Physical traumas are tragic and multifaceted injuries that suddenly threaten life. Although it is the third most common cause of death in all age groups, one out of four trauma patients die due to thoracic injury or its complications. Blunt injuries constitute the majority of chest trauma. This indicates the importance of chest trauma among all traumas. Blunt chest trauma is usually caused by motor vehicle accident, falling from height, blunt instrument injury and physical assault. As a result of chest trauma, many injuries may occur, such as pulmonary injuries, and these require urgent intervention. Chest wall and pulmonary injuries range from rib fractures to flail chest, pneumothorax to hemothorax and pulmonary contusion to tracheobronchial injuries. Following these injuries, patients may present with a simple dyspnea or even respiratory arrest. For such patient, it is important to understand the treatment logic and to take a multidisciplinary approach to treat the pulmonary and chest wall injuries. This is because only 10% of thoracic trauma patients require surgical operation and the remaining 90% can be treated with simple methods such as appropriate airway, oxygen support, maneuvers, volume support and tube thoracostomy. Adequate pain control in chest trauma is sometimes the most basic and best treatment. With definite diagnosis, the morbidity and mortality can be significantly reduced by simple treatment methods.
Flail Chest ; therapy ; Hemothorax ; therapy ; Humans ; Lung Injury ; therapy ; Pain Management ; Pneumothorax ; therapy ; Rib Fractures ; therapy ; Thoracic Injuries ; therapy ; Thoracic Wall ; injuries ; Wounds, Nonpenetrating ; therapy

Humans ; Rib Fractures ; Thoracic Injuries

BACKGROUND: Ventilator-associated pneumonia (VAP) is a common disease that may contribute to morbidity and mortality among trauma patients in the intensive care unit (ICU). This study evaluated the associations between trauma factors and the development of VAP in ventilated patients with multiple rib fractures. METHODS: We retrospectively and consecutively evaluated 101 patients with multiple rib fractures who were ventilated and managed at our hospital between January 2010 and December 2015, analyzing the associations between VAP and trauma factors in these patients. Trauma factors included sternal fracture, flail chest, diaphragm injury, traumatic aortic dissection, combined cardiac injury, pulmonary contusion, pneumothorax, hemothorax, hemopneumothorax, abbreviated injury scale score, thoracic trauma severity score, and injury severity score. RESULTS: Forty-six patients (45.5%) had at least 1 episode of VAP, 10 (21.7%) of whom died in the ICU. Of the 55 (54.5%) patients who did not have pneumonia, 9 (16.4%) died in the ICU. Using logistic regression analysis, we found that VAP was associated with severe lung contusion (odds ratio, 3.07; 95% confidence interval, 1.12 to 8.39; p=0.029). CONCLUSION: Severe pulmonary contusion (pulmonary lung contusion score 6–12) is an independent risk factor for VAP in ventilated trauma patients with multiple rib fractures.
Abbreviated Injury Scale ; Contusions ; Diaphragm ; Flail Chest ; Hemopneumothorax ; Hemothorax ; Humans ; Injury Severity Score ; Intensive Care Units ; Logistic Models ; Lung ; Lung Injury ; Mortality ; Pneumonia* ; Pneumonia, Ventilator-Associated ; Pneumothorax ; Retrospective Studies ; Rib Fractures* ; Ribs* ; Risk Factors* ; Thoracic Injuries ; Wounds and Injuries

Judet's rib struts which are designed for osteosynthesis are made of stainless steel. This report describes clinical analysis of our experiences of 30 cases with the operative stabilization of multiple rib fractures with Judet's rib struts from December, 1995, to December, 1996 in Chungmoo Hospital, Chounan. Our indications for operative stabilization were as follows: 14 cases in flail chest, 8 cases in severe displacement of rib including segmental fractures, 7 cases in additional procedures during intrathoracic operation, and 1 case in other cause. Postoperative artificial ventilation is needed in only 1 case for 5 days and posto- perative complications were few: 2 cases of hemopneumothorax, 2 cases of alcohol with- drawal delirium, and 1 case of postoperative hepatitis. Average duration of hospital admission who have limited thoracic injuries was 10.5 days. Though more comparative studies is necessary, we find this technique to be better than previously published methods, since it provides better stabilization and immobilization of the ribs and shortening the duration of hospital admission.
Delirium ; Flail Chest ; Hemopneumothorax ; Hepatitis ; Immobilization ; Rib Fractures* ; Ribs* ; Stainless Steel ; Thoracic Injuries ; Ventilation

