Impact of flail chest injury on morbidity and outcome: ten years' experience at a tertiary care hospital in a developing country.

BACKGROUND: One of the worst types of severe chest injuries seen by clinicians is flail chest. This study aims to measure the overall mortality rate among flail chest patients and then to correlate mortality with several demographic, pathologic, and management factors. METHODOLOGY: A retrospective observational study tracked a total of 376 flail chest patients admitted to the emergency intensive care unit (EICU) and surgical intensive care unit (SICU) at Zagazig University over 120 months. The main outcome measurement was overall mortality. The secondary outcomes were the association of age and sex, concomitant head injury, lung and cardiac contusions, the onset of mechanical ventilation (MV) and chest tubes insertion, the length of mechanical ventilation and ICU stay in days, injury severity score (ISS), associated surgeries, pneumonia, sepsis, the implication of standard fluid therapy and steroid therapy, and the systemic and regional analgesia, with the overall mortality rates. RESULTS: The mortality rate was 19.9% overall. The shorter onset of MV and chest tube insertion, and the longer ICU, and hospital length of stay were noted in the mortality group compared with the survived group (P-value less than 0.05). Concomitant head injuries, associated surgeries, pneumonia, pneumothorax, sepsis, lung and myocardial contusion, standard fluid therapy, and steroid therapy were significantly correlated with mortality (P-value less than 0.05). MV had no statistically significant effect on mortality. Regional analgesia (58.8%) had a significantly higher survival rate than intravenous fentanyl infusion (41.2%). In multivariate analysis, sepsis, concomitant head injury, and high ISS were independent predictors for mortality [OR (95% CI) = 568.98 (19.49-16613.52), 6.86 (2.86-16.49), and 1.19 (1.09-1.30), respectively]. CONCLUSION: The current report recorded mortality of 19.9% between flail chest injury patients. Sepsis, concomitant head injury, and higher ISS are the independent risk factors for mortality when associated with flail chest injury. Considering restricted fluid management strategy and regional analgesia may help better outcome for flail chest injury patients.

Early Outcomes of Surgical Stabilisation of Traumatic Rib Fractures: Single-Center Review With a Real-World Evidence Perspective.

BACKGROUND: Randomized controlled trials have demonstrated that surgical stabilization of rib fractures (SSRF) in selected trauma patients is associated with potential benefits. This study evaluates the real-world outcomes of SSRF since its implementation at Westmead Hospital, Australia. We hypothesize these outcomes to be similar to that reported by best-evidence in the literature. MATERIALS AND METHODS: A retrospective analysis of data on all consecutive SSRF performed between January 2013 to December 2018 was completed. RESULTS: Sixty-three patients (54 male; average age 55.9 ± 14.1 y) with median ISS 24 (IQR 17;30) underwent SSRF. Thirty-seven patients were admitted to Intensive Care Unit (ICU), with median ICU length of stay (LOS) 10.0 (5.0-17.0) d. Median hospital LOS was 15.5 (10.0-24.8) d. Fifty-five (87.3%) patients did not have any surgery-specific complications. The highest observed surgical morbidity was wound infection (n = 4, 4.7%). There was one mortality after rib fixation that was not related to surgery. SSRF within 3 d of hospital presentation in ventilated patients with flail chest was associated with significantly reduced median ICU LOS (3.0 [2.0;4.0] versus 10.0 [9.3;13.0] d; P = 0.03). Early (2013-2015) versus late (2015-2018) phase SSRF implementation demonstrated no significant difference in outcome variables. CONCLUSION: Experience with SSRF demonstrates early outcomes similar to best-evidence in the existing literature. As a quality assurance tool, ongoing evaluation of real-world data is needed to ensure that outcomes remain consistent with benchmarks available from best-evidence.

Blunt trauma related chest wall and pulmonary injuries: An overview.

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: Less Deadly than Originally Thought.

