Posttraumatic empyema thoracis: a 24-year experience at a major trauma center

Video-Assisted Thoracoscopy in Pediatric Thoracic Trauma

Pediatric thoracic trauma is a major cause of pediatric morbidity and mortality. Pediatric patients have unique anatomy and physiology that account for differences in injury patterns when compared to adult patients. These differences warrant special consideration in injury recognition and intraoperative management. The initial management of pediatric thoracic trauma should follow the principles of the primary survey in that life-threatening injuries should be ruled out. Hemodynamically unstable patients with serious thoracic injury warrant thoracotomy for expeditious management of life-threatening conditions. However, the management of hemodynamically stable patients with thoracic injury has evolved with the advent of minimally invasive surgery and the well-documented benefits of video-assisted thoracoscopic surgery (VATS) compared to traditional thoracotomy. Multiple studies have shown that VATS can be performed safely and effectively for traumatic injuries in children in both the acute and delayed setting. In this article, we provide an overview of pediatric thoracic trauma and the use of VATS in the management of these conditions.

A Global Bibliometric Analysis of the Top 100 Most Cited Articles on Early Thoracotomy and Decortication in Pleural Empyema

Most pleural empyema cases are linked to pneumonia, a substantial fraction of patients present with empyema without any association to pneumonia. The occurrence of empyema caused by tuberculosis (TB) is increasing in regions where TB is prevalent. In May 2024, a bibliometric analysis was conducted involving the screening of 7,620 articles sourced from Google Scholar. Google Scholar was selected for its comprehensive nature, encompassing articles indexed in prominent databases like Web of Science, Scopus, and PubMed. This allowed access to significant studies that might be overlooked if they were not indexed by these databases. Articles were selected based on their citation count and specific inclusion criteria, focusing on early thoracotomy and decortication in pleural empyema. Two authors (VB and MK) independently conducted a thorough screening and data collection. The hundred top articles published from 1945 to 2015, garnered a total of 16,928 citations. These articles were written by 93 distinct first authors from 22 countries and 83 institutions, and were featured in 35 journals. The primary categories of literature included those describing the disease characteristics, features, causes, and types of pleural empyema, as well as various treatment modalities and management strategies, each constituting 37% of the literature. Additionally, pediatric empyema was a focus in 11% of the articles. The present analysis highlights publication trends, identifies gaps in the literature, and suggests areas for future research, serving as a valuable resource for guiding upcoming studies on early thoracotomy and decortication in pleural empyema.

Pleural drainage vs video-assisted thoracoscopic debridement in children affected by pleural empyema

BACKGROUND

Both thoracic drainage and video-assisted thoracic surgery (VATS) are available treatment for pleural empyema in pediatric patients.

MATERIALS AND METHODS

This retrospective multicenter study includes pediatric patients affected by pleural empyema treated from 2004 to 2021 at two Italian centers. Patients were divided in G1 (traditional approach) and G2 (VATS). Demographic and recovery data, laboratory tests, imaging, surgical findings, post-operative management and follow-up were analyzed.

RESULTS

70 patients with a mean age of 4.8 years were included; 12 (17.1%) in G1 and 58 (82.9%) in G2. Median surgical time was 45 min in G1, 90 in G2 (p < 0.05). Mean duration of thoracic drainage was 7.3 days in G1, 6.2 in G2 (p > 0.05). Patients became afebrile after a mean of 6.4 days G1, 3.9 in G2 (p < 0.05). Mean duration of antibiotic therapy was 27.8 days in G1, 25 in G2 (p < 0.05). Mean duration of postoperative hospital stay was 16 days in G1, 12.1 in G2 (p < 0.05). There were 4 cases (33.3%) of postoperative complications in G1, 17 (29.3%) in G2 (p > 0.05). 2 (16.7%) patients of G1 needed a redosurgery with VATS, 1 (1.7%) in G2.

CONCLUSIONS

VATS is an effective and safe procedure in treatment of Pleural Empyema in children: it is associated to reduction of chest tube drainage, duration of fever, hospital stay, time of antibiotic therapy and recurrence rate.

Risk factors for posttraumatic empyema in diaphragmatic injuries

Background

Penetrating diaphragmatic injuries are associated with a high incidence of posttraumatic empyema. We analyzed the contribution of trauma severity, specific organ injury, contamination severity, and surgical management to the risk of posttraumatic empyema in patients who underwent surgical repair of diaphragmatic injuries at a level 1 trauma center.

Methods

This is a retrospective review of the patients who survived more than 48 h. Univariate OR calculations were performed to identify potential risk factors. Multiple logistic regression was used to calculate adjusted ORs and identify independent risk factors.

Results

We included 192 patients treated from 2011 to 2020. There were 169 (88.0) males. The mean interquartile range, (IQR) of age, was 27 (22–35) years. Gunshot injuries occurred in 155 subjects (80.7%). Mean (IQR) NISS and ATI were 29 (18–44) and 17 (10–27), respectively. Thoracic AIS was > 3 in 38 patients (19.8%). Hollow viscus was injured in 105 cases (54.7%): stomach in 65 (33.9%), colon in 52 (27.1%), small bowel in 42 (21.9%), and duodenum in 10 (5.2%). Visible contamination was found in 76 patients (39.6%). Potential thoracic contamination was managed with a chest tube in 128 cases (66.7%), with transdiaphragmatic pleural lavage in 42 (21.9%), and with video-assisted thoracoscopy surgery or thoracotomy in 22 (11.5%). Empyema occurred in 11 patients (5.7%). Multiple logistic regression identified thoracic AIS > 3 (OR 6.4, 95% CI 1.77–23. 43), and visible contamination (OR 5.13, 95% IC 1.26–20.90) as independent risk factors. The individual organ injured, or the method used to manage the thoracic contamination did not affect the risk of posttraumatic empyema.