Rib fracture is the most common injury in chest trauma. Most of patients with rib fractures were treated conservatively, but up to 50% of patients, especially those with combined injury such as flail chest, presented chronic pain or chest wall deformities, and more than 30% had long-term disabilities, unable to retain a full-time job. In the past two decades, surgery for rib fractures has achieving good outcomes. However, in clinic, there are still some problems including inconsistency in surgical indications and quality control in medical services. Before the year of 2018, there were 3 guidelines on the management of regional traumatic rib fractures were published at home and abroad, focusing on the guidance of the overall treatment decisions and plans; another clinical guideline about the surgical treatment of rib fractures lacks recent related progress in surgical treatment of rib fractures. The Chinese Society of Traumatology, Chinese Medical Association, and the Chinese College of Trauma Surgeons, Chinese Medical Doctor Association organized experts from cardiothoracic surgery, trauma surgery, acute care surgery, orthopedics and other disciplines to participate together, following the principle of evidence-based medicine and in line with the scientific nature and practicality, formulated the Chinese consensus for surgical treatment of traumatic rib fractures (STTRF 2021). This expert consensus put forward some clear, applicable, and graded recommendations from seven aspects: preoperative imaging evaluation, surgical indications, timing of surgery, surgical methods, rib fracture sites for surgical fixation, internal fixation method and material selection, treatment of combined injuries in rib fractures, in order to provide guidance and reference for surgical treatment of traumatic rib fractures.
China ; Consensus ; Flail Chest ; Fracture Fixation, Internal ; Humans ; Rib Fractures/surgery* ; Thoracic Injuries

The term flail chest is used to describe the condition in which a portion of the chest wall moves in a direction opposite to the rest of the thorax. This condition generally results from multiple rib fractures caused by external thoracic compression. Most characteristically, this occurs as a result of bilateral rib fractures after a steering-wheel injury or a crushing chest injury. In this article, 3 cases of flail chest developed following cardiopulmonary resuscitation showing a typical paradoxical respiration. The first case, a 69 year old male, had cardiac arrest during direct laryngoscopy in the operating room and was successfully resuscitated with external heart compression. He was then found to have separation of all costochondral junctions with paradoxical respirations. He was intubated and his respirations were controlled with a volume controlled respirator. Two days later, surgical traction was applied to his sternum, and was maintained for three weeks. He went home in good health after removal of the traction. The second case, a 48 year old male in hypovolemic shock, had a cardiac arrest postoperatively. He was resuscitated and then found to have paradoxical respiration which was controlled by a volume controlled respirator. He died of brain damage resulting from insufficient C.P.R. on the third day after the incident. The third case, a 57 year old male, was admitted to this institution from a local clinic with a flail chest as a result of costochondral separation after C.P.R. had been performed. He was intubated and his respirations were controlled by a volume setting respirator. On the second day following admission, traction was applied surgically to his sternum, thereafter he had normal respirations. However, his consciousness never returned and he died fo suspected brain damage fifteen days following admission. Cardiopulmonary resuscitation is vitally important to maintain artificial circulation and respiration. Cardiac compression must be sufficient to force blood out of the ventricles between the sternum and the spin(Fig.3). Even though the most common complication of C.P.R. is rib fractures, a sufficient heart compression is still the most important factor. However, rib fractures may be avoided by proper placement of the hands over the sternum during manual heart compression(Fig. 2). Once flail chest occurs, it should be actively treated by a volume controlled respirator and traction.
Aged ; Brain ; Cardiopulmonary Resuscitation* ; Consciousness ; Flail Chest* ; Hand ; Heart ; Heart Arrest ; Humans ; Laryngoscopy ; Male ; Middle Aged ; Operating Rooms ; Respiration ; Rib Fractures ; Shock ; Sternum ; Thoracic Injuries ; Thoracic Wall ; Thorax ; Traction ; Ventilators, Mechanical

BACKGROUND: In the patients with thoracic injury, we suspect simultaneous cardiac contusion or concussion. We analyzed the patients with possible cardiac injury by electrocardiography, serum creatine kinase (CK), creatine kinase isoenzyme fraction (CK-MB) screening, followed by two dimentional echocardiogram (2-DE) to access the severity of injury. MATERIAL AND METHOD: From January 1997 to April 1998, 15-month retrospective study of suspicious myocardial injury was undertaken in including 24 patients admitted for suspected cardiac injury. All patients with history or signs of blunt chest injury were checked serially and the serial CK, CK-MB fraction, electrocardiography (EKG) analysis screening were followed by 2-DE. RESULT: The age range was between 20-40 years and were predominant male patients in(M:F=3:1). Most common causes of injury were traffic accidents, 15 patients(62.5%). Associated injuries involved multiple rib fractures, sternal fracture and such. EKG findings on the cardiac concussion were within normal limits, EKG findings on the cardiac contusion were nonspecific ST and T wave abnormality. In cardiac contusion patients, CK-MB fraction did not increase significantly on admission but on 2nd, 3rd, 4th hospital days, it increased significantly (p=0.0080, 0.0130, 0.0130). The average admission days were 9.22 in concussion and 26.18 in contusion patients(p=0.0075). Most common complication was the adult respiratory distress syndrome(7 cases), 5 out of the patients with ARDS were mechanically ventilated. There were no deaths. CONCLUSION: We believe the serial checks of CK-MB, EKG and subsquent two-dementional echocardiographic sector scanning are presently the most sensitive indicators available for structural and functional cardiac injury.
Accidents, Traffic ; Adult ; Commotio Cordis* ; Contusions* ; Creatine Kinase ; Echocardiography ; Electrocardiography ; Heart Injuries ; Humans ; Male ; Mass Screening ; Retrospective Studies ; Rib Fractures ; Thoracic Injuries

