Acta Chir Orthop Traumatol Cech. 2026; 93(3):178-188 | DOI: 10.55095/achot2025/044
Sternal Fracture as a Risk Factor for Blunt Cardiac InjuryZlomenina hrudní kosti jako rizikový faktor tupého poranění srdce
- 1 Department of General Surgery, Third Faculty of Medicine Charles University and University Hospital Královské Vinohrady, Prague
- 2 Department of Orthopaedics and Traumatology, Third Faculty of Medicine Charles University and University Hospital Královské Vinohrady, Prague
- 3 Third Faculty of Medicine Charles University, Prague
Motor vehicle collisions are the leading cause of blunt chest trauma, including blunt cardiac injury (BCI) and sternal fracture (SF). Blunt cardiac injury occurs in about 20% of blunt chest trauma reaching to 76% in polytrauma patients. Reported SF rates range from 1.6% to 42%. This review evaluates the link between SF and BCI with focus on incidence, diagnosis and implications for patient management.
A systematic search of the scientific literature in online databases over the past 15 years was conducted. The final set included 31 studies, predominantly retrospective, which were subsequently analyzed with emphasis on the definition of BCI, its occurrence and its association with SF.
BCI refers to a heterogeneous group of cardiac injuries resulting from a common traumatic mechanism. The term is often used interchangeably with myocardial contusion, thereby limiting the comparability of study results. Clinically significant injury can range from mild arrhythmias to cardiogenic shock, while some cases of BCI may remain completely asymptomatic. SF is common and indicates a substantial force to the chest. Patients are often categorized into two groups: those with an isolated sternal fracture, which is usually a benign injury without cardiac involvement, and those with a combined sternal fracture, which is common in polytrauma patients. The association between SF and BCI remains controversial. Some studies regard SF as a general indicator of overall trauma severity, whereas others identify it as an independent risk factor for BCI. There are multiple approaches in diagnostics of BCI. Initial screening includes electrocardiography and monitoring of troponin I levels. If both are within normal limits, BCI is unlikely. Echocardiography is recommended for hemodynamically unstable patients or when initial test results are abnormal. Management includes continuous ECG monitoring, treatment of arrhythmias and analgesia.
Current recommendations support screening for BCI following blunt chest trauma. Evidence is mixed on whether SF alone predicts the presence of BCI. Further prospective studies using a uniform definition of BCI are required to confirm the clinical significance of SF in the diagnosis and patient prognosis. Physicians should maintain a high index of suspicion for BCI in patients after high-energy chest trauma.
Keywords: sternal fracture, blunt cardiac injury, chest trauma.
Received: August 29, 2025; Revised: August 29, 2025; Accepted: October 21, 2025; Published: July 1, 2026 Show citation
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References
- Al-Khouja F, Grigorian A, Emigh B, Schellenberg M, Diaz G, Duncan TK, Tuli R, Coimbra R, Gilbert-Gard K, Johnson A, Marty M, Jebbia M, Obaid-Schmid AK, Fierro N, Ley E, Bayat D, Biffl W, Ebrahimian S, Tillou M A, Tay-Lasso E, Alvarez C, Nahmias J. 24-hour Telemetry Monitoring May Not be Necessary for Patients With an Isolated Sternal Fracture and Minor ECG Abnormalities or Troponin Elevation: A Southern California Multicenter Study. Am Surg. 2025;91:126-132.
Go to original source... - American Association for the Surgery of Trauma. Blunt cardiac injury [online]. Chicago (IL): American Association for the Surgery of Trauma; [cited 2025 Jun 18]. Available from: https://www.aast.org/resources-detail/blunt-cardiac-injury
- Andrews RP, McAfee RE. Sternal fractures secondary to seat belt injury: price for survival. J Maine Med Assoc. 1967;58:187-190.
- Becker ER, Price AD, Whitrock JN, Smith M, Baucom MR, Makley AT, Goodman MD. Re-evaluating the Use of High Sensitivity Troponin to Diagnose Blunt Cardiac Injury. J Surg Res. 2024;300:150-156.
Go to original source... - Burchell HB. Unusual forms of heart disease. Circulation. 1954;10:574-579.
Go to original source... - Clancy K, Velopulos C, Bilaniuk JW, Collier B, Crowley W, Kurek S, Lui F, Nayduch D, Sangosanya A, Tucker B, Haut ER; Eastern Association for the Surgery of Trauma. Screening for blunt cardiac injury: an Eastern Association for the Surgery of Trauma practice management guideline. J Trauma Acute Care Surg. 2012;73(5 Suppl 4):S301-S306.