Conclusion

The severity of the thoracic injury and the presence of visible abdominal contamination were identified as independent risk factors for empyema after penetrating diaphragmatic trauma.

Predictors of retained hemothorax in trauma: Results of an Eastern Association for the Surgery of Trauma multi-institutional trial

BACKGROUND

The natural history of traumatic hemothorax (HTX) remains unclear. We aimed to describe outcomes of HTX following tube thoracostomy drainage and to delineate factors that predict progression to a retained hemothorax (RH). We hypothesized that initial large-volume HTX predicts the development of an RH.

METHODS

We conducted a prospective, observational, multi-institutional study of adult trauma patients diagnosed with an HTX identified on computed tomography (CT) scan with volumes calculated at time of diagnosis. All patients were managed with tube thoracostomy drainage within 24 hours of presentation. Retained hemothorax was defined as blood-density fluid identified on follow-up CT scan or need for additional intervention after initial tube thoracostomy placement for HTX.

RESULTS

A total of 369 patients who presented with an HTX initially managed with tube thoracostomy drainage were enrolled from 17 trauma centers. Retained hemothorax was identified in 106 patients (28.7%). Patients with RH had a larger median (interquartile range) HTX volume on initial CT compared with no RH (191 [48-431] mL vs. 88 [35-245] mL, p = 0.013) and were more likely to be older with a higher burden of thoracic injury. After controlling for significant differences between groups, RH was independently associated with a larger HTX on presentation, with a 15% increase in risk of RH for each additional 100 mL of HTX on initial CT imaging (odds ratio, 1.15; 95% confidence interval, 1.08-1.21; p < 0.001). Patients with an RH also had higher rates of pneumonia and longer hospital length of stay than those with successful initial management. Retained hemothorax was also associated with worse functional outcomes at discharge and first outpatient follow-up.

CONCLUSION

Larger initial HTX volumes are independently associated with RH, and unsuccessful initial management with tube thoracostomy is associated with worse patient outcomes. Future studies should use this experience to assess a range of options for reducing the risk of unsuccessful initial management.

LEVEL OF EVIDENCE

Therapeutic/care management study, level III.

Presumptive antibiotics in tube thoracostomy for traumatic hemopneumothorax: a prospective, Multicenter American Association for the Surgery of Trauma Study

Background

Thoracic injuries are common in trauma. Approximately one-third will develop a pneumothorax, hemothorax, or hemopneumothorax (HPTX), usually with concomitant rib fractures. Tube thoracostomy (TT) is the standard of care for these conditions, though TTs expose the patient to the risk of infectious complications. The controversy regarding antibiotic prophylaxis at the time of TT placement remains unresolved. This multicenter study sought to reconcile divergent evidence regarding the effectiveness of antibiotics given as prophylaxis with TT placement.

Methods

The primary outcome measures of in-hospital empyema and pneumonia were evaluated in this prospective, observational, and American Association for the Surgery of Trauma multicenter study. Patients were grouped according to treatment status (ABX and NoABX). A 1:1 nearest neighbor method matched the ABX patients with NoABX controls. Multilevel models with random effects for matched pairs and trauma centers were fit for binary and count outcomes using logistic and negative binomial regression models, respectively.

Results

TTs for HPTX were placed in 1887 patients among 23 trauma centers. The ABX and NoABX groups accounted for 14% and 86% of the patients, respectively. Cefazolin was the most frequent of 14 antibiotics prescribed. No difference in the incidence of pneumonia and empyema was observed between groups (2.2% vs 1.5%, p=0.75). Antibiotic treatment demonstrated a positive but non-significant association with risk of pneumonia (OR 1.61; 95% CI: 0.86~3.03; p=0.14) or empyema (OR 1.51; 95% CI: 0.42~5.42; p=0.53).

Conclusion

There is no evidence to support the routine use of presumptive antibiotics for post-traumatic TT to decrease the incidence of pneumonia or empyema. More investigation is necessary to balance optimal patient outcomes and antibiotic stewardship.

Level of evidence

II Prospective comparative study

Pleural Empyema Menagement: A Brief Review of Litterature

Pleural empyema, defined as the presence of purulent material within the pleural space, is the consequence of a suppurative process involving the serous pleural layers. Thoracic empyema is a dynamic process, inflammatory in origin and taking place within a preformed space bordered by both the visceral and parietal pleura. It is a complex clinical entity, neither a sole clinical, laboratory, nor a radiological diagnosis. The primary therapeutic aim: ‘ubi pus evacua’ — if you find pus remove it—has not changed since the age of Celsus. Therefore, treatment of the acute empyema of the pleura is directed to early and complete evacuation of empirical fluid and content, achieving full re-expansion of the lungs and eradication of the infection using appropriate surgical procedures, antibiotics and other supportive procedures. The optimum method of treating empyema should be adjusted to the condition of the patient and the stage of the disease in which the patient is located. The method of treatment depends on the etiology (pneumonic or traumatic), the general condition of the patient and the stage of disease development. By reviewing the available literature, it can be concluded that treating the pleural empyemas is a demanding procedure, in which it is necessary for the treating physician to apply all of his knowledge, and that there is good cooperation with the patient.

Perioperative implications of thoracic decortications: a retrospective cohort study

Purpose

An increasing number of thoracic decortications have been performed in Manitoba, from five in 2007 to 45 in 2014. The primary objective of this study was to define the epidemiology of decortications in Manitoba. The secondary objective was to compare patients who underwent decortication due to primary infectious vs non-infectious etiology with respect to their perioperative outcomes.

Methods

Data for this cohort study were extracted from consecutive charts of all adult patients who underwent a decortication in Manitoba from 2007-2014 inclusive.

