Impact of preoperative chemotherapy on pulmonary function tests in resectable early-stage non-small cell lung cancer

Guidelines for preoperative pulmonary function assessment in patients with lung cancer who will undergo surgery (The Japanese Association for Chest Surgery)

This article translates the guidelines for preoperative pulmonary function assessment in patients with lung cancer who will undergo surgery, established by the Japanese Association of Chest Surgery on May 17, 2021, from Japanese to English. The last version of these guidelines was created on April 5, 2011. Over the past decade, changes in clinical practice have occurred that do not align with the current guidelines, prompting a revision in conjunction with the introduction of new evidence this time. This guideline was developed with reference to the internationally adopted GRADE (Grading of Recommendations Assessment, Development, and Evaluation) system. Extraction of evidence, systematic review, and quality assessment are entrusted to each guideline review committee and the Pulmonary Function Assessment Working Group. Committee members are also responsible for determining the selection of evidence and the extraction period, with a particular emphasis on adopting items considered to be of special importance. The recommended assessment and management is categorized into a general overview, pulmonary function assessment, cardiopulmonary exercise test, pulmonary function assessment for lung cancer with interstitial pneumonia, preoperative smoking cessation, and pulmonary rehabilitation. These are described by the strength of recommendation, the strength of evidence, and the consensus rate.

Exercise's impact on lung cancer molecular mechanisms: a current overview

Lung cancer is the major cause of cancer-related deaths worldwide with an estimated 1.8 million deaths and 2.4 million new cases in 2022. Poor cardiorespiratory fitness, dyspnea and fatigue are the common features in lung cancer patients, partially limiting the exercise prescription. Exercise improves cardiorespiratory and muscular fitness and reduces the risk of some types of cancer, including lung cancer. Recently, the American Society of Clinical Oncology has encouraged preoperative exercise for lung cancer patients. Nonetheless, only limited data, mostly obtained from mouse models of lung cancer, are available on the molecular effects of exercise in lung cancer. Thus, the present minireview aims to shed light on the molecular mechanisms induced by different type of exercise in lung cancer. In particular, the role of the exercise in tumor microenvironment remodeling, angiogenesis, gene expression, apoptosis and intermediate metabolism will be examined.

Perturbations in inflammatory pathways are associated with shortness of breath profiles in oncology patients receiving chemotherapy

PURPOSE

One plausible mechanistic hypothesis is the potential contribution of inflammatory mechanisms to shortness of breath. This study was aimed to evaluate for associations between the occurrence of shortness of breath and perturbations in inflammatory pathways.

METHODS

Patients with cancer reported the occurrence of shortness of breath six times over two cycles of chemotherapy. Latent class analysis was used to identify subgroups of patients with distinct shortness of breath occurrence profiles (i.e., none (70.5%), decreasing (8.2%), increasing (7.8%), high (13.5%)). Using an extreme phenotype approach, whole transcriptome differential gene expression and pathway impact analyses were performed to evaluate for perturbed signaling pathways associated with shortness of breath between the none and high classes. Two independent samples (RNA-sequencing (n = 293) and microarray (n = 295) methodologies) were evaluated. Fisher's combined probability method was used to combine these results to obtain a global test of the null hypothesis. In addition, an unweighted knowledge network was created using the specific pathway maps to evaluate for interconnections among these pathways.

RESULTS

Twenty-nine Kyoto Encyclopedia of Genes and Genomes inflammatory signaling pathways were perturbed. The mitogen-activated protein kinase signaling pathway node had the highest closeness, betweenness, and degree scores. In addition, five common respiratory disease-related pathways, that may share mechanisms with cancer-related shortness of breath, were perturbed.

CONCLUSIONS

Findings provide preliminary support for the hypothesis that inflammation contribute to the occurrence of shortness of breath in patients with cancer. In addition, the mechanisms that underlie shortness of breath in oncology patients may be similar to other respiratory diseases.

Effect of Neoadjuvant Immunotherapy Combined with Chemotherapy on Pulmonary Function and Postoperative Pulmonary Complications in Esophageal Cancer: A Retrospective Study

BACKGROUND

Neoadjuvant immunotherapy, targeting the PD-1 or PD-L1, combined with chemotherapy (NICT), can improve the radical resection and survival rates for locally advanced EC. However, it may impair pulmonary function, and the effect of NICT on pulmonary function and postoperative pulmonary complications in EC patients remains unknown. This study aimed to investigate whether NICT can affect pulmonary functions and postoperative pulmonary complications in EC patients.

