Added to Saved items
This article is for Medical Professionals

Professional Reference articles are designed for health professionals to use. They are written by UK doctors and based on research evidence, UK and European Guidelines. You may find the Dealing with the Effects of Cold article more useful, or one of our other health articles.

Read COVID-19 guidance from NICE

Treatment of almost all medical conditions has been affected by the COVID-19 pandemic. NICE has issued rapid update guidelines in relation to many of these. This guidance is changing frequently. Please visit https://www.nice.org.uk/covid-19 to see if there is temporary guidance issued by NICE in relation to the management of this condition, which may vary from the information given below.

Hypothermia is defined as a core body temperature below 35°C. Hypothermia belongs to the lethal triad (with coagulopathy and acidosis) for trauma victims requiring critical care.

The drop in core temperature may be rapid as in immersion in near-freezing water, or slow as in prolonged exposure to more temperate environments. The effects of hypothermia are proportional to the change in temperature, with metabolic rate reduced in proportion to the fall in core body temperature.

Hypothermia is usually caused by accidental exposure but may be caused or aggravated by underlying medical conditions or may be deliberate as part of patient therapy.

Primary hypothermia

This is due to environmental exposure, with no underlying medical condition causing disruption of temperature regulation:

  • Trauma patients are particularly susceptible to hypothermia.
  • Perioperative hypothermia:
    • Hypothermia may be deliberate (see below) or accidental.
    • Any patient whose core temperature drops accidentally below 36°C at any stage of the perioperative pathway (from the hour before induction of anaesthesia until 24 hours after entry into the recovery area) should be warmed using a forced air warming device[1].

Secondary hypothermia

This is low body temperature resulting from a medical illness lowering the temperature set-point:

  • Decreased heat production - eg, hypopituitarism, hypoadrenalism, hypothyroidism, severe malnutrition, hypoglycaemia[2]and neuromuscular disorders.
  • Increased heat loss - eg, vasodilatation (pharmacologic or toxicologic causes), erythrodermas, burns, psoriasis; or iatrogenic - eg, cold infusions, over-enthusiastic treatment of heatstroke or emergency deliveries.
  • Impaired thermoregulation - eg, trauma affecting the central nervous system, strokes, toxicologic and metabolic derangements, intracranial bleeding, Parkinson's disease, brain tumours, Wernicke's disease, multiple sclerosis, sepsis, multiple trauma, pancreatitis, prolonged cardiac arrest, and uraemia.
  • Drug administration; such medications include beta-blockers, clonidine, meperidine, neuroleptics and general anaesthetic agents.
  • Ethanol, phenothiazines, and sedative-hypnotics also reduce the body's ability to respond to low ambient temperatures.

Therapeutic hypothermia

  • Hypothermia with intracorporeal temperature monitoring may be used for hypoxic perinatal brain injury[3].
  • May be used in the post-resuscitation period, in traumatic brain injury with high intracranial pressure, in the perioperative setting during various surgical procedures (eg, vascular surgery for spinal cord protection and overall neuroprotection) and for various other indications[4].

Hypothermia can also be classified as mild, moderate or severe:

  • Mild hypothermia (32-35°C): associated with lethargy, confusion, shivering, loss of fine motor co-ordination.
  • Moderate hypothermia (28-32°C): associated with delirium, slowed reflexes.
  • Severe hypothermia (below 28°C): associated with very cold skin, unresponsive, coma, difficulty breathing, abnormal heart rhythms.

People most likely to experience hypothermia include:

  • The very elderly or the very young.
  • Those who are chronically ill, especially with cardiovascular disease.
  • People who are malnourished.
  • People who are exhausted.
  • Those intoxicated with alcohol or drugs.
  • People with cognitive impairment - eg, in Alzheimer's disease.
  • Those with underlying medical conditions - eg hypothyroidism, stroke, severe arthritis, Parkinson's disease, trauma, spinal cord injuries, and burns.
  • Low-reading thermometers, preferably oesophageal, are required. Tympanic thermometers are unreliable in low temperature measurement. Check for localised cold injury.
  • Hypothermia usually occurs gradually. Common signs include shivering, slurred speech, an abnormally slow rate of breathing, cold and pale skin, fatigue, lethargy and apathy. A depressed level of consciousness is the most common feature of hypothermia.
  • The patient is cold to touch and appears grey and cyanotic.
  • Vital signs (pulse rate, respiratory rate and blood pressure) are variable. Severe depression of respiratory rate and heart rate may result in signs of respiratory and cardiac activity being easily missed.
  • Cerebrovascular accident.
  • Drug toxicity: barbiturate, benzodiazepine, cocaine.
  • Monitor for complications - eg, blood gases, FBC, electrolytes, electrocardiogram (ECG) monitoring.
  • Coagulation studies: disseminated intravascular coagulation may occur.
  • ECG:
    • May show prolonged PR, QRS and QT intervals, and atrial or ventricular arrhythmias. As the body core temperature decreases, sinus bradycardia tends to give way to atrial fibrillation followed by ventricular fibrillation and finally asystole.
    • The length and height of the respective QT-interval prolongation and characteristic J waves are often proportional to the degree of hypothermia.
    • Corrected QRS/QT has been shown in animal studies to have potential as a novel biomarker for predicting risk of hypothermia-induced cardiac arrest[5].
      HYPOTHERMIA ECG
            
