Chest Trauma Research Articles

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.

Effects of withdrawal and re-application of spinal cord stimulation to restore cough.

Paralysis of the expiratory muscles in cervical and high thoracic spinal cord injury (SCI) results in an impaired ability to clear airway secretions effectively and increases the risk of atelectasis and respiratory tract infections (RTI). Spinal cord stimulation (SCS) applied via the Cough Stimulation System (CSS) has been shown to restore an effective cough mechanism in subjects with SCI. In this study, we evaluated the specific impact of use of the CSS by one study participant with SCI, subsequent discontinuation of usage, and then re-institution of this modality. Airway pressure generation (P) and peak expiratory airflow rate (F) achieved with CSS and clinical assessment questionnaires were assessed. With the CSS, this subject was able to generate P and F rates of 103 cmH2O and 7.1 l/s, respectively, with associated significant clinical benefits, including, much greater ease in raising secretions and reduction in the incidence of RTIs. However, following a 2-year period of regular use, the CSS became non-functional and a 2-year period elapsed before it could be replaced. During this time, he again experienced great difficulty managing airway secretions and an increased frequency of RTIs. Re-institution of the CSS system resulted in the restoration of an effective cough mechanism and similar clinical benefits. This report demonstrates the very high degree of the clinical utility of the CSS as it had made a substantial beneficial impact on this participant's respiratory status and life quality.

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.

Neurotrophic and synaptic effects of GnRH and/or GH upon motor function after spinal cord injury in rats

Thoracic spinal cord injury (SCI) profoundly impairs motor and sensory functions, significantly reducing life quality without currently available effective treatments for neuroprotection or full functional regeneration. This study investigated the neurotrophic and synaptic recovery potential of gonadotropin-releasing hormone (GnRH) and growth hormone (GH) treatments in ovariectomized rats subjected to thoracic SCI. Employing a multidisciplinary approach, we evaluated the effects of these hormones upon gene expression of classical neurotrophins (NGF, BDNF, and NT3) as well as indicative markers of synaptic function (Nlgn1, Nxn1, SNAP25, SYP, and syntaxin-1), together with morphological assessments of myelin sheath integrity (Klüver-Barrera staining and MBP immunoreactivity) and synaptogenic proteins (PSD95, SYP) by immunohystochemistry (IHC) , and also on the neuromotor functional recovery of hindlimbs in the lesioned animals. Results demonstrated that chronic administration of GnRH and GH induced notable upregulation in the expression of several neurotrophic and synaptogenic activity genes. Additionally, the treatment showed a significant impact on the restoration of functional synaptic markers and myelin integrity. Intriguingly, while individual GnRH application induced certain recovery benefits, the combined treatment with GH appeared to inhibit neuromotor recovery, suggesting a complex interplay in hormonal regulation post-SCI. GnRH and GH are bioactive and participate in modulating neurotrophic responses and synaptic restoration under neural damage conditions, offering insights into novel therapeutic approaches for SCI. However, the intricate effects of combined hormonal treatment accentuate the necessity for further investigation that conduce to optimal and novel therapeutic strategies for patients with spinal cord lesions.

Therapeutic Potential of N-acetylcysteine and Glycine in Reducing Pulmonary Injury in Diabetic Rats

Therapeutic Potential of N-acetylcysteine and Glycine in Reducing Pulmonary Injury in Diabetic Rats

Which spinal fixation technique achieves which degree of stability after thoracolumbar trauma? A systematic quantitative review.

