Emergency bleeding control
Minor traumatic bleeding from the head
SpecialtyEmergency medicine

Emergency bleeding control describes actions that control bleeding from a patient who has suffered a traumatic injury or who has a medical condition that has caused bleeding. Many bleeding control techniques are taught as part of first aid throughout the world,[1] though some more advanced techniques such as tourniquets, are often taught as being reserved for use by health professionals, or as an absolute last resort, to mitigate associated risks, such as potential loss of limbs.[2] To manage bleeding effectively, it is important to be able to readily identify types of wounds and types of bleeding.

Types of wounds

Wounds are normally described in a variety of ways. Descriptions may include wound size (length) and thickness; plainly visible wound characteristics such as shape and open or closed; and origin, acute or chronic.[3] The most common descriptors of wounds are these:

  • Incision: Straight edges to the wound margins, as if sliced with a knife. These can vary in size, and may be caused by a variety of objects, including a scalpel, a knife, any piece of straight, sharp metal, or a piece of glass. Tissue is rarely missing from the wound site, and the margins of the wound may be easily matched from one side of the wound to the other for the purposes of closure.[4]
  • Laceration: Jagged edges to the wound margins, more closely resembling a tear than a slice. The direction of the wound is random rather than straight, and it may have multiple branches.[5] Most often caused by an object with a broken or serrated edge, such as a piece of broken glass or metal, but may also be caused by a blow from a blunt object to tissue with bone immediately behind it.
  • Puncture: Sharp object penetrates the tissue and travels inward, but does not move laterally in any direction from the point of entry.[6] Such wounds can be misleading, as they may appear quite small on surface examination, but extend quite deeply into the body, even damaging nerves, blood vessels, or internal organs. They may cause substantial internal bleeding or secondary injuries, such as a collapsed lung, which may not be readily evident during primary assessment. Occasionally, the object causing the injury remains in the wound as an impaled object. A stab wound from a knife or other sharp object, or a bullet wound, are examples of this type of injury. Medical professionals usually refer to this type of wound as penetrating trauma.
  • Abrasion: A scraping or scratching. Generally quite superficial, and affecting only the surface layers of the epidermis.[7] No internal organs, nerves, or blood vessels other than capillaries, are affected. This may be the result of a fall, or of sliding (friction) against rough surfaces. The road rash often suffered by falling motorcyclists is an example of this type of wound.
  • Contusion: Simple bruising. In this type of injury, the capillaries in the epidermis and dermis are damaged, without breaking the skin.[8] Blood oozes out of these vessels into the spaces between cells or interstitial space, causing swelling and discoloration. Blood loss is generally limited, and not of serious consequence. It may, however, act as a signpost, pointing to more serious injuries.
  • Avulsion: A full thickness laceration-type wound, often semi-circular in shape. This creates a flap that, when lifted, exposes the deeper tissues to view, or extrudes them from the wound itself.[9] Avulsions often occur in mechanical accidents involving fingers (sometimes referred to as degloving), or, more seriously, may affect the orbit of the eye or the abdominal cavity, exposing the internal viscera. Avulsions are difficult to repair, and no avulsion should ever be considered a minor injury.
  • Amputation: Similar to, but distinct from, an avulsion. Whereas an avulsion is characterized by a "flap" of skin being removed, an amputation is characterized by a complete loss of a limb. This can occur at any point on the extremity, and is usually followed by significant arterial bleeding. However, as serious as this injury is, an amputated limb that is cooled and transported to the hospital can sometimes be surgically reattached.

Blood vessels affected

External bleeding is generally described in terms of the origin of the blood flow by vessel type. The basic categories of external bleeding are:

  • Arterial bleeding: As the name suggests, blood flow originating in an artery. With this type of bleeding, the blood is typically bright red to yellowish in colour, due to the high degree of oxygenation. Blood typically exits the wound in spurts, rather than in a steady flow; the blood spurts out in time with the heartbeat. The amount of blood loss can be copious, and can occur very rapidly.[10]
  • Venous bleeding: This blood is flowing from a damaged vein. As a result, it is blackish in colour (due to the lack of oxygen it transports) and flows in a steady manner. Caution is still indicated: while the blood loss may not be arterial, it can still be quite substantial, and can occur with surprising speed without intervention.[11]
  • Capillary bleeding: Capillary bleeding usually occurs in superficial wounds, such as abrasions. The colour of the blood may vary somewhat (distal portion of circulation with oxygenated and unoxygenated blood mixing), and generally oozes in small amounts, as opposed to flowing or spurting.[12]

External wound management

External wounds bleed out through a visible breakage in the skin.