Results

One hundred ninety-two patients underwent a decortication. The most frequent disease processes resulting in a decortication were pneumonia (60%), trauma (13%), malignancy (8%), and procedural complications (5%). The number of decortications due to complications of pneumonia rose at the greatest rate, from three cases in 2007 to 29 cases in 2014. Performing a decortication for an infectious vs a non-infectious etiology was associated with a higher rate of the composite postoperative outcome of myocardial infarction, acute kidney injury, need of vasopressors for > 12 hr, and mechanical ventilation for > 48 hr (44.4% vs 24.2%, respectively; relative risk, 1.83; 95% confidence interval, 1.1 to 2.9; P = 0.01).

Conclusion

There has been a ninefold increase in decortications over an eight-year period. Potential causes include an increase in the incidence of pneumonia, increased organism virulence, host changes, and changes in practice patterns. Patients undergoing decortication for infectious causes had an increased risk for adverse perioperative outcomes. Anesthesiologists need to be aware of the high perioperative morbidity of these patients and the potential need for postoperative admission to an intensive care unit.

Post-traumatic empyema: aetiology, surgery and outcome in 125 consecutive patients

INTRODUCTION

Empyema remains a potentially serious condition with multiple etiologies including post-pneumonic, post-resection, and post-traumatic. There are few studies describing the latter. We reviewed our experience at a high volume trauma centre in injured patients with empyema, examining pre-operative status, surgical procedures, pathogens and outcome.

METHODS

Retrospective trauma registry review, from 9/01 to 4/10. Empyema was defined as culture positive pleural fluid or purulence at operation. Data collected included demographics, injury mechanism, thoracic injuries, organ dysfunction, pathogens isolated, surgical procedures, outcomes and follow up.

RESULTS

One hundred twenty-five consecutive patients with empyema were identified. Average injury severity score and age were 27.3 and 37.2 years respectively; 89.6% were male, 63.2% sustained blunt chest trauma. Time from injury to diagnosis averaged 12.1 days. All underwent decortication; 80% by thoracotomy, the remainder thoracoscopically. At operation over half were mechanically ventilated and 13.6% required vasoactive infusions. Monomicrobial cultures with Gram positive cocci predominating were obtained in 44%, 48% had polymicrobial cultures and 18.4% had a ruptured lung abscess. There were five deaths (4%); two occurring after a ruptured lung abscess. Recurrent empyema occurred in 6.4%, all successfully treated by re-operation or catheter drainage. Intensive care and hospital stays were 18.1 and 30.6 days respectively. All survivors achieved resolution of empyema.

CONCLUSIONS

Trauma patients with empyema represent a subset of severely injured critically ill patients with diverse pathogens and polymicrobial flora. Appropriate surgical management and specific antibiotic therapy yields excellent results with acceptable risk. A ruptured lung abscess may be the aetiology of the post-traumatic empyema in a subset of patients and may represent an increased operative risk.

Pleuroscopic retrieval of a sewing needle from the pleural cavity under conscious sedation by a chest physician

We report a case of a young man who presented with a left-sided pneumothorax after suffering an accidental penetrating injury by a sewing needle to the anterior chest wall. Chest radiograph and the computed tomography of the thorax revealed that the needle was in the pleural cavity and there was an associated pneumothorax. An attempt at retrieval by direct incision failed. The sewing needle was successfully retrieved by a medical pleuroscopy. The patient recovered without any consequences and was discharged home after 24 hours of observation.

Presumptive antibiotic use in tube thoracostomy for traumatic hemopneumothorax: an Eastern Association for the Surgery of Trauma practice management guideline

BACKGROUND

Antibiotic use in injured patients requiring tube thoracostomy (TT) to reduce the incidence of empyema and pneumonia remains a controversial practice. In 1998, the Eastern Association for the Surgery of Trauma (EAST) developed and published practice management guidelines for the use of presumptive antibiotics in TT for patients who sustained a traumatic hemopneumothorax. The Practice Management Guidelines Committee of EAST has updated the 1998 guidelines to reflect current literature and practice.

METHODS

A systematic literature review was performed to include prospective and retrospective studies from 1997 to 2011, excluding those studies published in the previous guideline. Case reports, letters to the editor, and review articles were excluded. Ten acute care surgeons and one statistician/epidemiologist reviewed the articles under consideration, and the EAST primer was used to grade the evidence.

RESULTS

Of the 98 articles identified, seven were selected as meeting criteria for review. Two questions regarding presumptive antibiotic use in TT for traumatic hemopneumothorax were addressed: (1) Do presumptive antibiotics reduce the incidence of empyema or pneumonia? And if true, (2) What is the optimal duration of antibiotic prophylaxis?

CONCLUSION

Routine presumptive antibiotic use to reduce the incidence of empyema and pneumonia in TT for traumatic hemopneumothorax is controversial; however, there is insufficient published evidence to support any recommendation either for or against this practice.

Management of post-traumatic retained hemothorax: a prospective, observational, multicenter AAST study

BACKGROUND

The natural history and optimal management of retained hemothorax (RH) after chest tube placement is unknown. The intent of our study was to determine practice patterns used and identify independent predictors of the need for thoracotomy.

METHODS

An American Association for the Surgery of Trauma multicenter prospective observational trial was conducted, enrolling patients with placement of chest tube within 24 hours of trauma admission and RH on subsequent computed tomography of the chest. Demographics, interventions, and outcomes were analyzed. Logistic regression analysis was used to identify the independent predictors of successful intervention for each of the management choices chosen and complications.