Unstable traumatic spinal injuries require surgical fixation to restore biomechanical stability. The purpose of this review was to summarize and quantify three-dimensional spinal stability after surgical fixation of traumatic thoracolumbar spinal injuries using different treatment strategies derived from experimental studies. Systematic literature review. Keyword-based search was performed in PubMed and Web of Science databases to identify all in vitro studies investigating stabilizing effects of different surgical fixation strategies for the treatment of traumatic spinal injuries of the thoracolumbar spine. Biomechanical stability parameters such as range of motion, neutral zone, and translation, as well as the experimental design were extracted, collected, and evaluated with respect to the type and level of injury and treatment strategy. A total of 66 studies with human specimens were included in this review, of which 16 studies examined the treatment of incomplete (AOSpine A3) and 34 studies the treatment of complete burst fractures (AOSpine A4). Fixations of wedge fractures (AOSpine A1, n=5 studies), ligament injuries (AOSpine B, n=7 studies), and three-column injuries (AOSpine C, n=7 studies) were investigated less frequently. Treatment approaches could be divided into five subgroups: Posterior fixation, e.g. posterior pedicle screw systems, anterior fixation, e.g. anterolateral plate fixation, combined anterior-posterior fixation, vertebral body replacement with additional instrumentation, and augmentation techniques, e.g. vertebroplasty and kyphoplasty. Minor injuries were generally treated with less invasive surgical methods such as augmentative and posterior approaches. Bisegmental posterior pedicle screw fixation led to stabilization of minor compression injuries, whereas in more severe injuries, e.g. AOSpine A4 or AOSpine C, instability remained in at least one motion plane. More invasive fixation techniques such as long segment posterior fixation, circumferential fixation, or vertebral body replacements with circumferential fixation provided total stabilization in terms of range of motion reduction even in more severe injuries. Pure augmentative treatment did not restore multidirectional stability. Neutral zone, which was reported in 25 studies, generally exhibited higher remaining increase than range of motion, which was reported in all 66 studies. Instability characteristics after treatment differed with respect to the spinal region, as thoracic injuries were more likely to remain unstable in flexion/extension, while thoracolumbar and lumbar injuries exhibited remaining instability primarily in axial rotation. The stabilizing effect of surgical treatment depends on the type, severity, and location of injury, as well as the fixation strategy. There is an enormous range of surgical approaches and instrumentation strategies available. Pure augmentative techniques have not been able to restore complex multidimensional stability in traumatic spinal injuries. More invasive fixation approaches such as circumferential instrumentation or vertebral body replacement constructs together with posterior or anterior-posterior fixation offer more stability even in severe spinal injuries. Future studies are required to expand the knowledge especially regarding the stabilization of minor compression injuries, ligament injuries, and rotational injuries.

No benefit from the addition of low-dose ketamine infusion to standard evidence-based care of patients with multiple rib fractures.

Multiple rib fractures from blunt thoracic trauma cause significant morbidity. Optimal current management includes multimodal analgesia, pulmonary hygiene, and early mobilization. Low-dose ketamine infusion (LDKI) has been proposed as an adjunctive analgesic in this setting. A prior study reported decreased pain scores with LDKI in patients with multiple rib fractures. We hypothesized that LDKI would decrease morphine milligram equivalents (MMEs) in patients with multiple rib fractures. A prospective randomized placebo-controlled trial was performed in adult (18 years or older) patients with three or more rib fractures. A prestudy power analysis calculated an 80% chance of identifying a 15% decrease in MMEs with 50 subjects. The study was approved by the institutional review board and informed consent obtained in all subjects. Demographic (age, sex) and injury specific information (Injury Severity Score, number of rib fractures) were obtained. Subjects were randomized 1:1 to receive continuous LDKI (0.1 mg/kg/h) or placebo infusion (0.9% NaCl) for ≤48 hours. All patients received a standard evidence-based multidisciplinary protocol for rib fractures management. Primary outcome measure was MME use or pulmonary complications. Statistical comparison of LDKI versus placebo was performed using the Mann-Whitney U test. All 50 enrolled subjects (placebo, 25; LDKI, 25) received study drug infusion. The two groups were well matched for age, Injury Severity Score, and number of rib fractures. We observed no differences in the Day 1 (p = 0.961), Day 2 (p = 0.373), or total MMEs (p = 0.946) between groups. Similar total MME use was observed when subjects who received ≥40 hours of study drug and were compared (p = 0.924). Use of LDKI did not alter subsequent need for opiate analgesics postinfusion, hospital length of stay, pulmonary complications, or need for readmission. The addition of LDKI to an established multimodal, evidence-based protocol for management of multiple rib fractures did not decrease opiate usage or impact pulmonary complications. Therapeutic/Care Managaement; Level I.

