Extending the age criteria of lung transplant donors to 70+ years old does not significantly affect recipient survival.

OBJECTIVES: To determine the impact of older donor age (70+ years) on long-term survival and freedom from chronic lung allograft dysfunction in lung transplant (LTx) recipients. METHODS: A retrospective single-center study was performed on all LTx recipients from 2002 to 2017 and a modern subgroup from 2013 to 2017. Recipients were stratified into 4 groups based on donor lung age (<18, 18-55, 56-69, ≥70 years). Donor and recipient characteristics were compared using χ2 tests for differences in proportions and analysis of variance for differences in means. Univariable and multivariable Cox regression was used to describe differences in long-term survival and freedom from chronic lung allograft dysfunction. RESULTS: Between 2002 and 2017, 1600 LTx were performed, 98 of which were performed from donors aged 70 years or older. Recipients of 70+ years donor lungs were significantly older with a mean age of 55.5 ± 12.9 years old (P = .001) and had more Status 3 (urgent) recipients (37.4%, P = .002). After multivariable regression, there were no significant differences in survival or freedom from chronic lung allograft dysfunction between the 4 strata of recipients. CONCLUSIONS: Lung transplantation using donors 70 years old or older can be considered when all other parameters suggest excellent donor lung function without compromising short- or long-term outcomes.

Ex vivo lung evaluation of single donor lungs when the contralateral lung is rejected increases safe use.

OBJECTIVE: The decision to perform a single-lung transplant (SLT) when the contralateral donor lung is rejected is a challenging scenario. The introduction of ex vivo lung perfusion (EVLP) has improved donor lung assessment, and we hypothesize that it has improved SLT outcomes in this setting. METHODS: A retrospective single-center review of all SLTs performed between 2000 and 2017 was performed in which the years 2000 to 2008 were considered the "pre-EVLP era" and 2009 to 2017 the "EVLP era." Recipients of SLT lungs when the contralateral lung was declined were classified into 3 groups: (1) Pre-EVLP era, (2a) EVLP era but EVLP not used, and (2b) EVLP era and EVLP used. The outcomes of interest were survival, time-to-extubation, and intensive care unit and hospital stay. RESULTS: Among 1692 transplants between 2000 and 2017, 244 (14%) were SLT. SLT rate was similar between eras (pre-EVLP 16% vs EVLP 15%), but more SLTs were performed where the contralateral lung was declined in the EVLP era (pre-EVLP 32% vs EVLP 45%, P = .04). Lungs evaluated on EVLP had lower procurement partial pressure of oxygen and were more often from donation after cardiac death donors. Recipients were generally also sicker, with a greater proportion of rapidly deteriorating recipients. Despite this, outcomes were similar between eras with a trend towards lower 30-day mortality in the EVLP era. CONCLUSIONS: The availability of EVLP allowed for better evaluation of marginal single lungs when the contralateral was declined. This has led to increased use rates with preserved outcomes despite use of more extended criteria organs.

Postoperative but not intraoperative transfusions are associated with respiratory failure after pneumonectomy.

OBJECTIVES: Transfusion of blood products has been associated with increased risk of post-pneumonectomy respiratory failure. It is unclear whether intraoperative or postoperative transfusions confer a higher risk of respiratory failure. Our objective was to assess the role of transfusions in developing post-pneumonectomy respiratory failure. METHODS: We performed a retrospective cohort study using prospectively collected data on consecutive pneumonectomies between 2005 and 2015. Patient records were reviewed for intraoperative/postoperative exposures. Univariable and multivariable analyses were performed. RESULTS: Of the 251 pneumonectomies performed during the study period, 24 (9.6%) patients suffered respiratory failure. Ninety-day mortality was 5.6% (n = 14) and was more likely in patients with respiratory failure (7/24 vs 7/227, P < 0.001). Intraoperative and postoperative transfusions occurred in 42.2% (n = 106) and 44.6% (n = 112) of patients, respectively and were predominantly red blood cells. On univariable analysis, both intraoperative (P = 0.03) and postoperative transfusion (P = 0.004) were associated with a higher risk of respiratory failure. The multivariable model significantly predicted respiratory failure with an area under curve (AUC) = 0.88 (P = 0.001). On multivariable analysis, the only independent predictors of respiratory failure were postoperative transfusions [adjusted odds ratio (aOR) 6.54, 95% confidence interval (CI) 1.74-24.59; P = 0.005] and lower preoperative forced expiratory volume (adjusted OR 0.96, 95% CI 0.93-0.99; P = 0.03). Estimated blood loss was not significantly different (P = 0.91) between those with (median 800 ml, interquartile range 300-2000 ml) and without respiratory failure (median 800 ml, interquartile range 300-2000 ml). CONCLUSIONS: Respiratory failure occurred in 9.6% of patients post-pneumonectomy and confers a higher risk of 90-day mortality. Postoperative (but not intraoperative) transfusion was the strongest independent predictor associated with respiratory failure. Intraoperative transfusion may be in reaction to active/unpredictable blood loss and may not be easily modifiable. However, postoperative transfusion may be modifiable and potentially avoidable. Transfusion thresholds should be assessed in light of potential cost-benefit trade-offs.