INTRODUCTION: Flail chest is considered a highly morbid condition with reported mortality ranging from 10 to 20%. It is often associated with other severe injuries, which may complicate management and interpretation of outcomes. The physiologic impact and prognosis of isolated flail chest injury is poorly defined. METHODS: This is a National Trauma Databank study. All patients from 1/2007 to 12/2014 admitted with flail chest were extracted. Patients with head or abdominal AIS ≥3, dead on arrival, or transferred, were excluded. Primary outcome was mortality; secondary outcomes were need for mechanical ventilation and pneumonia. RESULTS: Of the 1,047,519 patients with blunt chest injury, 14,718 (1.4%) patients presented with flail chest, and 8098 (0.77%) met inclusion criteria. The most commonly associated intrathoracic injuries were hemothorax (57.9%) and lung contusions (63.0%), while sternal fracture (8.8%) and cardiac contusion (2.5%) were less common. In total, 29.8% of patients required mechanical ventilation, and 11.2% developed pneumonia. Overall mortality was 5.6%. On multivariable analysis, age >65 and need for mechanical ventilation were independent risk factors for mortality (OR 6.02, 3.75, respectively, p < 0.001). Independent predictors for mechanical ventilation included cardiac or pulmonary contusion and sternal fractures (OR 3.78, 2.38, 2.29, respectively, p < 0.001). Need for mechanical ventilation was an independent predictor of pneumonia (OR 13.18, p < 0.001). CONCLUSIONS: Mortality in isolated flail chest is much lower than previously reported. Fewer than 30% of patients require mechanical ventilation. Need for mechanical ventilation, however, is independently associated with mortality and pneumonia. Age >65 is an independent risk factor for adverse outcomes, and these patients may benefit by more aggressive monitoring and treatment.

Concomitant Sternal Fracture in Flail Chest: An Analysis of 21,741 Polytrauma Patients from the TraumaRegister DGU®.

Background Isolated sternal fractures (SFs) rarely show complications, but their influence in a thorax trauma of the seriously injured still remains unclear. Methods A retrospective analysis of the TraumaRegister DGU® was performed involving the years 2009 to 2013 (Injury Severity Score [ISS] ≥ 16, primary admission to a trauma center). Cohort formation: Unilateral and bilateral flail chest (FC) injuries with and without a concomitant SF, respectively. Results In total, 21,741 patients (25% female) met the inclusion criteria, with 3,492 (16.1%) showing SF. Unilateral FC patients were on average 53.6 ± 18.4 years old, and bilateral FC patients were on average 55.2 ± 17.7 years old. The ISS in unilateral FC and bilateral FC amounted to 31.2 ± 13.0 and 43.4 ± 13.1 points, respectively. FC with an SF occurred more frequently as an injury to car occupants and less frequently as an injury to motorcyclists or in injuries due to falls. Conclusion Patients with an SF additional to an FC had longer hospital and intensive care unit stays and were longer artificially respirated than those patients without an SF. SF indicates possible cardiac and thoracic spine injuries.

The natural history of flail chest injuries.

PURPOSE: Flail chest (FC) injuries represent a significant burden on trauma services because of its high morbidity and mortality. Current gold standard conservative management strategies for FC, are now being challenged by renewed interest in surgical rib fixation. This retrospective epidemiological study sets out to evaluate FC patients, and quantify the natural history of this injury by studying the injury patterns, epidemiology and mortality of patients sustaining FC injuries admitted to a major trauma centre (MTC). METHODS: A retrospective cohort analysis has been conducted at an MTC with full trauma service. All patients (age > 16 years) sustaining FC were included. Patient demographics, injury characteristics and inpatient stay information were extracted. RESULTS: Two hundred and ninety-three patients were identified, with a mean injury severity score (ISS) of 28.9 (range 9-75), average age of 56.1 years (range of 16-100), and a male predominance (78%). Road traffic accidents accounted for 45% (n = 132) of injuries, whilst 44% were fall or jump from height (n = 129). Associated lung contusion was present in 133 patients (45%) while 76% of patients were found to have 5 or more ribs involved in the flail segment (n = 223) with 96% (n = 281) having a unilateral FC. Inpatient treatment was required 19.9 days (range 0-150 days) with 59% of patients (n = 173) requiring intensive care unit (ICU) level care for 8.4 days (range 1-63) with 61.8% requiring mechanical ventilation (n = 107) for 10.5 days (range 1-54), and 7.8% underwent rib fixation with rib plates (n = 23). The mortality rate was found to be 14% (n = 42). A non-significant trend towards improved outcomes in the conservative group was found when compared with the fixation group; ventilation days (6.94 vs 10.06, p = 0.18) intensive treatment unit (ITU) length of stay (LOS) (12.56 vs 15.53, p = 0.28) and hospital LOS (32.62 vs 35.24, p = 0.69). CONCLUSION: This study has successfully described the natural history of flail chest injuries, and has found a nonsignificant trend towards better outcomes with conservative management. With the cohort and management challenges now defined, work on outcome improvement can be targeted. In addition the comparability of results to other studies makes collaboration with other MTCs a realistic proposal.

