Hypoxaemia

Original Editor - Adam Vallely Farrell


Top Contributors - Adam Vallely Farrell, Lucinda hampton, Abbey Wright, Kim Jackson, Rishika Babburu and Chelsea Mclene  

Introduction[edit | edit source]

An oxygenated red blood cell

Hypoxaemia is an abnormally low amount of oxygen in the blood, specifically arterial blood[1][2]:

  • Defined as the inability to maintain the PaO2 above 8kPa (see ABGs for more details).[3]
  • Can cause hypoxia (low oxygen) in body tissues if unresolved, which can, in turn, lead to cell death of the peripheral then central tissues.
  • Hypoxaemia is also known as type 1 respiratory failure.

Type 1 Respiratory Failure[edit | edit source]

Type 1 Respiratory Failure (hypoxemic): is associated with damage to lung tissue which prevents adequate oxygenation of the blood.  However, the remaining normal lung is still sufficient to excrete carbon dioxide. This results in low oxygen, and normal or low carbon dioxide levels.

Type 1 respiratory failure is related to respiratory distress, with increased work of breathing and deranged gas exchange.[5]

  • May occur with or without the presence of excessive pulmonary secretions and/or sputum retention
  • Not necessarily related to a primary respiratory problem, e.g. neurological problems may be related to respiratory depression, hypoventilation, reduced level of consciousness and inability to protect the airway[5]. Cough depression and risk of aspiration are a serious concern.

Clinical Signs[edit | edit source]

A patient with acute hypoxaemia will display some or all of the following symptoms[5][6];

[7]

Sign Clinical feature Observation
Central cyanosis Blue-ish palor, blue lips Hypothermic <36.5 degrees C
Peripheral shut down Cool to touch, clammy Hypothermic <36.5 degrees C
Tachypnoea Increased respiratory rate >20 breaths per min, appears in distress with breathing
Low O2 Low O2 saturations <90%
Accessory muscle use Tracheal tug, flared nostrils, bracing through upper limbs
Reduced mental state Confused, agitated

Chronic hypoxaemia can occur from chronic lung conditions such as COPD or seep apnoea, but it can also be caused by environmental factors such as frequent flying or living at high altitudes. which can be compensated or uncompensated[8]. The compensation may result in the symptoms to be overlooked initially, however, further disease progression or mild illness such as a chest infection may increase oxygen demand and unmask the existing hypoxaemia. [9]

Classification of Hypoxaemia[edit | edit source]

There are many causes of hypoxaemia, often due to respiratory disorders:[3]

Definition Cause
Hypoxic hypoxemia
  • Occurs where blood flows through parts of the lung which are un-ventilated
  • Inability to transfer oxygen across the pulmonary membrane (gas diffusion limitation)
  • Acute bronchoconstriction: insufficient gas flow in and out of the lung
  • Insufficient inspired oxygen therapy (including faulty oxygen delivery equipment)
  • Primary respiratory disease: COPD, pulmonary fibrosis, asthma, CF, pneumonia, sputum retention, decreased gas transfer across thickened (fibrotic/ oedematous) membrane
  • Primary cardiac disease: heart failure, congestive cardiac failure, pulmonary oedema (causing a diffusion limitation across the respiratory membrane)
Ischaemic hypoxemia
  • Usually due to inadequate blood flow through the lung
Anaemic hypoxemia
  • Reduction in the oxygen carrying capacity of the blood
  • Shock (significant blood loss with a reduced Hb)
  • Primary haematological diseases, e.g. sickle cell crisis, anaemia
Toxic hypoxemia
  • Difficulty in the utilisation of oxygen
  • It is common in patients admitted with inhalation burns/ smoke inhalation injuries
  • E.g. carbon monoxide poisoning, cyanide poisoning

[1][5][2]

Causes of Hypoxaemia[edit | edit source]

Some of the respiratory causes of hypoxaemia are:

  1. Pneumonia: is caused by an infection which can start off as a lower respiratory tract infection, which when untreated can cause consolidation and significant sputum retention.[10] Due to the lobe consolidation, the lungs are not adequately ventilated.
  2. Pulmonary embolus (PE): is a blockage of an artery in the lungs by a clot that has moved from elsewhere in the body through the bloodstream (embolism).[11] Symptoms of a PE may include shortness of breath and chest pain, particularly on inspiration.
  3. Pulmonary fibrosis: describes a collection of diseases which lead to interstitial lung damage and ultimately fibrosis and loss of the elasticity of the lungs. It is a chronic condition characterised by shortness of breath.[12] The lung tissue becomes thickened, stiff and scarred over a period of time. The development of scar tissue is called fibrosis. As the lung tissue becomes scarred and thicker, the lungs start to lose their ability to transfer oxygen into the bloodstream.
  4. Pulmonary oedema: occurs when fluid accumulates in the alveoli of the lungs causing an increased work of breathing. This fluid accumulation interferes with gas exchange and can cause respiratory failure.[13]
  5. Chronic respiratory conditions: such as COPD or CF
  6. Distended abdomen, e.g. pancreatitis, ascites. This prevents the diaphragm from descending which reduces the surface area for gas exchange.

Medical Treatment of Hypoxaemia[edit | edit source]

The primary treatment for hypoxaemia is controlled oxygen therapy, alongside the identification and treatment of the underlying cause.