Prehospital endotracheal intubation for traumatic out-of-hospital cardiac arrest and improved neurological outcomes.

Patients with traumatic out-of-hospital cardiac arrest (t-OHCA) require on-scene airway management to maintain tissue oxygenation. However, the benefits of prehospital endotracheal intubation remain unclear, particularly regarding neurological outcomes. Therefore, this study aimed to evaluate the association between prehospital intubation and favourable neurological outcomes in patients with t-OHCA. This retrospective cohort study used a Japanese nationwide trauma registry from 2019 to 2021. It included adult patients diagnosed with traumatic cardiac arrest on emergency medical service arrival. Glasgow Outcome Scale (GOS) scores, survival at discharge and presence of signs of life on hospital arrival were compared between patients with prehospital intubation and those with supraglottic airway or manual airway management. Inverse probability weighting with propensity scores was used to adjust for patient, injury, treatment and institutional characteristics, and the effects of intubation on outcomes averaged over baseline covariates were shown as marginal ORs. A total of 1524 patients were included in this study, with 370 undergoing intubation before hospital arrival. Prehospital intubation was associated with favourable neurological outcomes at discharge (GOS≥4 in 5/362 (1.4%) vs 10/1129 (0.9%); marginal OR 1.99; 95% CI 1.12 to 3.53; p=0.021) and higher survival to discharge (25/370 (6.8%) vs 63/1154 (5.5%); marginal OR 1.43; 95% CI 1.08 to 1.90; p=0.012). However, no association with signs of life on hospital arrival was observed (65/341 (19.1%) vs 147/1026 (14.3%); marginal OR 1.09; 95% CI 0.89 to 1.34). Favourable outcomes were observed only in patients who underwent intubation with a severe chest injury (Abbreviated Injury Score ≥3) and with transportation time to hospital >15 min (OR 14.44 and 2.00; 95% CI 1.89 to 110.02 and 1.09 to 3.65, respectively). Prehospital intubation was associated with favourable neurological outcomes among adult patients with t-OHCA who had severe chest injury or transportation time >15 min.

Diagnostic Value of Serum Clara Cell Secretory Protein Level in an Experimental Blunt Chest Trauma Model

Objective: Blunt chest trauma is a significant clinical problem leading to injury of the lungs that may be fatal. Experimental blunt chest trauma is well established in animal models. This study aimed to investigate whether Clara cell secretory protein (CC16) can be a biomarker in an experimentally created blunt chest trauma model. Material and Methods: A total of 30 rabbits were used in our study. A modified bilateral blunt thoracic trauma model was used to produce different levels of lung contusion. We divided the rabbits into four groups according to the energy level at which blunt thoracic trauma was applied. Blood samples were taken from the control and trauma groups to evaluate CC16 levels at 0, 12, and 24 hours. Results: The CC16 levels measured at the start of the experiment were significantly lower in the control and low-energy groups compared to the medium- and high-energy groups (p =.002). While there was a significant difference in CC16 levels measured at the 12th hour (p =.004), no significant difference was found among the groups at the 24th hour. Upon analyzing the change in CC16 levels over time within the groups, we observed that CC16 levels decreased from 0–12 hours and subsequently increased after the 12th hour. Histopathologically, we observed that the level of contusion increased in proportion to the severity of trauma across the different groups. Conclusion: With the designed platform, we created a reproducible experimental model of pulmonary contusion from blunt thoracic trauma in rabbits. Increased levels of CC16 following a lung contusion could serve as a foundation for clinical decision-making. Thus, CC16 has the potential to serve as a rapid and simple biochemical indicator for acute traumatic lung injury.