Go to original source... - Dua A, McMaster J, Desai PJ, Desai SS, Kuy S, Mata M, Cooper J. The Association between Blunt Cardiac Injury and Isolated Sternal Fracture. Cardiol Res Pract. 2014;2014:629687.
Go to original source... - El-Menyar A, Al Thani H, Zarour A, Latifi R. Understanding traumatic blunt cardiac injury. Ann Card Anaesth. 2012;15:287-295.
Go to original source... - Fokin AA, Wycech Knight J, Abid AT, Yoshinaga K, Alayon AL, Grady R, Weisz RD, Puente I. Sternal fractures in blunt trauma patients. Eur J Trauma Emerg Surg. 2022;48:2987-2998.
Go to original source... - Galvagno SM Jr, Nahmias JT, Young DA. Advanced Trauma Life Support® Update 2019: Management and Applications for Adults and Special Populations. Anesthesiol Clin. 2019;37:13-32.
Go to original source... - Gao JM, Du DY, Kong LW, Yang J, Li H, Wei GB, Li CH, Liu CP. Emergency Surgery for Blunt Cardiac Injury: Experience in 43 Cases. World J Surg. 2020;44:1666-1672.
Go to original source... - Grigorian A, Milliken J, Livingston JK, Spencer D, Gabriel V, Schubl SD, Kong A, Barrios C, Joe V, Nahmias J. National risk factors for blunt cardiac injury: Hemopneumothorax is the strongest predictor. Am J Surg. 2019;217:639-642.
Go to original source... - Hammer MM, Raptis DA, Cummings KW, Mellnick VM, Bhalla S, Schuerer DJ, Raptis CA. Imaging in blunt cardiac injury: Computed tomographic findings in cardiac contusion and associated injuries. Injury. 2016;47:1025-1030.
Go to original source... - Hanschen M, Kanz KG, Kirchhoff C, Khalil PN, Wierer M, van Griensven M, Laugwitz KL, Biberthaler P, Lefering R, Huber-Wagner S; TraumaRegister DGU. Blunt Cardiac Injury in the Severely Injured - A Retrospective Multicentre Study. PLoS One. 2015;10:e0131362.
Go to original source... - Heidelberg L, Uhlich R, Bosarge P, Kerby J, Hu P. The Depth of Sternal Fracture Displacement Is Not Associated With Blunt Cardiac Injury. J Surg Res. 2019;235:322-328.
Go to original source... - Huber S, Biberthaler P, Delhey P, Trentzsch H, Winter H, van Griensven M, Lefering R, Huber-Wagner S; Trauma Register DGU. Predictors of poor outcomes after significant chest trauma in multiply injured patients: a retrospective analysis from the German Trauma Registry (Trauma Register DGU®). Scand J Trauma Resusc Emerg Med. 2014;22:52.
Go to original source... - Huis In 't Veld MA, Craft CA, Hood RE. Blunt Cardiac Trauma Review. Cardiol Clin. 2018;36:183-191.
- Ishida K, Katayama Y, Kitamura T, Hirose T, Ojima M, Nakao S, Tachino J, Umemura Y, Kiguchi T, Matsuyama T, Noda T, Kiyohara K, Oda J, Ohnishi M. Factors Associated with Cardiac/Pericardial Injury among Blunt Injury Patients: A Nationwide Study in Japan. J Clin Med. 2022;11:4534.
Go to original source... - Jiang Y, Zhou G, Feng J, Ma L, Pan J. Injury mechanism, risk factors and outcomes associated with blunt cardiac injury: a systematic review and meta-analysis. Cardiol Plus. 2023;8:53-62.
Go to original source... - Johnson I, Branfoot T. Sternal fracture-a modern review. Arch Emerg Med. 1993;10:24-28.
Go to original source... - Kara H, Bayir A, Degirmenci S, Yildiran H, Kafali ME, Ak A. Sternal Fractures in Blunt Chest Trauma: Retrospective Analysis of 330 Cases. J Coll Physicians Surg Pak. 2022;32:799-803.
Go to original source... - Karangelis D, Bouliaris K, Koufakis T, Spiliopoulos K, Desimonas N, Tsilimingas N. Management of isolated sternal fractures using a practical algorithm. J Emerg Trauma Shock. 2014;7:170-173.