[Surgical fixation in flail chest : a local first encouraging experience]. / Fixation chirurgicale d'un volet thoracique : à propos d'une première procédure encourageante (cas clinique).

We report the case of a young woman who suffered from a severe traffic accident with major thoracic trauma consisting of hemopneumothorax and flail chest. At day 5 of mechanical ventilation, a surgical reduction and fixation of the fractured ribs were performed; the patient was liberated from mechanical ventilation the next day and discharged from the intensive care unit two days later. The success of this local first case incites us to further a similar approach in such challenging trauma cases.

Nous rapportons le cas d'une jeune patiente victime d'un accident grave de la circulation avec un traumatisme thoracique sévère ayant entraîné un hémopneumothorax et un volet thoracique. Au 5ème jour de ventilation invasive, une réduction et une fixation chirurgicales du volet thoracique furent réalisées. La patiente fut sevrée de la ventilation invasive le lendemain et transférée en salle de soins banalisés deux jours plus tard. Le succès de cette première thérapeutique nous incite à la proposer à l'avenir dans des situations similaires.

Blunt thoracic trauma: recent advances and outstanding questions.

PURPOSE OF REVIEW: The treatment of blunt thoracic injuries is complex and evolving. The aim of this review is to focus on what is new with ventilation for blunt chest trauma as well as an update on the current management strategies for blunt aortic injury and rib fractures. RECENT FINDINGS: Early use of noninvasive ventilation appears to be well tolerated in select hemodynamically stable blunt trauma patients. For those patients requiring intubation, airway pressure release ventilation is an excellent mode to decrease the risk of posttraumatic acute lung injury. Endovascular repair of blunt thoracic aortic injuries provides benefit over open repair and, if possible, delayed repair confers a mortality advantage. Despite its increasing use, there continue to be conflicting results about the role of surgical rib fixation for the treatment of flail chest. SUMMARY: Blunt thoracic injuries are commonly treated in the ICU and a solid knowledge of mechanical ventilation strategies (both noninvasive and invasive) is essential. Blunt thoracic aortic injuries require early diagnosis and aggressive blood pressure management. Not all such injuries need operative repair but those that do benefit from an endovascular approach. The management of flail chest includes early aggressive multimodal analgesia, adequate oxygen, and ventilatory support. Surgical rib fixation should be considered in select patients.

Surgical versus nonsurgical interventions for flail chest.