PURPOSE: We wished to compare the ability of ultrasonography and radiography performed on the same day to detect rib fractures in minor chest injuries. MATERIALS AND METHODS: Two hundred and fifteen patients with minor chest injuries were selected. Radiography and ultrasonography were performed on the same day with these patients. Chest wall pain was the only presenting symptom. Two radiologists performed ultrasonography. Fractures were identified by a disruption of the anterior margin of the rib and costal cartilage. The incidence and location of fractures and complications revealed by radiography and ultrasonography were compared. RESULTS: Radiographs revealed the presence of 70 rib fractures in 50 (23%) of 215 patients and ultrasonography revealed the presence of 203 rib fractures in 133 (62%) of 215 patients. Ultrasonography uniquely identified 133 rib fractures in 83 patients. Ultrasonography identified a 2.9 fold increase in the number of fractures in a 2.6 fold number of subjects as compared to radiography. Of the 203 sonographically detected fractures, 201 were located in the rib, one was located at the costochondral junction, and one in the costal cartilage. There were no complications seen by either radiography or ultrasonography. CONCLUSION: Ultrasonography reveals more fractures than those that may be overlooked on radiography for minor chest injuries.
Cartilage ; Humans ; Incidence ; Radiography* ; Rib Fractures* ; Ribs* ; Thoracic Injuries* ; Thoracic Wall ; Thorax* ; Ultrasonography*

The introduction of Multidetector-row CT (MDCT) has revolutionized the diagnostic strategy of multitrauma patients. The rapid acquisition of a large scanning volume with a thin slice collimation allows for motion-free images of high spatial resolution, and this enables the application of the multiplanar reformat (MPR) and 3D volume-rendering (VR) images. The MPR images more accurately demonstrate aortic rupture or dissection, diaphragmatic injuries and fracture of vertebrae, sternum and costal cartilages. Diagnosing vascular injuries can be aided by using the MIP images. Rib fracture, trachea and bronchial laceration are more easily detected by the 3D images, while airway and vascular injuries can be detected from performing virtual endoscopy. We introduce our current CT imaging protocol and we present our clinical experience with using MDCT in the assessment of patients with blunt thoracic trauma
Aortic Rupture ; Cartilage ; Endoscopy ; Humans ; Lacerations ; Rib Fractures ; Spine ; Sternum ; Thoracic Injuries* ; Trachea ; Vascular System Injuries

PURPOSE: Rib and sternal fractures are common complications of chest compressions during cardiopulmonary resuscitation (CPR). The aim of this study is to investigate skeletal chest injuries following chest compressions and factors associated with skeletal chest injuries. METHODS: A retrospective study was conducted for 10 years from January 2005 to February 2015. Skeletal chest injuries in patients who underwent computerized tomography (CT) after return of spontaneous circulation (ROSC) were analyzed. The exclusion criteria were patients with insufficient medical records, under 18 years old, traumatic cardiac arrest, and out-of-hospital cardiac arrest. RESULTS: During the period 106 patients were included. The CT scan after ROSC showed that 47 patients (44.3%) had rib fractures, and 20 patients (18.9%) had sternal fractures. The rib fracture group showed higher age (73 vs 61, p<0.001), longer CPR time (10 vs 6 min, p<0.001), and higher incidence of sternal fracture (34% vs 6.8%, p<0.001). The sternal fracture group showed longer CPR time (10 vs 7, p<0.05) and higher incidence of rib fractures (80% vs 4.7%, p<0.001). In multivariate logistic regression analysis, age (OR 1.087; 95% CI 1.041 to 1.134, p<0.001), CPR time (OR 1.200; 95% CI 1.087 to 1.323, p<0.001), and sternal fracture (OR 4.524; 95% CI 1.259 to 16.697, p=0.021) showed significant association with rib fracture. CONCLUSION: Rib and sternal fractures are frequent complications in patients who underwent CPR. In hospital cardiac arrest patients with older age, longer CPR time, and sternal fracture needed more precaution for rib fractures and other complications.
Cardiopulmonary Resuscitation* ; Heart Arrest* ; Humans ; Incidence ; Logistic Models ; Medical Records ; Out-of-Hospital Cardiac Arrest ; Retrospective Studies ; Rib Fractures ; Ribs ; Thoracic Injuries* ; Thorax* ; Tomography, X-Ray Computed