Chest Trauma Research Articles

Typical causes and clinical presentations of traumatic and nontraumatic soft tissue and organ haemorrhage in emergency departments

Acute bleeding often occurs in awide variety of forms in clinical emergency medicine. In traumatic bleeding, soft tissue injuries to the head or extremities are common, while severe bleeding is less common in chest injuries or pelvic trauma. In nontraumatic emergencies, gastrointestinal bleeding is the leading cause, but many other bleeding entities are possible. Structured management helps to detect the critically ill patient, identify the possible source of bleeding and provide appropriate radiological diagnostics and therapy. Clinical examination, blood gas analyses and emergency ultrasound are crucial in the initial phase of diagnosis. Initially, symptomatic therapy is usually indicated to stabilize the patient, and then interventional or surgical care is indicated in the course of the disease, depending on the location of the bleeding. Volume and catecholamine therapy, coagulation management and emergency transfusion are important components of interdisciplinary emergency care, in addition to primary bleeding control, especially in the case of open injuries.

Polytrauma impairs fracture healing accompanied by increased persistence of innate inflammatory stimuli and reduced adaptive response.

The field of bone regeneration has primarily focused on investigating fracture healing and nonunion in isolated musculoskeletal injuries. Compared to isolated fractures, which frequently heal well, fractures in patients with multiple bodily injuries (polytrauma) may exhibit impaired healing. While some papers have reported the overall cytokine response to polytrauma conditions, significant gaps in our understanding remain in how fractures heal differently in polytrauma patients. We aimed to characterize fracture healing and the temporal local and systemic immune responses to polytrauma in a murine model of polytrauma composed of a femur fracture combined with isolated chest trauma. We collected serum, bone marrow from the uninjured limb, femur fracture tissue, and lung tissue over 3 weeks to study the local and systemic immune responses and cytokine expression after injury. Immune cell distribution was assessed by flow cytometry. Fracture healing was characterized using microcomputed tomography (microCT), histological staining, immunohistochemistry, mechanical testing, and small angle X-ray scattering. We detected more innate immune cells in the polytrauma group, both locally at the fracture site and systemically, compared to other groups. The percentage of B and T cells was dramatically reduced in the polytrauma group 6 h after injury and remained low throughout the study duration. Fracture healing in the polytrauma group was impaired, evidenced by the formation of a poorly mineralized and dysregulated fracture callus. Our data confirm the early, dysregulated inflammatory state in polytrauma that correlates with disorganized and impaired fracture healing.

Endovascular intervention in patients with blunt traumatic thoracic aortic injury: Early results

Aim: Mortality rates are high in thoracic aortic injuries caused by blunt trauma. Thoracic endovascular aortic repair (TEVAR) is the most commonly employed surgical strategy for patients with blunt traumatic thoracic aortic injuries (BTTAI) due to its favorable outcomes. This study aims to present our endovascular experience in treating Type B aortic dissections resulting from blunt trauma. Material and Methods: Our retrospective study included 70 patients who underwent TEVAR for Stanford Type B aortic dissection due to blunt aortic injury. Patients who were under 22 and over 70 years of age, those who underwent emergency TEVAR, died in a hospital emergency, and had penetrating aortic injury, head traumas with neurological symptoms and requiring intervention, aortic pathology other than Type B aortic dissection, or aortic rupture were excluded from the study. Results: Of the patients, 34.3% (n=24) were female, and 65.7% (n=46) were male, with a mean age of 48.54±10.00 years. The most common cause of injury was motor vehicle accidents (81.4%, n=57). No statistically significant difference was found between patients regarding the locations of the landing zones (p>0.05). Conclusion: Early outcomes in selected patients demonstrate high survival rates following TEVAR for trauma-induced Type B dissections.

Predicting life-threatening hemoptysis in traumatic pulmonary parenchymal injury using computed tomography semi-automated lung volume quantification.