Go to original source... - Kouritas VK, Zisis C, Vahlas K, Roussakis AG, Bellenis I. Isolated sternal fractures treated on an outpatient basis. Am J Emerg Med. 2013;31:227-230.
Go to original source... - Kunhivalappil FT, Almansoori TM, AbdulRahman MS, Hefny MA, Mansour NA, Zoubeidi T, Khan MAB, Hefny AF. Management of Blunt Sternal Fractures in a Community-Based Hospital. Surg Res Pract. 2023;2023:8896989.
Go to original source... - Kuru M, Sahinoglu T. Are sternum fractures really indicative of severe trauma? Ann Med Res. 2019;26(10):2219-2223.
Go to original source... - Kyriazidis IP, Jakob DA, Vargas JAH, Franco OH, Degiannis E, Dorn P, Pouwels S, Patel B, Johnson I, Houdlen CJ, Whiteley GS, Head M, Lala A, Mumtaz H, Soler JA, Mellor K, Rawaf D, Ahmed AR, Ahmad SJS, Exadaktylos A. Accuracy of diagnostic tests in cardiac injury after blunt chest trauma: a systematic review and meta-analysis. World J Emerg Surg. 2023;18:36.
Go to original source... - Ma DS, Ryu JW, Noh D. Direct cardiac rupture associated with sternal fracture following blunt trauma: A report of two case. Trauma Case Rep. 2021;32:100430.
Go to original source... - Mahmood I, El-Menyar A, Dabdoob W, Abdulrahman Y, Siddiqui T, Atique S, Arumugam SK, Latifi R, Al-Thani H. Troponin T in patients with traumatic chest injuries with and without cardiac involvement: insights from an observational study. N Am J Med Sci. 2016;8:17-24.
Go to original source... - Marcolini EG, Keegan J. Blunt Cardiac Injury. Emerg Med Clin North Am. 2015;33:519-527.
Go to original source... - Mattox KL, Flint LM, Carrico CJ, Grover F, Meredith J, Morris J, Rice C, Richardson D, Rodriquez A, Trunkey DD. Blunt cardiac injury. J Trauma. 1992;33:649-650.
Go to original source... - Meinberg EG, Agel J, Roberts CS, Karam MD, Kellam JF. Fracture and Dislocation Classification Compendium-2018. J Orthop Trauma. 2018;32(Suppl 1):S1-S170.
Go to original source... - Nair L, Winkle B, Senanayake E. Managing blunt cardiac injury. J Cardiothorac Surg. 2023;18:71.
Go to original source... - Nathwani JN, Baucom MR, Salvator A, Makley AT, Tsuei BJ, Droege CA, Goodman MD, Nomellini V. Evaluating the utility of high sensitivity troponin in blunt cardiac injury. J Surg Res. 2023;281:104-111.
Go to original source... - Odell DD, Peleg K, Givon A, Radomislensky I, Makey I, Decamp MM, Whyte R, Gangadharan SP, Berger RL; Israeli Trauma Group. Sternal fracture: isolated lesion versus polytrauma from associated extrasternal injuries-analysis of 1,867 cases. J Trauma Acute Care Surg. 2013;75:448-452.
Go to original source... - Oyetunji TA, Jackson HT, Obirieze AC, Moore D, Branche MJ, Greene WR, Cornwell EE 3rd, Siram SM. Associated injuries in traumatic sternal fractures: a review of the National Trauma Data Bank. Am Surg. 2013;79:702-705.
Go to original source... - Pape HC, Lefering R, Butcher N, Peitzman A, Leenen L, Marzi I, Lichte P, Josten C, Bouillon B, Schmucker U, Stahel P, Giannoudis P, Balogh Z. The definition of polytrauma revisited: An international consensus process and proposal of the new 'Berlin definition'. J Trauma Acute Care Surg. 2014;77:780-786.
Go to original source... - Perez MR, Rodriguez RM, Baumann BM, Langdorf MI, Anglin D, Bradley RN, Medak AJ, Mower WR, Hendey GW, Nishijima DK, Raja AS. Sternal fracture in the age of pan-scan. Injury. 2015;46:1324-1327.
Go to original source... - Plautz CU, Perron AD, Brady WJ. Electrocardiographic ST-segment elevation in the trauma patient: acute myocardial infarction vs myocardial contusion. Am J Emerg Med. 2005;23:510-516.
