Objective To evaluate the advantages about video-assisted thoracoscopic surgery (VATS) lobectomy with optimized management of surgical instruments package. Methods A total of 200 patients with lung cancer were enrolled, which included 78 males and 122 females, aged 24-83 years at median age of 56.8 years. All of them were divided into 2 groups including a routine group (n=100) and an optimized management of surgical instruments group (n=100). The total operation time, bleeding, instrument weights, utilization rate of instruments, counted and cleaning time in 2 groups were recorded and analyzed. Results The average operation time and average lost blood of the routine group was 117.62±42.52 min and 53.14±50.69 ml, respectively, and the one of the optimized instruments group was 120.48±40.62 min, 56.10±49.87 ml, respectively, with no significant difference between the two groups (P=0.112, P=0.231, respectively). The utilization rate of instruments in the routine group (58.02%±2.39%) was significantly lower than that of the optimized instruments group (94.00%±1.48%, P=0.014). The counted time, the loading and unloading time and the cleaning time of instruments in the routine group was 112.00±26.00 s, 70.00±15.00 s, 1 010.00±130.00 s, respectively, much longer than the time of the optimized instruments group, which was 65.00±23.00 s, 20.00±4.00 s, 665.00±69.00 s, respectively. There was a statistical difference between the two groups (P=0.028, P=0.011, P=0.039, respectively). The value of instruments in the routine group (177 574.00±14 438.00 yuan) was apparently higher than that of the optimized instruments group(132 027.00±10 311.00 yuan), with a statistical difference (P=0.032). Conclusion It is demonstrated that optimized management of surgical instruments package in VATS lobectomy can greatly improve the utilization rate of instruments and work efficiency, with no effects on the operation time and amount of bleeding in lobectomy.
Thoracoscopic surgery ; surgical instruments package ; lung cancer

BACKGROUND: The purpose of this paper is to present a guideline for beginning video-assisted thoracic surgery (VATS) lobectomy to junior surgeons, and to review the first year experience of a new surgeon performing VATS lobectomies who had not performed a VATS lobectomy unassisted during his training period. MATERIALS AND METHODS: A young surgeon opened a division of general thoracic surgery at a medical institution. The surgeon had performed about 100 lobectomies via conventional thoracotomy during his training period, but had never performed a VATS lobectomy unassisted while under the supervision of an expert. After opening the division of general thoracic surgery, the surgeon performed a total of 38 pulmonary lobectomies for various pulmonary diseases from March 2009 to February 2010. All data were collected retrospectively. RESULTS: There were 14 lobectomies via thoracotomy, 14 VATS lobectomies, and 10 cases of attempted VATS lobectomies that were converted to open thoracotomies. The number of VATS lobectomies increased from the second quarter (n=0) to the third quarter (n=5). The lobectomies that were converted from VATS into thoracotomies decreased from the second quarter (n=5) to the third quarter (n=1) (p=0.002). CONCLUSION: It can take 6 months for young surgeons without experience in VATS lobectomy in their training period to be able to reliably perform a VATS lobectomy.
Learning ; Learning Curve ; Lung Diseases ; Organization and Administration ; Thoracic Surgery ; Thoracic Surgery, Video-Assisted ; Thoracoscopy ; Thoracotomy

Extrapleural hematoma results from blood accumulating between the parietal pleura and the endothoracic fascia, whereas hemothorax shows pooling in the pleural space. Extrapleural hematoma results from an intact parietal pleura that blocks blood from escaping the pleural cavity. Extrapleural fat, a fat layer outside the pleura in the chest wall between the parietal pleura and the endothoracic fascia, is pathognomonic on computed tomography. We diagnosed traumatic extrapleural hematoma and treated it with video-assisted thoracic surgery. We report here on this case along with a review of the literature.
Fascia ; Hematoma ; Hemothorax ; Pleura ; Pleural Cavity ; Thoracic Surgery, Video-Assisted ; Thoracic Wall ; Thoracoscopy ; United Nations

We report a case of an entrapped lung after the pectus bar repair of a pectus deformity. The entrapped lung was found incidentally during video-assisted thoracoscopic surgery (VATS) for pneumothorax. Based on VATS exploration, multiple bullae seemed to be the cause of the pneumothorax, but the entrapped lung was suspected to have been a cause of the air leakage.
Congenital Abnormalities ; Incidental Findings* ; Lung* ; Pneumothorax ; Thoracic Surgery, Video-Assisted* ; Thoracic Wall* ; Thoracoscopy ; Thorax*