Lung transplantation for cystic fibrosis.

BACKGROUND: The contribution of lung transplantation to the treatment of patients with end-stage cystic fibrosis (CF) has been debated. We aimed to describe achievable outcomes from high-volume CF and lung transplant programs. This study reports on the largest single-center experience of lung transplantation for adult and pediatric patients with CF. It also highlights the evolution of practice and outcomes over time. METHODS: A retrospective analysis of the prospectively collected Toronto Lung Transplant database was carried out. Post-transplant survival in CF was calculated using the Kaplan-Meier method and analyzed with log-rank tests. RESULTS: From 1983 to 2016, a total of 1,885 transplants were performed at our institution, where 364 (19.3%) were CF recipients and another 39 (2.1%) were CF retransplants. The mean age at first transplant was 29.5 ± 9.7 years where 56.6% were males and 91.5% were adults. Pre-transplantation, 88 patients (24.2%) were Burkholderia cepacia complex (BCC)-positive, 143 (39.3%) had diabetes mellitus, and the mean forced expiratory volume in one second was 26.0 ± 7.2%, as predicted at listing. The 1-, 5-, and 10-year probabilities of survival in adults who were BCC-negative were 94%, 70%, and 53%, respectively. Pediatric, BCC-positive, and retransplant recipients had worse survival than adult patients who were BCC-negative. Strategies to improve the donor pool did not affect survival but possibly reduced waitlist mortality. For the entire cohort, the most common causes of death after lung transplant were infection and chronic lung allograft dysfunction. CONCLUSIONS: Lung transplantation for CF provides excellent short- and long-term outcomes. These results strongly support lung transplantation as the standard of care for patients with CF having advanced lung disease.

Normothermic ex vivo lung perfusion: Does the indication impact organ utilization and patient outcomes after transplantation?

BACKGROUND: Ex vivo lung perfusion (EVLP) is being increasingly applied as a method to evaluate and treat donor lungs for transplantation. However, with the previous limited worldwide experience, no studies have been able to evaluate the impact of indication for EVLP on organ utilization rates and recipient outcomes after lung transplantation (LTx). We examined these outcomes in a large-cohort, single-center series of clinical EVLP cases. METHODS: All EVLP procedures performed at our institution between October 2008 and December 2017 were examined. The EVLPs were divided into 4 groups based on the indication for the procedure: group 1, high-risk brain death donors (HR-BDD); group 2, standard-risk donation after cardiac death (S-DCD); group 3, high-risk donation after cardiac death (HR-DCD); and group 4, logistics (LOGISTICS, the need for prolongation of preservation time or organ retrieval by a different transplantation team). RESULTS: During the study period, a total of 1106 lung transplants were performed in our institution. In this period, 372 EVLPs were performed, 255 (69%) of which were accepted for transplantation, resulting in 262 transplants. Utilization rates were 70% (140 of 198) for group 1, 82% (40 of 49) for group 2, 63% (69 of 109) for group 3, and 81% (13 of 16) for group 4 (P = .42, Fisher's exact test). Recipient age (P = .27) and medical diagnosis (P = .31) were not different across the 4 groups. Kaplan-Meier survival by EVLP indication group demonstrated no differences. Thirty-day mortality was 2.1% in group 1, 5% in group 2, 2.9% in group 3, and 0% in group 4 (P = .87, Fisher's exact test). The median days of mechanical ventilation, intensive care unit stay, and hospital stay were 2, 4, and 21 in group 1; 2, 3, and 21 in group 2; 3, 5, and 28 in group 3; and 2, 4, and 17 in group 4 (P = .29, .17, and .09, respectively, Kruskal-Wallis rank-sum test). CONCLUSIONS: Clinical implementation of EVLP has allowed our program to expand the annual lung transplantation activity by 70% in this time period. It has improved confidence in the utilization of DCD lungs and BDD lungs, with an average 70% utilization of post-EVLP treated donor lungs with excellent outcomes, while addressing significant challenges in donor lung assessment and the logistics of "real-life" clinical lung transplantation.