Some important details in the case of external wounds, are the type of the wound (incision, laceration, puncture, etc.), the area of the body affected, and the presence or not of any foreign object in the wound. A serious wound or any complication may require to call to emergency medical services. Any wound requires being disinfected after it stops bleeding. The eyes require special products for disinfection, not the common ones (and any other specially delicated tissue may require special products also).

Main methods of wound management are:[13]

Direct pressure

Direct pressure is the common method. The pressure on the wound constricts the blood vessels manually, helping to stem blood flow. When applying pressure, the type and direction of the wound may have an effect, for instance, a cut lengthways on the hand would be opened up by closing the hand into a fist, whilst a cut across the hand would be sealed by making a fist. A patient can apply pressure directly to their own wound, if their consciousness level allows.

Ideally, a barrier, such as sterile, low-adherent gauze should be used between the pressure supplier and the wound, to help reduce chances of infection and help the wound to seal. Third parties assisting a patient are always advised to use protective latex or nitrile medical gloves to reduce risk of infection or contamination passing either way.

Direct pressure can be used with some foreign objects protruding from a wound. Then, padding is applied from each side of the object to push in and seal the wound. The foreign objects are not removed until arriving to a medical center.

Elevation

Elevation was commonly recommended for the control of haemorrhage. Some protocols continue to include it, but recent studies have failed to find any evidence of its effectiveness and it was removed from the PHTLS guidance in 2006.[14]

Cold

The cold can add some utility, at least to compress the blood vessels.

Pressure points

The arterial pressure points

In situations where direct pressure and elevation are either not possible or proving ineffective, and there is a risk of exsanguination, some training protocols advocate the use of pressure points to constrict the major artery that feeds the point of the bleed. This is usually performed at a place where a pulse can be found, such as in the femoral artery.[15] There are significant risks involved in performing pressure point constriction, including necrosis of the area below the constriction, and most protocols give a maximum time for constriction (often around 10 minutes). There is particularly high danger if constricting the carotid artery in the neck, as the brain is sensitive to hypoxia and brain damage can result within minutes of application of pressure. Pressure on the carotid artery can also cause vagal tone induced bradycardia, which can eventually stop the heart. Other dangers in use of a constricting method include rhabdomyolysis, which is a buildup of toxins below the pressure point, which if released back into the main bloodstream may cause kidney failure.

Epistaxis

Epistaxis, or nosebleed, is a special case, where almost all first aid providers train the use of pressure points. The appropriate point here is on the soft fleshy part of the nose, which should constrict the capillaries sufficiently to stop bleeding, although obviously it does not stop bleeding from the nasopharynx or tear ducts.

Tourniquet

Another method of achieving constriction of the supplying artery is a tourniquet - a band tied tightly around a limb to restrict blood flow. Tourniquets are routinely used to bring veins to the surface for cannulation, though their use in emergency medicine is more limited. Tourniquet use is restricted in most countries to professionals such as physicians and paramedics, as this is often considered beyond the reach of first aid and those acting in good faith as a good samaritan. A key exception is the military, where many armies carry a tourniquet as part of their personal first aid kit.

Improvised tourniquets, in addition to creating potential problems for the ongoing medical management of the patient, usually fail to achieve force enough to adequately compress the arteries of the limb. As a result, they not only fail to stop arterial bleeding, but may actually increase bleeding by impairing venous bloodflow.[16]

Clotting agents and medications

Some protocols call for the use of clotting accelerating agents, which can be either externally applied as a powder or gel, or pre-dosed in a dressing or as an intravenous injection. These may be particularly useful in situations where the wound is not clotting, which can be due to external factors, such as size of wound, or medical factors such as haemophilia.[17]

For stopping or preventing bleeding in people who do not have haemophilia, there is weak to little evidence to support the use of clotting factors to prevent death.[18] Prophylactic fibrinogen may reduce the risk of bleeding after heart or orthoscopic surgery and prophylactic factor XII may be effective after heart surgery, however, both medications require high-quality randomized clinical trials to understand more about the potential benefits and risks.[18] Recombinant factor VIIa (rFVIIa) is not, as of 2012, supported by the evidence for most cases of major bleeding.[19] Its use brings a significant risk of arterial thrombosis, and therefore it should only be used in clinical trials or with patients with factor VII deficiency.[19][20]

A new product of this type (Cresilon Hemostatic Gel or CHG, Vetigel in its veterenary version)[21][22] allows to close great wounds in a few moments.