METHODS

The study retrospectively recruited 220 EC patients who received NICT at the Department of Esophageal Cancer in Tianjin Medical University Cancer Institute & Hospital from January 2021 to June 2022. Changes in pulmonary function before and after NICT were compared. Logistic regression analysis was performed to analyze the correlations of pulmonary functions and clinical characteristics with postoperative pulmonary complications, respectively.

RESULTS

The FEV1% pred, FVC, FVC% pred, and FEV1/FVC% significantly increased after NICT, with a P-value of 0.018, 0.005, 0.001, and 0.036, respectively. In contrast, there was a significant decline in the DLCO (8.92 ± 2.34 L before NICT vs. 7.79 ± 2.30 L after NICT; P < 0.05) and DLCO% pred (102.97 ± 26.22% before NICT vs. 90.18 ± 25.04% after NICT; P < 0.05). High DLCO and DLCO% pred at baseline levels were risk factors for DLCO reduction in EC patients after NICT. Advanced age, smoking history, FEV1% pred after NICT, and FVC% pred baseline and after therapy were risk factors for postoperative pulmonary complications, with a P-value of 0.043, 0.038, 0.048, 0.034, and 0.004, respectively. Although the DLCO level decreased after NICT, it did not increase the incidence of postoperative pulmonary complications.

CONCLUSION

NICT may improve pulmonary ventilation function but also lead to a decrease in DLCO and DLCO% pred in EC patients. Nevertheless, the decreased DLCO after NICT did not increase the risk of postoperative pulmonary complications.

Postinduction therapy pulmonary function retesting is necessary before surgical resection for non–small cell lung cancer

OBJECTIVE

Pretreatment-predicted postoperative diffusing capacity of the lung for carbon monoxide (DLCO) has been associated with operative mortality in patients who receive induction therapy for resectable non-small cell lung cancer (NSCLC). It is unknown whether a reduction in pulmonary function after induction therapy and before surgery affects the risk of morbidity or mortality. We sought to determine the relationship between induction therapy and perioperative outcomes as a function of postinduction pulmonary status in patients who underwent surgical resection for NSCLC.

METHODS

We retrospectively reviewed data for 1001 patients with pathologic stage I, II, or III NSCLC who received induction therapy before lung resection. Pulmonary function was defined according to American College of Surgeons Oncology Group major criteria: DLCO ≥50% = normal; DLCO <50% = impaired. Patients were categorized into 5 subgroups according to combined pre- and postinduction DLCO status: normal-normal, normal-impaired, impaired-normal, impaired-impaired, and preinduction only (without postinduction pulmonary function test measurements). Multivariable logistic regression was used to quantify the relationship between DLCO categories and dichotomous end points.

RESULTS

In multivariable analysis, normal-impaired DLCO status was associated with an increased risk of respiratory complications (odds ratio, 2.29 [95% CI, 1.12-4.49]; P = .02) and in-hospital complications (odds ratio, 2.83 [95% CI, 1.55-5.26]; P < .001). Type of neoadjuvant therapy was not associated with an increased risk of complications, compared with conventional chemotherapy.

CONCLUSIONS

Reduced postinduction DLCO might predict perioperative outcomes. The use of repeat pulmonary function testing might identify patients at higher risk of morbidity or mortality.

Tailored anaesthesia for thoracoscopic surgery promoting enhanced recovery: The state of the art

PURPOSE OF THE REVIEW

The current review focuses on precise anaesthesia for video-assisted thoracoscopic surgery (VATS) with the goal of enhanced recovery. The main aim of an enhanced recovery program after thoracic surgery is to reduce postoperative stress response, protect from postoperative pulmonary complications, give hospitals a better financial option and improve overall patient outcome. This can ultimately reduce hospital stay and increase patient satisfaction. With advances in endoscopic, robotic and endovascular techniques, video-assisted thoracoscopic surgery (VATS) can be performed in a minimally invasive way in managing most pulmonary, pleural and mediastinal diseases. As a minimally invasive technique, video-assisted thoracoscopic surgery (VATS) represents an important element of enhanced recovery program in thoracic surgery as it can achieve most of its goals. Anaesthetic management during preoperative, intraoperative and postoperative period is essential for the establishment of a successful enhanced recovery program. In the era of enhanced recovery protocols, non-intubated thoracoscopic procedures present a step forward. This article focuses on the key anaesthetic elements of the enhanced recovery program during all phases of thoracoscopic surgery. Having reviewed recent literature, a systematic review of literature will highlight successful ERAS protocols published for thoracoscopic surgery.