RESULTS

RH was identified in 328 patients from 20 centers. Video-assisted thoracoscopy (VATS) was the most commonly used initial procedure in 33.5%, but 26.5% required two and 5.4% required three procedures to clear RH or subsequent empyema. Thoracotomy was ultimately required in 20.4%. The strongest independent predictor of successful observation was estimated volume of RH ≤300 cc (odds ratio [OR], 3.7 [2.0-7.0]; p < 0.001). Independent predictors of successful VATS as definitive treatment were absence of an associated diaphragm injury (OR, 4.7 [1.6-13.7]; p = 0.005), use of periprocedural antibiotics for thoracostomy placement (OR, 3.3 [1.2-9.0]; p = 0.023), and volume of RH ≤900 cc (OR, 3.9 [1.4-13.2]; p = 0.03). No relationship between timing of VATS and success rate was identified. Independent predictors of the need for thoracotomy included diaphragm injury (OR, 4.9 [2.4-9.9]; p < 0.001), RH >900 cc (OR, 3.2 [1.4-7.5]; p = 0.007), and failure to give periprocedural antibiotics for initial chest tube placement (OR 2.3 [1.2-4.6]; p = 0.015). The overall empyema and pneumonia rates for RH patients were 26.8% and 19.5%, respectively.

CONCLUSION

RH in trauma is associated with high rates of empyema and pneumonia. VATS can be performed with high success rates, although optimal timing is unknown. Approximately, 25% of patients require at least two procedures to effectively clear RH or subsequent pleural space infections and 20.4% require thoracotomy.

Guidelines for the prevention of infections associated with combat-related injuries: 2011 update: endorsed by the Infectious Diseases Society of America and the Surgical Infection Society

Despite advances in resuscitation and surgical management of combat wounds, infection remains a concerning and potentially preventable complication of combat-related injuries. Interventions currently used to prevent these infections have not been either clearly defined or subjected to rigorous clinical trials. Current infection prevention measures and wound management practices are derived from retrospective review of wartime experiences, from civilian trauma data, and from in vitro and animal data. This update to the guidelines published in 2008 incorporates evidence that has become available since 2007. These guidelines focus on care provided within hours to days of injury, chiefly within the combat zone, to those combat-injured patients with open wounds or burns. New in this update are a consolidation of antimicrobial agent recommendations to a backbone of high-dose cefazolin with or without metronidazole for most postinjury indications, and recommendations for redosing of antimicrobial agents, for use of negative pressure wound therapy, and for oxygen supplementation in flight.

Prevention of infections associated with combat-related thoracic and abdominal cavity injuries

Trauma-associated injuries of the thorax and abdomen account for the majority of combat trauma-associated deaths, and infectious complications are common in those who survive the initial injury. This review focuses on the initial surgical and medical management of torso injuries intended to diminish the occurrence of infection. The evidence for recommendations is drawn from published military and civilian data in case reports, clinical trials, meta-analyses, and previously published guidelines, in the interval since publication of the 2008 guidelines. The emphasis of these recommendations is on actions that can be taken in the forward-deployed setting within hours to days of injury. This evidence-based medicine review was produced to support the Guidelines for the Prevention of Infections Associated With Combat-Related Injuries: 2011 Update contained in this supplement of Journal of Trauma.

Thoracoscopic management of empyema thoracis

Appropriate management of empyema thoracis is dependent upon a secure diagnosis of the etiology of empyema and the phase of development. Minimal access surgery using video-assisted thoracoscopy (VATS) is one of many useful techniques in treating empyema. Complex empyema requires adjunctive treatment in addition to VATS.

Thoracic Empyema in High-Risk Patients: Conservative Management or Surgery?

We retrospectively analyzed the data of 119 patients who were treated for empyema thoracis from 1999 to 2007. There were 87 men with a mean age of 63.9 years (range, 19–79 years) and 32 women with a mean age 55.2 years (range, 26–78 years). The empyema was right-sided in 73 patients and left-sided in 46. The etiology was parapneumonic in 43.7% of cases, postoperative in 42.0%, posttraumatic in 11.8%, and due to other causes in 2.5%. Eight (6.7%) patients underwent surgery on admission because of unstable clinical status; all 8 survived. Fibrinolysis was used in 111 (93.3%) patients; of these, 88 (73.9%) were successfully treated by intrapleural urokinase instillation, and 23 (19.4%) failed treatment and underwent surgery. All 88 patients who had successful fibrinolytic therapy survived, they accounted for 1.8% of the morbidity. In the 23 patients who underwent surgery after failed treatment, there were 3 deaths, accounting for 2.7% overall mortality and 6.3% morbidity. Treating thoracic empyema in patients with significant comorbidities is challenging. Intrapleural urokinase administration might be beneficial in high-risk patients, but in those without significant comorbidities, early surgery may be considered.

Co-existence of posttraumatic empyema thoracis and lung abscess in a child after blunt chest trauma: a case report

Posttraumatic empyema is a rare complication of trauma with an incidence of 1.6-2.4% in trauma patients. However, it is rarely reported in children. We report the case of a 15-year-old boy who was involved in a traffic accident and diagnosed with a pulmonary contusion at a local hospital. Fourteen days after the accident, posttraumatic empyema thoracis and lung abscess developed with clinical presentations of fever, productive cough and right chest pain. He was successfully treated with computed tomography-guided catheter drainage and intravenous cefotaxime. We emphasize that posttraumatic empyema thoracis and lung abscess are very rare in children, and careful follow-up for posttraumatic lung contusion is essential. Image-guided catheter drainage can be an adjunctive tool for treating selected patients, although most complicated cases of posttraumatic empyema thoracis require decortication therapy.

Self-insertion of needles: An unusual cause of empyema thoracis and its thoracoscopic management

Intrapulmonary aberrant needles are rare in clinical practice. Most common cause till date is the intra-thoracic migration of pins and wires commonly used in treatment of fractures and dislocations of upper extremity. Some cases of traumatic intra-thoracic insertion of needles have also been reported. We report a patient of empyema thoracis due to unusual habit of self-insertion of needles in his body because of some myth. The patient was successfully managed by video-assisted thoracoscopic surgery.