Chest computed tomography (CT) can diagnose and assess the severity of pulmonary contusions. However, in cases of severe lung contusion, the total lung volume ratio may not accurately predict severity. This study investigated the association between life-threatening hemoptysis and chest CT imaging data on arrival at the emergency department in patients with pulmonary contusions or lacerations due to blunt chest injury. The records of 277 patients with lung contusions or lacerations treated at a trauma center between 2018 and 2022 were retrospectively reviewed. The ratio of the local lung contusion volume to lobe volume in each lobe was calculated from chest CT images. The maximal ratio in the Hounsfield unit (HU) range was defined as the highest ratio value within the HU range among five lobes. The median patient age was 41 years, and 68.6% were male. Life-threatening hemoptysis occurred in 39 patients. The area under the receiver operating characteristic curve for the maximal ratio at -500 HU to 100 HU was 96.52%. The cutoff value was 45.49%. Multivariate analysis showed a high maximal chest CT ratio ≥ 45.49% at -500 HU to 100 HU (adjusted odds ratio [aOR]: 104.66, 95% confidence interval [CI]: 21.81-502.16, p < 0.001), hemopneumothorax (aOR: 5.18, 95% CI: 1.25-21.47, p = 0.023), and chest abbreviated injury scale (AIS, aOR: 5.58, 95% CI: 1.68-18.57, p = 0.005) were associated with life-threatening hemoptysis. Maximal chest CT ratios ≥ 45.49% at -500 HU to 100 HU, hemopneumothorax, and high chest AIS scores are associated with life-threatening hemoptysis in patients with blunt chest trauma. The present study provides an objective index derived from chest CT images to predict the occurrence of life-threatening hemoptysis. This information helps screen high-risk patients in need of more intensive monitoring for early intervention to improve outcomes. Emergency department CT helps predict life-threatening hemoptysis in patients with lung contusions. Maximal CT ratios ≥ 45.49% (-500 HU to 100 HU, either lung lobe) are associated with life-threatening hemoptysis. High chest abbreviated injury scale scores and hemopneumothorax also predict life-threatening hemoptysis.

Thoracic Responses and Injuries of Male Post-Mortem Human Subjects in a Homogeneous Rear-Facing Seat During High-Speed Frontal Impact.

In recent post-mortem human subjects (PMHS) studies in a high-speed rear-facing frontal impact (HSRFFI), the PMHS sustained multiple rib fractures. The seatback structure and properties of the seats might contribute to these fractures. This study aimed to determine if a homogeneous rear-facing seat with foam-covered seatback would mitigate the risk of thoracic injury during an HSRFFI. Three male PMHS were subjected to the same previous HSRFFI pulse. The seating structure consisted of a homogeneous seatback composed of rigid plates with load cells and covered with both comfort and safety foam. The PMHS spine was instrumented with accelerometers and angular rate sensors. Two chestbands were attached at the level of the axilla and xiphoid, and strain gages and strain rosettes were attached to ribs. Whole-body kinematics were quantified using a motion capture system. PMHS1 and PMHS3 sustained 30 and 13 rib fractures, respectively, while PMHS2 did not sustain any fractures. Average maximum anterior-posterior (A-P) chest compressions ranged from 15.9 to 22.6%. Rib fractures occurred before and after the maximum A-P compression, so A-P chest compression alone did not correlate well with rib fracture outcomes. Thoracic inferior-superior (I-S) deformation relative to the T12 was 107.4mm for PMHS1, 27.6mm for PMHS2, and 85.1mm for PMHS3. The direction of the maximum principal strain indicated that ribs experienced shear caused by I-S chest deformation. These results will assist with the development of countermeasures to protect occupants in a rear-facing seating configuration, along with validation of human body models.

Coronary air embolism causing myocardial infarction following a blunt chest trauma.

Coronary air embolism causing myocardial infarction following a blunt chest trauma.