BACKGROUND: Thoracic trauma (TT) is common among people with multiple traumatic injuries. One of the injuries caused by TT is the loss of thoracic stability resulting from multiple fractures of the rib cage, otherwise known as flail chest (FC). A person with FC can be treated conservatively with orotracheal intubation and mechanical ventilation (internal pneumatic stabilization) but may also undergo surgery to fix the costal fractures. OBJECTIVES: To evaluate the effectiveness and safety of surgical stabilization compared with clinical management for people with FC. SEARCH METHODS: We ran the search on the 12 May 2014. We searched the Cochrane Injuries Group's Specialised Register, the Cochrane Central Register of Controlled Trials (CENTRAL, The Cochrane Library), MEDLINE (OvidSP), EMBASE Classic and EMBASE (OvidSP), CINAHL Plus (EBSCO), ISI WOS (SCI-EXPANDED, SSCI, CPCI-S, and CPSI-SSH), and clinical trials registers. We also screened reference lists and contacted experts. SELECTION CRITERIA: Randomized controlled trials of surgical versus nonsurgical treatment for people diagnosed with FC. DATA COLLECTION AND ANALYSIS: Two review authors selected relevant trials, assessed their risk of bias, and extracted data. MAIN RESULTS: We included three studies that involved 123 people. The methods used for blinding the participants and researchers to the treatment group were not reported, but as the comparison is surgical treatment with medical treatment this bias is hard to avoid. There was no description of concealment of the randomization sequence in two studies.All three studies reported on mortality, and deaths occurred in two studies. There was no clear evidence of a difference in mortality between treatment groups (risk ratio (RR) 0.56, 95% confidence interval (CI) 0.13 to 2.42); however, the analysis was underpowered to detect a difference between groups. Out of the 123 people randomized and treated, six people died; the causes of death were pneumonia, pulmonary embolism, mediastinitis, and septic shock.Among people randomized to surgery, there were reductions in pneumonia (RR 0.36, 95% 0.15 to 0.85; three studies, 123 participants), chest deformity (RR 0.13, 95% CI 0.03 to 0.67; two studies, 86 participants), and tracheostomy (RR 0.38, 95% CI 0.14 to 1.02; two studies, 83 participants). Duration of mechanical ventilation, length of intensive care unit stay (ICU), and length of hospital stay were measured in the three studies. Due to differences in reporting, we could not combine the results and have listed them separately. Chest pain, chest tightness, bodily pain, and adverse effects were each measured in one study. AUTHORS' CONCLUSIONS: There was some evidence from three small studies that showed surgical treatment was preferable to nonsurgical management in reducing pneumonia, chest deformity, tracheostomy, duration of mechanical ventilation, and length of ICU stay. Further well-designed studies with a sufficient sample size are required to confirm these results and to detect possible surgical effects on mortality.

Comparison of surgical fixation and nonsurgical management of flail chest and pulmonary contusion.

OBJECTIVE: The objective of this study is to compare the clinical efficacy of surgical fixation and nonsurgical management of flail chest and pulmonary contusion (FC-PC) and to compare the diverse timings of surgery to discuss case management in FC-PC. METHODS: The data of 39 patients diagnosed with FC-PC were obtained from the intensive care unit of Shanghai First People's Hospital and analyzed retrospectively from July 2010 to Dec 2013. The patients required ventilator support and were divided into a surgical group and a nonsurgical group, according to the treatment method. The clinical data, such as mortality, the duration of mechanical ventilation (DMV), intensive care unit length of stay, hospital length of stay (HLOS), days of antibiotic use, transfusion volume, medical expense as well as the incidence of tracheotomy, pleural effusion, and incidence of ventilator associated pneumonia, were collected for all subjects. The surgical group was further divided into 2 groups according to the surgery timing. Surgery within 7 days of admission was defined as early surgery, and all other times were defined as late surgery. The clinical data and incidence of incision infection were collected and compared. RESULTS: The patients in the surgical group had a slightly shorter HLOS. No differences were noted in mortality and the other clinical data between the groups. The early surgical group had a shorter DMV and less incidence of tracheotomy. The other parameters had no differences. CONCLUSIONS: Surgery for FC-PC could reduce the HLOS, and early surgery could decrease the DMV and the need for tracheotomy.

Stabilization of after-traumatic flail chest by minimally invasive modified NUSS procedure in patient with starting respiratory insufficiency.

A flail chest is one of the possible medical conditions suffered by individuals who were injured in traffic accidents, caused by multiple fractures of the ribs and sternum. Which often results in paradoxical chest movements. The consequence may be respiratory failure and need for long-term mechanical ventilation. Such treatment require Intensive Care Unit and may be associated with the possibility of numerous complications.Modified Nuss procedure was performed in 79-year-old man, a victim of a car crash to obtain stabilization of the flail chest. After compensation of paradoxical movements on the third day it was possible to end mechanical ventilation. A quick procedure dedicated to the congenital deformation of the chest made it possible to avoid long, expensive intensive therapy with possible respiratory complications.The NUSS procedure enables the effective and safe treatment of a flail chest in a selected group of patients.

