Blunt Cardiac Injury in Patients With Sternal Fractures

Alexander A Fokin; Joanna Wycech Knight; Kai Yoshinaga; Ayesha T Abid; Robert Grady; Amaris L Alayon; Ivan Puente

doi:10.7759/cureus.22841

Blunt Cardiac Injury in Patients With Sternal Fractures

Cureus. 2022 Mar 4;14(3):e22841. doi: 10.7759/cureus.22841. eCollection 2022 Mar.

Authors

Alexander A Fokin^{1

2}, Joanna Wycech Knight^{2

3}, Kai Yoshinaga^{1

2}, Ayesha T Abid^{1

2}, Robert Grady^{1

2}, Amaris L Alayon^{1

2}, Ivan Puente^{3

2

1

4}

Affiliations

¹ Surgery, Florida Atlantic University Charles E. Schmidt College of Medicine, Boca Raton, USA.
² Trauma and Acute Care Surgery, Delray Medical Center, Delray Beach, USA.
³ Trauma and Acute Care Surgery, Broward Health Medical Center, Fort Lauderdale, USA.
⁴ Surgery, Florida International University, Herbert Wertheim College of Medicine, Miami, USA.

Abstract

Background Blunt cardiac injury (BCI) is a possible consequence of sternal fractures (SF). There is a scarcity of studies addressing BCI in patients with different types of SF and with pre-existing cardiac conditions. The goal of this study was to delineate diagnostic patterns of BCI in different cohorts of SF patients. Methods This retrospective cohort study included 380 blunt trauma patients admitted to two level 1 trauma centers between January 2015 and March 2020 with radiologically confirmed SF. Electrocardiography, cardiac enzymes and echocardiography were evaluated for BCI diagnosis. Analyzed variables included: age, comorbidities, injury severity score, Glasgow coma score, type of SF (isolated, combined, displaced), incidence of traumatic brain injury, co-injuries, retrosternal hematoma, intensive care unit admissions, hospital lengths of stay, and mortality. Results In 380 SF patients there were 250 (66%) females and 130 (34%) males and the mean age was 63 years old. Electrocardiography was done in all patients, cardiac enzymes in 234 (62%) and echocardiography in 181 (48%). BCI was diagnosed in 19 (5%) of patients, all having combined SF. BCI patients had higher injury severity score (mean 18.4) and 14 (74%) had pulmonary co-injuries. Multivariable analysis confirmed pulmonary co-injuries as a statistically significant predictor of BCI (p<0.001). BCI patients compared to no BCI patients had all three tests (electrocardiography, cardiac enzymes and echocardiography) performed statistically more often (90% vs 36%, p<0.001). SF patients with pre-injury cardiac comorbidities had similar incidence of BCI as without cardiac comorbidities (5% vs 6%, p=0.6). In SF patients with traumatic brain injury, cardiac enzymes (troponin, creatine kinase) were elevated significantly more often compared to patients without traumatic brain injury (58% vs 38%, p=0.02). SF displacement or retrosternal hematoma presence were not associated with BCI. Mortality in SF patients with BCI versus without was not statistically different (16 vs 9%, p=0.4). Conclusions Blunt cardiac injury is rare in patients with SF. Higher degree of BCI suspicion must be applied in combined SF patients, especially those with pulmonary co-injuries. Cardiac comorbidities did not affect the rate of BCI. Echocardiography for BCI diagnosis is essential in SF patients with traumatic brain injury, as cardiac enzymes may be less informative, however is less important in isolated SF patients. Performing all three diagnostic tests in combined SF patients improves the accuracy of BCI diagnosis.

Keywords: blunt cardiac injury; blunt thoracic trauma; cardiac comorbidities; cardiac contusion; echocardiography; sternal fractures; traumatic brain injury; troponin.