2024 American Heart Association and American Red Cross Guidelines for First Aid.

Codeveloped by the American Heart Association and the American Red Cross, these guidelines represent the first comprehensive update of first aid treatment recommendations since 2010. Incorporating the results of structured evidence reviews from the International Liaison Committee on Resuscitation, these guidelines cover first aid treatment for critical and common medical, traumatic, environmental, and toxicological conditions. This update emphasizes the continuous evolution of evidence evaluation and the necessity of adapting educational strategies to local needs and diverse community demographics. Existing guidelines remain relevant unless specifically updated in this publication. Key topics that are new, are substantially revised, or have significant new literature include opioid overdose, bleeding control, open chest wounds, spinal motion restriction, hypothermia, frostbite, presyncope, anaphylaxis, snakebite, oxygen administration, and the use of pulse oximetry in first aid, with the inclusion of pediatric-specific guidance as warranted.

Thoracic spinal cord trauma: an adequate functional outcome with timely surgical management

Thoracic spinal cord trauma: an adequate functional outcome with timely surgical management

The Impact of Thoracic Trauma on Morbidity and Outcomes: A Six-Year Experience From a Tertiary Care Level 1 Center

The Impact of Thoracic Trauma on Morbidity and Outcomes: A Six-Year Experience From a Tertiary Care Level 1 Center

Valery Aleksandrovich Chereshnev – organizer of the immunological service in the Western Urals

The article is dedicated to the 80th anniversary of Valery Aleksandrovich Chereshnev, a Russian scientist, academician of the Russian Academy of Sciences, known for his works in the field of immunology and pathophysiology. V.A. Chereshnev began his career at Perm State Medical Institute, where he continued his postgraduate studies after graduating with honors. In 1970, he defended his PhD thesis on the topic “On the role of the properties of microbial cells and macroorganisms in the mechanism of development of an early phagocytic reaction to the introduction of typhoid vaccine”. In 1982, he defended his doctoral dissertation on the topic “Closed chest injury in combination with gamma irradiation (clinic, pathogenesis, treatment, medical protection).” He worked as a lecturer and professor in various educational institutions, and also headed scientific laboratories. In 1988, he became the director of the Institute of Ecology and Genetics of Microorganisms, Ural Branch of the Russian Academy of Sciences, and then organized a branch in Yekaterinburg, which was later transformed into the Institute of Immunology and Physiology, Ural Branch of the Russian Academy of Sciences, where he also became the director. Valery Aleksandrovich was elected a corresponding member of the Russian Academy of Sciences, academician of the Russian Academy of Sciences, Chairman of the Ural Branch of the Russian Academy of Sciences and Vice-President of the Russian Academy of Sciences, Chairman of the Committee on Science and High Technologies of the State Duma of the Federal Assembly of the Russian Federation. In addition, he was elected President of the Russian Scientific Society of Immunologists, organized the Society of Immunologists of the Urals. Currently he is actively developing immunological services in the Western Urals.

Metabolic Effects of Sodium Thiosulfate During Resuscitation from Trauma and Hemorrhage in Cigarette-Smoke-Exposed Cystathionine-γ-Lyase Knockout Mice