Supracostal ultrasound guided approach percutaneous nephrolithotomy (SUGA-PNL) versus retrograde intrarenal surgery for large volume isolated upper calyceal stones: a prospective randomized analysis

To assess outcomes of supracostal ultrasound guided approach percutaneous nephrolithotomy (SUGA-PNL) and retrograde intrarenal surgery (RIRS) in isolated large volume upper calyceal stones (UCS). This was a prospective randomized study including patients with isolated UCS > 20mm. The patients were randomized into two groups: group (P) (SUGA-PNL) and group (R) (RIRS). Patients’ demographics, stones characteristics, operative, and postoperative outcomes essentially the stone free rate (SFR) and complications rate were documented. The stone clearance was defined as no fragments or residual fragments less than 2mm in the one month non contrast CT scan follow up. Eighty-nine patients opted to undergo the procedure according to the preoperative randomization. Four patients, 2 patients from each group, lost to follow up and other 2 patients were excluded from group (R) due to a tight ureter. Both groups were comparable as regards the preoperative demographics and stone characteristics. There were statistically significant differences regarding total operative time, the change in hemoglobin level, and postoperative pain score (P: 0.024, 0.010 and 0.032 respectively). The SFR was 88.1% in group (P) compared to 73.2% in group (R) (P: 0.019). Moreover, it did not differ significantly between both groups regarding the intraoperative and postoperative complications. No visceral and thoracic injuries were documented in group (P). On other side, 6 patients (14.6%) from group (R) had different grades of ureteral injury during access sheath placement. SUGA-PNL is a safe and effective treatment modality for UCS > 20mm with a higher SFR than RIRS.

Biocompatible Metal-Organic Framework-Based Fabric Composite as an Efficient Personal Protective Equipment for Particulate Matter-Induced Pulmonary Injury.

Efficient personal protection has emerged as a crucial approach for reducing pulmonary injury induced by particulate matter (PM). However, current personal protective equipments usually lack essential biosafety concerns and fail to own adsorbing/antioxidant/antibacterial function together, making it a challenge to develop an integrated platform with the above characteristics. Herein, a facile oxygen-free hydrothermal strategy is proposed to synthesize new copper-based metal-organic frameworks, Cu-HHTPs, (HHTP: 2,3,6,7,10,11-hexahydroxytriphenylene), with great adsorbing/antioxidant/antibacterial activity and high biosafety. The Cu-HHTPs can serve as an efficient additive incorporated with various fabrics including cellulose acetate (CA) membrane to achieve novel fabric composites, such as CA@Cu-HHTPs, with ideal scavenging outcome for the main components of PM. Evidenced by the animal experiments, CA@Cu-HHTPs can highly mitigate PM-induced adverse effects via adsorbing PM, scavenging ROS, and killing bacteria, leading to a significant reduction in lung permeability, inflammation and oxidative stress, and pulmonary infection. Last but not least, a two-week exposure of CA@Cu-HHTPs exhibits no obvious damage toward the animals by examining their long-term toxicity. Collectively, this study not only highlights the potential of Cu-HHTPs as attractive additives for the preparation of fabric composites, but also lays out a new concept toward the development of new-generation multifunctional personal protective equipment against PM.

Bilateral multiple ribs and sternum fracture causing central flail chest with respiratory failure

Bilateral thoracic blunt injuries in a patient may present with central Flail chest, and acute respiratory failure which is one of the life-threatening complications. We present a case of central flail chest caused by blunt trauma, successfully managed with operative rib and sternum fixation. A 35-year male with a central flail chest with acute respiratory failure caused by road-traffic accident who was managed initially with bilateral intercostal chest-tube drainage for significant bilateral hemopneumothorax and lung contusions. The patient was intubated and connected to mechanical ventilatory support with positive pressure ventilation for the internal pneumatic stabilization. There were multiple rib fractures anteriorly (first to seventh rib bilaterally) and fracture of the sternum - the flail chest, for which he underwent bilateral rib fixation and fixation of sternum with titanium reconstruction plate and screws on the 9th postinjury day. Tracheostomy was done along with fixation in the same sitting. Post-operatively, after 48 hours of positive pressure mechanical ventilation, the weaning was started and by the 4-5th day, the patient was on room air with a tracheostomy tube. The patient recovered uneventfully and was discharged on the eighth postoperative day.