Risk factors for empyema after diaphragmatic injury: results of a National Trauma Databank analysis

BACKGROUND

Empyema is a rare, but morbid complication of diaphragmatic injury. The purpose of this study was to use the National Trauma Databank of the American College of Surgeons to determine (1) the incidence of empyema after diaphragmatic injury, (2) risk factors for development of empyema after these injuries, and (3) the effect of empyema on mortality, hospital, and intensive care unit (ICU) length of stay (LOS) after diaphragm injury.

METHODS

The National Trauma Databank (v. 5.0) was used to identify adult patients sustaining diaphragmatic injury and surviving for greater than 48 hours. Demographics, injury characteristics, associated abdominal injuries, thoracic procedures, and outcomes data were abstracted for comparison of patients who did and did not develop empyema after these injuries. Stepwise logistic regression analysis was used to identify independent risk factors for the development of empyema. Subsequent adjusted analysis was used to determine the effect of empyema on outcomes (hospital LOS, ICU LOS, mortality).

RESULTS

Among 4,153 patients with diaphragmatic injury who survived more than 48 hours from admission, 57 (1.4%) developed empyema. Demographics did not differ significantly between the two groups. Empyema was associated with longer adjusted mean hospital (35.9 vs. 16.1, p < 0.001) and ICU (18.1 vs. 8.5, p < 0.001) LOS, but was not associated with increased mortality. Patients with empyema more commonly had associated hollow viscus (63.2% vs. 35.6%, p < 0.001), gastric (40.4% vs. 18.8%, p < 0.001), and splenic injuries (49.1% vs. 33.3%, p = 0.01). After multivariable analysis, two independent risk factors for the development of empyema after diaphragmatic injury were identified: gastric injury (adjusted odds ratio = 2.90; 95% confidence interval: 1.69-5.00; p < 0.001) and Injury Severity Score > or = 20 (adjusted odds ratio = 2.99; 95% confidence interval: 1.61-5.59; p = 0.001). Concomitant colonic injury did not significantly increase the risk of empyema in the study population.

CONCLUSIONS

Empyema is an uncommon sequela of diaphragm injury that contributes to the need for prolonged hospital and ICU LOSs. Associated gastric trauma and Injury Severity Score > or = 20 were independently associated with empyema development after diaphragmatic injury.

Trauma

In terms of cost and years of potential lives lost, injury arguably remains the most important public health problem facing the United States. Care of traumatically injured patients depends on early surgical intervention and avoiding delays in the diagnosis of injuries that threaten life and limb. In the critical care phase, successful outcomes after injury depend almost solely on diligence, attention to detail, and surveillance for iatrogenic infections and complications.

Antibiotic Prescribing in Critical Care: Specific Indications

This article outlines recommendations for the treatment of specific infections occurring in the setting of critical care. In the interests of brevity, a limited number of infections are discussed and recommendations are largely confined to empirical therapy. Basic principles of diagnosis and treatment apply in all cases, including appropriate de-escalation when an organism is identified. These aspects of treatment have been dealt with in part one of this article – ‘Antibiotic prescribing in critical care: general principles' published in the winter 2007 edition of JICS.

The risk factors and management of posttraumatic empyema in trauma patients

BACKGROUND

Posttraumatic empyema increases patient morbidity, mortality and length of hospital stay, and the cost of treatment. The aim of this study was to identify the risk factors for posttraumatic empyema and to review our treatment outcomes in patients with this condition.

METHODS

A total of 2261 patients who were admitted with thoracic traumas and underwent tube thoracostomy between January 1989 and January 2006 were investigated retrospectively. Posttraumatic empyema developed in 71 patients. Logistic regression was used to assess the association between potential risk factors for posttraumatic empyema. All values were expressed as the mean+/-S.D.

RESULTS

Eight hundred and thirty-six (37%) of the patients had penetrating type trauma, while 1425 (63%) had blunt type trauma. The rate of posttraumatic empyema development was 3.1% for all patients. Pulmonary contusion was seen in 221 (9.8%) patients and fractures of more than two ribs were seen in 191 (8.4%) patients. Tube thoracostomy placement was performed in the emergency room in 1728 (76.4%) patients, in the hospital ward in 197 (8.7%), in the intensive care unit in 182 (8.0%), and in the operating room in 154 (6.8%). The duration of tube thoracostomy was 6.11+/-2.99 (1-21) days. Retained haemothorax was seen in 175 (7.7%) patients. The mean lengths of hospital and intensive care unit stay were 6.42+/-3.45 and 2.36+/-2.66 days, respectively. The analysis showed that duration of tube thoracostomy (OR, 2.49, p<0.001), length of intensive care unit stay (OR, 4.21, p<0.001), and presence of contusion (OR, 3.06, p<0.001), retained haemothorax (OR, 5.55, p<0.001), and exploratory laparotomy (OR, 2.46, p<0.001) were independent predictors of posttraumatic empyema. The relative risk of posttraumatic empyema was higher than 1 for each of the following risk factors: penetrating trauma (OR, 1.59, p=0.055), associated injuries (OR, 1.12, p=0.628) and fractures of more than two ribs (OR, 1.60, p=0.197).

CONCLUSION

Prolonged duration of tube thoracostomy and length of intensive care unit stay, and the presence of contusion, laparotomy and retained haemothorax are independent predictors of posttraumatic empyema. Use of prophylactic antibiotics may be recommended in patients with these risk factors.