Background: Acute and chronic pre-traumatic cigarette smoke exposure increases morbidity and mortality after trauma and hemorrhage. In mice with a genetic deletion of the H2S-producing enzyme cystathione-γ-lyase (CSE−/−), providing exogenous H2S using sodium thiosulfate (Na2S2O3) improved organ function after chest trauma and hemorrhagic shock. Therefore, we evaluated the effect of Na2S2O3 during resuscitation from blunt chest trauma and hemorrhagic shock on CSE−/− mice with pre-traumatic cigarette smoke (CS) exposure. Since H2S is well established as being able to modify energy metabolism, a specific focus was placed on whole-body metabolic pathways and mitochondrial respiratory activity. Methods: Following CS exposure, the CSE−/− mice underwent anesthesia, surgical instrumentation, blunt chest trauma, hemorrhagic shock for over 1 h (target mean arterial pressure (MAP) ≈ 35 ± 5 mmHg), and resuscitation for up to 8 h comprising lung-protective mechanical ventilation, the re-transfusion of shed blood, fluid resuscitation, and continuous i.v. noradrenaline (NoA) to maintain an MAP ≥ 55 mmHg. At the start of the resuscitation, the mice randomly received either i.v. Na2S2O3 (0.45 mg/gbodyweight; n = 14) or the vehicle (NaCl 0.9%; n = 11). In addition to the hemodynamics, lung mechanics, gas exchange, acid–base status, and organ function, we quantified the parameters of carbohydrate, lipid, and protein metabolism using a primed continuous infusion of stable, non-radioactive, isotope-labeled substrates (gas chromatography/mass spectrometry) and the post-mortem tissue mitochondrial respiratory activity (“high-resolution respirometry”). Results: While the hemodynamics and NoA infusion rates did not differ, Na2S2O3 was associated with a trend towards lower static lung compliance (p = 0.071) and arterial PO2 (p = 0.089) at the end of the experiment. The direct, aerobic glucose oxidation rate was higher (p = 0.041) in the Na2S2O3-treated mice, which resulted in lower glycemia levels (p = 0.050) and a higher whole-body CO2 production rate (p = 0.065). The mitochondrial respiration in the heart, kidney, and liver tissue did not differ. While the kidney function was comparable, the Na2S2O3-treated mice showed a trend towards a shorter survival time (p = 0.068). Conclusions: During resuscitation from blunt chest trauma and hemorrhagic shock in CSE−/− mice with pre-traumatic CS exposure, Na2S2O3 was associated with increased direct, aerobic glucose oxidation, suggesting a switch in energy metabolism towards preferential carbohydrate utilization. Nevertheless, treatment with Na2S2O3 coincided with a trend towards worsened lung mechanics and gas exchange, and, ultimately, shorter survival.

Abstract 4136286: Safety Events with a Large-Bore Aspiration Thrombectomy Device for Pulmonary Embolism: An analysis of the U.S. Food and Drug Administration Manufacturer and User Facility Device Experiences from 2018 to 2024

Introduction: Large bore thrombectomy is increasingly used to treat acute PE. Post-market surveillance using the U.S. FDA Manufacturer and User Facility Device Experience (MAUDE) database may capture serious device adverse events (AE) not described in small pre-market clinical trials. We aim to analyze serious AE associated with use of the Inari Medical (Irvine, California) large bore thrombectomy system to treat PE. Methods: All MAUDE events between January 1, 2018 and May 1, 2024 involving PE treatment with Triever and Flowtriever devices were reviewed and categorized based on device type, incident year, and clinical event. Based on narrative description, AE were placed into categories of cardiac, pulmonary, device malfunction, anemia, and other. Results: A total of 58 AE reports representing 50 unique clinical episodes were included. MAUDE event types were death (n=32), injury (n=23) and malfunction (n=3), and the majority (45/58) involved the larger aspiration catheters (Table 1). Death occurred in 27 of 50 unique episodes. Cardiac injury (n=19) and pulmonary injury (n=18) were most common and included 25 serious perforations. Serious AEs are listed in Table 2. Device malfunction/improper use was rare (n=7) and was not associated with death. Paradoxical embolism was described causing stroke and coronary occlusion. 3 of 4 blood loss AEs occurred prior to 2021. Conclusion: This report includes the largest description of reported AEs with large bore aspiration thrombectomy systems used to treat PE. This report describes serious events, often associated with death, that are likely infrequent and were not detected in pivotal studies or registries. Understanding these AEs may guide future technique and device refinement, and the current findings demonstrate the importance of large post-approval studies.

Abstract 4137925: Long-term Outcome of Initial Thoracic Endovascular Repair or Medical Therapy in Acute Uncomplicated Type B Aortic Dissection: Real-world Data from a Nationwide Claims-Database in Japan.

