Outcomes of Trauma Patients with Flail Chest and Surgical Rib Stabilization

2021 ◽  
pp. 000313482110562
Author(s):  
Colten A. Yahn ◽  
Alexander P. McNally ◽  
Kyle Deivert ◽  
Tyler Fraga ◽  
Reem A. Sharaf Alddin ◽  
...  
Keyword(s):  
Flail Chest ◽  
Rib Fractures ◽  
Trauma Patients ◽  
Level 1 ◽  
Duration Of Ventilation ◽  
Current Practices

The goal of this project was to describe the current practices of this institution and identify which patients benefit from surgical stabilization of rib fractures (SSRF). A total of 1429 trauma patients admitted to our Level 1 center with rib fractures between January 1, 2014 and June 22, 2020 were retrospectively reviewed. Flail chest was observed in 43 (3.01%) patients. Surgical stabilization of rib fractures was pursued in 27 of all patients (1.89%). Twenty-four flail chest patients required intubation (ETT). Nineteen were not intubated (NoET). Of the ETT group, 8 underwent SSRF and 16 did not. Those who had SSRF had a shorter ventilator LOS (7.1 vs 15.7 d) and ICU LOS (9.8 vs 11.9 d). Surgical stabilization of rib fractures has shown success in managing flail chest. In intubated patients with flail chest, fixation seems to decrease ICU stays and the duration of ventilation. We believe we need to perform SSRF on more patients with flail chest.

scholarly journals Retrospective study on rib fractures: smoking and alcohol matter for mortality and complications

2021 ◽  
Vol 6 (1) ◽  
pp. e000732
Author(s):  
AlleaBelle Gongola ◽  
Jace C Bradshaw ◽  
Jing Jin ◽  
Hanna K Jensen ◽  
Avi Bhavaraju ◽  
...  
Keyword(s):  
Alcohol Use ◽  
Trauma Center ◽  
Clinical Decision Making ◽  
Directed Acyclic Graphs ◽  
Rib Fractures ◽  
Trauma Patients ◽  
Level Of Evidence ◽  
Lower Likelihood ◽  
Level 1 ◽  
Level 1 Trauma Center

BackgroundRib fractures and substance use are both common in trauma patients, but there is little data on how smoking and alcohol use may be associated with outcomes in these patients. We assessed the association between smoking or alcohol use disorder (AUD) and outcomes in patients with rib fractures.MethodsWe used institutional databases to conduct a retrospective review of patients with rib fractures at the only American College of Surgeons-verified adult level 1 trauma center in a rural state between 2015 and 2019. The key exposure variables were smoking and AUD. The key outcome variables were mortality and pulmonary complications (pneumonia, adult respiratory distress syndrome, and pneumothorax). We used multivariable regression for analysis and directed acyclic graphs to identify variables for adjustment.ResultsWe identified 1880 eligible patients with rib fractures, including 693 (37%) who were smokers and 204 (11%) who had AUD. Compared with non-smokers, smokers were younger, more often male, and had lower mortality rates. Regression showed that smokers had a lower likelihood of mortality (OR 0.48; 95% CI 0.27 to 0.87; p=014). Likelihood of pneumonia, ARDS, and pneumothorax was not different between smokers and non-smokers. Compared with patients without AUD, patients with AUD were older, more often male, and had higher likelihood of pneumonia and lower likelihood of pneumothorax. Regression showed that patients with AUD had higher likelihood of pneumonia (OR 1.82; 95% CI 1.24 to 2.68; p=0.002) and lower likelihood of pneumothorax (OR 0.51; 95% CI 0.33 to 0.75; p=0.002).DiscussionIn trauma patients with rib fractures treated at a level 1 trauma center over 5 years, smoking was associated with decreased risk of mortality. These findings have implications for risk stratification and clinical decision-making for patients with rib fractures.Level of evidenceIII

Rib Fracture Location Should be Evaluated When Predicting Morbidity and Mortality in Trauma Patients

