Pneumopericardium after pneumonectomy and lobectomy.

Pneumopericardium is a rare condition, most frequently reported in connection with prolonged artificial ventilation in infants with hyaline membrane disease. No reports of pneumopericardium after pulmonary surgery have been published. Two cases of pneumopericardium are reported, one of tension pneumopericardium after pneumonectomy and artificial ventilation and one that followed radical lobectomy and artificial ventilation. The radiographic findings included pneumopericardium and subcutaneous emphysema and the patient who had had a pneumonectomy had severe symptoms of cardiac tamponade. Prolonged artificial ventilation in patients after pulmonary surgery and in the presence of an intrathoracic air leak may be a hazard. The importance of prompt surgical intervention in cases of tension pneumopericardium is underlined; the treatment of choice is thoracotomy with pericardiotomy.     

Results of the surgical treatment of pleural empyema after lung resection and pneumonectomy

Pneumothorax was treated by operation in 189 patients, after pneumonectomy in 111 of them and after various types of lung resection in 78. The treatment was complex in character but surgery was the principal method. The choice of the operation was guided by various factors, but the determinants were the phase of the empyema, the presence of a bronchial fistula, and the volume of the first lung resection. Postoperative complications occurred in 32.8% of cases, lethality was 11.5%. Complications developed most frequently after extensive and traumatic operations for removal of remaining parts of the lung after the type of pleuropneumonectomy. On the whole, operative methods allowed recovery or improvement to be achieved in 76.2% of patients in whom nonoperative methods failed to cure of produce a stable remission.     

Completion pneumonectomy after 4 times of resections for metastatic lung tumors from rectal carcinoma

We report a case of completion pneumonectomy after 4 times of metastasectomy for metastatic lung tumors from rectal carcinoma. A 63-year-old man underwent Miles' operation for advanced rectal carcinoma. Forty-seven months after the operation, bilateral metastasis was appeared, and bilateral metastasectomy was performed. After the resection, 3 times of metastasectomy were performed during 40 months. Follow-up X-ray and computed tomography (CT) showed abnormal shadow in his left hilum of lung. Completion pneumonectomy with mediastinal lymph node sampling was performed. He is still alive without recurrence 4 years after first thoracotomy. Repeated pulmonary resection can lead to good outcome for selective patients with metastatic colorectal carcinoma, and repeated surgery can be useful for pulmonary recurrences after thoracotomy.     

Reevaluation of the unilateral pulmonary artery occlusion test--hemodynamics after lobectomy and pneumonectomy for lung cancer

After lobectomy, it is recognized that functional as well as absolute reduction occurs in residual lobes of the operated side. So whether lobectomy is indicated or not is determined by the same criteria as those for pneumonectomy, namely, by the unilateral pulmonary artery occlusion (UPAO) test. However, is it really appropriate to use the same criteria for both lobectomy and pneumonectomy? To answer to this question, in patients with lung cancer we compared the hemodynamics after lobectomy (13 cases) and pneumonectomy (14 cases) with that at the UPAO test. After pneumonectomy, the mean pulmonary arterial wedge pressure (mPWP) was significantly lower than that on the preoperative day and at the test. It seemed that hypovolemic change occurred in the hemodynamics after pneumonectomy. After pneumonectomy, the pulmonary arteriolar resistance index (PARI) was significantly higher than the preoperative value. It was the same as that as at the time of the UPAO test. The total pulmonary vascular resistance index (TPVRI) at the time of the test was significantly higher than the preoperative value, but the TPVRI after pneumonectomy was not significantly higher. The TPVRI tended to decrease after pneumonectomy, compared to the value predicated by the test. These results indicated that some of the cases judged inoperable on the basis of the UPAO test might be operable. On the day of lobectomy, the PARI was significantly higher than the preoperative value, but significantly lower than that at the time of the test. The cardiac index (CI) was significantly higher and the mPWP was significantly lower than each preoperative value.(ABSTRACT TRUNCATED AT 250 WORDS)     

Personal experience in lung cancer sleeve lobectomy and sleeve pneumonectomy

Background. Sleeve lobectomy (SL) and tracheal sleeve pneumonectomy (TSP) represent valuable alternative techniques to standard resections in the treatment of benign and malignant conditions of the airway and allow preservation of lung parenchyma.

Methods. Eighty-three sleeve lobectomies and 27 tracheal sleeve pneumonectomies have been performed for nonsmall cell lung cancer in the thoracic department of the University of Milan from 1979 to 1999. There were 46 upper right lobectomies, 11 upper and middle lobectomies, 18 upper left lobectomies, 8 lower left lobectomies, and 27 right pneumonectomies.

Results. Mortality rate was 3.6% in SL and 7.4% in TSP. Complications were 10.8% of all SLs and 15% of all TSPs. The overall 5-year survival rate was 43% for SL and 20% for TSP; the 10-year survival rate was 34% and 14%, respectively. There was a highly significant difference in survival between patients with N0 and N1-N2 disease.

Conclusions. Sleeve lobectomy is an appropriate surgical procedure and an alternative to pneumonectomy in patients with limited respiratory reserve whenever the situation permits. Trachael sleeve pneumonectomy is associated with more complications and poor survival.     