Rib fixation in patients with severe rib fractures and pulmonary contusions: Is it safe?

BACKGROUND: Pulmonary contusion has been considered a contraindication to surgical stabilization of rib fractures (SSRFs). This study aimed to evaluate the association between pulmonary contusion severity and outcomes after SSRF. We hypothesized that outcomes would be worse in patients who undergo SSRF compared with nonoperative management, in presence of varying severity of pulmonary contusions. METHODS: This retrospective cohort study included adults with three or more displaced rib fractures or flail segment. Patients were divided into those who underwent SSRF versus those managed nonoperatively. Severity of pulmonary contusions was assessed using the Blunt Pulmonary Contusion 18 (BPC18) score. Outcomes (pneumonia, tracheostomy, mechanical ventilation days, intensive care unit (ICU) length of stay, hospital length of stay, mortality) were retrieved from patients' medical records. Comparisons were made using Fisher's exact and Kruskal-Wallis tests, and correction for potential confounding was done with regression analyses. RESULTS: A total of 221 patients were included; SSRF was performed in 148 (67%). Demographics and chest injury patterns were similar in SSRF and nonoperatively managed patients. Surgical stabilization of rib fracture patients had less frequent head and abdominal/pelvic injuries ( p = 0.017 and p = 0.003). Higher BPC18 score was associated with worse outcomes in both groups. When adjusted for ISS, the ICU stay was shorter (adjusted ß , -2.511 [95% confidence interval, -4.87 to -0.16]) in patients with mild contusions who underwent SSRF versus nonoperative patients. In patients with moderate contusions, those who underwent SSRF had fewer ventilator days (adjusted ß , -5.19 [95% confidence interval, -10.2 to -0.17]). For severe pulmonary contusions, outcomes did not differ between SSRF and nonoperative management. CONCLUSION: In patients with severe rib fracture patterns, higher BPC18 score is associated with worse respiratory outcomes and longer ICU and hospital admission duration. The presence of pulmonary contusions is not associated with worse SSRF outcomes, and SSRF is associated with better outcomes for patients with mild to moderate pulmonary contusions. LEVEL OF EVIDENCE: Therapeutic/Care Management; Level IV.

Operative versus non-operative management of rib fractures in flail chest after cardiopulmonary resuscitation manoeuvres.

OBJECTIVES: Blunt chest trauma after mechanical resuscitation manoeuvres appears to have a significant impact on the often complicated course. Due to a lack of data in the literature, the purpose of this study was to investigate the feasibility and immediate outcome of chest wall stabilization for flail chest in this vulnerable patient population. METHODS: We retrospectively reviewed the medical records of patients after cardiopulmonary resuscitation between January 2014 and December 2018 who were diagnosed with flail chest. We attempted to compare patients after surgery with those after conservative treatment. RESULTS: Of a total of 56 patients with blunt chest trauma after mechanical resuscitation and after coronary angiography, 25 were diagnosed with flail chest. After the exclusion of 2 patients because of an initial decision to palliate, 13 patients after surgical stabilization could be compared with 10 patients after conservative therapy. Although there was no significant difference in the total duration of ventilatory support, there was a significant advantage when the time after stabilization to extubation was compared with the duration of ventilation in the conservative group. The presence of pulmonary contusion, poor Glasgow Coma Scale score or the development of pneumonia negatively affected the outcome, but additional sternal fracture did not. CONCLUSIONS: Surgical stabilization for chest wall instability is well tolerated even by this vulnerable patient population. Our results should be used for further randomized controlled approaches. It is necessary to evaluate the situation with all parameters in an interdisciplinary manner and to decide on a possible surgical therapy at an early stage if possible.

Continuous intercostal nerve blockade for rib fractures: ready for primetime?

