Tracheostomy Tube

  • Tracheotomy = procedure
  • Tracheostomy = stoma (opening)

2. Components 

Outer Cannula

  • Main tube that stays in trachea
  • Provides structural airway

 Inner Cannula

  • Removable
  • Prevents blockage from secretions
  • Can be disposable or reusable

 Exam pearl: Inner cannula obstruction = most common cause of sudden deterioration

 Fenestration (optional)

  • Opening in tube
  • Allows airflow to vocal cords speech


3. Types of Tracheostomy Tubes

Based on Cuff

1. Cuffed Tube

2. Uncuffed Tube


Based on Fenestration

1. Fenestrated Tube

  • Has opening allows speech
  • Used in weaning / rehabilitation

Not used during ventilation (air leak)


2. Non-Fenestrated Tube

  • Standard ICU tube
  • Safer during ventilation

Based on Cannula

1. Single Cannula

  • No inner cannula
  • Higher obstruction risk

2. Double Cannula

  • Preferred in ICU
  • Easy cleaning


 Based on Material

  • PVC (most common, disposable)
  • Silicone (flexible, long-term)
  • Metal (rare now; e.g., Jackson tube)

 Special Tubes

Type

Feature

Use

Extra-long

Longer shaft

Obesity, thick neck

Adjustable flange

Depth adjustable

Anatomical variation

Speaking valve compatible

One-way valve

Speech (e.g., Passy-Muir)


 4. Sizing 

 Size Parameters

  1. Inner Diameter (ID) airflow resistance
  2. Outer Diameter (OD) tracheal fit
  3. Length

 Adult Selection (General Rule)

Patient

Typical Size

Adult female

6–7 mm ID

Adult male

7–9 mm ID

 Aim:

  • ID large enough for ventilation
  • OD < 2/3 tracheal diameter


 5. Cuff Pressure 

  • Target: 20–30 cm H₂O

Why important?

Low Pressure

High Pressure

Aspiration

Tracheal ischemia

Air leak

Tracheal stenosis

Inadequate ventilation

Tracheoesophageal fistula

Measure with manometer (NOT pilot balloon palpation)


 6. Indications 

 Prolonged ventilation

  • 7–10 days (guideline varies)

Airway protection

  • Low GCS
  • Stroke

Secretion management

  • Weak cough

Upper airway obstruction

  • Tumor, edema


7. Methods of Tracheostomy

 Surgical Tracheostomy


  • Done in OT
  • Better for:
    • Difficult anatomy
    • Emergency

Percutaneous Dilatational Tracheostomy (PDT)

  • ICU bedside
  • Uses Seldinger technique

 Preferred in ICU


 8. Complications 

 Immediate

  • Bleeding
  • Pneumothorax
  • False passage
  • Tube misplacement

 Early

  • Tube blockage(most common acute problem)
  • Infection
  • Subcutaneous emphysema

 Late

  • Tracheal stenosis
  • Tracheomalacia
  • Tracheoesophageal fistula
  • Tracheo-innominate fistula (= catastrophic bleed (sentinel bleed warning )

9. Tracheostomy Emergency Algorithm

 Scenario: Sudden desaturation

DOPE approach:

  • D Displacement
  • O Obstruction
  • P Pneumothorax
  • E Equipment failure

If cannot ventilate:

  • Remove tube
  • Attempt oxygen via stoma
  • Bag-mask via mouth if early stoma

 10. Care & Maintenance 

Routine Care

  • Humidification (VERY IMPORTANT-prevents plugging)
  • Suctioning
  • Inner cannula cleaning
  • Stoma care

Tube Change

  • First change(not compulsory): if done then only after track maturation
  • Surgical 5–7 days
    • Percutaneous 3–5 days

 Timeline of Tract Maturation

  • Begins: ~48–72 hours
  • More stable: 3–5 days
  • Fully matured: ~5–7 days (or longer in surgical)

From:

  • British Thoracic Society
  • Intensive Care Society
  • American Thoracic Society

First change = after tract maturation

Subsequent changes = only when clinically indicated