Impact of diffusing lung capacity before and after neoadjuvant concurrent chemoradiation on postoperative pulmonary complications among patients with stage IIIA/N2 non-small-cell lung cancer

BACKGROUND AND OBJECTIVE

This study aims to evaluate the impact of diffusing capacity of the lung for carbon monoxide (DLco) before and after neoadjuvant concurrent chemoradiotherapy (CCRT) on postoperative pulmonary complication (PPC) among stage IIIA/N2 non-small-cell lung cancer (NSCLC) patients.

METHODS

We retrospectively studied 324 patients with stage IIIA/N2 NSCLC between 2009 and 2016. Patients were classified into 4 groups according to DLco before and after neoadjuvant CCRT; normal-to-normal (NN), normal-to-low (NL), low-to-low (LL), and low-to-very low (LVL). Low DLco and very low DLco were defined as DLco < 80% predicted and DLco < 60% predicted, respectively.

RESULTS

On average, DLco was decreased by 12.3% (±10.5) after CCRT. In multivariable-adjusted analyses, the incidence rate ratio (IRR) for any PPC comparing patients with low DLco to those with normal DLco before CCRT was 2.14 (95% confidence interval (CI) = 1.36-3.36). Moreover, the IRR for any PPC was 3.78 (95% CI = 1.68-8.49) in LVL group compared to NN group. The significant change of DLco after neoadjuvant CCRT had an additional impact on PPC, particularly after bilobectomy or pneumonectomy with low baseline DLco.

CONCLUSIONS

The DLco before CCRT was significantly associated with risk of PPC, and repeated test of DLco after CCRT would be helpful for risk assessment, particularly in patients with low DLco before neoadjuvant CCRT.

Physical Activity and Exercise in Lung Cancer Care: Will Promises Be Fulfilled?

Lung cancer remains the leading cause of cancer‐related death worldwide. Affected patients frequently experience debilitating disease‐related symptoms, including dyspnea, cough, fatigue, anxiety, depression, insomnia, and pain, despite the progresses achieved in term of treatment efficacy.

Physical activity and exercise are nonpharmacological interventions that have been shown to improve fatigue, quality of life, cardiorespiratory fitness, pulmonary function, muscle mass and strength, and psychological status in patients with lung cancer. Moreover, physical fitness levels, especially cardiorespiratory endurance and muscular strength, are demonstrated to be independent predictors of survival. Nevertheless, patients with lung cancer frequently present insufficient levels of physical activity and exercise, and these may contribute to quality of life impairment, reduction in functional capacity with skeletal muscle atrophy or weakness, and worsening of symptoms, particularly dyspnea.

The molecular bases underlying the potential impact of exercise on the fitness and treatment outcome of patients with lung cancer are still elusive. Counteracting specific cancer cells’ acquired capabilities (hallmarks of cancer), together with preventing treatment‐induced adverse events, represent main candidate mechanisms.

To date, the potential impact of physical activity and exercise in lung cancer remains to be fully appreciated, and no specific exercise guidelines for patients with lung cancer are available. In this article, we perform an in‐depth review of the evidence supporting physical activity and exercise in lung cancer and suggest that integrating this kind of intervention within the framework of a global, multidimensional approach, taking into account also nutritional and psychological aspects, might be the most effective strategy.

Implications for Practice

Although growing evidence supports the safety and efficacy of exercise in lung cancer, both after surgery and during and after medical treatments, most patients are insufficiently active or sedentary. Engaging in exercise programs is particularly arduous for patients with lung cancer, mainly because of a series of physical and psychosocial disease‐related barriers (including the smoking stigma). A continuous collaboration among oncologists and cancer exercise specialists is urgently needed in order to develop tailored programs based on patients’ needs, preferences, and physical and psychological status. In this regard, benefit of exercise appears to be potentially enhanced when administered as a multidimensional, comprehensive approach to patients’ well‐being.

