OBJECTIVE: Tube thoracostomy (TT) is a commonly performed intensive care procedure. Simulator training may be a good alternative method for TT training, compared with conventional methods such as apprenticeship and animal skills laboratory. However, there is insufficient evidence supporting use of a simulator. The aim of this study is to determine whether training with medical simulator is associated with faster TT process, compared to conventional training without simulator. METHODS: This is a simulation study. Eligible participants were emergency medicine residents with very few (≤3 times) TT experience. Participants were randomized to two groups: the conventional training group, and the simulator training group. While the simulator training group used the simulator to train TT, the conventional training group watched the instructor performing TT on a cadaver. After training, all participants performed a TT on a cadaver. The performance quality was measured as correct placement and time delay. Subjects were graded if they had difficulty on process. RESULTS: Estimated median procedure time was 228 seconds in the conventional training group and 75 seconds in the simulator training group, with statistical significance (P=0.040). The difficulty grading did not show any significant difference among groups (overall performance scale, 2 vs. 3; P=0.094). CONCLUSION: Tube thoracostomy training with a medical simulator, when compared to no simulator training, is associated with a significantly faster procedure, when performed on a human cadaver.
Animals ; Cadaver ; Chest Tubes ; Critical Care ; Education ; Emergency Medicine ; Humans ; Methods ; Simulation Training ; Thoracostomy*

Four thoracic evacuation techniques for pneumothorax elimination after diaphragmatic defect closure were compared in 40 canine cadavers. After creating a defect in the left side of the diaphragm, thoracic drainage was performed by thoracostomy tube insertion through the defect and a small (DD-SP) or large (DD-LP) puncture created in the caudal mediastinum, or through both the diaphragmatic defect and intact contralateral diaphragm with a small (DI-SP) or large (DI-LP) puncture in made in the caudal mediastinum. Differences in intrapleural pressure (IPP) between the right and left hemithoraxes after air evacuation along with differences in IPP before making a defect and after air evacuation in each hemithorax were calculated. A difference (p < or = 0.0011) in IPP between the left and right hemithoraxes after air evacuation as well as before making a defect and after air evacuation in the right hemithorax was detected for the DD-SP group. No significant differences (p > or = 0.0835) were observed for the DI-LP, DD-LP, or DI-SP groups. Creation of a large mediastinal puncture or thoracic evacuation through both a diaphragmatic defect and intact contralateral diaphragm can facilitate proper pneumothorax elimination bilaterally after diaphragmatic defect closure in dogs with a small puncture in the caudal mediastinum.
Animals ; Cadaver ; Chest Tubes/veterinary ; Diaphragm/*surgery ; Dog Diseases/*surgery ; Dogs ; Mediastinum/*surgery ; Pneumothorax/surgery/*veterinary ; Thoracostomy/instrumentation/*methods/veterinary

OBJECTIVE: Patients with advanced or recurrent ovarian cancer often have metastatic disease in the upper abdominal region, especially to the right hemidiaphragm, which requires diaphragmatic resection in order to achieve optimal cytoreduction. The aim of this surgical video is to demonstrate repair of a diaphragmatic injury and placement of tube thoracostomy during right upper quadrant peritonectomy in a patient with recurrent ovarian cancer. METHODS: This is the case of a 45-year-old woman presented with platinum sensitive recurrent ovarian cancer. Abdomen computed tomography also confirmed peritoneal carcinomatosis and pelvic recurrent mass. HIPEC was administered after complete cytoreduction including bilateral upper quadrant peritonectomy, during which diaphragmatic injury occurred near the central tendon and pleural cavity was entered. We inserted a chest tube through the 6th intercostal space in the anterior axillary line in order to prevent postoperative massive pleural effusion. Diaphragmatic defect was closed primarily after the tube placement. The chest tube was withdrawn on the third postoperative day and the patient was discharged on postoperative day 25 without any complications. RESULTS: The central tendon of diaphragm is the most vulnerable part for lacerations. Diaphragmatic repairs could be performed by various techniques; interrupted or continuous, locking or non-locking sutures, with either permanent or absorbable materials. In our view, all of the techniques provide similar results and surgeons can choose any of them as long as they are comfortable with the procedure. CONCLUSION: In most cases, these lacerations can be repaired primarily without necessitating tube thoracostomy. However, performance of HIPEC can cause massive pleural effusions which can lead to significant pulmonary morbidity. Therefore, retrograde placement of the chest tube under direct vision is quite straightforward when the diaphragm is opened.
Chest Tubes ; Cytoreduction Surgical Procedures/methods ; Diaphragm/*injuries/*surgery ; Female ; Humans ; Middle Aged ; Neoplasm Recurrence, Local/surgery ; Ovarian Neoplasms/*surgery ; Peritoneum/*surgery ; Thoracostomy/*methods

Percutaneous dilatational tracheostomy (PDT) has become an increasingly popular method of establishing an airway for patients in need of chronic ventilator assistance. We report a rare case of a 42-year-old female who developed extensive subcutaneous emphysema, bilateral pneumothoraces, pneumomediastinum, and pneumoperitoneum after percutaneous dilatational tracheostomy. The patient suffered from amyotrophic lateral sclerosis, and underwent PDT after a period of mechanical ventilation. During PDT, tracheostomy tube was inserted into the paratracheal space. Follow-up chest radiography and computed tomography of chest and abdomen revealed extensive subcutaneous emphysema, bilateral pneumothoraces, pneumomediastinum, and pneumoperitoneum. The patient was treated successfully with insertion of the thoracostomy tube and conservative care.
Abdomen ; Adult ; Amyotrophic Lateral Sclerosis ; Female ; Follow-Up Studies ; Humans ; Mediastinal Emphysema ; Methods ; Pneumoperitoneum ; Radiography ; Respiration, Artificial ; Subcutaneous Emphysema ; Thoracostomy ; Thorax ; Tracheostomy* ; Ventilators, Mechanical