2018 ◽  
Vol 84 (9) ◽  
pp. 1462-1465 ◽  
Author(s):  
Krista L. Haines ◽  
Tiffany Zens ◽  
Charles Warner-Hillard ◽  
Edwarda DeSouza ◽  
Hee Soo Jung ◽  
...  
Keyword(s):  
Injury Severity Score ◽  
Severity Score ◽  
Injury Severity ◽  
Flail Chest ◽  
Rib Fractures ◽  
Rib Fracture ◽  
Hospital Length Of Stay ◽  
Trauma Patients ◽  
Mortality And Morbidity ◽  
Fracture Location

Rib fractures represent up to 55 per cent of thoracic blunt traumatic injuries and lead to significant mortality and morbidity. The aim of this study is to determine whether not only number but also the location of rib fractures can be used to risk stratify patients. This is a retrospective study of all blunt trauma patients who presented with rib fractures from January 1, 2013 to April 1, 2015 and underwent chest CT. Rib fractures were categorized by location. Primary outcome was mortality, secondary outcomes were total hospital length of stay (LOS), intensive care unit LOS, and disposition. Multivariate regressions were performed to determine whether mortality and morbidity was dependent on the number of rib fractures as related to location. Nine hundred and twenty-nine patients were reviewed, 669 fit inclusion criteria, and 35 patients died. Mean Injury Severity Score (18 ± 10), total number of rib fractures (6 ± 5), and age (54 ± 19) significantly correlated with mortality. LOS correlated with the number of rib fractures (P < 0.001). Flail chest of indeterminate location significantly increased mortality (P = 0.002). Controlling for age, gender, and Injury Severity Score and for every lateral rib fracture, patients were 1.13 times (OR; P = 0.001) more likely to die. Posterior rib fractures only effected patient outcome if the patient has three or more posterior ribs broken and the patient was 45 years of age or older (P = 0.044); these patients were 12 times more likely to die. When evaluating blunt force trauma in patients with rib fractures, it is imperative to look at rib fracture location and not only the number of rib fractures sustained to predict outcomes.

Pathologic Fibrinolysis is More Common in a Rural Trauma Setting

2020 ◽  
pp. 000313482097372
Author(s):  
James M. Bardes ◽  
Daniel J. Grabo ◽  
Sijin Wen ◽  
Alison Wilson
Keyword(s):  
Trauma Team ◽  
Rural Environment ◽  
Trauma Patients ◽  
Future Studies ◽  
Factors Influencing ◽  
American College Of Surgeons ◽  
Level 1 ◽  
Transferred Patients ◽  
Prehospital Time ◽  
Level 1 Trauma Center

Introduction Fibrinolysis (lysis) has been extensively studied in trauma patients. Many studies on the distribution of lysis phenotype have been conducted in setting with short prehospital time. This study aimed to evaluate the distribution of lysis phenotypes in a population with prolonged prehospital times in a rural environment. Methods A retrospective study was performed at an American College of Surgeons-verified level 1 trauma center, serving a large rural population. Full trauma team activations from January 1, 2017 to August 31, 2018 were evaluated, and all patients with an ISS>15 analyzed. Thromboelastography was routinely performed on all participants on arrival. Lysis phenotypes were classified based on LY30 results: shutdown (≤.8%), physiologic (.9-2.9%), and hyper (>2.9%). Results 259 patients were evaluated, 134 (52%) presented direct from the scene. For scene patients, lysis distribution was 24% physiologic, 49% shutdown, and 27% hyper. Transferred patients demonstrated a reduction in physiologic lysis to 14% ( P = .03), shutdown present in 66%, and hyper in 20%. Empiric prehospital tranexamic acid was given to 18 patients, physiologic lysis was present in 6%, shutdown 72%, and hyper 22%; this increase was not statistically significant ( P = .5). Conclusion Fibrinolysis phenotypes are not consistent across all trauma populations. This study showed rural trauma patients had a significantly increased rate of pathologic lysis. This was consistent for scene and transfer patients who received care at another facility prior to arrival for definitive care. Future studies to evaluate the factors influencing these differences are warranted.

scholarly journals Identifying trauma patients with benefit from direct transportation to Level-1 trauma centers