The potential effect of physical activity in lung cancer is not fully understood, and no specific exercise guidelines for lung cancer patients are available. This article reviews the evidence supporting physical activity and exercise in lung cancer and suggests that this type of intervention, along with considerations for the nutritional and psychological aspects of such an intervention, might be the most effective strategy.

Anesthetic considerations for lung resection: preoperative assessment, intraoperative challenges and postoperative analgesia

This article is intended to provide a general overview of the anesthetic management for lung resection surgery including the preoperative evaluation of the patient, factors influencing the intraoperative anesthetic management and options for postoperative analgesia. Lung cancer is the leading cause of death among cancer patients in the United States. In patients undergoing lung resection, perioperative pulmonary complications are the major etiology of morbidity and mortality. Risk stratification of patients should be part of the preoperative assessment to predict their risk of short-term vs. long-term pulmonary complications. Improvements in surgical technique and equipment have made video assisted thoracoscopy and robotically assisted thoracoscopy the procedures of choice for thoracic surgeries. General anesthesia including lung isolation has become essential for optimizing visualization of the operative lung but may itself contribute to pulmonary complications. Protective lung ventilation strategies may not prevent acute lung injury from one-lung ventilation, but it may decrease the amount of overall lung injury by using small tidal volumes, positive end expiratory pressure, low peak and plateau airway pressures and low inspired oxygen fraction, as well as by keeping surgical time as short as possible. Because of the high incidence of chronic post-thoracotomy pain syndrome following thoracic surgery, which can impact a patient's normal daily activities for months to years after surgery, postoperative analgesia is a necessary part of the anesthetic plan. Multiple options such as thoracic epidural analgesia, intravenous narcotics and several nerve blocks can be considered in order to prevent or attenuate chronic pain syndromes. Enhanced recovery after thoracic surgery is a relatively new topic with many elements taken from the experience with colorectal surgery. The goal of enhanced recovery is to improve patient outcome by improving organ function and decreasing postoperative complications, and therefore decreasing length of hospital stay.

Preoperative functional workup for patients with advanced lung cancer

Locally advanced lung cancer remains a surgical indication in selected patients. This condition often demands larger resections. As a consequence preoperative functional workup is of paramount importance to stratify the risk and choose the most appropriate treatment. We reviewed the current evidence on functional evaluation with a special focus on specific aspects related to locally advanced lung cancer stages (i.e., risk after neoadjuvant treatment, pneumonectomy). Evidence is discussed to provide information that could assist clinicians in their preoperative workup of these challenging patients.

Timing of Surgery after Neoadjuvant Chemoradiation in Locally Advanced Non-Small Cell Lung Cancer

INTRODUCTION

A subset of patients with potentially resectable clinical stage IIIA NSCLC are managed with trimodality therapy. However, little data exist to guide the timing of surgery after neoadjuvant therapy. This study examined whether the time interval between neoadjuvant chemoradiation (NCRT) and surgical resection affects overall survival.

METHODS

Patients with clinical stage IIIA disease (T1-3 N2) NSCLC who underwent NCRT were identified in the National Cancer Data Base (NCDB) between 2004 and 2012 and categorized on the basis of the interval between chemoradiation and surgery (0 to ≤3, >3 to ≤6, >6 to ≤9, and >9 to ≤12 weeks). Other clinical stages were excluded. The Kaplan-Meier method and log-rank tests were used to compare overall survival rates, and a bootstrapped Cox proportional hazards model was used to determine significant contributors to overall survival.

RESULTS

Of the 1623 patients identified, 7.9% underwent an operation 0 to 3 weeks or less after NCRT, 50.5% underwent an operation greater than 3 and less than or equal to 6 weeks after NCRT, 31.9% underwent an operation greater than 6 and less than or equal to 9 weeks after NCRT, and 9.6% underwent an operation greater than 9 and less than or equal to 12 weeks after NCRT. Multivariate survival analysis demonstrated no significant difference in survival in those who underwent an operation within 6 weeks of NCRT. However, significant drops in overall survival were observed in those who had an operation greater than 6 and less than or equal to 9 weeks after NCRT (hazard ratio = 1.33, 95% confidence interval: 1.01-1.76, p = 0.043) and greater than 9 and less than or equal to 12 weeks after NCRT (hazard ratio = 1.44, 95% confidence interval: 1.04-2.01, p = 0.030).