  • CXR: aspiration pneumonia and pulmonary oedema are common.
  • Consider any underlying or associated problems - eg, CT scan for possible head injury.
  • This is directed at re-warming, careful patient monitoring and treatment of complications such as cardiac arrhythmias.
  • The patient is given warmed, humidified oxygen, and heated intravenous saline, and is surrounded by warmed blankets or heat lamps.
  • Aggressive management of temperature with faster rather than slow re-warming has been shown to improve the outcome.

Initial management

  • Immediate attention to airway, breathing and circulation. Initiation of cardiopulmonary resuscitation may be required[6].
  • Administer oxygen via a bag reservoir device.
  • Establish intravenous access.
  • Prevent heat loss by removing the patient from the cold environment and replacing wet, cold clothing with warm blankets.
  • If the person is alert and can easily swallow, then give warm, sweetened, non-alcoholic fluids.

Management in hospital

  • The patient should ideally be managed in a critical care setting. Attempts to re-warm the patient actively should not delay transfer to a critical care setting.
  • Assess for and treat any associated disorders - eg, diabetes, sepsis, drug or alcohol ingestion, or occult injuries.
  • Blood investigations: FBC, electrolytes, blood glucose, alcohol, toxin screen, creatinine, amylase and blood cultures.
  • Cardiac monitoring: dysrhythmias, changes of hyperkalaemia; J waves are pathognomonic of hypothermia:
    • Cardiac output falls proportionately to the degree of hypothermia and cardiac irritability begins at about 33°C. Ventricular fibrillation becomes increasingly more common as the temperature falls below 28°C, and at temperatures below 25°C, asystole can occur.
    • Cardiac drugs and defibrillation are not usually effective in the presence of acidosis, hypoxia and hypothermia. These treatments should usually be reserved until the patient is warmed until at least 28°C.
    • Cardiopulmonary bypass has been used in patients with severe hypothermia. Patients presenting in cardiac arrest from accidental hypothermia may also be re-warmed effectively using thoracic lavage.
  • Oxygen:
    • Administer 100% oxygen while the patient is being re-warmed.
    • Arterial blood gases are probably best interpreted uncorrected, ie the blood warmed to 37°C, and those values used as guides to administering sodium bicarbonate and adjusting ventilator parameters during re-warming and resuscitation.
  • Re-warming technique:
    • Depends on the patient's temperature, response to simple measures and the presence of any injuries.
    • Mild and moderate exposure: passive external re-warming in a warm room, using warm blankets, clothing and warmed intravenous fluids.
    • Severe hypothermia: may require core re-warming methods that may include invasive surgical re-warming techniques - eg, peritoneal lavage, A-V re-warming or cardiopulmonary bypass.
    • Haemodialysis (HD) is a safe re-warming therapy for moderate and severe hypothermia in the absence of circulatory arrest[7].
    • Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) provides an efficient re-warming method with complete cardiopulmonary support. The use of VA-ECMO for this indication has greatly improved the vital and functional prognosis of patients[8].
  • Determination of death can be very difficult in the hypothermic patient. Patients who appear to have suffered a cardiac arrest or death as a result of hypothermia should not be pronounced dead until they are re-warmed (eg, to 35°C; don't have to reach 37°C).

There is a well-recognised association between undesirable hypothermia and negative outcomes in connection with trauma and surgery; however, mild induced hypothermia to ≥33°C does not seem to be associated with either decreased total haemostasis or increased bleeding risk[9].