Current surgical treatment of thoracic empyema in adults

A review of the recent literature on treatment modalities of adult thoracic empyema was conducted in order to expose the controversies and verify where consensus exists. Critical reading filtered through clinical experience was the method followed. The roles of surgical drainage, lavage techniques, debridement via VATS, decortication, thoracoplasty and open window thoracostomy were considered using the Oxford Center of Evidence Based Medicine criteria. The roles of the different therapeutical modalities were interpreted in the light of the triphasic nature of empyema thoracis. The randomised controlled trials came up with conflicting results. With two exceptions all of the papers reviewed provide level (2b) or below evidences. The lack of a single ideal treatment modality or policy reflects the complexity of the diagnosis and staging of this heterogeneous disease. Basic elements of intervention--drainage, different evacuation techniques, decortication, thoracoplasty and open window thoracostomy--are well-established technical modalities; however, neither a universally acceptable primary modality nor the gold standard of their sequence is available. Drainage remains to be the initial treatment modality in Phase I disease. Debridement via VATS is a safe, reliable and efficient method in the fibrinopurulent phase. Organised pleural callus requires formal decortication. Open window thoracostomy is a simple and safe procedure for high-risk patients and results in quick detoxication. Thoracoplasty kept its final role in pleural space management. Acute postoperative bronchial stump insufficiency requires immediate surgery. Evacuation of toxic material is mandatory. No single-stage procedure offers a solution. An optimised agressivity treatment modality should be tailored to the condition of the patient and to the potential of the persisting cavity. Decision-making involves a triad consisting of the aetiology of empyema (i.e. primary vs secondary), general condition of the patient and stage of disease, while considering the triphasic nature of development of thoracic empyema. The current attitudes show that the present concepts are based mainly on expert opinion. Flexibility and patience on behalf of the surgeon and nursing staff, the patient and the hospital management, as well as a good understanding of the complexity of this condition are the cornerstones of the treatment. No exclusive sequence of procedures leading to a uniformly predictable successful outcome is available. Individualised approaches can be recommended based on institutional practice and local protocols. Thoracic empyema in general seems to remain resilient to fit completely into the categories of evidence-based medical approach.

Diagnostic Dilemmas and Current Controversies in Blunt Chest Trauma

Blunt chest injuries are common encounters in the emergency department. Instead of a comprehensive review of the management of all chest injuries, this review focuses on injuries that can be difficult to diagnose and manage, including blunt aortic injury, cardiac contusion, and blunt diaphragmatic injury. This review also discusses some recent controversies in the literature regarding the use of prophylactic antibiotics for tube thoracostomy and the optimal management of occult pneumothorax. The article concludes with a discussion of the management of rib fractures in the elderly.

Spirometric changes after pleural decortication in young adults

BACKGROUND

The collection of pleural fluid and thickened pleura restrict the movement and expansion of lung. The main treatment strategy is lung decortication for the thickened pleura. The aim of this study was to investigate lung functions before and after pleural decortication in young adults.

METHODS

A total of 63 patients with thickened pleura were retrospectively evaluated. Before the operation, patients with tuberculosis (n = 36) were treated with anti-tuberculosis therapy for 3-6 months. Patients with non-tuberculosis causes (n = 27) had been treated with broad-spectrum antibiotics. Forced expiratory volume in 1 s (FEV1, %), forced vital capacity (%) and vital capacity (litre) were measured before and after decortication.

RESULTS

Spirometric parameters FEV1 (68.1 +/- 16.7 vs 71.01 +/- 14.4), forced vital capacity (67.6 +/- 16.4 vs 71.3 +/- 14.4) and vital capacity (2.6 +/- 0.6 vs 2.8 +/- 0.7) significantly improved after the operation (P +/- 0.01). Spirometric changes were not significantly different between tuberculosis and non-tuberculosis groups.

CONCLUSION

Pleural decortication may improve the lung restoration in patients with thickened pleura and also improve lung functions significantly in young adults.

[The value of thoracoscopy in thorax trauma]

A hemodynamically stable patient presenting with persistent bleeding through his chest tube (ICD) is a classic indication for early thoracoscopic intervention in trauma. The source of bleeding and air leaks can be identified and often treated: bleeding and perforated pulmonary segments can be resected, and chest wall bleeding may be coagulated or sutured. Injuries to the diaphragm are difficult to diagnose, as they might not be seen in conventional trauma imaging without gross herniation of intra-abdominal contents into the thoracic cavity. Identifying the site of diaphragm perforation can give useful hints in thoracoabdominal trauma, identifying injured cavities and localizing the bullet or stab tract. Most often, diaphragmatic defects may be closed during diagnostic thoracoscopy as well. Non- or partially drainable hemothorax is another indication for thoracoscopy. Coagulated blood can be mechanically mobilised, and aspirated or primary bleeding may be stopped. Effective lavage and a high-performance suction device are required. Correct placement of the drainage is part of optimized therapy, along with inspection of all intrathoracic organs and surfaces. Furthermore, surgical and anaesthesiological teamwork and experience are prerequisites for the fast, professional application of a minimally invasive thoracoscopic approach in chest trauma patients. Diagnostically and theurapeutically, thoracoscopy plays an important role in the trauma setting--in the case of hemodynamically stable patients.

Hemothorax Related to Trauma

Management of hemothoraces related to trauma follows basic tenets well-respected by both trauma and cardiothoracic surgeons. In most, a nonoperative approach is adequate with a defined group of patients requiring only tube thoracostomy. It is only in a true minority of individuals that operative intervention is necessary. In blunt thoracic injuries, the underlying organ damage may be the more life-threatening process, not the presence or absence of a hemothorax. For both blunt and penetrating injuries, the presence of retained hemothorax is well-treated by early intervention with thoracoscopic techniques, shown to decrease hospital stay and costs. Controversial areas including the use of prophylactic antibiotics, sequence of operative intervention in patients with combined thoracoabdominal trauma, and the use of emergency department thoracotomy, remain a challenge but recent literature can serve to guide the clinician.