CT-guided Microcoil Pulmonary Nodule Localization prior to Video-assisted Thoracoscopic Surgery: Diagnostic Utility and Recurrence-Free Survival.

Background CT-guided microcoil localization has been shown to reduce the need for thoracotomy or video-assisted thoracoscopic surgery (VATS) anatomic resection. However, only short-term follow-up after CT-guided microcoil localization and lung resection has been previously reported. Purpose To assess the diagnostic utility and recurrence-free survival over a minimum of 2 years following CT-guided microcoil localization and VATS. Materials and Methods Among 1950 VATS procedures performed in a single tertiary institution from October 2008 through April 2016, 124 consecutive patients with CT-guided microcoil localization were retrospectively evaluated. Patient demographics, nodule characteristics, and histopathologic findings were recorded. The primary end point was recurrence-free survival after 2 or more years of CT surveillance. Statistical analysis included Kaplan-Meier survival curves and Cox regression. Results In 124 patients (men, 35%; mean age, 65 years ± 12) with a nodule found at CT, microcoil localization and VATS resection were performed for a total of 126 nodules (mean size, 13 mm ± 6; mean distance to pleura, 20 mm ± 9). On presurgical CT evaluation, 42% (53 of 126) of nodules were solid, 33% (41 of 126) were ground glass, and 24% (30 of 126) were subsolid. VATS excisional biopsy altered cytopathologic diagnosis in 21% (five of 24) of patients with prior diagnostic premicrocoil CT-guided biopsy. At histopathologic examination, 17% (21 of 126) of the nodules were adenocarcinoma in situ, 17% (22 of 126) were minimally invasive adenocarcinoma, 30% (38 of 126) were invasive lung primary tumors, and 22% (28 of 126) were metastases. Among the 72 patients with malignancy at histopathologic examination and at least 2 years of CT surveillance, local recurrence occurred in 7% (five of 72), intrathoracic recurrence in 22% (16 of 72), and extrathoracic recurrence in 18% (13 of 72) after 2 or more years of CT surveillance. There was no recurrence for adenocarcinoma in situ, minimally invasive adenocarcinoma, or invasive lung tumors measuring less than 1 cm. After multivariable adjustment, nodule location at a distance greater than 10 mm from the pleura was an independent predictor of time to recurrence (hazard ratio, 2.9 [95% confidence interval: 1.1, 7.4]; P = .03). Conclusion CT-guided microcoil localization and video-assisted thoracoscopic surgical resection alter clinical management and were associated with excellent recurrence-free survival for superficial premalignant, minimally invasive, and small invasive lung tumors. © RSNA, 2019 Online supplemental material is available for this article.

Metachronous or synchronous primary lung cancer in the era of computed tomography surveillance.

OBJECTIVES: The purpose of this study was to determine the frequency, characteristics, and survival of second primary lung cancer initially identified as an indeterminate lesion on the original computed tomography scan and then diagnosed during the surveillance period in a prospective study. METHODS: A prospective database of 271 patients enrolled in a surveillance study was updated. Indeterminate lesions present on the original computed tomography at the time of initial primary lung cancer diagnosis that subsequently grew and were diagnosed as cancer were termed "synchronous primary lung cancer." Lesions that were not present on the original computed tomography scan and subsequently diagnosed on surveillance were termed "metachronous primary lung cancer." RESULTS: Thirty patients (11.1%) developed 37 second primary lung cancers over a median surveillance period of 84.7 (range, 15.9-147.6) months. Of these, 15 of 37 (40.5%) were identified as synchronous primary lung cancer, and 22 of 37 (59.5%) were identified as metachronous primary lung cancer. At first identification, ground-glass lesions were identified in 9 of 15 (60%) synchronous primary lung cancers compared with only 5 of 22 (22.7%) of metachronous primary lung cancers (P = .034). Compared with metachronous primary lung cancer, from first identification to diagnosis, synchronous primary lung cancer developed over a longer interval (33.6 vs 7.2 months, P = .001) and had a slower growth rate (0.17 vs 0.45 mm/month, P = .027). The 5-year overall survival from second lung cancer was 73.0%. No significant differences were observed between the synchronous primary lung cancer and metachronous primary lung cancer cohorts in overall survival from initial primary lung cancer (P = .583) or from second lung cancer (P = .966). CONCLUSIONS: Computed tomography surveillance identifies 2 types of curable second lung cancers leading to excellent overall survival.