Stapler-induced vascular injury during uniportal VATS lobectomy: lessons learned from a rare complication case

BackgroundDue to advances in video-assisted thoracic surgery (VATS), the majority of lung resections can be performed safely via VATS with low morbidity and mortality. However, pulmonary artery (PA) bleeding often requires emergency conversion to thoracotomy, potentially leading to a life-threatening situation. We report a case of pulmonary artery injury caused by an unexpected stapler-tissue interaction during uniportal VATS lobectomy, highlighting the importance of recognizing and managing such rare complications to improve patient outcomes.Case presentationA 63-year-old man underwent uniportal VATS left upper lobectomy for a suspected primary lung cancer. During the procedure, unexpected bleeding occurred from the third branch of the pulmonary artery (A3) after withdrawal of an unfired stapler. The protruding staple of the A3 stump was inadvertently hooked and stretched by the groove of the staple anvil. Although the bleeding was controlled by compression with the lung, the injured A3 stump required repair. Due to the extensive intimal injury near the central part of the left main pulmonary artery and the potential risk of fatal postoperative complications, we converted to open thoracotomy for definitive vascular repair by suturing. The patient had no postoperative complications and was discharged on postoperative day 8.ConclusionsThis case report provides valuable lessons regarding the rare stapler-related vascular injury during uniportal VATS lobectomy. It is important to note that even during non-vascular dissection, unexpected stapler-tissue interactions can lead to bleeding. To prevent the vessel stump entanglement with stapler components, maintaining separation between the stapler and staple stumps is crucial. In uniportal VATS, manipulation during stapler insertion is one of the most challenging phases for instrument interference, requiring increased caution to prevent complications such as the vascular injury described in this case. Thorough preoperative planning, specific intraoperative precautions, and adapted safety protocols that address the limitations of uniportal VATS are essential for effective management of potential complications. Although techniques for thoracoscopic vascular control exist, they are not always feasible and conversion to open thoracotomy should be considered when necessary to ensure patient safety.

Comparative analysis of compartment-specific immunothrombotic biomarker profiles in bronchoalveolar lavage fluid and serum of patients with pneumonia-related acute respiratory distress syndrome: A preliminary cross-sectional study.

Immunothrombosis has emerged as a potential mechanistic link underlying the development and progression of acute respiratory distress syndrome (ARDS), but understanding its specific profile in patients, both locally and systemically, is limited. The objective of this study was to characterize and compare the immunothrombotic signatures in patients diagnosed with pneumonia-related ARDS (p-ARDS) at both the pulmonary and systemic levels and to evaluate their clinical relevance. The study included 23 consecutive patients diagnosed with p-ARDS admitted to the intensive care unit at a tertiary university hospital from July 2022 to May 2023, alongside 40 concurrently hospitalized patients with common pneumonia as controls. Paired bronchoalveolar lavage fluid (BALF) and serum samples were collected from the participants for the analysis of 15 biomarkers to assess and quantify the pulmonary and systemic immunothrombotic signatures. The study results revealed significant pulmonary inflammation and systemic endothelial injury in p-ARDS patients compared to pneumonia controls. These observations were maintained after adjustment for severity of illness (Acute Physiology and Chronic Health Evaluation II scores). In terms of clinical relevance, inflammatory biomarkers (interleukin [IL]-6, IL-8) in BALF were found to correlate with PaO2/FiO2 ratio, while serum levels of a disintegrin and metalloproteinase with thrombospondin type 1 motif 13 (ADAMTS-13) and thrombomodulin showed associations with Sequential Organ Failure Assessment and Disseminated Intravascular Coagulation scores. In conclusion, this preliminary investigation identified compartment-specific variations in the immunothrombotic signature between patients with p-ARDS and those with pneumonia alone, with inflammatory responses predominantly localized in the alveolar compartments and coagulation/endothelial injury biomarkers more pronounced in peripheral blood.