CONCLUSIONS

The findings from this retrospective study suggest that overall survival may be significantly lower in patients with clinical stage IIIA N2 NSCLC who undergo an operation later than 6 weeks after NCRT. These results discourage unnecessary delays in surgery.

Impact and safety of adjuvant chemotherapy on pulmonary function in early stage non-small cell lung cancer

BACKGROUND

Pulmonary function may decline after induction chemotherapy and predict perioperative complications in non-small cell lung cancer (NSCLC). The influence of adjuvant chemotherapy is largely indeterminate.

OBJECTIVE

To assess whether adjuvant chemotherapy alters pulmonary function and impacts on treatment-related adverse events.

METHODS

In a trial on adjuvant chemotherapy (the TREAT trial), 132 patients with R0-resected NSCLC were randomised to 4 cycles of cisplatin-vinorelbine (CVb, n = 65) or cisplatin-pemetrexed (CPx, n = 67). Pulmonary function tests (forced expiratory volume in 1 s, FEV1, forced vital capacity, FVC, total lung capacity, TLC, diffusing capacity for carbon monoxide, DLCO, and blood gas analyses, BGA) were analysed before and 30 days after the last chemotherapy, and changes were calculated (Δ = mean differences).

RESULTS

Overall, FVC increased significantly (Δ +290 ml, n = 76; p < 0.0001), while TLC did not change (Δ +220 ml, n = 41; p = 0.174). For CPx, FEV1 increased significantly (Δ +150 ml, n = 47; p = 0.0017), but not for CVb (Δ +30 ml, n = 30). DLCO decreased only for CVb (-8%, n = 6) but not for CPx (-0.39%, n = 17; p = 0.58). BGA did not change (p = 0.99). In a Cox regression analysis, baseline pulmonary function did not influence treatment failure.

CONCLUSIONS

Adjuvant chemotherapy seems not to result in a decrease of pulmonary function parameters. A significant FVC increase was probably due to ongoing postoperative improvement. Decline of DLCO was noted with CVb but not with CPx. Pulmonary function does not impact on treatment failure.

Risk factors for impaired lung function after pulmonary metastasectomy: a prospective observational study of 117 cases

OBJECTIVES

The prediction of postoperative preserved pulmonary function is essential for ascertaining the functional operability of pulmonary metastasectomy candidates. Formulae to predict pulmonary function after metastasectomy have not yet been described. This study was undertaken to provide data about the functional loss after a pulmonary metastasectomy, which often includes non-anatomical resections or combinations with anatomical resections.

METHODS

Pulmonary function tests were performed preoperatively, postoperatively and 3 months after a pulmonary metastasectomy, and the factors potentially influencing the functional outcome were prospectively collected in a database. The functional loss was calculated as the difference in the values between the follow-up visit and the preoperative values, and the influencing factors were tested using the Mann-Whitney test.

RESULTS

A total of 162 patients were prospectively included in the study and 117 completed the study protocol with a follow-up evaluation after a mean of 3.4 months. Of these, 33 patients had bilateral resections, 30 interventions were repeated resections and adhesions were removed in 46. The greatest lung resection performed was a lobectomy in 13, with segmentectomy in 27 and wedge resection in 77 patients. The mean overall functional loss was: forced vital capacity -9.2%, total lung capacity -8.8%, forced expiratory volume in 1 s -10.8% and diffusion capacity for carbon monoxide (DLCO) -9.7%, whereas the diffusion coefficient (KCO) and pO(2) remained unchanged after 3 months. This functional loss was significant (P < 0.001) for all the parameters mentioned. The two factors were inversely found to influence the functional outcome: bilateral resection reduced spirometry values (P < 0.01), postoperative chemotherapy reduced DLCO (P = 0.011) and KCO (P = 0.029).

CONCLUSIONS

A pulmonary metastasectomy leads to a significant loss of pulmonary function after 3 months in an average patient collective. The most important factors for deteriorating lung function are a bilateral operation and postoperative chemotherapy.