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Charlie A. Sewalt ◽  
Benjamin Y. Gravesteijn ◽  
Daan Nieboer ◽  
Ewout W. Steyerberg ◽  
Dennis Den Hartog ◽  
...  
Keyword(s):  
Logistic Regression ◽  
Trauma Center ◽  
Trauma Patients ◽  
Trauma Centers ◽  
Absolute Benefit ◽  
Predicted Probability ◽  
Prehospital Triage ◽  
Level 1 ◽  
Level 1 Trauma Center ◽  
Level 2

Abstract Background Prehospital triage protocols typically try to select patients with Injury Severity Score (ISS) above 15 for direct transportation to a Level-1 trauma center. However, ISS does not necessarily discriminate between patients who benefit from immediate care at Level-1 trauma centers. The aim of this study was to assess which patients benefit from direct transportation to Level-1 trauma centers. Methods We used the American National Trauma Data Bank (NTDB), a retrospective observational cohort. All adult patients (ISS > 3) between 2015 and 2016 were included. Patients who were self-presenting or had isolated limb injury were excluded. We used logistic regression to assess the association of direct transportation to Level-1 trauma centers with in-hospital mortality adjusted for clinically relevant confounders. We used this model to define benefit as predicted probability of mortality associated with transportation to a non-Level-1 trauma center minus predicted probability associated with transportation to a Level-1 trauma center. We used a threshold of 1% as absolute benefit. Potential interaction terms with transportation to Level-1 trauma centers were included in a penalized logistic regression model to study which patients benefit. Results We included 388,845 trauma patients from 232 Level-1 centers and 429 Level-2/3 centers. A small beneficial effect was found for direct transportation to Level-1 trauma centers (adjusted Odds Ratio: 0.96, 95% Confidence Interval: 0.92–0.99) which disappeared when comparing Level-1 and 2 versus Level-3 trauma centers. In the risk approach, predicted benefit ranged between 0 and 1%. When allowing for interactions, 7% of the patients (n = 27,753) had more than 1% absolute benefit from direct transportation to Level-1 trauma centers. These patients had higher AIS Head and Thorax scores, lower GCS and lower SBP. A quarter of the patients with ISS > 15 were predicted to benefit from transportation to Level-1 centers (n = 26,522, 22%). Conclusions Benefit of transportation to a Level-1 trauma centers is quite heterogeneous across patients and the difference between Level-1 and Level-2 trauma centers is small. In particular, patients with head injury and signs of shock may benefit from care in a Level-1 trauma center. Future prehospital triage models should incorporate more complete risk profiles.

Clinical and economic effects of selective radiological evaluation of high-energy trauma patients: a prospective experience of a level 1 busy trauma centre

2014 ◽  
Vol 32 (7) ◽  
pp. 535-538 ◽  
Author(s):  
Shahram Paydar ◽  
Armin Ahmadi ◽  
Behnam Dalfardi ◽  
Alireza Shakibafard ◽  
Hamidreza Abbasi ◽  
...  
Keyword(s):  
High Energy ◽  
Trauma Centre ◽  
Economic Effects ◽  
Trauma Patients ◽  
Radiological Evaluation ◽  
High Energy Trauma ◽  
Level 1

scholarly journals Operative treatment of multiple costochondral dislocations in a patient with severe rib fractures and a flail chest following trauma

2021 ◽  
Vol 14 (3) ◽  
pp. e239511
Author(s):  
Jonne T H Prins ◽  
Mathieu M E Wijffels
Keyword(s):  
Operative Treatment ◽  
Flail Chest ◽  
High Energy ◽  
Pulmonary Complications ◽  
Chest Ct ◽  
Rib Fractures ◽  
Daily Activities ◽  
Fracture Classification ◽  
Operative Fixation ◽  
Chest Ct Scan

A 73-year-old male patient underwent operative treatment for dislocation of multiple costochondral junctions alongside multiple bony rib fractures and a flail chest following high-energy trauma. During the operative fixation of the flail chest, the costochondral lesions were surgically stabilised with plates and screws, which were fixated on the osseous anterior rib, sternum or the rib cartilage. The patient experienced no pulmonary complications during the primary admission. At 7 months after the trauma, the chest CT scan showed full consolidation of all fixated rib fractures, including the costochondral lesions, without hardware dislocation or complications. The patient did not require any pain medication and had no pain during daily activities, at rest or at night. Although being a biomechanically demanding region, which is often not defined in current rib fracture classification, operative treatment of costochondral lesions is feasible with outcome similar to the treatment of bony rib fractures.