Internal wound management

Internal bleeding wounds (usually inside of the torso) do not bleed out through a visible breakage in the skin, as the external wounds do, but they bleed inwards. So internal wounds are harder to deal with, although they often have an external cause.

An internal bleeding is detectable by symptoms such as: pain, blood emission by natural holes (mouth, ears, the anus, etc.), paleness, tachycardia (accelerated heartbeats), sensation of thirst, sweat, etc.

The key dangers of internal bleeding include hypovolaemic shock (leading to exsanguination), causing a tamponade on the heart, or a haemothorax on the lung. The aortic aneurysm is a special case where the aorta, the body's main blood vessel, becomes ruptured through an inherent weakness, although exertion, raised blood pressure or sudden movements could cause a sudden catastrophic failure.[23] This is one of the most serious medical emergencies a patient can face, as the only treatment is rapid surgery.

In a case of bleeding caused by an external source (a trauma, penetrating wound, etc.), the patient is usually inclined to the injured side, so that the 'good' side can continue to function properly, without interference from the blood inside the body cavity. The compression of the bleeding side may slow down the loss of blood. Some patients may prefer to stay crouched with flexed legs. Anyway, the patient would notice what is the position that makes him feel better. It is not convenient for the patient to inhale the blood towards the lungs (it would be preferable to swallow blood than inhale it). Cold can help to slow down internal bleeding (for example, with ice).

Internal bleeding is potentially life-threatening, and it is not into the scope of simple first aid. The definitive treatment for internal bleeding is always surgical treatment. So it requires to call to emergency medical services, because medical help must be sought urgently for any victim.[24]

See also

References

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  2. Cyr, Dawna L; Johnson, Steven B (September 2006). "Basic First Aid". The University of Maine. Archived from the original on 2007-06-10. Retrieved 2007-06-21.
  3. "NHS Formulary website" (PDF). Archived from the original (PDF) on 2012-03-10. Retrieved 2009-02-03.
  4. "Surgeryonline website". Retrieved 2009-02-03.
  5. "Wounds (1) (Merck Manual online)". Retrieved 2009-02-03.
  6. "Healthypeer website". Retrieved 2020-12-16.
  7. "Types of Wounds (Hansaplast.com website)". Archived from the original on 2008-12-04. Retrieved 2009-02-03.
  8. 'Contusion' Merrian-Webster. Retrieved 24/01/2018
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  11. Why Having a First Aid Kit is Important?
  12. "Control Bleeding (SUNY website)". Archived from the original on 2009-01-29. Retrieved 2009-02-03.
  13. 'Wound Care' The Royal Children's Hospital Melbourne. (2013). (Clinical Guidelines). Retrieved 24/01/2018
  14. Surgeons, Prehospital Trauma Life Support Committee of the National Association of Emergency Medical Technicians in cooperation with the Committee on Trauma of the American College of (2010). PHTLS : Prehospital Trauma Life Support (7th ed.). St. Louis, Mo.: Mosby Jems/Elsevier. ISBN 978-0323065023.
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  16. "New Guidelines (AHA Journal Circulation online)". Archived from the original on 2009-02-02. Retrieved 2009-01-03.
  17. "MedMarketDiligence website". Retrieved 2008-02-03.
  18. 1 2 Fabes, Jez; Brunskill, Susan J.; Curry, Nicola; Doree, Carolyn; Stanworth, Simon J. (2018-12-24). "Pro-coagulant haemostatic factors for the prevention and treatment of bleeding in people without haemophilia". The Cochrane Database of Systematic Reviews. 2018 (12): CD010649. doi:10.1002/14651858.CD010649.pub2. ISSN 1469-493X. PMC 6517302. PMID 30582172.
  19. 1 2 Simpson, E; Lin, Y; Stanworth, S; Birchall, J; Doree, C; Hyde, C (Mar 14, 2012). "Recombinant factor VIIa for the prevention and treatment of bleeding in patients without haemophilia". Cochrane Database of Systematic Reviews. 3 (3): CD005011. doi:10.1002/14651858.CD005011.pub4. hdl:10871/13808. PMID 22419303.
  20. FIRST AID course, 10 March 2023
  21. "Cresilon". Cresilon. Retrieved 2023-10-12.
  22. Cresilon. "Cresilon Receives First FDA Clearance For Human Use of Hemostatic Gel Technology". Cresilon. Retrieved 2023-10-12.
  23. "Aneurysms (Merck Manual online)". Retrieved 2009-02-03.
  24. "Internal Bleeding: First Aid (Merck Manual online)". Retrieved 2009-02-03.
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