From Open to Bedside Percutaneous Tracheostomy.

Tracheostomies can potentially facilitate easier and more successful weaning from the ventilator in patients that are anticipated to require prolonged ventilation. Other benefits include improvements in patient communication, quality of life, and reduced injury to vocal folds. In addition to potential benefits, we discuss complications associated with tracheostomy. Following that is a discussion of the evidence regarding early versus late tracheostomy as well as open versus percutaneous approaches. We then describe and discuss the different percutaneous tracheostomy techniques.

High Risk for Thoracotomy but not Thoracoscopic Lobectomy.

BACKGROUND: Pulmonary lobectomy is the standard of care for resection of non-small cell lung cancer (NSCLC). Patients with compromised lung function who are considered high risk may be denied surgical treatment; thus, proper identification of those truly at high risk is critical. Video-assisted thoracic surgery (VATS) may reduce the operative risk. This study reviews our institutional experience of pulmonary lobectomy by open thoracotomy or VATS techniques in patients deemed to be high risk. METHODS: A retrospective review of an institutional database was performed for all patients undergoing lobectomy from 2002 to 2010. Patients were grouped into high-risk (HR) and standard-risk (SR) cohorts according to the American College of Surgeons Oncology Group Z4099/Radiation Therapy Oncology Group 1021 criteria. RESULTS: From 2002 to 2010, 72 HR and 536 SR patients underwent lobectomy. Mean age was 73 years for HR and 66 years for SR (p < 0.0001). Rates of overall (p < 0.0001) and pulmonary complications (p < 0.0001) were significantly higher in the HR group. However, when HR patients were resected by VATS, there was no significant difference in overall (p = 0.1299) or pulmonary complications (p = 0.2292) compared with the SR VATS group. Moreover, overall survival was significantly lower for HR patients who had an open operation compared with VATS lobectomy or SR open (p = 0.0028). CONCLUSIONS: VATS lobectomy offers patients who are considered to be at increased risk for open lobectomy a feasible procedure, with no difference in overall survival compared with SR patients, and decreased morbidity compared with open lobectomy. VATS lobectomy should be considered for patients who historically may not have been considered for surgical resection.

Invasive Mediastinal Staging Guideline Concordance.

BACKGROUND: Despite guidelines for preoperative invasive mediastinal staging (IMS) for non-small cell lung cancer (NSCLC), concordance with guidelines and whether the use of these guidelines results in expected frequency of lymph node metastases has not been evaluated. Our objectives were to determine guideline concordance, reasons for nonconcordance, and, in patients who did not receive IMS, to determine the use of operative nodal sampling and final pathologic staging. METHODS: Patients who had a resection for NSCLC between 2010 and 2012 were identified from the Institutional Cancer Registry. A chart audit was performed to determine adherence to Cancer Care Ontario (CCO) IMS guideline criteria, and pathologic reports were reviewed to determine postresection staging. RESULTS: Of 242 resections performed in the study period 102 (42%) did not receive IMS. 66 patients (65%) did not require IMS based on CCO guidelines and thus were concordant with guidelines, whereas 36 (36%) were guideline nonconcordant. Of 102 patients who did not have preoperative IMS, only 72 had intraoperative lymph node assessment and only 35 (34%) had sampling of three or more ipsilateral (N2) nodal stations. In the guideline concordant group, 2 of 66 patients (5%) had positive N2 nodes, whereas in the nonconcordant group 3 of 36 patients (11%) were N2 positive. CONCLUSIONS: Although overall IMS was used in only 140 patients (58%), concordance with guidelines was high at 85% (206 of 242 patients). However, rates of intraoperative nodal sampling for non-IMS cases (both concordant and nonconcordant) was lower than expected, resulting in potentially understaged patients.

Outcomes after transplantation of lungs preserved for more than 12 h: a retrospective study.

