TDR is frequently seen in young men and it occurs with blunt or penetrating traumas. It is most frequently observed in motorcycle accidents. The pathophysiolo-gy of this injury is speculative. The most accepted hypothesis describes an increased intra-abdominal pressure following a blunt mechanism creating a sufficiently high-pressure gradient with the chest and ab-domen to cause rupture and subsequent visceral intra-thoracic herniation. Right side of diaphragma is sup-ported by liver, because of this the most common side of the injury is left. Left side injury occurs %68 of all diaphragma injuries. The most common injury loca-tion is the posterolateral side of the hemi-diaphragm. There are many imaging techniques such as chest radi-ography, fluoroscopy, ultrasonography, CT, and mag-netic resonance imaging (MRI) to use for diagnosis. Chest radiography is the first imaging modality in these conditions. Chest radiography helps to diagnose only 20-34% of patients with TDR. CT is the most useful imaging technique to evaluate TDR. CT also provides examination of other abdominal organs, lungs, and bones. The discontinuation of the diaphragm and dia-phragmatic thickening are the most common findings on CT. For the left sided diaphragmatic ruptures, CT examination sensitivity–specificity was 78% and 100% respectively. For the right sided diaphragmatic ruptures, CT examination sensitivity-specifity was 50% and 83% respectively
2,6.
Diaphragmatic injuries are very important to diagnose. There must be a high energy force to cause the rupture of diaphragm. At the same time, there can be other life-threatening injuries with diaphragmatic rupture 7. Chest and pelvis radiographs are often obtained firstly in patients with blunt multi-trauma. The presence of pneumothorax and rib fractures on chest radiography increases the possibility of abdominal injury. Pneumothorax, hemothorax, pneumoperitoneum are other common findings seen in patients with blunt multi-trauma on chest radiography. Ultrasonography plays an important role in the initial evaluation of blunt ab-dominal trauma. The presence of free fluid in the abdomen is investigated by focused evaluation with so-nography (FAST) in trauma. Hemoperitoneum due to solid organ injury can be detected by ultrasonography. Computed tomography is the most sensitive imaging modality for patients with stable multi-trauma with suspected intraabdominal injury. Computed tomogra-phy provides valuable information in terms of injury severity and prognosis in intra-abdominal injuries. However, many studies have shown that computed tomography is less sensitive in detecting diaphragmatic and intestinal injuries 8. Chest and splenic injuries are the most common injury that occur with diaphragmatic rupture. Missed diagnosis in these cases have a poten-tial morbidity rate of 30 % and mortality rate as high as 10% at diaphragmatic rupture. If missed diagnosis present with transthoracic herniation later, mortality rate rises to 30%-60%. Treatment principles of dia-phragmatic rupture are repairing the defect by forming watertight closure, reducing herniated organs to abdo-men and placing chest tube in the hemi thorax 9.
In conclusion, TDR is an important condition that could be overlooked in the acute phase of cases. Seri-ous complications like transthoracic organ herniation, and strangulation could occur in critical cases. CT is the best imaging modality to show TDR with these complications.