Predictors of blunt diaphragm injury in Australia

Trauma ◽  
2021 ◽  
pp. 146040862110418
Author(s):  
Annelise M Cocco ◽  
Vignesh Ratnaraj ◽  
Benjamin PT Loveday ◽  
Kellie Gumm ◽  
Phillip Antippa ◽  
...  
Keyword(s):  
Injury Severity Score ◽  
Severity Score ◽  
Major Trauma ◽  
Injury Severity ◽  
Rib Fractures ◽  
Organ Injury ◽  
Trauma Patients ◽  
Missed Injury ◽  
Diaphragm Injury ◽  
Trauma Service

Introduction Blunt diaphragm injury (BDI) is an uncommon, potentially fatal consequence of blunt torso injury. While associations between BDI and other factors such as mechanism of injury or other injuries have been described elsewhere, little recent research has been done in Australia into BDI. The aims of this study were to determine the incidence rate of BDI in our centre, identify how it was diagnosed, determine rates of missed injury and identify predictive factors for BDI. The hypothesis was that patients with BDI would significantly differ to those without BDI. Methods All major trauma patients with blunt torso injuries at our Level 1 major trauma service from 2010 to 2018 were included. Data for patient demographics, other injuries, diagnosis and treatment of BDI were extracted. Patients with BDI were compared with patients without BDI in order to identify differences that could be used to predict BDI in future patients. Results Of 5190 patients with a blunt torso injury, 51 (0.98%) had a BDI at a mean age of 53 ± 19.6 years, and median Injury Severity Score (ISS) of 27(IQR 21–38.5) compared with 5139 patients with a mean age of 48.2 ± 20.7 years and median ISS of 21.9(IQR 14–26) who did not have a BDI. The diagnosis of BDI was made at CT ( n = 35), surgery ( n = 14) or autopsy ( n = 2). Blunt diaphragm injury was missed on index imaging for 11 of 43 patients (25.6%). On multivariate analysis, each point increase in ISS (OR 1.03, p = 0.02); rib fractures (OR 4.65, p = 0.004); splenic injury (OR 2.60, p = 0.004); and liver injury (OR 2.78, p = 0.003) were independently associated with BDI. Conclusion Injury Severity Score, rib fractures and solid abdominal organ injury increase the likelihood of BDI. In patients with these injuries, BDI should be considered even in the presence of normal CT findings.

Injuries to the Chest Part 1

2019 ◽  
Author(s):  
Erika B. Call ◽  
Amy N. Hildreth ◽  
J. Jason Hoth
Keyword(s):  
Emergency Department ◽  
Injury Severity ◽  
Flail Chest ◽  
Rib Fractures ◽  
Pulmonary Contusion ◽  
Thoracic Injury ◽  
Resuscitative Thoracotomy ◽  
Pulmonary Laceration ◽  
Tracheobronchial Injury ◽  
Early Trauma

Thoracic injury is common and is associated with significant morbidity and mortality. Injuries to the chest are responsible for 25% of blunt trauma fatalities and contribute to an additional 50% of deaths in this population.1 Fortunately, the majority of thoracic injuries can be treated effectively, and often definitively, by relatively simple maneuvers that can be learned and performed by most physicians involved in early trauma care. Only 5 to 10% will require operative intervention.2 These extremes in injury severity are unique to the chest and require treatment by a surgeon with a correspondingly broad range of knowledge and skills.  This article will address the following procedures and injuries:  tube thoracostomy, thoracotomy, emergency department resuscitative thoracotomy, video-assisted thoracoscopy, chest wall injuries including rib fractures and flail chest, pneumothorax, hemothorax, empyema, pulmonary contusion and laceration, and tracheobronchial injury. This review 6 figures, 1 table, and 49 references. Keywords: Tube thoracoscopy, emergency department resuscitative thoracotomy (EDRT), rib fractures, flail chest, pneumothorax, hemothorax, empyema, pulmonary contusion, pulmonary laceration, tracheobronchial injury

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