BACKGROUND: Ex-vivo lung perfusion (EVLP) can be used to extend overall lung preservation time by splitting one long cold ischaemic time into two shorter ones and interposing an additional EVLP time. We assessed the outcomes after clinical transplantation of lungs with more than 12 h of preservation time. METHODS: For this retrospective study, we searched the Toronto Lung Transplant Program database for patients who had received at least one lung transplant between Jan 1, 2006, and April 30, 2015, at a single hospital in Toronto, Canada. We split the identified patients into those with a total preservation time of more than 12 h and those with a total preservation time of less than 12 h to act as the control group. Total preservation time was defined as the sum of first cold ischaemic time, EVLP time, and second cold ischaemic time. We excluded patients if they had received a heart-lung transplant or were younger than 18 years. In bilateral lung transplantations, we used the longer preservation time of the two lungs for analysis. Lung preservation was done according to present standards of care and EVLP was done according to the Toronto EVLP technique. The primary outcomes were survival and International Society for Heart and Lung Transplantation Primary Graft Dysfunction (PGD) grade at 72 h post-transplantation. We compared outcomes with our control group using univariable and multivariable models. FINDINGS: We identified 906 patients who met eligibility criteria and had sufficient data for analysis (<12 h group [n=809]; mean lung preservation time 400·8 min [SD 121·8] vs >12 h group [n=97]; 875·7 min [109·0]). Median hospital and intensive-care unit length of stay were similar between the less than 12 h group and the more than 12 h group (hospital stay: 23 days [16-42] vs 25·5 days [17-50·25], p=0·60; intensive-care unit stay: 4 days [2-14] vs 4 days [2-16], p=0·53). PGD grade was also not different between the two groups at 72 h post-transplantation (p=0·85). There was also no difference in survival between the two groups as shown on Kaplan-Meier survival curves (p=0·61). Multivariable survival analysis using Cox's model showed increasing recipient age to be a significant variable affecting survival. INTERPRETATION: Extension of graft preservation time beyond 12 h with EVLP does not negatively affect early lung transplantation outcomes. Extension of clinical lung preservation times might allow for more transplantations to be done as a result of improved facilitation and increased flexibility around timing of lung transplantation operations. FUNDING: None.

CT-guided microcoil VATS resection of lung nodules: a single-centre experience and review of the literature.

BACKGROUND: Video-assisted thoracoscopic surgery (VATS) is standard of care for small lung resections at many centres. Computed tomography (CT)-guided insertion of microcoils can aid surgeons in performing VATS resections for non-palpable lung nodules deep to the lung surface. METHODS: Retrospective analysis of CT-guided microcoil insertions prior to VATS lung resection at a single institution from October 2008 to January 2014. RESULTS: A total of 63 patients were included (37% male, mean age 61.6±11.4 years). Forty-two patients (67%) had a history of smoking, with 10 current smokers. Sixty one (97%) patients underwent wedge resection and 3 (5%) patients had segmentectomy. Three (5%) patients required intra-operative staple line re-resection for positive or close margins. Eleven (17%) patients had a completion lobectomy, 5 of which were during the same anaesthetic. The average time between the CT-guided insertion and start of operation was 136.6±89.0 min, and average operative time was 84.0±53.3 min. The intra-operative complication rate was 5% (n=3), including 1 episode of hemoptysis, and 2 conversions to thoracotomy. The post-operative complication rate was 8% (5 patients), and included 2 air leaks, 1 hemothorax (drop in hemoglobin), 1 post chest tube removal pneumothorax, and one venous infarction of the lingula after lingula-sparing lobectomy requiring completion lobectomy. . Average post-operative length of stay was 2.2 days. A diagnosis was made for all patients. CONCLUSIONS: CT-guided microcoil insertion followed by VATS lobectomy is safe, with short operative times, short length of stay and 100% diagnosis of small pulmonary nodules. This technique will become more important in the future with increasing numbers of small nodules detected on CT as part of lung cancer screening programs.

Safety and Efficacy of Modified Preoperative Lung Nodule Microcoil Localization Without Pleural Marking: A Pilot Study.