The differentiation between lung abscess and empyema can be difficult, but has important therapeuticconsequences. Thoracostomy tube drainage is essential therapy for an empyema, whereas prolonged antibiotic therapyand postural drainage often suffice for a lung abscess. Conventional radiographic findings are usually relied onto help make correct indfferentiation between empyema and lung abscess, but overlying lung disease or unfavorablelocation of lesion often results in ambiguous findings. Although ultrasound has proved useful in differentiatingempyema from lung abscess, CT is best accurate diagnostic method. Authors reviewed chest CT of 50 cases(41empyemas, 9 lung abscesses)which were diagnosed by suegery or clinical background during the period from May 1980to June 1985 at Dongsan Medical Center, Keimyung University. The results were as follows: 1) Age and sexdistribution a) Empyema: The incidence was most common in the 6th and 7th decades. Male to female ratio was 3:1.b) Lung abscess: The incidence was most common in the 5th, 6th and 7th decades. Male to female ratio was 2:1. 2)Wall characteristics(empyema 32 cases, lung abscess 9 cases): The 9 cases of 41 empyemas had not defined theirwalls. a) Empyema had at least a part of their wall that was thin (81%), uniform width(84%), and smooth on bothmargins (more than 96%). b) The wall of lung abscess was thick (89%), and irregular margins(100%). 3) Separationof uniformly thickened visceral pleura from parietal pleura("split pleura" sign) was seen only in 68% of allempyemas. 4) Adjacent lung compression was seen only in 88% of all empyemas. 5) Chest wall angle: In 78% of allempyemas had obtuse or mixed angles, wherease in 85% of all lung abscesses had acute angle. 6) Shape oflesion:Empyema had variant shapes from round to crescent, however all lung abscesses had round or ovoid shape. 7)Size of lesion: In 85% of all empyemas had medium(41%) or large (44%) size, but the lung abscess had onlysmall(33%) or medium (67%) size. 8) Air in lesion was seen in 41% empyemas and in 89% lung abscesses. 9) Adjacentlung consolidation showed in 34% empyemas and in all lung abscesses. 10) Free pleural fluid was seen in 12%empyemas and in 89% lung abscesses. 11)Septated lesions were seen in 32% empyemas and in 56% lung abscesses. 12)Multiple lesions were seen in 44% empyemas and in 55% lung abscesses. 13) Mediastinal shifting was seen in 49%enpyemas and in 44% lung abscesses, but which all lung abscesses were coexisted with empyemas. 14) Pleuralcalcification was seen only in 5 cases(12%) of all empyemas. 15) Location of leison: Most(93%) of empyemas werelocated in posterolateral portion of hemithorax, and most (78%) of lung abscesses involved in right lower lobe.
Clothing ; Drainage ; Drainage, Postural ; Empyema ; Female ; Humans ; Incidence ; Lung Abscess ; Lung Diseases ; Lung ; Male ; Methods ; Pleura ; Rabeprazole ; Thoracic Wall ; Thoracostomy ; Tomography, X-Ray Computed ; Ultrasonography

PURPOSE: Several risk factors for development of reexpansion pulmonary edema (REPE) after drainage of pneumothoraces have been reported, but the association between the method of thoracostomy and the development of REPE is unknown. The aim of this study was to compare the frequency of REPE after treatment of spontaneous pneumothorax with trocar or hemostat assisted closed thoracostomy. MATERIALS AND METHODS: We performed a prospective, observational study including 173 patients with spontaneous pneumothorax who visited the emergency department from January 2007 to December 2008. In 2007, patients were treated with hemostat-assisted drainage, whereas patients in 2008 were treated with trocar-assisted drainage. The main outcome was the development of REPE, determined by computed tomography of the chest 8 hours after closed thoracostomy. Outcomes in both groups were compared using univariate and multivariate analyses. RESULTS: Ninety-two patients were included, 48 (42 males) of which underwent hemostat-assisted drainage and 44 (41 males) underwent trocar-assisted drainage. The groups were similar in mean age (24+/-10 vs. 26+/-14 respectively). The frequencies of REPE after hemostat- and trocar-assisted drainage were 63% (30 patients) and 86% (38 patients) respectively (p=0.009). In multivariate analysis, trocar-assisted drainage was the major contributing factor for developing REPE (odds ratio=5.7, 95% confidence interval, 1.5-21). Age, gender, size of pneumothorax, symptom duration and laboratory results were similar between the groups. CONCLUSION: Closed thoracostomy using a trocar is associated with an increased risk of REPE compared with hemostat-assisted drainage in patients with spontaneous pneumothorax.
Adult ; Female ; Hemostatic Techniques ; Humans ; Male ; Multivariate Analysis ; Pneumothorax/*complications/*surgery ; Prospective Studies ; Pulmonary Edema/*diagnosis/etiology/*surgery ; Risk Factors ; Surgical Instruments ; Thoracostomy/*adverse effects/*methods ; Tomography, X-Ray Computed ; Treatment Outcome ; Young Adult