1310 Bronchial Hygiene Test #6.docx

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Bronchial Hygiene Chapter 44- Airway Clearance Therapy
Parts of a cough, factors inhibiting effective cough. Specific factors affecting specific parts of the cough.
Irritation

A stimulus provokes sensory fibers in the lungs to send signals to the brain saying it is time to cough.

Things that cause irritation

Infection

Thermal Changes

Inhaled Chemicals

Foreign bodies

Factors

Anesthesia

CNS depression

Narcotic- analgesic

Inspiration

After irritation a deep inspiration is needed for an effective cough

Normal amount needed

~1-2 L

Factors

Pain

Neurologic dysfunction

Pulmonary restriction ( disease or compressed chest wall)

Abdominal restriction

Compression

Reflex pulses cause the epiglottis to close and the expiration muscles to contract.

Time ~0.2 sec

The glottis then opens Resulting in the expulsion phase

Factors

Laryngeal nerve damage

Artificial airways

Abdominal muscle weakness

Abdominal surgery

Expulsion

The muscles continue to contract causing an explosive flow of air.

500 miles /hour

Shear forces cause the mucus to move away from the airway walls.

Secretions are expelled or swallowed

Fators

Airway compression

Airway obstruction

Abdominal muscle weakness

Inadequate lung recoil ( emphysema)

What sort of drugs can impair the mucociliary escalator?

General anesthetics

Depress mucociliary transport

Narcotic analgesics

Depress mucociliary transport

Anticholinergic

↑ mucus viscosity and delay mucociliary clearance

Antihistamines

Thicken mucus

Paralyze cilia

Clinical Manifestations of retained secretions… (Signs and symptoms)’

Sputum retention not responsive to coughing

Decreased or adventitious breath sounds indicating secretions in airway

Abnormal chest x-ray- atelectasis, mucus plugging or infiltrates

Assessment of patient indicating problems with secretions: tachycardia, tachypnea, deterioration of ABGs, hypoxemia

Factors utilized to determine need for different bronchial hygiene techniques

Patients motivation

Patients/ physician/caregiver goals

Effectiveness of techniques

Patients age, concentration, cooperation

Ease of learning/ teaching

Equipment needs

Costs

What things may impair the mucociliary escalator.

Artificial airways

Increases secretions

Cuff of ET tube

Blocks escalator

Suctioning

Damages airway

High FiO2

Dries out secretions

Underlying pulmonary disease

What things may impair airway patency and cause abnormal secretion clearance

Weight (Obesity)

Trauma to airways

Drugs

Airway deformities

Artificial airways

COPD w/ retained secretions

Pneumonia

Anesthesia

Narcotics

Opiates

What conditions/diagnosis are associated with chronic increased production of sputum

Acute disease

Immobile patients

Postoperative patients ( anesthetics, opiates and narcotics)

Inadequate Humidification

Acute Exacerbations ( COPD, CF, Bronchiectasis)

Chronic Disease ( CF, Neuromuscular disorders)

Look. This goes somewhere. I can't figure out where. It goes here now.

Problems with Retained secretions

Full or partial airway obstruction

Atelectasis

Impaired oxygenation

Increased work of breathing

Air Trapping/ overdistention

Growth of pathogenic organisms (pneumonia)

Respiratory failure

AARC clinical practice guidelines Postural drainage/ Directed cough/ Use of PAP Adjuncts
Methods used in Bronchial Hygiene
CPT/ postural drainage/ percussion/ vibration pg 957 table

Indications

Need to remove retained secretions from the central airways

Prevent or treat atelectasis

Contraindications

All contraindications should be weighed against the possible benefits of the therapy

Inability to control transmissions of infection

Increased ICP ( acute head, neck or spine)

Hemodynamic instability

Potential for aspiration

Osteoporosis/ flail chest

Complications

Hemodynamic instability ( decrease BP, etc.…)

Pulmonary hemorrhage

Hypotension

Fatigue

Increased ICP- visual disturbances, headache. Etc..)

Vomiting

Pain

Displacement of “tubes”

Assessment of need

excessive sputum production

effectiveness of cough

history of pulmonary problems treated successfully with PDT (eg,

bronchiectasis, cystic fibrosis, lung abscess)

decreased breath sounds or crackles or rhonchi suggesting secretions in the airway

change in vital signs

Abnormal chest x-ray consistent with atelectasis, mucus plugging,

or infiltrates

deterioration in arterial blood gas values or oxygen saturation

Assessing outcomes and monitoring

Change in sputum production

Change in breath sounds of lung fields being drained

Subjective response to therapy

Change in chest X-ray

Change in vitals

Change in ABG/ O2 Saturation

Change in ventilator variables

Pay attention to the
Contraindications

Notice that some have to do with positioning

Notice about the absolute and relative.