PURPOSE: The purpose of this pilot study was to evaluate the safety and efficacy of preoperative computed tomography (CT)-guided percutaneous microcoil lung nodule localization without pleural marking compared with the established technique with pleural marking. MATERIALS AND METHODS: Sixty-three consecutive patients (66.7% female, mean age 61.6±11.4 y) with 64 lung nodules resected between October 2008 and January 2014 were retrospectively evaluated. Of the nodules, 29.7% (n=19) had microcoil deployment with pleural marking (control group) and 70.3% (n=45) had microcoil deployment without pleural marking (pilot group). Clinical, pathologic, and imaging characteristics, radiation dose, CT procedure and operating room time, and complete resection and complication rates were compared between the pilot and control groups. RESULTS: There was no significant difference in nodule size (P=0.552) or distance from the pleural surface (P=0.222) between the pilot and control groups. However, mean procedure duration (53.6±18.3 vs. 72.8±25.3 min, P=0.001) and total effective radiation dose (5.1±2.6 vs. 7.1±4.9 mSv, P=0.039) were significantly lower in the pilot group compared with the control group. CT procedure-related complications (P=0.483) [including pneumothoraces (P=0.769) and pulmonary hemorrhage (P=1.000)], operating room time (P=0.926), complete resection rates (P=0.520), intraoperative complications (P=0.549), and postoperative complications (P=1.000) were similar between the pilot and control groups. CONCLUSIONS: Preoperative CT-guided lung nodule microcoil localization performed without visceral pleural marking appears to decrease the CT procedure time and radiation dose while maintaining equivalent complete resection rates and procedural and surgical complications, when compared with microcoil localization performed with pleural marking.

Functional outcomes and quality of life after normothermic ex vivo lung perfusion lung transplantation.

BACKGROUND: Ex vivo lung perfusion (EVLP) is an effective method to assess and improve the function of otherwise unacceptable lungs, alleviating the shortage of donor lungs. The early results with EVLP have been encouraging, but longer-term results, including functional and patient-reported outcomes, are not well characterized. METHODS: This retrospective single-center study included all lung transplants performed between September 2008 and December 2012. We investigated whether survival or rate of chronic lung allograft dysfunction (CLAD) differed in recipients of EVLP-treated lungs compared with contemporaneous recipients of conventional donor lungs. We also studied functional (highest forced expiratory volume in 1 second predicted, change in 6-minute walk distance, number of acute rejection episodes) and quality of life outcomes. RESULTS: Of 403 lung transplants that were performed, 63 patients (15.6%) received EVLP-treated allografts. Allograft survival for EVLP and conventional donor lung recipients was 79% vs 85%, 71% vs 73%, and 58% vs 57% at 1, 3, and 5 years after transplant, respectively (log-rank p = not significant). Freedom from CLAD was also similar (log-rank p = 0.53). There were no significant differences in functional outcomes such as highest forced expiratory volume in 1 second predicted (76.5% ± 23.8% vs 75.8% ± 22.8%, p = 0.85), change in 6-minute walk distance (194 ± 108 meters vs 183 ± 126 meters, p = 0.57), or the number of acute rejection episodes (1.5 ± 1.4 vs 1.3 ± 1.3, p = 0.36). The EVLP and conventional donor groups both reported a significantly improved quality of life after transplantation, but there was no intergroup difference. CONCLUSION: EVLP is a safe and effective method of assessing and using high-risk donor lungs before transplantation and leads to acceptable long-term survival, graft function, and improvements of quality of life that are comparable with conventionally selected donor lungs.

Long-term outcome after resection of non-small cell lung cancer invading the thoracic inlet.

BACKGROUND: The aim of this study was to update our previous experience and describe long-term results after resection of non-small-cell lung cancer (NSCLC) invading the thoracic inlet. METHODS: Patients from a single center undergoing resection of NSCLC invading the thoracic inlet were reviewed with data retrieved retrospectively from their charts. RESULTS: Sixty-five consecutive patients with a median age of 61 (32-76) years underwent resection of NSCLC invading the thoracic inlet from 1991 to 2011. Tumor location was divided into 5 anatomic zones from anterior to posterior. Fifty-two (80%) patients had induction therapy, mostly with 2 cycles of cisplatin-etoposide and 45 Gy of concurrent irradiation. All patients underwent at least first rib resection. Lobectomy was performed in 60 patients (92%). Twenty-four patients (37%) had vertebral resection. Arterial resections were performed in 7 patients (11%). Postoperative morbidity and mortality were 46% and 6%, respectively. Pathologic response to induction was complete (pCR) (n = 19) or nearly complete (pNR) (n = 12) in 31 patients (48%). Adjuvant treatment was administered in 14 (25%) patients. After a median follow-up of 20 (0-193) months, 34 patients are alive without recurrence. The overall 5-year survival reached 69%. Univariate analysis identified site of tumor within the thoracic inlet (p = 0.050), response to induction (p = 0.004), and presence of adjuvant treatment (p = 0.028) as survival predictors. CONCLUSIONS: Survival after resection of NSCLC invading the thoracic inlet in highly selected patients reached 69% at 5 years. Tumor location within the thoracic inlet, pathologic response to induction therapy, and adjuvant treatments were significant survival predictors.

