Traumatic aortic rupture

Traumatic aortic rupture
The aorta, shown in red
Classification and external resources
Specialty emergency medicine
ICD-10 S25.0, S35.0
ICD-9-CM 901.0, 902.0
MeSH D001019

Traumatic aortic rupture, also called traumatic aortic disruption or transection, is a condition in which the aorta, the largest artery in the body, is torn or ruptured. The condition is frequently fatal due to the profuse bleeding that results from the rupture. Since the aorta branches directly from the heart to supply blood to the rest of the body, the pressure within it is very great, and blood may be pumped out of a tear in the blood vessel very rapidly. This can quickly result in shock and death. Thus traumatic aortic rupture is a common killer in automotive accidents and other traumas,[1] with up to 18% of deaths that occur in automobile collisions being related to the injury.[2] In fact, aortic disruption due to blunt chest trauma is the second leading cause of injury death behind traumatic brain injury.[3][4]

Aortic rupture can also be caused by non-traumatic mechanisms, particularly abdominal aortic aneurysm rupture.


The injury is usually caused by high speed impacts such as those that occur in vehicle collisions and serious falls.[1] It may be due to different rates of deceleration of the heart and the aorta, which is in a fixed position.[5]

Location of rupture

By far the most common site for tearing in traumatic aortic rupture is the proximal descending aorta, near where the left subclavian artery branches off from the aorta.[6][7] The tethering of the aorta by the ligamentum arteriosum makes the site prone to shearing forces during sudden deceleration.[8]

A study of people who died after traumatic aortic rupture found that in 55–65% of cases the damage was at the aortic isthmus and in 10–14% it was in the ascending aorta or aortic arch.[4] An angiogram will often show an irregular outpouching beyond the takeoff of the left subclavian artery at the aortic isthmus, representing an aortic pseudoaneurysm caused by the trauma. Damage can also be in the lower thoracic or abdominal aorta.[4]


The aorta is not always torn completely through; it may also tear some but not all layers of the arterial wall, sometimes forming a false aneurysm.[4] A sub-intimal hemorrhage is the least serious type.[4]


The condition is difficult to detect and may go unnoticed, because many patients have no specific symptoms. Diagnosis is further complicated by the fact that many patients with the injury experienced multiple other serious injuries as well,[9] so the attention of hospital staff may be distracted from the possibility of aortic rupture. In fact most cases occur along with other injuries.[4]

A common symptom is unusually high blood pressure in the upper body and very low blood pressure in lower limbs. Another symptom is renal failure where the creatinine level shoots very high and urine output becomes negligible. In most cases, however, the doctors would misinterpret renal failure as due to issues with the kidney itself and may recommend dialysis.

Though not completely reliable, chest X-rays are the first-line treatment,[4] initially used to diagnose this condition when the patient is unstable and cannot be sent to the CT bay. The preferred method of diagnosis used to be CT angiogram until it was found to cause complications in some people; now it is reserved for when CT scans are inconclusive.[4]

The classical findings on a chest X-ray will be widened mediastinum,[4] apical cap, and displacement of the trachea, left main bronchus, or nasogastric tube. A normal chest x-ray does not exclude transection, but will diagnose conditions such as pneumothorax or hydrothorax. The aorta may also be torn at the point where it is connected to the heart. The aorta may be completely torn away from the heart, but patients with such injuries rarely survive very long after the injury; thus it is much more common for hospital staff to treat patients with partially torn aortas.[1] When the aorta is partially torn, it may form a "pseudoaneurysm". In patients who do live long enough to be seen in a hospital, a majority have only a partially torn blood vessel, with the outermost adventitial layer still intact.[2] In some of these patients, the adventitia and nearby structures within the chest may serve to prevent severe bleeding.[2] After trauma, the aorta can be assessed by a CT angiogram or a direct angiogram, in which contrast is introduced into the aorta via a catheter.


Traumatic aortic rupture is treated with surgery. However, morbidity and mortality rates for surgical repair of the aorta for this condition are among the highest of any cardiovascular surgery.[3] For example, surgery is associated with a high rate of paraplegia,[10] because the spinal cord is very sensitive to ischemia (lack of blood supply), and the nerve tissue can be damaged or killed by the interruption of the blood supply during surgery.