The impact of obesity on pediatric orthopedic polytrauma patients

Objectives: The effect of obesity on fracture care and management in the adult population has been well documented in the literature; there is a scarcity of evidence-based research reporting the impact of obesity on pediatric orthopedic polytrauma patients. The aim of this study was to objectively investigate the impact of obesity on pediatric orthopedic polytrauma patients to optimize care and fracture management. Methods: A single-center retrospective cohort study of pediatric polytrauma patients aged 2–18 years old admitted to a level 1 trauma center was conducted over three years. Patients were categorized based on their body mass index (BMI). A logistic regression model was used to identify significant variables between the study groups. Results: A total of 60 patients were included in the analysis and divided into normal weight group (n = 36) and overweight/obese group (n = 24). A trend of lower injury severity score (ISS) was observed in the overweight/obese group compared to the normal weight group. Non-orthopedic injuries, including head, chest, and abdominal injuries, were found to be less in the overweight/obese group. Higher rates of spine and extremity fractures were reported in the overweight/obese group, as well as the need for surgical fixation (P = 0.05). No specific differences in complications, outcome, or discharge facility were found between the two groups. Conclusion: The paradoxical association between BMI and ISS/non-orthopedic injuries, in contrast to spine and extremity fractures, reflects the complex relationship between obesity and polytrauma patterns. Large multi-center prospective studies are needed to predict clinical outcomes in pediatric orthopedic polytrauma patients.

Spontaneous breathing trials should be adapted for each patient according to the critical illness. A new individualised approach: the GLOBAL WEAN study.

Spontaneous breathing trials (SBT) evaluate the patient's capacity to maintain inspiratory effort after extubation. SBT practices are heterogeneous and not individualised. The objective of this study was to assess which SBT best reproduces inspiratory effort after extubation in five critical illnesses. In this multicentre randomized cross-over study, adult intensive care unit patients under invasive mechanical ventilation for at least 24-h and ready for extubation, underwent three 15-min SBTs in random order: pressure support ventilation level of 7-cmH2O with positive end-expiratory pressure (PEEP) level of 0-cmH2O (PSV7PEEP0), PSV 0-cmH2O with PEEP 0-cmH2O (PSV0PEEP0) and T-piece trial. Primary outcome was the variation of pressure-time-product per minute (PTPmin) between each SBT and 20-min after extubation. Five categories of critical illnesses were selected: abdominal surgery, brain injury, chest trauma, chronic obstructive pulmonary disease (COPD) and miscellaneous. Five hundred measures of effort from 100 patients were analysed. PTPmin (cmH2O s/min, median and interquartile range, IQR) was 256 (208-321) after extubation, 192 (127-281) at the end of PSV7PEEP0 (p < 0.001 in comparison to after extubation), 291 (235-347) at the end of PSV0PEEP0 and 262 (198-338) at the end of T-piece (both no different from after extubation). One method of SBT in patients with brain injury (PSV0PEEP0), two in abdominal surgery (PSV0PEEP0 and T-piece) and miscellaneous patients (PSV7PEEP0 and T-piece) and all three methods in chest trauma and COPD exacerbation patients replicated reasonably accurately the postextubation effort to breathe. Unassisted SBTs, namely PSV0PEEP0 and T-piece trial, are the most appropriate to replicate the postextubation effort to breathe.