Design of a consensus-derived synoptic operative report for lung cancer surgery.

BACKGROUND: For lung cancer surgery, a narrative operative report is the standard reporting procedure, whereas a synoptic-style report is increasingly utilized by healthcare professionals in various specialties with great success. A synoptic operative report more succinctly and accurately captures vital information and is rapidly generated with good intraobserver reliability. The objective of this study was to systematically develop a synoptic operative report for lung cancer surgery following a modified Delphi consensus model with the support of the Canadian thoracic surgery community. METHODS: Using online survey software, thoracic surgeons and related physicians were asked to suggest and rate data elements for a synoptic report following the modified Delphi consensus model. The consensus exercise-derived template was forwarded to a small working group, who further refined the definition and priority designation of elements until the working group had reached a satisfactory consensus. RESULTS: In all, 139 physicians were invited to participate in the consensus exercise, with 36.7%, 44.6%, and 19.5% response rates, respectively, in the three rounds. Eighty-nine elements were agreed upon at the conclusion of the exercise, but 141 elements were forwarded to the working group. The working group agreed upon a final data set of 180 independently defined data elements, with 72 mandatory and 108 optional elements for implementation in the final report. CONCLUSIONS: This study demonstrates the process involved in developing a multidisciplinary, consensus-based synoptic lung cancer operative report. This novel report style is a quality improvement initiative to improve the capture, dissemination, readability, and potential utility of critical surgical information.

Second-hand smoke as a predictor of smoking cessation among lung cancer survivors.

PURPOSE: Second-hand smoke (SHS; ie, exposure to smoking of friends and spouses in the household) reduces the likelihood of smoking cessation in noncancer populations. We assessed whether SHS is associated with cessation rates in lung cancer survivors. PATIENTS AND METHODS: Patients with lung cancer were recruited from Princess Margaret Cancer Centre, Toronto, ON, Canada. Multivariable logistic regression and Cox proportional hazard models evaluated the association of sociodemographics, clinicopathologic variables, and SHS with either smoking cessation or time to quitting. RESULTS: In all, 721 patients completed baseline and follow-up questionnaires with a mean follow-up time of 54 months. Of the 242 current smokers at diagnosis, 136 (56%) had quit 1 year after diagnosis. Exposure to smoking at home (adjusted odds ratio [aOR], 6.18; 95% CI, 2.83 to 13.5; P < .001), spousal smoking (aOR, 6.01; 95% CI, 2.63 to 13.8; P < .001), and peer smoking (aOR, 2.49; 95% CI, 1.33 to 4.66; P = .0043) were each associated with decreased rates of cessation. Individuals exposed to smoking in all three settings had the lowest chances of quitting (aOR, 9.57; 95% CI, 2.50 to 36.64; P < .001). Results were similar in time-to-quitting analysis, in which 68% of patients who eventually quit did so within 6 months after cancer diagnosis. Subgroup analysis revealed similar associations across early- and late-stage patients and between sexes. CONCLUSION: SHS is an important factor associated with smoking cessation in lung cancer survivors of all stages and should be a key consideration when developing smoking cessation programs for patients with lung cancer.

Minimal-dose computed tomography is superior to chest x-ray for the follow-up and treatment of patients with resected lung cancer.

OBJECTIVES: A minimal-dose computed tomography scan of the thorax (MnDCT) delivers a radiation dose comparable with a chest x-ray (CXR). We hypothesized that in patients with completely resected lung cancer, surveillance with MnDCT, when compared with CXR, leads to earlier detection and a higher rate of treatment of new or recurrent lung cancer. METHODS: After lung cancer resection, patients prospectively were enrolled for surveillance with MnDCT and CXR at 3, 6, 12, 18, 24, 36, 48, and 60 months. Images were interpreted by different blinded radiologists. When new or recurrent cancer was suspected, standard-dose CT and/or a tissue biopsy were performed for confirmation. RESULTS: Between 2007 and 2012, 271 patients were included and 1137 pairs of CXR and MnDCT were analyzed. MnDCT was more sensitive (94% vs 21%; P < .0001) and had a higher negative predictive value (99% vs 96%; P = .007) than CXR for the diagnosis of new or recurrent lung cancer. The prevalence of new or recurrent lung cancer was 23.2% (63 of 271), of whom 78% (49 of 63) had asymptomatic disease. The majority of asymptomatic patients (75%; 37 of 49) were treated with curative intent and had a median survival of 69 months. The remainder of patients received palliative treatment (24%; 12 of 49) and had a median survival of 25 months (P < .0001). CONCLUSIONS: After curative resection of lung cancer, MnDCT is superior to CXR for the detection of new or recurrent lung cancer. The majority of new or recurrent cancer was detected by MnDCT at an asymptomatic phase, allowing for curative treatment, leading to a long survival.