A less invasive option for treatment is endovascular repair, which does not require open thoracotomy and can be safer for people with other injuries to organs.[4]

Since high blood pressure could exacerbate an incomplete tear in the aorta or even separate it completely from the heart, which would almost inevitably kill the patient, hospital staff take measures to keep the blood pressure low.[1] Such measures include giving pain medication, keeping the patient calm, and avoiding procedures that could cause gagging or vomiting.[1] Beta blockers and vasodilators can be given to lower the blood pressure, and intravenous fluids that might normally be given are foregone to avoid raising it.[4]


Death occurs immediately after traumatic rupture of the thoracic aorta 75%90% of the time since bleeding is so severe, and 8085% of patients die before arriving at a hospital.[2] Of those who live to reach a hospital, 23% die at the time of or shortly after arrival.[4] In the US, an estimated 7,500–8,000 cases occur yearly, of which 1,000–1,500 make it to a hospital alive; these low numbers make it difficult to estimate the efficacy of surgical options.[4] However, if surgery is performed in time, it can offer a chance of survival.[4]

Though there is a concern that a small, stable tear in the aorta could enlarge and cause complete rupture of the aorta and heavy bleeding, this may be less common than previously believed as long as the patient's blood pressure does not get too high.[2]

See also


  1. 1 2 3 4 5 Schrader L, Carey MJ (2000). "Traumatic Aortic Rupture". The Doctor Will See You Now. interMDnet Corp. Retrieved 2007-07-21.
  2. 1 2 3 4 5 Rousseau H, Soula P, Perreault P, et al. (2 February 1999). "Delayed treatment of traumatic rupture of the thoracic aorta with endoluminal covered stent". Circulation. 99 (4): 498–504. doi:10.1161/01.CIR.99.4.498. PMID 9927395.
  3. 1 2 Plummer D, Petro K, Akbari C, O'Donnell S (2006). "Endovascular repair of traumatic thoracic aortic disruption". Perspectives in vascular surgery and endovascular therapy. 18 (2): 132–139. doi:10.1177/1531003506293453. PMID 17060230.
  4. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Watanabe, K.; Fukuda, I.; Asari, Y. (2013). "Management of traumatic aortic rupture". Surgery Today. 43 (12): 1339–46. doi:10.1007/s00595-012-0471-7. PMID 23338596.
  5. Rittenhouse EA, Dillard DH, Winterscheid LC, Merendino KA (1969). "Traumatic rupture of the thoracic aorta: a review of the literature and a report of five cases with attention to special problems in early surgical management". Ann. Surg. 170 (1): 87–100. doi:10.1097/00000658-196907000-00010. PMC 1387606Freely accessible. PMID 5789533.
  6. Phillips BJ (2001). "Traumatic Rupture Of The Thoracic Aorta: An Endoluminal Approach". The Internet Journal of Thoracic and Cardiovascular Surgery. 4 (1). doi:10.5580/25b3. ISSN 1524-0274.
  7. McKnight JT, Meyer JA, Neville JF (1964). "Nonpenetrating Traumatic Rupture of the Thoracic Aorta". Ann. Surg. 160 (6): 1069–1072. doi:10.1097/00000658-196412000-00022. PMC 1408872Freely accessible. PMID 14246145.
  8. Benjamin, Mina; Roberts (April 2012). "Fatal aortic rupture from nonpenetrating chest trauma". Baylor University Medical Center Proceedings. 25 (2): 121–123. PMC 3310507Freely accessible. PMID 22481840.
  9. Vloeberghs M, Duinslaeger M, Van den Brande P, Cham B, Welch W (1988). "Posttraumatic rupture of the thoracic aorta". Acta Chir. Belg. 88 (1): 33–38. PMID 3376665.
  10. Attar S, Cardarelli MG, Downing SW, et al. (1999). "Traumatic aortic rupture: Recent outcome with regard to neurologic deficit". Ann. Thorac. Surg. 67 (4): 959–64; discussion 964–5. doi:10.1016/S0003-4975(99)00174-5. PMID 10320235.
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