Streamlining management in thoracic trauma: radiomics- and AI-based assessment of patient risks

BackgroundIn blunt chest trauma, patient management is challenging because clinical guidelines miss tools for risk assessment. No clinical scale reliably measures the severity of cases and the chance of complications.AimThe objective of the study was to optimize the management of patients with blunt chest trauma by creating models prognosticating the transfer to the intensive care unit and in-hospital length of stay (LOS).MethodsThe study cohort consisted of 212 cases. We retrieved information on the cases from the hospital’s trauma registry. After segmenting the lungs with Lung CT Analyzer, we performed volumetric feature extraction with data-characterization algorithms in PyRadiomics.ResultsTo predict whether the patient will require intensive care, we used the three groups of findings: ambulance, admission, and radiomics data. When trained on the ambulance data, the models exhibited a borderline performance. The metrics improved after we retrained the models on a combination of ambulance, laboratory, radiologic, and physical examination data (81.5% vs. 94.4% Sn). Radiomics data were the top-accurate predictors (96.3% Sn). Age, vital signs, anthropometrics, and first aid time were the best-performing features collected by the ambulance service. Laboratory findings, AIS scores for the lower extremity, abdomen, head, and thorax constituted the top-rank predictors received on admission to the hospital. The original first-order kurtosis had the highest predictive value among radiomics data. Top-informative radiomics features were derived from the right hemithorax because the right lung is larger. We constructed regression models that can adequately reflect the in-hospital LOS. When trained on different groups of data, the machine-learning regression models showed similar performance (MAE/ROV≈8%). Anatomic scores for the body parts other than thorax and laboratory markers of hemorrhage had the highest predictive value. Hence, the number of injured body parts correlated with the case severity.ConclusionThe study findings can be used to optimize the management of patients with a chest blunt injury as a specific case of monotrauma. The models we built may help physicians to stratify patients by risk of worsening and overcome the limitations of existing tools for risk assessment. High-quality AI models trained on radiomics data demonstrate superior performance.

Novel Use of Obsidio Conformable Embolic in Thoracic Duct Embolization

AbstractChylothorax is a potentially serious condition resulting from thoracic duct injury. When chyle output remains high despite medical management, invasive interventions such as surgical ligation or percutaneous thoracic duct embolization (TDE) may be necessary. Obsidio is a novel conformable embolic agent that shares properties of both coil and liquid embolic agents. A 37-year-old man presented with left-sided chylothorax, refractory to medical management, following a high-speed motorcycle collision. The thoracic duct was successfully embolized using Obsidio placed between coil packs with fibered coils. This case report demonstrates the first successful use of Obsidio for TDE in a patient with traumatic chylothorax.

The Role of Screening for Venous Thromboembolism in Pelvic Trauma Patients: A Single-Centre Retrospective Study

Background: Venous thromboembolism (VTE) is a severe complication following pelvic trauma. Thromboprophylaxis has reduced the risk of VTE in the pelvic trauma population; nevertheless, the risk remains high. A substantial pulmonary embolism has emerged as the unexpected cause of death among patients presenting with ‘minor pelvic fractures’. The purpose of this study was to analyse the single-centre experience with a surveillance protocol. We hypothesised that DVT surveillance with VUS and CTPA may reduce the perioperative mortality–morbidity rate in the subpopulation of patients with pelvic or acetabular fractures. Methods: This is a retrospective analysis of patients admitted with pelvic or acetabular fractures between January 2001 and December 2021. In April 2013, a screening protocol for VTE was introduced. This protocol included venous ultrasound and CTPA for patients with chest injuries. Patients from two groups—one screened for VTE and one without screening—were compared. Results: Of the 3186 patients with pelvic and/or acetabular fractures who were admitted, 1975 were not screened for VTE and 1211 underwent screening. There were more VTE cases in the screening group (5.62% vs. 0.86%, p &lt; 0.001). Nine (0.46%) cases of sudden death occurred in the non-screening group, and all of them died with symptoms of acute PE. Since the screening was introduced, we have not encountered any deaths in the perioperative period (0.46 vs. 0, p = 0.02). Conclusions: The combined use of VUS and CTPA in chest-injured patients is a trustworthy means of screening for VTE, resulting in decreased mortality rates for those with pelvic and acetabular fractures by accurately diagnosing VTE during the perioperative phase.