Long-term outcome after en bloc resection of non-small-cell lung cancer invading the pulmonary sulcus and spine.

INTRODUCTION: Lung cancer invading the spine historically has been considered unresectable. Nevertheless, considerable surgical progress has been made since the 1990s potentially allowing for curative resection. Here, we describe our surgical experience and long-term results. METHODS: All patients who underwent en bloc resection of non-small-cell lung cancer invading the pulmonary sulcus and spine between 1991 and 2012 were retrospectively reviewed. RESULTS: Forty-eight patients were included. Induction therapy consisted mostly of two cycles of cisplatin-etoposide and 45 Gy of concurrent radiation. All tumors were resected en bloc, including the lung, spine, and chest wall. Total vertebrectomy, hemivertebrectomy, and partial vertebrectomy were required in 10 patients (21%), 31 patients (64%), and seven patients (15%), respectively. Complete resection was achieved in 42 patients (88%). Postoperatively, 18 patients (38%) stayed in the intensive care unit for a median of 15 (1-140) days. Thirty-day and in-hospital mortality was 6%. Pathologic response to induction treatment was complete (n = 18) or near complete (n = 6) in 24 patients (50%). After a median follow-up of 26 (0-151) months, 24 patients are alive without recurrence. Overall 5-year survival was 61%. Response to induction therapy (complete/near complete versus other, p = 0.012), resection margin (R0 versus R1/R2, p = 0.009), and length of intensive care unit stay (p = 0.003) were significant prognostic factors in univariate analysis. Response to induction was maintained as prognostic factor in multivariable analysis (p = 0.048). CONCLUSIONS: En bloc resection of the lung, chest wall, and spine for non-small-cell lung cancer invading the pulmonary sulcus and spine is feasible in experienced centers with excellent long-term outcome after careful patient selection. Response to induction was an independent significant prognostic factor.

Outcome of patients with pulmonary arterial hypertension referred for lung transplantation: a 14-year single-center experience.

OBJECTIVE: To analyze the outcomes of patients with pulmonary arterial hypertension referred for lung transplantation and determine the changes over time. METHODS: All patients with pulmonary arterial hypertension referred for lung transplantation in our program from January 1997 to September 2010 were reviewed. Pulmonary arterial hypertension was classified as idiopathic (n = 123) or associated with congenital heart disease (n = 77), connective tissue disease (n = 102), or chronic thromboembolic disease (n = 14). RESULTS: After completing their assessment, 61 patients (19%) were found to be unsuitable for lung transplantation, 38 (12%) refused lung transplantation, 65 (21%) were too early to be listed, and 48 (15%) died before their assessment (n = 34) or being listed (n = 14). Of the 100 patients listed for lung transplantation, 57 underwent bilateral lung transplantation, 22 underwent heart-lung transplantation, 18 died while waiting, and 3 were still waiting. The waiting list mortality was the greatest for patients with connective tissue disease-pulmonary arterial hypertension (34% vs 11% in the remaining patients, P = .005). The number of patients admitted to the hospital to be bridged to lung transplantation increased from 7% in the 1997-2004 cohort to 25% in the 2005-2010 cohort (P = .02). After lung transplantation, the 30-day mortality decreased from 24% in the 1997-2004 group to 6% in the 2005-2010 group (P = .007). The 10-year survival was worse for those with idiopathic pulmonary arterial hypertension (42% vs 70% for the remaining patients, P = .01). The long-term survival reached 69% at 10 years in the patients with connective tissue disease pulmonary arterial hypertension. CONCLUSIONS: Lung transplantation is an option for about one third of the patients with pulmonary arterial hypertension referred for lung transplantation. The 30-day mortality after lung transplantation improved significantly over time, but the long-term survival remained similar between the two cohorts. Patients with connective tissue disease-pulmonary arterial hypertension have a high mortality on the waiting list but excellent long-term survival.