Positions

How to perform

How long with each segment

Positions are held for a minimum of 3 minutes up to 15 minutes. No more than 30 minutes.

When to terminate therapy in an adverse reaction

IMMEDIATELY

Stop therapy

Return pt to original position

Monitor pt

Consult physician

Where to and not to percuss

Bony areas

Clavicles

Vertebrae

May use a sheet or gown to cover patient- (something thin)

Wounds

Recent surgical areas

Tubes/ ports

You will also have some positions (may be in the form of pictures or verbal explanation of positions. (Most likely verbal explanations)

Directed Cough

Indications

The need to aid in the removal of retained secretions from central

airways(the suggestion that FET at lower lung volumes may be
effective in preferentially mobilizing secretions in peripheral airways
while larger volumes facilitate movement in the central airways lacks
validation).

The presence of atelectasis

As prophylaxis against postoperative pulmonary complications

As a routine part of bronchial hygiene in patients with cystic

fibrosis, bronchiectasis, chronic bronchitis, necrotizing pulmonary infection, or spinal cord injury

As an integral part of other bronchial hygiene therapies such as

postural drainage therapy (PDT),positive expiratory pressure
therapy (PEP), and incentive spirometry (IS)

To obtain sputum specimens for diagnostic analysis

Contraindications

Inability to control possible transmission of infection from patients

suspected or known to have pathogens transmittable by droplet nuclei

(eg,M tuberculosis)

Presence of an elevated intracranial pressure or known intracranial

aneurysm

Presence of reduced coronary artery perfusion, such as in acute

myocardial infarction

Acute unstable head, neck, or spine injury

Manually assisted directed cough with pressure to the epigastrium may

be contraindicated in presence of

increased potential for regurgitation/aspiration (eg, unconscious

patient with unprotected airway)

acute abdominal pathology, abdominal aortic aneurysm, hiatal hernia, or pregnancy

a bleeding diathesis, untreated pneumothorax

Manually assisted directed cough with pressure to the thoracic cage may be contraindicated in presence of osteoporosis, flail chest

Complications

Reduced coronary artery perfusion

Reduce cerebral perfusion leading to syncope or alterations in

consciousness, such as, light-headedness or confusion, vertebral
artery dissection

Incontinence

Fatigue

Headache

Paresthesia or numbness

Bronchospasm

Muscular damage or discomfort

Spontaneous pneumothorax, pneumo-mediastinum, subcutaneous

emphysema

Cough paroxysms

Chest pain

Rib or costochondral junction fracture

Incisional pain, evisceration

Anorexia, vomiting, and retching

Visual disturbances including retinal hemorrhage

Central line displacement

Gastroesophageal reflux

Assessment of need

Spontaneous cough that fails to clear secretions from the airway

Ineffective spontaneous cough as judged by clinical observation

evidence of atelectasis

results of pulmonary function testing

Postoperative upper abdominal or thoracic surgery patient

Long-term care of patients with tendency to retain airway secretions

Presence of endotracheal or tracheostomy

Assessing outcomes and monitoring

The presence of sputum specimen following a cough(4)

Clinical observation of improvement

Patient's subjective response to therapy

Stabilization of pulmonary hygiene in patients with chronic

pulmonary disease and a history of secretion retention

Prone Positioning

Lying on the stomach.

To improve oxygenation(improve the V/Q mismatch)

You will have the patient lay on the unaffected side

FET (huff cough)

AKA: FET – forced expiratory technique

AKA: ACB- active cycle breathing

Active cycle breathing

Autogenic drainage

Insufflation and Exsufflation (MIE)

“artificial cough machine”

The machine delivers positive pressure to the airways at a pressure you set between +30 to +50 cm H2O ( this pressure is delivered over a 1-3 second time period.

The negative pressure at a pressure you set between -30 to -50 cm H2O over a 2-3 second time period

Turning

Contraindicated in

unstable spinal cord injuries

traction

Relative: diarrhea, agitation, Increased ICP, blood pressure drops, increased dyspnea, hypoxia and cardiac arrhythmias

Positive airway pressure adjuncts (expiratory PAP, PEP)

Indications

To reduce airtrapping in asthma or COPD

To aid in mobilization or retained secretions (CF, bronchitis etc…)

To prevent or reverse atelectasis

To optimize delivery of bronchodilators in patients receiving bronchial hygiene( secretions are removed so that bronchodilator is deposited)

Contraindications

Although no absolute contraindications to the use of PEP, CPAP, or
EPAP mask therapy have been reported,4,39 the following should be
carefully evaluated before a decision is made to initiate PAP mask
therapy.