Introduction: Thoracic endovascular aortic repair (TEVAR) has emerged as a promising treatment option for patients with type B aortic dissection (TBAD). However, there is a lack of evidence regarding the long-term morbidity of initial TEVAR compared to optimal medical therapy (OMT) in acute uncomplicated TBAD (uTBAD). Objective: To evaluate real-world data(RWD) on the long-term outcome of Japanese patients with acute uTBAD using a nationwide claims database. Methods: This retrospective cohort study utilizes JMDC, a nationwide claims database under Japan's universal healthcare system. We included patients who were initially hospitalized with a diagnosis of acute TBAD. We defined acute uTBAD by excluding those who died within one month, suffered aortic rupture, traumatic thoracic aortic injury, underwent open-chest surgery, experienced stroke or paralysis, or had less than six months of history in the JMDC. Patients who underwent TEVAR within three months of the index hospitalization (TEVAR group) were compared with those who received optimal medical therapy (OMT group). Propensity score (PS) matching was performed based on age, sex, and year of hospitalization. Using the Kaplan-Meier method, we calculated the cumulative rate of all-cause mortality and aorta-related events. Results: Of 18,445 patients diagnosed with aortic disease between January 2005 and December 2020, 641 were included in the study (OMT group: n=580, TEVAR group: n=61). After PS-matching, demographics of the groups (OMT_PSM: n=183 vs. TEVAR_PSM: n=61) were female (12.6% vs. 13.1%), median age (54 years [IQR, 48-60] vs. 54 years [IQR, 50-61]) and follow-up time (18 months [8-32] vs. 19 months [9-32]), respectively. Kaplan-Meier curves for the aortic-related events (Figure1, 2) are shown as long-term outcomes. Conclusions: This study successfully demonstrated that the estimated 5-year aortic-related event rate in acute uTBAD patients undergoing OMT is approximately 20%, demonstrating the relevance of the RWD source. However, the number of death events in the TEVAR and OMT groups was not sufficient to provide statistical power. Therefore, further studies are warranted to evaluate the long-term prognosis of initial TEVAR for uTBAD.

Abstract 4136516: Intraventricular pseudoaneurysm: A diagnosis with high mortality that demands a good eye

Traumatic left ventricular (LV) pseudoaneurysms (PSA) are rare, life-threatening complications of blunt chest trauma and the management is heavily reliant on early identification and diagnosis. A healthy 55-year-old female presented after blunt chest trauma from a car accident. Bedside echocardiogram revealed a mid-septal LV discontinuity with myocardial outpouching. Lab work was significant for high sensitivity troponin of 22,000 ng/L which peaked at 24,000 in 5 hours. ECG revealed normal sinus rhythm with a QRS duration of 102ms. No ventricular ectopy was detected. Transthoracic echocardiograph (TTE) using echo contrast agent and computed tomography (CT) scan confirmed the intraventricular pseudoaneurysm (Fig 1-A&amp;B). A transesophageal echocardiogram (TEE) showed an intact PSA at 3.7 x 2.5 cm LV PSA with a 5mm neck extending from the mid septum superiorly into the right ventricle (RV) with no Doppler evidence of rupture or shunt (Fig 2). With cardiology and cardiac surgery shared decision making, conservative therapy was elected in the setting of polytrauma and hemodynamic stability. Serial TTEs showed stable size and appearance of the PSA during her month long hospitalization. Cardiac magnetic resonance imaging (cMRI) 7 months later showed significant improvement in the PSA size to 0.3 cm 2 and extensive myocardial remodeling (Fig 1-C). LV septal PSA is rare following blunt chest trauma, and it confers a considerable risk of rupture with the highest risk occurring within 3 months of formation. Untreated PSA presents with risks including thromboembolism, infection, and arrhythmia. Multimodal cardiac imaging is paramount for diagnosis and surveillance. There are no guidelines for serial monitoring in hemodynamically stable patients and an individualized approach should be taken. In this patient TTE, TEE, and CT imaging modalities were utilized. Our patient progressed without complication following conservative management with shrinking and scarring of the aneurysm characterized by the cMRI.