  • The prognosis depends on the severity and nature of the cause.
  • Most people tolerate mild hypothermia, which is not associated with significant morbidity or mortality.
  • Overall mortality then increases with the degree of hypothermia.
  • Extracorporeal life support has revolutionised re-warming of the haemodynamically unstable patient, with survival rates of up to 100%[10].
  • Perioperatively there are a range of measures to prevent hypothermia, including covering, forced-air warming devices and warming of intravenous and irrigation fluids used during the procedure[1].
  • The elderly are at particular risk; surveillance by carer and good neighbour is essential.
  • Heating and insulation grants can make a difference if easy to apply for, but the extra heating allowance is only paid retrospectively.
  • Even in summer, wet clothing (increases heat loss by 5-10 times) and wind can result in rapid loss of body heat.
  • To reduce the risk of hypothermia:
    • Avoid excessive alcohol consumption.
    • Wear a hat or other protective covering to prevent body heat from escaping from your head, face and neck.
    • Cover hands with mittens instead of gloves. Mittens are more effective than gloves because mittens keep the fingers in closer contact with one another.
    • Avoid activities that cause excessive sweating.
    • Wear loose-fitting, layered, lightweight clothing. Outer clothing made of tightly woven, water-repellent material is best for wind protection. Wool, silk or polypropylene inner layers hold more body heat than cotton.
    • Stay as dry as possible.

Are you protected against flu?

See if you are eligible for a free NHS flu jab today.

Check now

Further reading and references

  • Rathjen NA, Shahbodaghi SD, Brown JA; Hypothermia and Cold Weather Injuries. Am Fam Physician. 2019 Dec 1100(11):680-686.

  • Alfonsi P, Bekka S, Aegerter P; Prevalence of hypothermia on admission to recovery room remains high despite a large use of forced-air warming devices: Findings of a non-randomized observational multicenter and pragmatic study on perioperative hypothermia prevalence in France. PLoS One. 2019 Dec 2314(12):e0226038. doi: 10.1371/journal.pone.0226038. eCollection 2019.

  • Yi J, Lei Y, Xu S, et al; Intraoperative hypothermia and its clinical outcomes in patients undergoing general anesthesia: National study in China. PLoS One. 2017 Jun 812(6):e0177221. doi: 10.1371/journal.pone.0177221. eCollection 2017.

  1. Hypothermia: prevention and management in adults having surgery; NICE Clinical Guideline (December 2016)

  2. Naseerullah FS, Murthy A; Hypothermia as a forgotten sign of prolonged severe hypoglycaemia. BMJ Case Rep. 2018 Aug 292018. pii: bcr-2018-225606. doi: 10.1136/bcr-2018-225606.

  3. Therapeutic hypothermia with intracorporeal temperature monitoring for hypoxic perinatal brain injury, NICE Interventional Procedure Guideline, May 2010

  4. Therapeutic hypothermia following cardiac arrest; NICE Interventional Procedure Guideline, March 2011

  5. Dietrichs ES, Tveita T, Myles R, et al; A novel ECG-biomarker for cardiac arrest during hypothermia. Scand J Trauma Resusc Emerg Med. 2020 Apr 1028(1):27. doi: 10.1186/s13049-020-00721-0.

  6. Adult Advanced Life Support; Resuscitation Council (UK) Guidelines (2015 - last updated May 2021)

  7. Murakami T, Yoshida T, Kurokochi A, et al; Accidental Hypothermia Treated by Hemodialysis in the Acute Phase: Three Case Reports and a Review of the Literature. Intern Med. 2019 Sep 1558(18):2743-2748. doi: 10.2169/internalmedicine.1945-18. Epub 2019 Jun 7.

  8. Ledoux A, Saint Leger P; Therapeutic management of severe hypothermia with veno-arterial ECMO: where do we stand? Case report and review of the current literature. Scand J Trauma Resusc Emerg Med. 2020 Apr 2128(1):30. doi: 10.1186/s13049-020-00723-y.

  9. Kander T, Schott U; Effect of hypothermia on haemostasis and bleeding risk: a narrative review. J Int Med Res. 2019 Aug47(8):3559-3568. doi: 10.1177/0300060519861469.

  10. Avellanas Chavala ML, Ayala Gallardo M, Soteras Martinez I, et al; Management of accidental hypothermia: A narrative review. Med Intensiva. 2019 Dec43(9):556-568. doi: 10.1016/j.medin.2018.11.008. Epub 2019 Jan 22.

newnav-downnewnav-up