O2 on of care
1-antitrypsin Lobes from living- Immunosuppression desaturation Self-care,
deficiency related donor Tacrolimus, Chronic: medication
Preoperative Care mycophenolate Bronchiolitis management,
Evaluation mofentil, and obliterans (BOS) contacting
Contraindications prednisone Progressive transplant team,
Able to adhere Nutrition airflow obstruction pulmonary
and cope with unresponsive to hygiene,
postoperative bronchodilators rehabilitation
regimen and
United Network for corticosteroids
Organ Sharing
(UNOS)
Lung Allocation
Score (LAS)
 LUNG CANCER

BACKGROUND ETIOLOGY MANIFESTATIONS
Leading cause of SMOKING 80-90%
cancer-related
deaths (28%) in
United States
Estimated 234,000
new cases in 2018;
154,000 deaths
High mortality rate;
low cure rate
Advances in
treatment
improving response
 LUNG CANCER

DIAGNOSTICS
Sputu
Chest m
CT Biopsy
xray cytolog
y
8 to 10 Smallest ID CT- Thorace
cancer
years for lesion location guided mediasti ntesis
rare for cells not broncho
a tumor detectab + extent needle noscopy for
dx always scopy
to reach le on x- of aspiratio VATS pleural
present
1 cm ray masses n effusion
 LUNG CANCER

NSCLC Non-Small Cell Lung Cancer
85%
Adenocarcinom Large cell Squamous cell
a cancer cancer

Most Highly Early sx:
Moderate Rapid Slow
40% of common 10% of metatstati 25-30% of dry cough,
growth growth growth
lung ca in non- lung ca c  lymph lung ca hemoptysi
rate rate rate
smokers + blood s
 LUNG CANCER

SCLC
Small Cell Lung Cancer

Very Spreads
10-15%
rapid Aggressi early  mets to
of lung
growth ve lymph + brain
cancer
rate blood
 LUNG CANCER

MANAGEMENT
TARGETED + PROPHYLACTIC BRONCHOSCOP
RADIOFREQUEN
SURGERY RADIATION CHEMO IMMUNOTHERA CRANIAL IC LASER
CY ABLATION
PY RADIATION THERAPY

Prophylactic
NSCLC,
Complications: radiation can
treatment of chemotherapy
esophagitis, skin decrease the
choice in NSCLC may be used in TX FOR TUMORS
irritation, nausea incidence of brain remove
stages I to IIIA main treatment the treatment of OF NSCLC NEAR
and vomiting, metastases and obstructing
without for SCLC. nonresectable THE OUTER EDGE
anorexia, and may improve bronchial lesions
mediastinal tumors or as OF LUNGS
radiation survival rates in
involvement adjuvant therapy
pneumonitis patients with
to surgery.
limited SCLC.
 LUNG CANCER
The nurse is preparing a patient for
surgery and notices that the patient
EVALUATIO looks sad. The patient says, “I am
scared of having cancer. It is so
horrible, and I brought it on myself. I

N should have quit smoking years ago.”
What would be the nurse’s best
response?
Convey a)It’s okay to be scared. What is it
feelings about cancer that you are afraid of?
openly and
Have Maintain
adequate adequate
Have honestly, b)It’s normal to be scared. I would be
minimal to with a
breathing oxygenatio
no pain realistic
too.
patterns n
attitude c)Don’t be so hard on yourself. You
about
prognosis don’t know if smoking caused the
cancer.
d)Do you feel guilty because you
smoked?