BACKGROUND: Providing analgesia for patients with rib fractures continues to be a management challenge. The objective of this study was to examine our experience with the use of a continuous intercostal nerve block (CINB). Although this technique is being used, little data have been published documenting its use and efficacy. We hypothesized that a CINB would provide excellent analgesia, improve pulmonary function, and decrease length of stay (LOS). METHODS: Consecutive adult blunt trauma patients with three or more unilateral rib fractures were prospectively studied over 24 months. The catheters were placed at the bedside in the extrathoracic, paravertebral location, and 0.2% ropivacaine was infused. Respiratory rate, preplacement (PRE) numeric pain scale (NPS) scores, and sustained maximal inspiration (SMI) lung volumes were determined at rest and after coughing. Parameters were repeated 60 minutes after catheter placement (POST). Hospital LOS comparison was made with historical controls using epidural analgesia. RESULTS: Over the study period, 102 patients met inclusion criteria. Mean age was 69 (21-96) years, mean injury severity score was 14 (9-16), and the mean number of rib fractures was 5.8 (3-10). Mean NPS improved significantly (PRE NPS at rest = 7.5 vs. POST NPS at rest = 2.6, p < 0.05, PRE NPS after cough = 9.4, POST after cough = 3.6, p < 0.05) which was associated with an increase in the SMI (PRE SMI = 0.4 L and POST SMI = 1.3 L, p < 0.05). Respiratory rate decreased significantly (p < 0.05) and only 2 of 102 required mechanical ventilation. Average LOS for the study population was 2.9 days compared with 5.9 days in the historical control. No procedural or drug-related complications occurred. CONCLUSION: Utilization of CINB significantly improved pulmonary function, pain control, and shortens LOS in patients with rib fractures.

Factors affecting morbidity and mortality in flail chest: comparison of anterior and lateral location.

OBJECTIVE: Flail chest is most often accompanied by significant underlying pulmonary parenchymal injuries and may constitute a life-threatening thoracic injury. In this study we evaluated the treatment modalities for flail chest depending on the effect of trauma localization on mortality and morbidity. METHODS: Between 2003 and 2008, 23 patients (20 males/3 females) were treated for flail chest. Location of the trauma in the chest wall, mechanical ventilation support, prognosis and injury severity score (ISS) were recorded for all patients. Mechanical ventilation support was given in 14 patients (60.8 %), and 12 of these 14 patients required subsequent tracheostomy. Internal fixation was used in 3 patients. RESULTS: The major cause of flail chest was a car crash in 18 of 23 patients (76 %). Median ISS was 62.8 for all patients. The patients with flail chest who had bilateral costochondral separation (anterior chest location) (group I, n = 10) had a significantly higher ISS than those with single-side posterolateral flail chest (group II, n = 13; ISS: 70/55; P = 0.02). The need for mechanical ventilation support was also higher in the group with bilateral costochondral separation. Morbidity was higher in group I than in group II ( P = 0.198), and mortality was also significantly higher in group I ( P = 0.08). Patients with a cranial trauma and flail chest had a higher mortality (19 %) than patients with only flail chest (no mortality). The mean ISS was 75 for patients with cranial trauma and flail chest and 55.7 ( P = 0.001) for patients with only flail chest. Sepsis and subarachnoid bleeding were the major causes of mortality. The mean ISS was 54.5 for patients under the age of 55 (n = 14) whereas it was 69.4 in those aged 55 and over (n = 9; P = 0.034). Mortality in the older group was also higher (33 % versus 7 %; P = 0.02). CONCLUSION: Early intubation and mechanical ventilation is of paramount importance in patients with flail chest. However, prolonged mechanical ventilation is associated with a poor outcome. Tracheotomy and frequent flexible bronchoscopy are an effective pulmonary toilet. Advanced age was a major risk factor for flail chest trauma mortality, together with the severity of the injury. When cranial trauma was accompanied by flail chest, mortality and morbidity rates increased. Bilateral costochondral separation also increased the risk of morbidity and the need for mechanical ventilation in patients with flail chest.

Are rib fractures stable? An analysis of progressive rib fracture offset in the acute trauma setting.