  1. Controlled Oxygen Therapy

Patients who are unable to maintain a SaO2 >90% with a face mask may require additional respiratory support. This might include either continuous positive airway pressure (CPAP), non-invasive ventilation or intubation with mechanical ventilation[14].
Controlled oxygen therapy is prescribed for hypoxaemic patients to increase alveolar oxygen tension and decrease work of breathing.[15] It is important to remember that oxygen is a drug and should always be prescribed with the required percentage and/or flow rate.[8]

  1. Humidification
Oxygen therapy is known to dry out the airways. Humidifying oxygen is often used in an attempt to help prevent the drying of the upper respiratory tract. In patients who are requiring high flow oxygen or oxygen for longer periods consider cold or heated humidification.[16] Heated humidification is believed to be better for tenacious secretions or severe bronchospasm. [5]
  1. Treat the Cause

Whilst the delivery of oxygen therapy is the primary treatment for hypoxaemia it is essential to treat the cause ,e.g. bronchospasm, sputum retention, volume loss. There may be an acute primary respiratory problem, however, the respiratory failure could be due to compensation for another condition such as cardiac or renal. Multi-disciplinary team (MDT) working is vital in managing this.[5]

Physiotherapy[edit | edit source]

The overall aim of physiotherapy is to identify and treat the cause of the hypoxaemia, thus aiming to increase PaO2 >8kPa while administering appropriate oxygen therapy. [5] The cause of hypoxaemia may be sputum retention in which case various physiotherapy techniques can be used[17]:

Complications with Hypoxaemia[edit | edit source]

If left untreated hypoxaemia can lead to type 1 respiratory failure. This may result is further symptoms which can be life threatening:

  • Respiratory acidosis
  • Cardiac arrhythmia
  • Cerebral hypoxaemia
  • Altered mental state including coma
  • Cardiorespiratory arrest [5]

Resources[edit | edit source]

Respiratory failure

Respiratory system

Arterial blood gases

References[edit | edit source]

  1. 1.0 1.1 1.2 Pollak, Charles P.; Thorpy, Michael J.; Yager, Jan (2010). The encyclopedia of sleep and sleep disorders (3rd ed.). New York, NY. p. 104.
  2. 2.0 2.1 Eckman, Margaret (2010). Professional guide to pathophysiology (3rd ed.). Philadelphia: Wolters Kluwer/Lippincott Williams & Wilkins. p. 208. 
  3. 3.0 3.1 Martin, Lawrence (1999). All you really need to know to interpret arterial blood gases (2nd ed.). Philadelphia: Lippincott Williams & Wilkins.
  4. Medtronic RF Available from:https://www.medtronic.com/covidien/en-gb/respiratory-and-monitoring-solutions/rms-blog/anaesthesia-sedation-respiratory-compromise/type-1-and-type-2-respiratory-failure-prevent-detect-intervene.html (last accessed 30.9.2020)
  5. 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 Harden B, Cross J, Broad MA. Respiratory physiotherapy: An on-call survival guide. Elsevier Health Sciences; 2009.
  6. Colledge NR, Walker BR, Ralston SH, eds. (2010). Davidson's principles and practice of medicine (21st ed.). Edinburgh: Churchill Livingstone/Elsevier.
  7. marcophage. Signs and symptoms of hypoxemia. Available from: https://www.youtube.com/watch?v=Qj3xxNfWsH8 [last accessed 15/04/2017]
  8. 8.0 8.1 Bonsignore MR, Baiamonte P, Mazzuca E, Castrogiovanni A, Marrone O. Obstructive sleep apnea and comorbidities: a dangerous liaison. Multidisciplinary respiratory medicine. 2019 Dec;14(1):8.
  9. Adde FV, Alvarez AE, Barbisan BN, Guimarães BR. Recommendations for long-term home oxygen therapy in children and adolescents. Jornal de pediatria. 2013 Feb;89(1):06-17. 
  10. Blaisdell FW. Pathophysiology of the respiratory distress syndrome. Arch Surg. 1974 Jan 1;108(1):44-9.
  11. Dalen JE, Alpert JS. Natural history of pulmonary embolism. Progress in cardiovascular diseases. 1975 Jan 1;17(4):259-70.
  12. Gribbin J, Hubbard RB, Le Jeune I, Smith CJ, West J, Tata LJ. Incidence and mortality of idiopathic pulmonary fibrosis and sarcoidosis in the UK. Thorax. 2006 Nov 1;61(11):980-5.
  13. Masip J, Betbesé AJ, Páez J, Vecilla F, Cañizares R, Padró J, Paz MA, de Otero J, Ballús J. Non-invasive pressure support ventilation versus conventional oxygen therapy in acute cardiogenic pulmonary oedema: a randomised trial. The Lancet. 2000 Dec 23;356(9248):2126-32.
  14. Simon M, Braune S, Frings D, Wiontzek AK, Klose H, Kluge S. High-flow nasal cannula oxygen versus non-invasive ventilation in patients with acute hypoxaemic respiratory failure undergoing flexible bronchoscopy-a prospective randomised trial. Critical Care. 2014 Dec 1;18(6):712.
  15. Hardinge M, Annandale J, Bourne S, Cooper B, Evans A, Freeman D, Green A, Hippolyte S, Knowles V, MacNee W, McDonnell L. British Thoracic Society guidelines for home oxygen use in adults: accredited by NICE. Thorax. 2015 Jun 1;70(Suppl 1):i1-43.
  16. O'driscoll BR, Howard LS, Earis J, Mak V. BTS guideline for oxygen use in adults in healthcare and emergency settings. Thorax. 2017 Jun 1;72(Suppl 1):ii1-90.
  17. Derakhtanjani AS, Jaberi AA, Haydari S, Bonabi TN. Comparison the Effect of Active Cyclic Breathing Technique and Routine Chest Physiotherapy on Pain and Respiratory Parameters After Coronary Artery Graft Surgery: A Randomized Clinical Trial. Anesthesiology and Pain Medicine. 2019 Oct;9(5).
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