Completion pneumonectomy 9 years after middle lobectomy for adenocarcinoma

Completion pneumonectomy (CP) is a difficult operation in which the surgeon must use techniques such as intrapericardial ligation of the pulmonary vessels. We report herein a case of CP for a patient with recurrent lung cancer. A 63-year-old man was admitted to our hospital for evaluation of abnormal shadows in the right lung field in October 2002. Right middle lobectomy with mediastinal lymph node dissection had been performed in February 1993. Computed tomography (CT) revealed a hilar mass in the right upper lobe the day after admission. Bronchofiberscopic cytology revealed squamous cell carcinoma. Right completion pneumonectomy was performed on suspicion of metachronous multiple lung cancers 4 days later. Histopathologically, resected specimens represented adenosquamous carcinoma similar to the prior lesion from the middle lobe, and examination revealed that the tumor represented a recurrence following middle lobectomy. The patient remains well as of 19 months postoperatively.     

Prevention of recurrent empyema after pneumonectomy for chronic infection.

OBJECTIVES: Pneumonectomy in chronic pulmonary infection with empyema is associated with a high mortality rate and an increased risk of recurrent empyema. The surgical resection is technically demanding, and successful management continues to be a challenge. METHODS: We evaluated a concept which combines (pleuro-)pneumonectomy or completion pneumonectomy with surgical debridement of the pleural cavity and packing with povidine-iodine soaked dressings. The debridement and packing is repeated in the operating theater after 48 h until the chest cavity is macroscopically clean. Finally, the pleural space is obliterated with antibiotic solution. RESULTS: Between February 1997 and October 2000, 11 patients (average age of 59 years, ranging from 25 to 84) with destroyed lung caused by tuberculosis (six), aspergilloma (two), bronchiectasis (one), esophago-pleural fistula (one) or broncho-pleural fistula after lobectomy for bronchial carcinoma (one) and ongoing chronic infection with acute empyema (ten) (25-2500 days between first and definitive therapy) were treated. Pleural culture findings showed Aspergillus in four, Mycobacterium in two, Enterococcus in two, Candida in one and Staphylococcus in one, respectively. The mean number of interventions was 2.9 (2-4). The chest was definitively closed in all patients within 1 week. The mean hospitalization time was 19 days (9-31 days).In the follow-up (10-54 months), there was no recurrence of empyema. One patient (84 years) died at day 31, due to sepsis. CONCLUSIONS: Pneumonectomy combined with repeated surgical debridement and antimicrobial therapy enables the successful treatment of chronic pulmonary infection with empyema within a short time period.     

Management of the irradiated bronchus after lobectomy for lung cancer

BACKGROUND: Radiation effects make operative dissection difficult, impair subsequent healing, and increase morbidity. This study evaluates tissue reinforcement of the irradiated bronchus as a modality to reduce morbidity after lobectomy for lung cancer. METHODS: We retrospectively reviewed all patients who had preoperative radiotherapy before lobectomy for lung cancer between May 1977 and June 2000. RESULTS: There were 56 patients (33 men and 23 women) who ranged in age from 42 to 80 years (median, 59 years). Bronchial stump reinforcement included no coverage in 24 patients (42.8%), mediastinal tissue (parietal pleura, pericardial fat, or azygos vein) in 16 (28.6%), and muscle (serratus anterior) in 16 (28.6%). Median preoperative radiation dose was 4,600 cGy (range, 3,000 to 9,810 cGy) and did not differ between the groups. There were three deaths (13%) in the no coverage group, one (6%) in the mediastinal tissue group, and one (6%) in the muscle group (NS). Pulmonary complication rate was 67% in the no coverage group, 44% in the mediastinal group, and 25% in the muscle group (p = 0.03). Median duration of chest tube drainage was 8 days in the no coverage group, 6 days in the mediastinal group, and 5 days in the muscle group (p = 0.006). Median hospital stay was 13 days in the no coverage group, 9 days in the mediastinal group, and 7 days in the muscle group (p = 0.02). Patients in the muscle group had reduced hospital stay, duration of chest tube drainage, and pulmonary complications compared with the other two groups (p < 0.05). Subjectively, presence and magnitude of postoperative pain, range of motion, and strength of the upper extremity of the muscle flap side were not different between the groups (p = NS). Follow-up was complete and ranged from 4 to 147 months (median, 17 months). CONCLUSIONS: Tissue reinforcement of the irradiated bronchus after lobectomy reduces postoperative morbidity and hospitalization. Transposition muscle flap may be preferred.     

Management of empyema complicating lobectomy with superior vena cava replacement

We present the case of a 49-year-old man with right upper lobe adenocarcinoma invading the right brachiocephalic vein and the origin of the superior vena cava. En bloc resection of right upper lobe with the involved venous segments was carried out through a median sternotomy. Venous pathway was reestablished with a Gore-Tex (W.L. Gore & Assoc, Flagstaff, AZ) prosthesis. Postoperative course was marked by right pneumonia complicated by empyema. The patient underwent thoracotomy with completion pneumonectomy and latissimus dorsi transposition to cover both the prosthesis and the bronchial stump, as well as to fill the cavity. A favorable outcome was observed and long-term survival achieved.     

Regional lung function after pneumonectomy

Hall, D. R. (1974).Thorax, 29, 425-431. Regional lung function after pneumonectomy. Regional lung function was studied with xenon-133 in 10 patients with bronchial carcinoma before and again three to six months after pneumonectomy. It was found that ventilation and perfusion were often considerably reduced in the tumour-bearing lung and that the greater part of the cardiac output had apparently been diverted to the unaffected lung before operation. The regional distribution of ventilation and perfusion in the lung remaining after surgery was essentially unchanged from that measured in the same lung preoperatively and no different from the pattern seen in 10 normal volunteers.     

Acid base-balance after lung resections (author's transl)]

Thoracotomy and lung-resection are often followed by a decrease of the oxygenation of blood and disturbances of the acid-base-balance. Both ventilation and circulation must be restored to normal and therefore adequate levels of cardiac output, peripheral resistance, electrolytes and kidney-function are required.