BACKGROUND: Rib fractures serve as both a marker of injury severity and a guide for clinical decision making for trauma patients. Although recent studies have suggested that rib fractures are dynamic, the degree of progressive offset remains unknown. The purpose of this study was to further characterize the change that takes place in the acute trauma setting. METHODS: A 4-year (2016-2019) retrospective assessment of adult trauma patients with rib fracture(s) admitted to a level I trauma center was performed. Initial and follow-up computed tomography scans were analyzed to determine the magnitude of offset. Relevant clinical course variables were examined, and location of chest wall instability was examined using the difference of interquartile range of median change. Statistical Product and Services Solutions (Version 25, IBM Corp. Armonk, NY) was then used to generate a neural network-multilayer perceptron that highlighted independent variable importance. RESULTS: Fifty-three patients met the inclusion criteria for severe injury. Clinical course variables that either trended or significantly predicted the occurrence of progressive offset were Abbreviated Injury Scale Thoracic Scores (3.1 ± 0.4 no progression vs. 3.4 ± 0.6 yes progression; p = 0.121), flail segment (14% no progression vs. 43% yes progression; p = 0.053), and number of ribs fractured (4 [2-8] no progression vs. 7 [5-9] yes progression; p = 0.023). The location of progressive offset largely corresponded to the posterolateral region as demonstrated by the differences of interquartile range of median change. The neural network demonstrated that ribs 4 to 6 (normalized importance [NI], 100%), the posterolateral region (NI, 87.9%), and multiple fractures per rib (NI, 66.6%) were valuable in predicting whether progressive offset occurred (receiver operating characteristic curve - area under the curve = 0.869). CONCLUSION: Rib fractures are not stable, particularly for those patients with multiple fractures in the mid-to-upper ribs localized to the posterolateral region. These findings may identify both trauma patients with worse outcomes and help develop better management strategies for rib fractures. LEVEL OF EVIDENCE: Prognostic and epidemiological, level III.

Pneumatic stabilization of iatrogenic flail chest with CPAP: a case report.

Iatrogenic flail chest following resection of part of the chest wall in postoperative patients is a challenging scenario for the anesthetist. It can lead to long term morbidity and even death, if adequate management is not instituted. We describe the management of postoperative flail chest, following resection of upper two-third of the sternum along with costal cartilages for a malignant thymoma invading the sternum in an adult male with the use of continuous epidural analgesia and continuous positive airway pressure (CPAP), which provided pneumatic stabilization and an excellent recovery.

[Flail chest in pediatric patient. Case report]. / Tórax inestable en paciente pediátrico. Reporte de un caso.

Flail chest is defined by fracture of 3 or more adjacent ribs, at 2 or more sites, with paradoxical movement of the affected chest. It occurs in 2 to 4 % of blunt chest trauma, with a mortality of 10 to 15 %. Treatment is conservative, using analgesia and positive pressure ventilation, or surgical osteosynthesis of rib fractures. We present the case of a 9-year-old girl with blunt chest trauma and flail chest. Computed tomography showed rib fractures from 2nd to 7th left ribs, in middle and anterior arches. Due to inadequate pain management, it was placed in mechanical ventilation. After 72 hours the surgical resolution was decided, osteosynthesis of the 3rd to 7th ribs was performed. The patient evolved favorably. The surgical management allowed reducing days of mechanical ventilation and days of hospitalization.

El tórax inestable se define por fractura de 3 o más costillas adyacentes, en 2 o más sitios, con movimiento paradojal del tórax afectado. Se presenta en el 2-4 % de los traumas de tórax contusos, con una mortalidad del 10-15 %. El tratamiento se realiza de forma conservadora, mediante analgesia y el uso de ventilación con presión positiva o, quirúrgicamente, mediante osteosíntesis de las fracturas costales. Se presenta el caso de una niña de 9 años con diagnóstico de traumatismo cerrado de tórax y tórax inestable. En la tomografía computada, se evidenciaron fracturas costales de 2da a 7ma izquierdas, arcos medios y anteriores. Por inadecuado manejo del dolor, se colocó asistencia ventilatoria mecánica. A las 72 horas, se decidió la resolución quirúrgica mediante osteosíntesis de las costillas 3a-7a. La paciente evolucionó favorablemente. El manejo quirúrgico permitió reducir los días de ventilación mecánica y de internación.