Video-Assisted Thoracic Surgical Applications in Thoracic Trauma

VATS is a valuable and safe way to manage many problems in thoracic trauma. It may allow earlier diagnosis and treatment of posttraumatic complications of chest injuries with less morbidity. This approach has already demonstrated advantages in such entities as retained hemothorax. The reduced pain and morbidity are attractive features compared with open thoracotomy. VATS continues to evolve in thoracic trauma, but unquestionably has proved value.

Pre-hospital pleural decompression and chest tube placement after blunt trauma: A systematic review

Pre-hospital insertion of chest tubes or decompression of air within the pleural space is one of the controversial topics in emergency medical care of trauma patients. While a wide variety of opinions exist medical personnel on the scene require guidance in situations when tension pneumothorax or progressive pneumothorax is suspected. To ensure evidence based decisions we performed a systematic review of the current literature with respect to the diagnostic accuracy in the pre-hospital setting to identify patients with (tension) pneumothorax, the efficacy and safety of performing pleural decompression in the field and the choice of method and technique for the procedure. The evidence found is presented and discussed and recommendations are drawn from the authors' perspective.

Prophylactic Antibiotics in Chest Trauma: A Meta-analysis of High-quality Studies

BACKGROUND

Use of antibiotics in patients with isolated chest trauma is controversial. Available studies offer contradictory results because of small sample sizes. However, information provided by recent randomized controlled trials (RCT) included in a systematic review and meta-analysis could help solve the controversy. We performed a systematic review using high-quality information related to the use of antibiotics in patients with a chest tube.

METHODS

We developed a systematic review to evaluate the effectiveness of prophylactic antibiotics in chest-trauma patients. Studies included were class I RCT comparing prophylactic antibiotics versus placebo in patients with isolated chest trauma. Main outcomes were posttraumatic empyema and pneumonia.

RESULTS

Five Class I studies were selected. There were statistically significant differences regarding the frequency of posttraumatic empyema (RR 0.19) and pneumonia (RR 0.44) in favor of the use of prophylactic antibiotics when compared with placebo.

CONCLUSIONS

The use of prophylactic antibiotics in patients with chest trauma decreases the incidence of posttraumatic empyema and pneumonia.

Pathology of the Pleura

The pleura and lung are intimately associated and share many pathologic conditions. Nevertheless, they represent two separate organs of different embryonic derivation and with different yet often symbiotic functions. In this article, the authors explore the pathologic manifestations of the many conditions that primarily or secondarily affect the pleura.

Use of Presumptive Antibiotics following Tube Thoracostomy for Traumatic Hemopneumothorax in the Prevention of Empyema and Pneumonia—A Multi-Center Trial

OBJECTIVE

To determine whether presumptive antibiotics reduce the risk of empyema or pneumonia following tube thoracostomy for traumatic hemopneumothorax.

METHODS

A prospective, randomized, double-blind trial was performed comparing the use of cefazolin for duration of tube thoracostomy placement (Group A) versus 24 hours (Group B) versus placebo (Group C).

RESULTS

A total of 224 patients received 229 tube thoracostomies. Logistic regression analysis revealed that duration of tube placement and thoracic acute injury score were predictive of empyema (p <0.05). Empyema tended to occur more frequently in patients with penetrating injuries (p=0.09). chi analysis showed pneumonia occurred significantly more frequently in blunt than penetrating injuries (p <0.05). Presumptive antibiotic use did not significantly effect the incidence of empyema or pneumonia, although no empyemas occurred in Group A.

CONCLUSIONS

The incidence of empyema was low and the use of presumptive antibiotics did not appear to reduce the risk of empyema or pneumonia.

Video-assisted thoracic surgery: state of the art in trauma care

The majority of chest-injured patients are managed with resuscitation and placement of chest tubes. Further interventions are required for complications or missed injuries. Video-assisted thoracic surgery (VATS) has become standard in elective surgery. Our purpose was to review the use of VATS in trauma. The literature and our experience support the use of VATS for specific indications. These indications are: (1) management of retained haemothorax; (2) management of persistent pneumothorax; (3) evaluation of the diaphragm in penetrating thoraco-abdominal injuries and management; (4) management of infected pleural space collections; and (5) diagnosis and management of on-going bleeding in haemodynamically stable patients. VATS for specific indications in trauma is associated with improved outcomes and decreased length of stay. VATS provides diagnostic and therapeutic benefit and should be included in the trauma surgeon's clinical armamentarium.

Pathogenesis of posttraumatic empyema: the impact of pneumonia on pleural space infections

BACKGROUND

Thoracic empyema may result either from primary pneumonic sources or intraabdominal sources of infection that seed the pleural space secondarily. In patients with thoracostomy tubes, empyema may result when blood in the pleural space becomes contaminated during tube insertion. To elucidate the cause of posttraumatic empyema, preoperative bronchoalveolar lavage (BAL)/sputum cultures obtained from patients with posttraumatic empyema were compared with cultures obtained at the time of decortication.

MATERIALS AND METHODS

A retrospective study was conducted of trauma patients who developed empyema and underwent either video-assisted thoracoscopy or thoracotomy with decortication following blunt or penetrating trauma. At our level I trauma center, we studied all empyema cases diagnosed from November, 1998 to July, 2001. Data collection included patient demographics, injuries sustained, preoperative BAL/sputum cultures, and culture data obtained at the time of decortication. All BAL/sputum cultures were performed no more than 5 days prior to decortication.

RESULTS

Thirty-seven patients (26 blunt/11 penetrating) were identified. No patients had concurrent intra-abdominal sources of infection. All patients had at least one chest tube placed prior to decortication. Preoperative respiratory cultures (BAL/sputum) were obtained in 34 patients. The most common organisms isolated were Staphylococcus aureus in six patients (18%) and Hemophilus influenzae in six patients (18%). Intraoperative cultures were obtained in all 37 patients, with the most common organism being S. aureus isolated in 22 patients (60%). Interestingly, a correlation between preoperative BAL/sputum and intraoperative cultures was found in only seven of the 34 patients (21%) who had concomitant respiratory and pleural cultures. Cultures positive for S. aureus were isolated from five patients, Streptococcus pneumoniae from one patient, and Pseudomonas aeruginosa from one patient.