BACKGROUND: For many years, 10mm videothoracoscope has been widely used in bullectomy of primary spontaneous pneumothorax. However we used a 2mm videothoracoscope to minimize operative wound. Thus, we compared the clinical results of bullectomy using 2mm videothoracoscope with bullectomy using 10mm videothoracoscope. MATERIAL AND METHOD: We analyzed 118 patients who underwent VATS for primary spontaneous pneumothorax from April, 1998 to December, 2000. 2mm videothoracoscope was used in 53 patients(Group A)and 10mm videothoracoscope was used in 65 patients(Group B). The mean age was 20.2+/-6.9 years old in group A and 20.1+/-6.1 years old in group B. The mean follow up was 10.9+/-3.8 months in group A and 11.4+/-4.3 months in group B. RESULT: The operation time was shorter in group A than group B(55.7+/-22.9 minutes, 71.2+/-21.4 minutes, p<0.05). The duration of postoperative hospital stay was shorter in group A than group B(7.2+/-3.2 days, 9.2+/-3.6 days, p<0.05). The duration of postoperative chest tube indwelling was shorter in group A than group B(4.7+/-3.1 days, 6.3+/-2.8 days, p<0.05). The duration of postoperative air leakage(0.6+/-2.1 days, 1.0+/-2.4 days, p>0.05), the amount of analgesics(1.38+/-1.0 ampules, 1.7+/-1.4 ampules, p>0.05), postoperative complications(2 cases,7cases,p>0.05) and recurrences(1 case, 1 case, p>0.05) were not statistically different between two groups. Operative wound was smaller in group A than group B. CONCLUSION: There were no adverse results in group A than group B. Furthermore, bullectomy using 2mm videothoracoscope brought us minimized operative wound and good cosmetic results. Thus, we could recommend bullectomy using 2mm videothoracoscope in primary spontaneous pneumothorax.
Chest Tubes ; Follow-Up Studies ; Humans ; Length of Stay ; Pneumothorax* ; Thoracic Surgery, Video-Assisted ; Thoracoscopy ; Wounds and Injuries

A 24 year old man visited our hospital, because an intrapulmonary foreign body had been found incidentally. Simple chest X-ray showed a 5 cm sized foreign body of metallic density, and chest CT confirmed the foreign body, which was like a sewing needle, in the left upper lobe. We performed a simple extraction of the foreign body using VATS (Video Assisted Thoracic Surgery). After the operation, the patient was discharged without any complications.
Foreign Bodies ; Humans ; Needles* ; Thoracic Surgery, Video-Assisted ; Thoracoscopy ; Thorax ; Tomography, X-Ray Computed ; Young Adult

A 24 year old man visited our hospital, because an intrapulmonary foreign body had been found incidentally. Simple chest X-ray showed a 5 cm sized foreign body of metallic density, and chest CT confirmed the foreign body, which was like a sewing needle, in the left upper lobe. We performed a simple extraction of the foreign body using VATS (Video Assisted Thoracic Surgery). After the operation, the patient was discharged without any complications.
Foreign Bodies ; Humans ; Needles* ; Thoracic Surgery, Video-Assisted ; Thoracoscopy ; Thorax ; Tomography, X-Ray Computed ; Young Adult

BACKGROUND: Video-assisted thoracoscopic surgery is good indication of secondary spontaneous pneumothorax. This method usually required general anesthesia and single-lung ventilation with collapse of other lung. But, risks of general anesthesia and single-lung ventilation must be considered in high-risk patients. MATERIAL AND METHOD: Between September 1999 and August 2001, 15 high-risk patients were treated by vedio-assisted thoracoscopic surgery under epidural anesthesia. RESULT: Video assisted thoracoscopic surgery was successfully performed in 15 patients. Duration of postoperative air-leakage was 4.3days, Significance of complication was none, No recurrence of pneumothorax was encountered. CONCLUSION: Video-assisted thoracoscopic surgery can be performed safely under epidural anesthesia for treatment of secondary spontaneous pneumothorax in high-risk patients.
Anesthesia, Epidural* ; Anesthesia, General ; Humans ; Lung ; One-Lung Ventilation ; Pneumothorax* ; Recurrence ; Thoracic Surgery, Video-Assisted ; Thoracoscopy