Open sternal fracture with bilateral dislocation of the sternoclavicular joints after a high-speed bicycle accident: a case report

BackgroundOnly a few cases of bilateral traumatic sternoclavicular dislocations have been reported in the literature. This injury is considered one of the rarest injuries of the human musculoskeletal system. Therefore, we present the first documented case of a cyclist with a third-degree open thoracic trauma (Gustilo–Anderson 3a) associated with a dislocated manubrium sterni fracture in the upper thoracic aperture, bilateral anterior dislocations of the sternoclavicular joints, rib fractures, and pleural ruptures.Case presentationThe patient, a 27-year-old Caucasian male, incurred this injury while participating in a professional cycling race at Nürburgring, Germany and received immediate interdisciplinary surgical treatment and has encountered no complications. We conducted a 1-year follow-up and present the clinical findings of this follow up. Additionally, we conducted a comprehensive review of the existing literature on this injury.ConclusionsImmediate interdisciplinary intervention, including surgical repair and meticulous postoperative care, facilitated successful patient recovery. This underscores the critical role of comprehensive trauma management in complex polytrauma cases. In conclusion, this case report highlights the rarity and complexity of a traumatic injury involving bilateral sternoclavicular dislocation, with this case being the first case reported with concomitant open thorax trauma. Our patient benefited greatly from immediate air-bound transportation to an interdisciplinary care provider, which houses both thoracic and trauma surgery departments.

A possible role of e-FAST in the hemodynamically stable polytrauma patient: results of a single trauma center preliminary restrospective study.

The purpose of this work is to evaluate whether EFAST can also play a role in the hemodynamically stable polytrauma patient, without delaying his arrival in the CT-scan room. In a period of seven month, 748 polytrauma patients were retrospective valued; we analyzed the findings of the CT exams of 485 haemodynamically stable patients for whom the EFAST investigation was not requested, highlighting the possible presence of findings that, if reported during the EFAST, could have changed the patient management. 52 hemodynamically stable patients with CT examination findings potentially detectable by ultrasound examination directly in the shock room, which represent a percentage of about 11% of all the hemodynamically stable patients analyzed; about 54% of CT findings are represented by the presence of pneumothorax. Looking to the results and the sensitivity of thoracic ultrasound in identifying even small flaps of pneumothorax, the evaluation by EFAST ultrasound examination could be extended at least to all those patients with chest trauma or who require endotracheal intubation. The risk of generating a hypertensive pneumothorax following positive pressure intubation is widely known, and certainly the presence of a pre-existing layer of pneumothorax, even if of modest entity, further increases this possibility.

Ginsenoside Rg1 Prevents and Treats Acute Pulmonary Injury Induced by High-Altitude Hypoxia

This study aimed to investigate the protective effects of ginsenoside Rg1 on high-altitude hypoxia-induced acute lung injury (ALI) and elucidated its molecular targets and related pathways, specifically its association with the fluid shear stress pathway. Using a combination of bioinformatics analysis and both in vivo and in vitro experiments, we assessed the role of ginsenoside Rg1 in mitigating physiological and biochemical disturbances induced by hypoxia. In the in vivo experiments, we measured arterial blood gas parameters, levels of inflammatory cells and cytokines, erythrocyte and platelet parameters, and conducted histological analysis in rats. The in vitro experiments utilized human pulmonary microvascular endothelial cells (HPMECs) and A549 cells to examine cell viability, intracellular reactive oxygen species (ROS) and Ca2⁺ levels, and mitochondrial function. The results of the in vivo experiments demonstrate that ginsenoside Rg1 significantly increased arterial blood oxygen partial pressure and saturation, elevated arterial blood glucose levels, and stabilized respiratory and metabolic functions in rats. It also reduced inflammatory cells and cytokines, such as tumor necrosis factor-α and interleukin-6, and improved erythrocyte and platelet abnormalities, supporting its protective role through the regulation of the fluid shear stress pathway. Histological and ultrastructural analyses revealed that Rg1 significantly protected lung tissue structure and organelles. In vitro experiments further confirmed that Rg1 improved cell viability in HPMEC and A549 cells under hypoxic conditions, decreased intracellular ROS and Ca2⁺ levels, and enhanced mitochondrial function. These findings collectively demonstrate that ginsenoside Rg1 exerts significant protective effects against high-altitude hypoxia-induced ALI by enhancing oxygen delivery and utilization, reducing inflammatory responses, and maintaining cellular metabolism and vascular function. Notably, the protective effects of Rg1 are closely associated with the regulation of the fluid shear stress pathway, suggesting its potential for treating high-altitude hypoxia-related diseases.