Impact of lung function changes after induction radiochemotherapy on resected T4 non-small cell lung cancer outcome

BACKGROUND

Induction radiochemotherapy, followed by resection, for T4 non-small cell lung cancer, has shown promising long-term survival but may be associated with increased postoperative morbidity and death, depending on patient selection. Here, we determined the effect of induction radiochemotherapy on pulmonary function and whether postinduction pulmonary function changes predict hospital morbidity and death and long-term survival.

METHODS

A consecutive prospective cohort of 72 patients with T4 N0-2 M0 non-small cell lung cancer managed by radiochemotherapy, followed by resection, is reported. All patients underwent thoracoabdominal computed tomography or fusion positron emission tomography-computed tomography, brain imaging, mediastinoscopy, echocardiography, ventilation-perfusion scintigraphy, and pulmonary function testing before and after induction therapy. Resection was performed if the postoperative forced expiratory volume in 1 second and diffusion capacity of the lung for carbon monoxide exceeded 30% predicted and if the postoperative maximum oxygen consumption exceeded 10 mL/kg/min.

RESULTS

The postoperative 90-day mortality rate was 8% (lobectomy, 2%; pneumonectomy, 21%; p=0.01). All deaths after pneumonectomy occurred after right-sided procedures. The 3-year and 5-year survival was 50% (95% confidence interval, 36% to 62%) and 45% (95% confidence interval, 31% to 57%) and was significantly associated with completeness of resection (p=0.004) and resection type (pneumonectomy vs lobectomy, p=0.01). There was no correlation between postinduction pulmonary function changes and postoperative morbidity or death or long-term survival in patients managed by lobectomy or pneumonectomy.

CONCLUSIONS

In properly selected patients with T4 N0-2 M0 non-small cell lung cancer, resection after induction radiochemotherapy can be performed with a reasonable postoperative mortality rate and long-term survival, provided the resection is complete and a right-sided pneumonectomy is avoided. Postinduction pulmonary function changes did not correlate with postoperative morbidity or death or with long-term outcome.

Changes in lung function parameters after wedge resections: a prospective evaluation of patients undergoing metastasectomy

BACKGROUND

Pulmonary metastasectomy with lung-sparing local excisions is a widely accepted method of treating stage IV malignancies in selected cases. The ability to predict postoperative lung function is an unresolved issue, especially when multiple wedge resections are planned. To help develop a method to predict postoperative lung function after wedge resections, we present this prospective observational study.

METHODS

A total of 77 patients who underwent one or more wedge resections to remove lung metastases completed the study protocol. Spirometry results, diffusion capacity of lung for carbon monoxide (Dlco), and blood gases and potential confounding factors were measured prior to, immediately following, and 3 months after the procedure and were analyzed.

RESULTS

Seventy-seven patients with a median age of 61.3 years underwent up to 22 wedge resections. The mean lung function losses were FVC (-7.5%), total lung capacity (TLC) (-7.9%), FEV(1) (-9.2%), and Dlco (-8.8%), and all were statistically significant (P < .001). The lung function losses also differed significantly between those having a single and those with more than eight wedge resections. Using regression analysis, we found that for every additional wedge resection, there was a reduction in FVC of 30 mL (0.7%), in TLC of 44 mL (0.65%), and in FEV(1) of 23 mL (0.58%).

CONCLUSIONS

Metastasectomy by wedge resection significantly reduces lung function parameters. As a benchmark, we can predict a 0.6% decrease in spirometry values and Dlco for every additional wedge resection, and a decrease of approximately 5% that may be attributed to thoracotomy.

Re-appraisal of N2 disease by lymphatic drainage pattern for non-small-cell lung cancers: by terms of nodal stations, zones, chains, and a composite

PURPOSE

N2 non-small-cell lung cancer (NSCLC) is a heterogeneous disease with an extremely wide range of 5-year survival rates. A composite method of sub-classification for N2 is likely to provide a more accurate method to more finely differentiate prognosis of N2 disease.

METHODS

A total of 720 pN2 (T1-4N2M0) NSCLC cases were enrolled in our retrospective analysis of the proposed composite method. Survival rates were respectively calculated according to the N2 stratification methods: singly by "nodal stations", "nodal zones", or "nodal chains", or by combination of all three. Statistical analysis was carried out by Kaplan-Meier and Cox regression models.