The bullectomy through the limited transaxillary thoracotomy and video-assisted thoracic surgery (VATS) had been used in operative management of spontaneous pneumothorax from Jan. 1994 to July 1997. The study comprised a retrospective review of 42 cases which were treated by limited thoracotomy, and 61 cases treated by video-assisted thoracoscopic sugery. We retrospectively reviewed annual incidnce of bullectomy. Analysis of video-assised thoracoscopic surgery and open bullectomy including age, sex, operative sites, surgical indications, associated diseases, operative time, posoperatve complications and hospital courses. There was no significant difference for operation time in two groups, 98.3+/-38.4 minutes in thoracotomy and 95.7+/-31.5 minutes in VATS. Prolonged air leakage over 7 days was observed in 8 cases from thoracotomy group, 4 cases from VATS group. 3 cases of recurrent pneumothorax were found from VATS group, but no recurrence was occurred from open bullectomy group. There were significant differences in postoperative hospital stay (8.0+/-3.9 day in thoracotomy vs 5.9+/-2.4day in VATS (P=0.001)), and indwelling period of chest tube after operation ( 5.8+/-3.0day in thoracotomy vs 4.0+/-2.0day in VATS (P=0.0006)).
Chest Tubes ; Length of Stay ; Operative Time ; Pneumothorax* ; Recurrence ; Retrospective Studies ; Thoracic Surgery, Video-Assisted* ; Thoracoscopy ; Thoracotomy*

PURPOSE: The purpose of this study was to compare the findings on high-resolution CT (HRCT) of the chest with those on video-assisted thoracoscopy for the detection of bullae in patients who had undergone an operation for spontaneous pneumothorax, and we also wished to evaluate the relationship between the characteristics of bullae on HRCT and development of spontaneous pneumothorax. MATERIALS AND METHODS: Fifty patients with spontaneous pneumothorax who had undergone both HRCT of the chest and video-assisted thoracoscopic surgery were included in the study. Spontaneous pneumothoraces were classified as either primary or secondary pneumothorax, and as initial or recurrent pneumothorax. The HRCT scans were obtained with 1 mm slice thickness and a 5 mm scan interval. Two radiologists retrospectively compared the HRCT findings of the chest with those findings on video-assisted thoracoscopy for the detection of bullae, and they evaluated the value of HRCT for diagnosing bullae. In addition, we assessed the size and number of bullae in these patients, and we also evaluated the relationship between those findings of bullae and the development of spontaneous pneumothorax. RESULTS: Bullae were detected in 40 patients by using video-assisted thoracoscopy, and HRCT showed bullae in 38 of these patients. Bullae were not identified with video-assisted thoracoscopy in the remaining ten patients, and among these ten patients, bullae were not demonstrated by HRCT in eight of them. Therefore, the sensitivity and specificity of HRCT for the detection of bullae were 95% (38/40) and 80% (8/10), respectively. The average size of the bullae of the affected hemithorax and the contralateral un-affected hemithorax was 1.97 cm+/-2.30 and 1.24 cm+/-1.46, respectively. Pneumothorax was more frequently observed in the hemithorax with larger bullae (p<0.05). The average numerical grade of the bullae (3.38+/-1.60) was higher in the affected hemithorax than in the contralateral un-affected hemithorax (2.96+/-1.86), but there was no statistically significant difference between both groups of hemithoraces (p>0.05). The average size of bullae in patients with secondary pneumothorax and those bullae of patients with primary pneumothorax was 4.44 cm+/-4.06 and 1.42 cm+/-1.26, respectively. The bullae were significantly larger in the patients with secondary pneumothorax than in those patients with primary pneumothorax (p<0.05). Although the average numerical grade of bullae was higher in the patients with secondary pneumothorax (4.00+/-1.58) than in those patients with primary pneumothorax (3.24+/-1.61), the difference between two groups was not statistically significant (p>0.05). CONCLUSION:HRCT of the chest would be a useful modality for detecting the bullae of those patients with spontaneous pneumothorax. The development of spontaneous pneumothorax is associated with the size of bullae rather than the number of bullae.
Humans ; Pneumothorax* ; Retrospective Studies ; Sensitivity and Specificity ; Thoracic Surgery, Video-Assisted ; Thoracoscopy* ; Thorax