CONCLUSION

Little correlation existed between preoperative BAL/sputum cultures and intraoperative cultures in this series of patients with posttraumatic empyema. This suggests that the causation is most often not a parapneumonic process. Furthermore, since S. aureus was the most common organism recovered from empyema, the source was more likely from inoculation of the pleural space by the injury itself or by tube thoracostomy.

[Videothoracospy in thoracic trauma and penetrating injuries]

Videothoracoscopy represents a valid and useful approach in some patients with blunt chest trauma or penetrating thoracic injury. This technique has been validated for the treatment of clotted hemothorax or posttraumatic empyema, traumatic chylothorax, traumatic pneumothorax, in patients with hemodynamic stability. Moreover, it is probably the most reliable technique for the diagnosis of diaphragmatic injury. It is also useful for the extraction of intrathoracic projectiles and foreign bodies. This technique might be useful in hemodynamically stable patients with continued bleeding or for the exploration of patients with penetrating injury in the cardiac area, although straightforward data are lacking to confirm those indications. Thoracotomy or median sternotomy remain indicated in patients with hemodynamic instability or those that cannot tolerate lateral decubitus position or one-lung ventilation. Performing video-surgery in the trauma setting require expertise in both video-assisted thoracic surgery and chest trauma management. The contra-indications to videothoracoscopy and indications for converting the procedure to an open thoracotomy should be perfectly known by surgeons performing video-assisted thoracic surgery in the trauma setting. Conversion to thoracotomy or median sternotomy should be performed without delay whenever needed to avoid blood loss and achieve an adequate procedure.

Incidence of infectious complications following tube thoracostomy with and without use of antibiotic therapy: meta-analysis study

Objective - Thoracic lesions and resulting complications have gained increased importance in literature because they present a serious problem despite the generalized use of antibiotic therapy. Our study, therefore, aims at obtaining better estimates regarding the benefits obtained using antibiotic therapy in patients with isolated thoracic trauma and who have undergone closed chest drainage. Methods - Eight prospective and randomized studies were selected and meta-analysis was used to statistically associate the results. Results - The results demonstrated a statistical significance which favored the use of antibiotic therapy in preventing pleural empyema and a 9.25 (IC 95% 2.85 - 30.01) total relative risk for patients who did not receive antibiotic therapy. The total risk regarding all the infectious complications that occurred was 4.29 (IC 95% 2.70 - 8.97). Conclusion - The results of this meta-analysis study showed that antibiotic therapy effectively reduces the incidence of infectious complications in patients with isolated thoracic trauma, who have undergone closed pleural drainage.

Empyema and Restrictive Pleural Processes after Blunt Trauma: An Under-Recognized Cause of Respiratory Failure

Respiratory failure is a common complication among patients sustaining major blunt trauma. This is usually due to the underlying pulmonary injury, pneumonia, or adult respiratory distress syndrome. However, we have frequently found these patients to actually have a pleural process as the cause of their respiratory failure. Our objective was to assess the frequency of empyema and restrictive pleural processes after blunt trauma and their contribution to respiratory failure. We retrospectively reviewed all blunt trauma patients over a 5-year period who required a thoracotomy and decortication for empyema. Twenty-eight patients with blunt trauma required a thoracotomy and decortication for empyema. The most common finding was infected, loculated hemothorax/effusion in 23 patients, whereas 5 had an associated pneumonia. Chest radiographs were nondiscriminating, whereas CT scans in 25 patients showed previously unrecognized fluid collections, air-fluid levels, or gas bubbles. Neither thoracentesis nor placement of additional chest tubes was helpful. Positive cultures were uncommon. Ventilator dependence was present preoperatively in 13 patients who were on the ventilator an average of 13 days preoperatively and only 5.8 days postoperatively. Several patients believed to have adult respiratory distress syndrome were weaned within 72 hours of operation. All patients were ultimately cured. Empyema is an under-recognized complication of blunt trauma and may contribute to respiratory failure and ventilator dependence. Although difficult to diagnose, empyema should be considered in blunt trauma patients with respiratory failure and an abnormal chest radiograph. CT aids in the diagnosis, and the results of surgical treatment are excellent.

Computerized antibiogram for methicillin-resistant Staphylococcus aureus in chest surgery

BACKGROUND

An increasing number of cases of postoperative morbidity involving methicillin-resistant Staphylococcus aureus have been reported in thoracic surgery. To prevent its outbreak, cluster analysis using a personal computer was employed.

METHODS

A total of 120 patients undergoing operations on the lung and mediastinum were included into this study. Materials were isolates of methicillin-resistant Staphylococcus aureus newly recovered from across the hospital. The cluster analysis used antimicrobial susceptibility in 12 drugs, which were categorically valued to produce Euclidean distance to form clusters of similarity.

RESULTS

Six of the 120 patients were found to be positive for the microbe before or after thoracotomy. A total of two patients (1.7%) became symptomatic postoperatively, i.e., one of four preoperatively-positive patients and one of two postoperatively-positive cases. The analysis suggested that preoperative patients shared the strains in the same non-surgical ward.

DISCUSSION

A computerized antibiogram does not always strictly type Staphylococcal strains but has advantages in typing with ease and at decreased cost. The current analysis suggested that patient harboring the strains migrated across wards.

CONCLUSION

Computerized antibiograms for Staphylococcal strains may assist to prevent an outbreak of their infection in chest surgery.