RESULTS

A total of 10,199 lymph nodes (8059 mediastinal; 2140 hilar and intra-lobar) were removed. By nodal station, there were 173 cases of single-station involvement and 547 multi-stations. By nodal zone, there were 413 single-zone involvement and 307 with multiple zones. By nodal chain, there were 311 cases with single-chain and 409 multi-chain involvements. The overall 5-year survival was 20% and median survival time was 27.52 months. The 5-year survival was significantly better for cases of single-zone involvement, as compared to multi-zones (29% vs. 6%, p<0.0001). The 5-year survival rates of single- and multi-chains involvement were 36% and 8%, respectively (p<0.0001). When taking all of the above grouping methods into consideration, the N2 disease state could be further sub-classified into two subgroups with respective survival rates of 36% and 7% (p<0.0001). Subgroup I was composed of individuals with single-chain involvement and having either one or two station metastasis; individuals with any other metastasis combinations formed Subgroup II. Multivariate analysis revealed that the composite sub-classification method, number of positive lymph nodes, ratio of nodal metastasis, and pT information were the most important risk factors of 5-year survival.

CONCLUSIONS

By combining the three N2 stratification methods based on "stations", "zones", and "chains" into one composite method, prognosis prediction was more accurate for N2 NSCLC disease. Single nodal chain involvement, which may be either one or two nodal stations metastasis, is associated with best outcome for pN2 patients.

Pleuropulmonary Changes Induced by Drugs in Patients with Hematologic Diseases

Patients with hematologic diseases who are being treated with therapy drugs, or receive radiation therapy or blood transfusions may develop a host of potentially fatal infectious and noninfectious pulmonary complications [1]. The increased complexity of multimodality and high-dose treatment regimens with the intended benefit of augmented antineoplastic efficacy and prolonged disease-free survival, the use of a panel of novel drugs to treat malignant and nonmalignant hematologic conditions (e.g., azacytidine, bortezomib, cladribine, dasatinib, fludarabine, imatinib, lenalidomide, rituximab, and thalidomide), total body irradiation (TBI) and hematopietic stem cell transplantation (HSCT) have increased the incidence of severe sometimes life-threatening pulmonary complications.

Effect of induction chemotherapy on lung function and exercise capacity in patients affected by malignant pleural mesothelioma

OBJECTIVES

The effect of induction chemotherapy (IC) on lung function and exercise capacity in patients with malignant pleural mesothelioma (MPM) has not been largely examined. The aim of this study was to evaluate the changes in pulmonary function and oxygen consumption following IC in patients with MPM.

METHODS

Between 2004 and 2009, 36 consecutive patients (mean age 62.1 + or - 1.5 years, M/F = 25/11) were prospectively investigated. Data concerning medical history, histology, staging and response to chemotherapy were collected. All patients underwent pulmonary function test before (in the absence of pleural effusion) and after chemotherapy (platinum-based agent plus pemetrexed); 23 out of 36 patients also performed a cardiopulmonary incremental exercise test.

RESULTS

An epithelioid histotype was documented in 88.8% of patients. A partial response to chemotherapy was observed in 44.5% of cases and 36.1% of patients experienced grade 2-3 toxicity. A significant improvement in forced expiratory volume in 1s (FEV(1)) (0.13 + or - 0.30 l; P = 0.01), in VO(2) peak (1.76 + or - 2.91 ml kg(-1) min(-1); P = 0.005), in PaO(2) at rest (4.76 + or - 9.84 mmHg; P = 0.03) and in PaO(2) at peak exercise (6.26 + or - 12.72 mmHg; P = 0.04) was detected. The diffusion capacity of the lung for carbon monoxide (DLCO) also increased (1.25 + or - 4.68 ml min(-1) mmHg(-1)), although not significantly (P = 0.20). The stratified analysis based on the response to IC showed a significant improvement in FEV(1), forced vital capacity (FVC) and vital capacity (VC) (both absolute and percentage of predicted values) only in patients with a partial response.

CONCLUSIONS

An improvement in lung function and exercise capacity was seen after IC in patients with MPM. These data suggest that IC does not compromise cardiopulmonary performance in this subset of patients.