Patients unable to tolerate the increased work of breathing (acute

asthma, COPD)

Intracranial pressure (ICP) > 20 mm Hg

Hemodynamic instability(4)

Recent facial, oral, or skull surgery or trauma4

Acute sinusitis(39)

Epistaxis

Esophageal surgery

Active hemoptysis(39)

Nausea

Known or suspected tympanic membrane rupture or other middle

ear pathology

Untreated pneumothorax

Complications

Increased work of breathing that may lead to hypoventilation

and hypercarbia

Increased intracranial pressure

Cardiovascular compromise

myocardial ischemia

decreased venous return

Air swallowing with increased likelihood of vomiting and aspiration

Claustrophobia

Skin break down and discomfort from mask

Pulmonary barotrauma

Assessment of need

Sputum retention not responsive to coughing

Decreased or adventitious breath sounds indicating secretions in airway

Abnormal chest x-ray- atelectasis, mucus plugging or infiltrates

Assessment of patient indicating problems with secretions: tachycardia, tachypnea, deterioration of ABGs, hypoxemia

Assessing outcomes and monitoring

Positive outcomes:

Increase in sputum production

Improvement in breath sounds, decreased WOB

Positive subjective response

Improvement in vitals

Improvement in chest radiograph

Improvement in ABG’s/ Sao2

How to perform (remember you have patients do a active exhalation not forced)
Why do these work?

Works two ways:

filling underaerated or nonaerated segments via collateral ventilation

prevents airway collapse during expiration

HFCWO ( hertz?)- how many breaths /hertz? THE VEST

30 minute sessions may be given up to 6x a day

Has a pulse generator and a inflatable vest

Frequencies of 5-25 HZ

Great for patients with long term secretion problems

IPV-Intrapulmonary percussive ventilation

Internal delivery of 100-225 cycles per minute (1.6-3.75 Hz)

Uses a thumb button control

20 minute sessions

Great for patients with long term secretion problems

Flutter valve

Has a weighted ball that “flutters” during exhalation.

Internal delivery of oscillation.

Must maintain proper position to get good “flutters”

Acapella

The pickle

Indications for Airway Clearance Therapy
Acute Conditions

· Copious secretions
· Acute Respiratory Failure with retained secretions
· Acute Lobular Atelectasis ( caused by secretion obstruction of Lobar Bronchi)
· V/Q abnormalities caused by unilateral lung disease

Chronic Conditions

· CF
· Bronchiectasis
· Ciliary dyskinetic syndromes
· Chronic Bronchitis

Disorders Associated with Retention of Secretions

· Acute disease
· Immobile patients
· Postoperative patients ( anesthetics, opiates and narcotics)
· Inadequate Humidification
· Acute Exacerbations ( COPD, CF, Bronchiectasis)
· Chronic Disease ( CF, Neuromuscular disorders)

Recommended Airway Clearance techniques in Specific Conditions and Age **** (REMEMBER TABLE)

Problem Area

Appropriate Techniques

A. CF ,ciliary dyskinesia syndromes, bronchiectasis

Infants

PDPV

3-12 Years

Exercise, PEP, PDPV, ACBT, HFO

>12 years

Exercise, PEP, PDPV, ACBT, HFO, AD

B. Atelectasis

PEP, PDOV, ACBT

C. Asthma ( with mucus plugging)

Exercise, PEP, PDPV, HFO ( flutter valve)

D. Neurologic abnormalities ( spasticity, bulbar palsy , aspiration prone)

PDPV, Suction, MIE

E. Musculoskeletal weakness ( muscular dystrophy, myasthenia gravis, polio, MS, ETC

PEP, MIE

PDPV- Postural Drainage/ Percussion/ Vibration
PEP- Positive Expiratory Device AKA: PAP
ACBT- Active Cycle Breathing Technique
HFO- High frequency Oscillation (vest-IPV)
AD- Autogenic drainage
MIE- Manual Inspiration and Expiration
BRONCHIAL HYGIENE SUMMARY
· Normal Airway Clearance requires a patent airway, a functional mucociliary escalator and an effective cough.
· Primary goal of airway clearance is to help mobilize and remove retained secretions, improve gas exchange and reduce the work of breathing
· Retained secretions can increase work of breathing, cause air trapping, worsen V/Q imbalances, promote atelectasis and shunting and increase the incidence of infection
· Disorders associated with abnormal secretions clearance include fording bodies, tumors congenital or acquired thoracic anomalies, asthma, chronic bronchitis, CF, bronchiectasis, and acute infections
· Musculoskeletal and neurologic disorders and impair coughing and lead to mucous plugging, airway obstruction and atelectasis
· Both mechanical and treatment factors impair mucociliary clearance in intubated patients
· Clinical signs consistent with retained sections include ineffective cough, absent or increased sputum production, labored breathing, abnormal or adventitious lung sounds, ( crackles, decrease breath sounds or bronchial breath sounds over affected area)
· Turning promotes lung expansion, improves oxygenation and presents ?