Go to original source... - Porter RS, Zhao N. Patterns of injury in belted and unbelted individuals presenting to a trauma center after motor vehicle crash: seat belt syndrome revisited. Ann Emerg Med. 1998;32:418-424.
Go to original source... - Sağlam Gürmen E, Tulay CM. Attention: Cardiac contusion. Ulus Travma Acil Cerrahi Derg. 2022;28:634-640.
- Scheyerer MJ, Zimmermann SM, Bouaicha S, Simmen HP, Wanner GA, Werner CM. Location of sternal fractures as a possible marker for associated injuries. Emerg Med Int. 2013;2013:407589.
Go to original source... - Shoar S, Hosseini FS, Naderan M, Khavandi S, Tabibzadeh E, Khavandi S, Shoar N. Cardiac injury following blunt chest trauma: diagnosis, management, and uncertainty. Int J Burns Trauma. 2021;11:80-89.
- Şimşek S, Özmen CA, Onat S. Morbidity and mortality associated with fracture of the sternum due to blunt trauma, by fracture type and location. Radiol Bras. 2022;55:167-172.
Go to original source... - Skinner DL, Laing GL, Rodseth RN, Ryan L, Hardcastle TC, Muckart DJ. Blunt cardiac injury in critically ill trauma patients: a single centre experience. Injury. 2015;46:66-70.
Go to original source... - Son YN, Kim JI, Lee HN, Shin SY. Retrosternal hematoma in sternal fracture for prediction of concomitant injury on chest CT. Acta Radiol. 2021;62:1610-1617.
Go to original source... - Sztulman L, Ritter A, de Rosa R, Pfeiffer V, Leppik L, Busse LC, Kontaxi E, Störmann P, Verboket R, Adam E, Marzi I, Weber B. Cardiac damage after polytrauma: the role of systematic transthoracic echocardiography - a pilot study. World J Emerg Surg. 2025;20:21.
Go to original source... - Turan AA, Karayel FA, Akyildiz E, Pakis I, Uzun I, Gurpinar K, Atilmis U, Kir Z. Cardiac injuries caused by blunt trauma: an autopsy based assessment of the injury pattern. J Forensic Sci. 2010;55:82-84.
Go to original source... - Uz İ, Üstsoy E, Özçete E, Özdil A, Çinkooğlu A, Ersel M. Factors affecting discharge of patients with sternal fractures. Ege J Med. 2021;60:70-75.
Go to original source... - Van Lieshout EMM, Verhofstad MHJ, Van Silfhout DJT, Dubois EA. Diagnostic approach for myocardial contusion: a retrospective evaluation of patient data and review of the literature. Eur J Trauma Emerg Surg. 2021;47:1259-1272.
Go to original source... - Velmahos GC, Karaiskakis M, Salim A, Toutouzas KG, Murray J, Asensio J, Demetriades D. Normal electrocardiography and serum troponin I levels preclude the presence of clinically significant blunt cardiac injury. J Trauma. 2003;54:45-50.
Go to original source... - von Garrel T, Ince A, Junge A, Schnabel M, Bahrs C. The sternal fracture: radiographic analysis of 200 fractures with special reference to concomitant injuries. J Trauma. 2004;57:837-844.
Go to original source... - Wiener Y, Achildiev B, Karni T, Halevi A. Echocardiogram in sternal fracture. Am J Emerg Med. 2001;19:403-405.
Go to original source... - Wilson RF, Murray C, Antonenko DR. Nonpenetrating thoracic injuries. Surg Clin North Am. 1977;57:17-36.
Go to original source... - Yamada H, Ito H, Fujiwara M. Cardiac and vascular point-of-care ultrasound: current situation, problems, and future prospects. J Med Ultrason (2001). 2022;49:601-608.
Go to original source... - Yeh DD, Hwabejire JO, DeMoya MA, Alam HB, King DR, Velmahos GC. Sternal fracture-an analysis of the National Trauma Data Bank. J Surg Res. 2014;186:39-43.
- Yolgösteren A, Yüksel A, Kan İİ, Durak VA. Is hospitalization necessary in isolated traumatic sternal fractures? Eur Res J. 2020;6:661-664.
Go to original source... - Yousef R, Carr JA. Blunt cardiac trauma: a review of the current knowledge and management. Ann Thorac Surg. 2014;98:1134-1140.
Go to original source...