Bilateral First Rib Fractures in Blunt Trauma Patients: A Retrospective Study

Abstract Introduction: Unilateral fracture of the first rib frequently led to severe complications such as brachial plexus or major vascular injury. Bilateral first rib fracture (BFRF) is very rare. We aimed to study the incidence, mechanism of injury, management, and outcome of BFRF in blunt trauma patients in a community-based hospital. Methods: Data of all blunt trauma patients who were admitted to our institution with (BFRF from December 2014 through January 2017) were retrospectively collected. Data included demography, mechanism of injury, severity of the injury, associated injuries, management, and outcome. Results: During the study period, 4779 patients with blunt trauma were included in the trauma registry and 12 (0.25%) patients had BFRF. The mean age of standard deviation (SD) was 29 (8.3) years. Seven (58.3%) patients were involved in road traffic collisions and 5 (41.7%) patients fell from more than 3 m height. The most commonly associated thoracic injury was lung contusions in 8 (66.7%) patients. The median (range) Glasgow Coma Score on admission was 15 (14–15) and Injury Severity Score (SD) was 19 (10.5). Length of hospital stay mean (SD) was 6.8 (6.4) days. No patients died in the study. Conclusions: BFRF is a rare entity in blunt trauma patients caused by high-energy trauma. Major vascular or brachial plexus injuries in patients with BFRF are much less than those reported in the medical literature on unilateral first rib fractures. Associated injuries are the main cause of trauma-related morbidity rather than the direct effect of BFRF.

Delayed Traumatic Tricuspid Valve Regurgitation Caused by Blunt Chest Trauma: A Case Report and Literature Review

Delayed Traumatic Tricuspid Valve Regurgitation Caused by Blunt Chest Trauma: A Case Report and Literature Review

Development and validation of prediction models for prehospital triage of military trauma patients.

The introduction of wireless sensors will enable military care providers to continuously and remotely assess/monitor vital signs. Prediction models are needed to use such data adequately and aid military care providers in their on-scene decision-making to optimise prehospital triage and improve patient outcomes. A prospective cohort comprising data from eight Emergency Medical Services and seven inclusive trauma regions was used to develop and validate prediction models that could aid military care providers in their prehospital triage decisions. Healthy (American Society of Anesthesiologists physical status classification 1 or 2) admitted adult trauma patients (aged ≥16 and ≤50 years), who suffered from a trauma mechanism that could occur to military personnel and were transported by ambulance from the scene of injury to a hospital, were included. A full model strategy was used, including prehospital predictors that are expected to be automaticly collectible by wireless sensors or to be incorporated in a personalised device that could run the models. Models were developed to predict early critical-resource use (ECRU), severe head injury (Abbreviated Injury Scale (AIS) ≥4), serious thoracic injury (AIS ≥3) and severe internal bleeding (>20% blood loss). Model performance was evaluated in terms of discrimination and calibration. Prediction models were developed with data from 4625 patients (80.0%) and validated with data from 1157 patients (20.0%). The models had good to excellent discriminative performance for the predicted outcomes in the validation cohort, with an area under the curve of 0.80 (95% CI 0.76 to 0.84) for ECRU, 0.83 (0.76 to 0.91) for severe head injury, 0.75 (0.70 to 0.80) for serious thoracic injury and 0.85 (0.78 to 0.93) for severe internal bleeding. All models showed satisfactory calibration in the validation cohort. The developed models could reliably predict outcomes in a simulated military trauma population and potentially support prehospital care providers in their triage decisions.